-------
                                    ISOKINETIC CALCULATION
SITE
TEST NO.

1. Voluae of dry gas sampled corrected to
standard conditions. Note: V *tst be
corrected for leakage 1f any leakage
rates etcted L4).
P *H 1
V_ • 17.65 i V. x T bar * TTT
std I T* J


I. Volume of water vapor at standard con-
ditions, ft .
V • 0.04707V.r •
"std 1C
1. Moisture content in stack gas.
B j • "std •
"std "std
Dry Molecular weight of stack gas,
1b/1b-eele.
Md - 0.440 (X C02) + 0.320 (S Oj)
* 0.280 (1 H2 * 1 CO) *

Molecular «elght of stack gas.
Stack velocity at stack conditions.
/ . 	 \ / T
V » H5 49 rn l»vn Jt\f\ I—, •
»$ BS.»» tp ^avg. fAfy/
Fs "s



Isokinetlc variation
*• T.
I I • "ltd • ' i 17.32
¥. » 0_ • t i P. E (!-•„«)
•> n § v*

V., ft3
•>'
Y
Pbar. In.Hg
AH, 1n.H20
T °R
'in* R
V , dscf
"std
Vle. 9
V... .ft3
*std
Bws
l"Bws
% C02
^02
J N2 4 % CO
Md, Ib/lb-mole
Ms, Ib/lb-mole
Pstatic» 1n'H2°
Pe. In.Hg
5 *
TS, °R
yiF
CP
V$. fps
Dn, In.
0, Bin.
I I
RUN 1
tit*
A*37
;W?
T-f
1°
M
?n.t
IMS'
.13-2
.$95
/2.1
r.r

7^.^
^.7
-/.J—
•09 7O
*^ «*»t- •<.
ff)6^(
/.3-s-
6),^
tf.l
,HZ^
f&
77'?
RUN 2
//i< J
.f^S^


^X
//r^
*?<"? <2^
^J /,. ^
/6.^
./^
-??y












,^V

»/« ,«
RUN 3
//?'5"
Loot


^13-
1/1,0
JYCi
/£,••>
.izr
.^73"












,Z^

n.
RUN 4
^p
AT^^


^

JJ°<]
/ M - £ f
.13.1
•57 (












o.tt*

to, ,
                             Figure 6-4.  Isokinetic calculations.

-------
the lab and acetone blanks were submitted for thermogravimetric

analysis in a manner similar to the actual samples.  Table 6-2

summarizes the results of blank filter and reagent analysis.

     Audit solutions prepared by EPA were used to check the

analytical procedures and reagents for SO- sampling analysis.

Table 6-3 presents the results of this analytical audit.  Table

6-4 summarizes the results of S02 reagent blank analyses.  The

audit test and blank analyses show that the analytical techniques

were good.

     Filter and deionized water blanks were analyzed to check the

reliability of the analytical methods used to determine nonwater-

soluble sulfate particulate.  Table 6-5 presents the results of

the blank reagent analyses.

     The sampling equipment, reagents, and analytical procedures

for this test series were in compliance with all necessary guide-

lines set forth for accurate test results as described in Volume

III of the Quality Assurance Handbook.*
 Quality Assurance Handbook for Air Pollution Measurement Sys-
 tems, Volume III, EPA-600/4-77-027b, August 1977.
                              6-14

-------
           TABLE 6-2.   THERMOGRAVIMETRIC REAGENT BLANK ANALYSIS
Sample type
Filter -
(Whatman
RA 934AH)
Acetone
Acetone
Acetone
I.D.
No.
CR341
CR373
CR374
CR375
Initial
volume, ml
NA
272
208
316
Net blank weight, mg
Ambient
0.2
3.7
2.7
2.8
160°C
-0.1
1.1
0.5
1.9
232°C
0.0
1.6
0.4
1.4
316°C
-0.1
0.8
-1.5
0.8
NA = Not applicable
                                    6-15

-------
                 TABLE 6-3.  AUDIT REPORT S02 ANALYSIS
Plant
t f/!
                                    PN Number
Date samples received  y^-^-^3   Date analyzed



Samples analyzed  by  /V//   JC//A/>V^	



Reviewed by	/
                                    Date of  Review
Sample
Number
5 cSS'/
'7f>f> 7
' /^ S'> y
j <-- **'
^2-/V
<: /C
-------
TABLE 6-4.   S02  REAGENT BLANK ANALYSES

Sample type
80% I PA



10% Hydrogen
peroxide


I.D.
No.
CR446
CR447
CR448
CR449
CR490
CR491
CR492
CR493
Net blank weight, mg
as S02
_
_
-
-
<1
<1
<1
<1
as H2S04
<0.1
<0.1
<0.1
<0.1
_
-
-
-
                  6-17
-------
            TABLE 6-5.  NONWATER-SCLUBLE SULFATE PARTICULATE
                         REAGENT BLANK ANALYSIS
Sample type
Filter
Acetone
Filter
Acetone
Filter
Acetone
Filter
I.D.
No.
CR394
' CR403
CR497
CR404
CR498
CR405
CR499
Net weight
of participate plus
ammonium sulfate, mg
1.6
1.7
(-0.2)
1.5
1.3
0.7
2.6
CSO a
iU4 »
mg/lTter
3.63
0.29 .
2.75
0.13
2.71
0.30
2.81
v
evap'
ml
235
403
235
250
235
360
235
NWSSP,
mg
0.4
1.5
(-1.1)
1.5
0.4
0.6
1.7
A 15-ml  aliquot was removed  from sample  for  ion  chromatography analysis.
                                   6-18
-------
                           SECTION 7

                          REFERENCES
1.   PEDCo Environmental, Inc.  Laboratory Evaluation Report -
    Analytical Method for Determining the Particulate Weight of
    EPA Method 5 Exclusive of Water-Soluble Particulate.  Method
    Development and Testing for FCCU Regenerators.  EPA Contract
    No. 68-02-3546, Work Assignment Wo. 14, October 1982.

2.   PEDCo Environmental, Inc.  Emission Test Report.  Method
    Development and Testing for FCCU Regenerators.  EPA Contract
    No. 68-02-3546, Work Assignment No. 14, December 1982.

3.   Mitchell,  VI. J. ,  and M. R. Midgett.  A Means to Evaluate the
    Performance of Stationary Source Test Methods.  Environ-
    mental Science and Technology, 10:85-88, 1976.

4.   Oldaker,  G. B.  Condensibile Particulate and Its Impacts on
    Particulate Measurements.  Draft Report, EPA Contract No.
    68-01-4148, Task No. 69.  May 1980.

5.   Peters,  E. T., and J. W. Adams.  Sulfur Dioxide Interaction
    With Filters Used for Method 5 Stack Sampling.  In:  Work-
    shop Proceedings on Primary Sulfate Emissions From Combus-
    tion Sources, Volume I - Measurement Technology.  EPA-600/9-
    78-020a,  1978.  p. 199-202.

6.   Gushing,  K. W.  Particulate Sampling in Process Streams in
    the Presence of Sulfur Dioxide.  In:  Workshop Proceedings
    on Primary Sulfate Emissions From Combustion Sources, Volume
    I - Measurement Technology.  EPA-600/9-78-020a, 1978.  pp.
    202-227.
                              7-1
-------
                APPENDIX A




COMPUTER PRINTOUTS AND EXAMPLE CALCULATIONS
                   A-l
-------
                                                        FIELD  DATA






PLANT
SAMPLING LOCATION
SAMPLE TYPE
OPERATOR
AMBIENT TEMP.(OEG.
BAR. PRESS. (IN. HG)
MONO POWER-PLEASANTS
UN I I 1
MSB
00
n 50.
28.94





STATIC PRESS. (IN. H20) -1.50





FILTER NUMBER(S)
STACK INSIDE ()IM.(
PITOT TUBE COEFF.
THERM. NO.
LEAKAGE
OOQ2756
IN) 240.00 .00
.84

.006 CFM a 6.0 IN


DATE
RUN NUMBER
PROBE LENGTH & TYPE
NOZZLE 1-08 : I.D.
ASSUMED MOISTURE
SAMPLE BOX NUMBER
METER BOX NUMBER
METER HFAD OIFF.










PROBE HEATER SETTING

.HG
HEATER BOX SETTING



1 1/29/82
1AM5B
6' RLASS
.115
12.0

FB4
1.87

320.
320.

METER CALIB. FACTOR 1.037

READ ft RECORD DATA
TRAVERSE SAMPLE CLOCK
POINT
NO.


INIT












TIME TIME
(MIN.) (24-HR
CLOCK)

0 1130
10.0 0
20.0 0
30.0 0
40.0 0
SO.O 0
60.0 0
70.0 0
ao.o o
90.0 0
100.0 o
110.0 0
120.0 mo
EVERY 10.0 MINUTES

GAS METER VELOCITY ORIFICE PRESSURE STACK
READING HEAD DIFFERENTIAL TEMP
(CU.FT.) (IN.H20)

(IN.H20) (DEG.F)

DESIRED ACTUAL
256.564
262.800 .500
268.940 .500
275.120 .500
281.130 .400
287.410 .500
293.470 .400
299.680 .500
305.890 .500
312.220 .600
318.370 .500
324.600 .500
330.965 .600

.37 .37 145.
.38 .38 145.
.38 .38 147.
.29 .29 147.
.39 .39 147.
.30 .30 146.
.39 .39 146.
.39 .39 148.
.49 .49 146.
.40 .40 148.
.40 .40 146.
.49 .49 146.

DRY GAS METER PUMP
TEMP VACUUM
(DEG.F) (IN.HG)

INLET OUTLET

50. 50. 5.0
55. 50. 5.0
58. 51. 5.0
60. 53. 4.7
63. 54. 4.8
64. 55. 4.7
65. 56. 4.9
66. 56. 4.9
67. 57. 5.1
67. 57. 5.0
67. 57. 5.1
67. 58. 5.3


SAMPLE IMPINGER
BOX TEMP TEMP
(OEG.



327
324
313
319
327
334
334
323
313
316
313
327
F) (UEG.F)



06.
43.
43.
51.
72.
69.
68.
72.
62.
61.
61.
62.
TOTALS
AVERAGE
120.0
74.401
                                                    1.39
                                                 1.39
                                                                    146.
                                              62.
                                                                         55.
                                                                                             5.0   323.
59.
-------
           PARTICIPATE FIELO DATA ft RESULTS TABULATION



PLANT- NAME AND ADDRESS               TEST TEAM LEADER




MONO POMER-PLEASANTS                  UO
TEST  1AM5B
UNIT 1


TEST DATE
TB
TF
TT
NP
r
ON
CP
> PM
1
to
VM
TM
VMSTD
VLC
vwc
BWO
FMO
PC 02
P02
PCO
PN2
MD
MWS
TIME-START
TIME-FINISH
NET TIME OF TEST. MIN.
NET SAMPLING POINTS
METER CALIBRATION FACTOR
SAMPLING NOZZLE DIAMETER
PITOT TUBE COEFFICIENT
AVERAGE ORIFICE PRESSURE
DROP
VOLUME OF DRY GAS SAMPLED
AT METER CONDITIONS
AVERAGE GAS METER TEMP
VOLUME OF DRY GAS SAMPLED
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN
IMPINGERS AND SILICA GEL, ML.
VOLUME OF WATER VAPOR
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VOLUME
MOLE FRACTION DRY GAS
PERCENT CO? 8V VOL., DRY
PERCENT 02 BY VOL., DBY
PERCENT CO BY VOL., DRY
PERCENT N2 BY VOL., DRY
MOLECULAR wT-HRY STACK GAS
MOLECULAR WT-STACK GAS
ENGL
1
1130
1330
120
12
1


1
74
58
76
226
10
12

12
6

SI
30
28
ISH UNITS
1/29/82
.0

.037
.185 IN
.8a
.39 IN-H20
.40! CU-FT
.5 F
.266 SCF
.3
.652 SCF
.25
.877
.10
.90
.00
.00
.21
.72
METRIC UNITS
1
1130
1330
120
12
1
4

35
2
14
2
226

12

12
6

81
30
28
1/29/B2
.0

.037
.7
.84
.3
.107
.7
.160
.3
.302
.25
.877
.10
.90
.00
.00
.21
.72



MM

MM-H20
CU-M
C
SCM

SCM








-------
PB        BAROMETRIC PRESSURE

PSI       STATIC PRFS OF STACK GAS

PS        STACK PRES, ABS.

TS        AVERAGE STACK TEMP

V3        AVC STACK GAS VELOCITY

AS        STACK AREA

QSSTO     STACK FLOW RATE* DRV*

OS        ACTUAL STACK FLOW RATE

ISO       PERCENT ISOKINETIC

MN        FILTERABLE PART
            MG. EPA 5

CS        FILTERABLE PART

PHR       FILTERABLE PART
            EMISSION RATE

MN        SULFUR DIOXIDE
            M6. EPA 5

CS        SULFUR DIOXIDE

PMR       SULFUR DIOXIDE
            EMISSION RATE

MN        SULFURIC ACID
            MG. EPA 5

CS        SULFURIC ACID

PMR       SULFURIC ACID
            EMISSION RATE
      75.5

   15239.

68658728.

85H7a40.

     102.4

      ?5.9
 28.94  IN-HG

 -1.50  JN-H20

 2B.83  IN-HG

lib.     F

        FPS

       SO-IN

        SCFH

        ACFH
        .0052 GR/DSCF*

      46.910 LB/HR


    1910.0
    735.08  MM-HG

    -38.10  MM-H20

    M2.27  MM-HG

     64.    C

     22.9   MPS

     29.186 SQ-M

1774307.    SCMH

2410271.    ACMH

    102.4

     25.9


     11.994 MG/DSCM

     21.28 KG/HR


   1910.0
        .3864 GR/DSCF*    884.474 MG/OSCM

    3459.384 LB/HR       1569.18 KG/HR
      18.3


        .0037 GR/DSCF*

      33.145 LB/HR
                      18.3


                       8.474 MG/nSCM

                      15.03 KG/HR
   *  68 OEG F,  29.92 IN.HG.
-------
      EXAMPLE PARTICULATF CALCULATIONS TFST NO. IAMSB

           UNIT i



VOLUME OF DRV GAS SAMPLED AT STANDARD CONDITIONS

VM9TO * (17.647 * VM * Y •  (PB + PM / 13.61) /  (TM t 460.)

          17.647 *    74.401 * 1.037 * ( 28.94  * 1.389 /  13.6)
WMSTO =	1 —	.....	...  z      76.268 DSCF
                         (  58. » 160.)



VOLUME OF MATER VAPOR AT STANDARD CONDITIONS

VWC * .04707 * VLC

VWC = .04707 *  226. =  10.65 SCF




PERCENT MOISTURE IN STACK GAS

8MO = (100. * VWC) / (VMSTD «• VWC)

          100. *  10.65
BWO = 	 = 12.25 PERCENT
            76.26A »  10.65



MOLE FRACTION OF DRY STACK  GAS

FMO = (100. - BNO) / 100.

          100. -  12.3
FMO x ----.- — --------..-.--. z   .877
               100.



AVERAGE MOLECULAR WEIGHT OF DRY STACK GAS

MD a (PC02 * .44) + (P02 *  .32) + (PN2 + PCO)  * .28

MD = (12.10*44/100) « ( 6.9*32/100) *  ((81.0+  .0)  *  28/100  =    30.21




MOLECULAR WEIGHT OF 9TACK GAS

MwS = MO * (1. -  OftD/lOO)) + 18. * (HMO/100)

MwS =  30.21*  (1. -(12.?'i/100)) + 18.  *  (12.25/100)  =    2H.7?
-------
STACK GAS VELOCITY AT STACK CONDITIONS

DELP * SUM. OF THE SOWTCVH *  (TS  +  460.))

VS = 85.49 • CP * OELP /  (SORT(MWS  *  PS)  * PNTS)

VS = 85.49 *  .84 »  361.852  /  (SORT( 28.72  • 28.83)   *   12.  =    75.2b  FPS



STACK GAS VOLUMETRIC FLOW AT  STACK  CONDITIONS

OS = VS * AS * 3600/144

OS =   75.26 * 45239. 3600/144  =    85117440. ACFH



STACK GAS VOLUMETRIC FLOW AT  STANDARD CONDITIONS

OSSTO « 17.647 • OS * PS  • (1.  -  (BwO/100))  / (TS + 4bO.)

          17.647 *   85117440.  *  26.63 *  (1. - (12.25/100))
OSSTD s — —	.	 =    62658788.  SCFH
                   ( 14b. « 460.)



PERCENT ISOKINETIC

ISO « (305.58•(TS+ObO.))•((0.002669*VLC)*(VM*V*(PB+(PM/13.6))/(TM»460.)))/(TT*VS*PS«ON*DN)

       (305.58M |4b.*460.))*( (0.002bb9*   226.)t(   74.40 I * 1.037*(  28.9«+(   1.389/13 .6 ) ) / (  58.*460.)))
ISO = —	 = 102.43 PERCENT
                                    120. *     75.26 *    28.S3  *   .185  *   .185



PARTICULATE LOADING — EPA METHOD 5  (AT STANDARD CONDITIONS)

CS a 0.001 » MN * 15.43 / VMSTD

CS = 0.001 *     25.9 * 15.43 /     76.2b8  =       .0052  GR/DSCF



PARTICULATE LBS/HR — EPA METHOD  5

PMR = CS * OSSTD / (15.43 * 453.6)

PMR a       .005? *   6?65«728. / (15.43  • 453.6) =    46.910
-------
                                                               UA1A













PLAHT
SAMPLING LOCATION
SAMPLE TYPE
OPEKATUH
AMBIENT TtMP.CDE6.FJ
BAR.PHEbS.(lN.H6)
STATIC PRESS. UN. H20)
F1LTEH NUMBtlUS)
STACK I Mb lOt DlM.CIiO
P1TUT Tout COtFF.
THEHM. NO.
LEAKAGE
MtTtH CAL1B. FACTUR
MUISU PUKtK-PLEAbAMS
UNIT 1
M5b
00
50.
2B.94
-1.50
0002755
240.00 .00

DATE
NUN NUMBER




PHUBE LENGTH ft TYPE

IVU22LE 1-1
l : l.D.

ASSUMED MOISTURE




SAMPLE BOX
METER BOX
METER HEAO

NUMBER
NUMBER
OIFF.





.04 PHOBE HEATER SETTING

.000 CFM • 5.0 IN
.990

.HG

HEATEH BOX


SETTING





1 1/29/82
1BM58
5* GLASS
.166
12.0

FB8
1.90

320.
320.


READ ft HECOKD DATA EVtRY 10.0 MINUTES
TKAVEKSt SAMPLt CLOCK GAb MtTtH VELOCITY UH1F1CE PHtSbUNE bTACK
POINT
NO.

IN1T












TIME (IME
(MlN.J C24-HH
CLOCK j
0 1131
10.0 0
20.0 o
30.0 0
40.0 0
50.0 0
bO.O 0
70.0 0
60.0 o
90 .0 o
loo.o o
110.0 0
120.0 1331
HEAOlNu HEAD DIFFERENTIAL TEMP
CCu. FT.) CIN.H2U)
(1N.H20J (DEG.F)
OESIrttU ACTUAL
9b9 45b
975^40 .500
961,890 .500
907.930 .500
993. 9bO .400
.300 .500
b.4<;0 .400
12.750 .500
19.120 .500
25.bbO .bOO
31.950 .500
38.300 .500
44.810 .bOO

.37 .37 145.
.37 .37 145.
.30 .36 147.
.29 .29 147.
.39 .39 147.
.30 .30 14b.
.39 .39 14b.
.39 .39 148.
.49 .49 14b.
.40 .40 148.
.40 .40 1Mb.
.49 .49 14b.
DNY GAS METER
TEMP
(OEG.F)
IftLET OUTLET

47. 4b.
50. 46.
54. 47.
57. 48.
59. 49.
bl. 50.
t>2. 51.
b2. 52.
b3. 52.
b3. 53.
b4. 54,
b4. 54.
PUMP
VACUUM
(IN.H6)


3.0
2.9
3.4
3.8
4.2
4.2
4.3
4.4
4.7
4.7
4,7
4.0
SAMPLE IMPINGES
BOX TEMP TEMP
(OEG.


318
316
311
316
319
317
316
313
313
313
310
312
F) (DEG.FJ


. 47.
• 44 9
. 44.
50.
63.
. 66.
. 69.
v 71 »
66.
66.
63,
57.
TOTALS
AVEHAGE
UO.o
75,354
                                        1.39
                              1.39
146.
59.
50.
4.1
                                                                                       315.
                                                                                59.
-------
           PARTICIPATE  FIELD  DATA  4 HESULT;. TABULATION

PLANT- NAME AND ADDRESS                1EST TEAK LEADER

MONO POrttR-PLtASANTS                   UU
TEST  IBMib
                UNIT  1

TEST DATL
TB
TF
TT
NP
r
UN
CP
1 PM
CO
V.
(M
VMSTU
ENGLISH UNITS
1 1/29/B2
TIME-START 1131
TIME-FINISH 1331
NET TIME OF TEST, MIN. 1<»0.0
NET SAMPLING POINTS It!
METER CALIBRATION FACTOR .99(1
SAMPLING NUZ/Lt DIAMtTER .lt)b IN
PITOT TUbE COEFFICIENT .Bl
AVERAGE ORIFICE PHESSOHE 1.39 IN-HdU
DROP
VOLUME OF URY UAb SAMPLED 75.35« CU-FT
AT METER CONDITIONS
AVERAGE bA5 METER TEMP bO.b f
VOLUME OF DRY GAS SAMPLED 7«4.91
-------
PB

PSI

PS

TS

VS

A3

OSSTO

US

ISO

MN


CS

PHH


MN


cs

PNH


Ml*


CS

PMH
       bAHOMtlHlC PKEibUKt

       STATIC PHES uF S1ACK  GAS

       STACK PHtS, AH5.

       AVERAGE STACK  TEMP

       AVG STACK GAS  VELOCITY

       STACK ARtA

       STACK FLO* HATt, DKY«

       ACTUAL STACK FLU* KAIE

       PEKCENT
       FILTEHABLE PAHI
         MG. tPA b

       FlLTtRABLE PART
                  PART
         EMISSION HATE

       SULFUR D10XIUE
         MG. EPA i

       SULFUR DIOXIDE

       SULFUR DIOXlUt
         LMI3SIUN HATE

       SULFUKIC ACIU
         MG. EPA b

       SUUFUH1C ACIU

       SULFuRIC ACIU
         EMISSION RMt
 26.83

14b.
  79.7
       IN-HdO

       IN-Hb

       t

       FPS

       U-IK

       bCFH

       ACFM
                       -iO.10   K

                          .27   KM-HG

                         l.     C
                        29.1ttb  Su-M
                        .     ACPh
                      79.7
                      6<4.<4b  KG/HH
          GK/OSCF*

       12 LB/HH


2020.0


    .4161 GK/OSCF*     952.349  KG/OSCC

3b01.t)39 LB/HH        1633.79 KG/HH
49.5
                        49.5
  .0102 GH/OSCF*      23.337  fb/DSO

Oa.2fa3 LB/HK          40.04  KG/hK
*  btt OtG F,  29.92  IN.HG.
-------
              fcXAMHLt  PARIICULAlfc C ALLUL A T 1 UNS  Hbl  MJ.

                    OMT  I
        VULUMt UF OHY  GAS  SAMHLtl) Al blANiUAKU

        VM3TU = (17.647  *  VH * V * (Htt + PM  /  13.6))  /  ITH » 460.)
                   17.647  «     75,354 «  ,99B  *  I  2fl.94  +  1.3fltt / 13.6)
        VHSTD « - ------- - --- - ------- - -------------------------------- =      /«*.«M«J USCF
                                  I  5b. + 160.)
        VOLUME OF NATtR  VAPUR AT STANUAHO

        VftC > .U4707  *  VLC

        VnC • .04707  *   3S9.  =  14. ob SCF
        PERCENT HUISTURE  IN  STALK GAS

^       BftO « (100.  *  VwCj  / 1VHSTO » Vr»CJ

H                  100.  *   14.05
0       BnO * - ------------------------- =  15.7V PtkCtNT
                     74.91i?  +  14.05
        MOLE FRACTION  OF  DRY  STACK GAS

        FMU * (100. -  BrtU)  /  100.

                  100.  >   15.0
        F*D s ------ -
                        100.
        AVERAGE HULtCULAR  rttlbHl  OF DKY S1ALK GAS

        MU = (PtO<; *  .44)  *  (PUt:  » .3t!) »  (PNd * PCO)  *  .iJ8

        Ml) = U
-------
STACK GAS VtLUCHY  AT  blALK CUNulllUNb

DELP = bUM. OF  THt  bOrtUVH * lib * 4bU.J)

Vb = »5. / (SUKH att.itt * 26.03)   *   \«  a99.)*(   75.3b4«  ,998*( a8.94+(    1 . i«tt/ J 3 .6) ) / {  5
ISO s ----------------------------------------------------------------- . ------------------------ . ---- ..  B  102. S<» PERCENT
                                    120. *     7S.83 »    20.113 *  .l«b *  .IBb



PAHTICULAIE LOADING  --  tPA  METHOD 5 (AT STAM)AKU CONDITIONS)

Cb = U.U01 • MN  *  lb,4i /  VHSTO

Cb = U.001 »      79.7  » lb.43 /    74. 912 =        .Olbl  GH/uSCF



PAHTICULATE LUS/Hh --  tHA  MtTHOU b

PMH = Cb • UbbTu  /  tlb.43  *  4bl.b)

PMH =       .Olb4  •    bUbo93«!tt. / (15. 4i « 453. b)  =    14
-------
                                                           MtLU   DATA
HLAhl
iAMHLlNb
                  LUCAIION
                           0« 1 1
                                HOxtK
                                1
bAMPLt  ItPt
UHtrfAIUH
AMbltNl  ItMP.IDt&.F)
UAK.PKtbb.llit.HU)
blAllC  PKtSS.(1N.HJO)
FlLftH  ftUMbtMS)
blACK INblUt  DIM.(IN)
f 1 IUI lUUt CUtFF .
iHtNM.  NU.
LtAKAbt
MtltK LALio.  FACIOh
KtAU ft  HtCUHU  UAlA
                                   Mbbrt
                                   CLAKlvt
                                   -I .50

                                    d40.00
                                               .00
                            .004  OM oi  6.0 IN.Mb
                           1 .006
                           lo.u MlNUlhb
UAlt
KUN NUMHtK

PKObt  LtublM 6  ITHt
NU//Lt  i-ido; i.u.
ASbUMtL)  MOlSIUKt
bAMHLt  bUX NUMOtK
MtlEH  bUX  HUMtttK
Mt ItK  HtAO 01FF  .
HMubt MtAItK btl
ntATtM bUX  bt I I lr,G

r FACIUK
ILHbdn

5* bLASb
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ia.o

F83
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                                                                                                                1.1
(KAVtrtbfc
HUlNl
NU.

INI 1












iAMHLt
llMt
(MlN.)

0
10.0
2o.o
3o.o
40.0
bo.u
bO.O
70.0
00.0
so.o
100. U
1 lo.o
Ido.u
CLUCK GAS MtltH VtLULlID UKUlLt KhtbbUKt
llrtt KtAUlNb HtAO UlFFbKtNllAL
(d«-hH (CU.FI.j (iN.hdUJ HN.MdO)
UtblHLU ALTUAL
1140 ddo. ubb
1140 d3c!. 100
llbo d44.007
IdOU d<4t>.100
IdlO db0.44b
l^dO <^b6«^db
1 d 30 dbd.400
IdMO d69.0 1 b
l«!bO c!7b.744
1300 dtto.144
1310 d«7 . 71 o
13do 
-------
              KAKllCULAIt MtLII  UAlA  & KtbOLIb  lABULAllUH

PLAM-  NAMt Af.O  AUUKtbb                   ItSl  ItAM LtAL/hn

MONO t'OWEK  PLtAbANIb                      LLAMR.L
TtSJ  ICMbbM
                    UM1  1

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TlMt-MUlbM liiO
NtT IlMt 01- Ttbl, Mlu. IdU.U
NtT bAMHLINb HUiNlb 1^
MtltH CALldKATIUN FALIUK l.UUb
SAMPLlNb NU/ZLt OIAMtltM .Ittb IN
Pllul lUHfc CUtKHlLltiVI .OM
AVtKAbt UKUlCt PHLbbUKt I.4O lN>Htt! BY VUI., I/KY

            MULtCuLAK  Al-ljHY  iilACiV  L./\b

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£ N . M I
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HI .UU

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t?0.dl
-------
PB

PS1

pa

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150

MN


CS

HMW


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PMH


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PhN
bAHUKtlKlC PHES50HE

blAllC  fHtb Uh  blACK  bAb

S1ACK HKtb, Abb.

AVtKAbt  SIALK  rtMH

AVG blALK bAS  VELOCITY

blACK AKtA

blALft hLOn HAlh,  tl«T«

ALtUAL  SIACK l-LOw WATt

PtKCtM
  Mb.  tHA

KMSSP
            KAft
SUl>UH  UlUXlOt
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SULI-UK  UlUXlUE
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SULI-UKIC  AC1U
  Mb. tPA b

SULI-UKlt  AtlU
                                     dti.bl   Kx-MG

                                    mo.     e
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                                       ,0(Jd<4  bk/UbCK

                                       .lSB Lb/HK
                                       1970.0
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                                                                -id.lo   MM-ri(!0

                                                                lid.dl   MM-hb

                                                                         L

                                                                         MPb

                                                                         bU-M

                                                                         bLMh

                                                                         ALMM

                                                                 <*4.S

                                                                 1 1 .
-------
             EXAMPLE  PANliCULATK  IALCULA UONt)  lEbl HU .

                  UK II  1
      VOLUhE  UF L/KT  bAb  bAMPLEU  Al  SIAnlJAKu UINU 1 I 1 <
-------
    STACK bAS  VtLULllY Al  blACK  LIII4U 1 1

    UELP = SUh. Ul-  THt bJkllVH  *  lib  +  I4b(l.)l

    WS  = Bi.41* * CP  • UtLP  / (bUHUMrti  * PS)  *  Pulb)

    VS  s Bb.i9 *   .tit *   3bl
    STACK bA5  VULUMtlhIC  ^LO»• AT  STACK

    US  = VS  *  A!> •  3bUU/l(4<4
    5IACK bAS  VULUMtlKlC  FLUA AT  blAUUAKU

           =  It. bit  *  US  *  PS *  (1. -  (0NU/10U)) /  CIS > .l>4  *    do.ai  *   .100 *   .too
    PAKliCULATt LOAOlNb  — tPA  MtTHOO  b (Al  blAUUAKU

    CS = U.UUI *  MN *  lb.4i /  VMSTU

    LS = O.OU1 •      II. c?  * lb.41 /     7



    PAhflCULAIt Lbt)/MH —  tHA  Mt I HOU  b
     PMh =         .UUt!^  *    t>31 l£J3*d.  /  lib. 43 * 4*)3.«>J =
-------
                                                            ^ItLU  UAl A
         PLAN!
                  LUCAI 1UN
                           I-1UNU t't
                           UN 1 I 1
                                               PLtAbANlS
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                                    -I .bO
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UPtHAI UK
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bAK.PHtSb.UM.hG)
blAUC PKtbb. ( 1N.H2UJI
ULltW NUMbtH(b)
SUCK INblUt DIM.(IN)
P 1 Mi I I Uot  CUbFf- .
IritKM. NU.
LbAKA&t
MtltK CALlb. FACIOK
KbAO  & KtLOKU UAl A tVLHY 10.0 MlnUltb
                                         id     .00

                                    201
                                     .000 Cf-M ol   0.0 IN.Mb
UA Ib
NUN IMUMbtK

PkUdt  LbNGlH *  (»Pb
MUJLt  1092 : l.U.
AbbUMtU  MUlMUKt
SAMPLt  bUX NUMbbK
MtltK  bUX  NUMritH
Mt ItK  HbAU Ult-> .

PKUbb  HtAttK b'LIIlKG
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b' bLAbb
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520.
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NU. (Hii^.J

1^11 0
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20.0
30.0
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bO.O
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70.0
80. O
90.0
100.0
110.0
120.0
CLULK
1 1Mb
f | 1 )p K |
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1 150
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1200
1210
1220
1250
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1300
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bAb MblbK VbLUUlIt UKlMLb PHbibUKb
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346.
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-------
                 PAKliLULAlt HltLU UAlA &  NtbULlb JAbuLAllUN

    PLANI- NAME Al»0 AUUKtbb                  Itbl  ILAM  LLAL/tK

    MONO PUrttH PLtASAMb                      LLAKKt
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VULUMt uF  L)KY bAS bAMPLtO
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            tXAMKLt  HAHllLULAtt  C ALCUL A I 1 Ut.b  Itbl

                  UNI I  1



     VOLUMt Ul-  UKT  bAb bAMPLtU  Al  SIAiMUAKU CUHUlliUinb

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                                      — ..............................
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-------
       IjAS  VtLuLlfU  Al blAC* LUNUlllUl.b

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              PAHIlLULAIt  FltLO UAlA 6 RESULTS FAbULATlUN

   PLANT- NAML ANO  ADDRESS               rtsT  TEAK LEADER

   MONO PUKtH-PLEASANTS                   Ul)
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SAMPLING NUZ/LE DIAMEUR

PITOT TUBE COEFFICIENT

AVERAGE ORIFICE PRESSURE
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             PEKCtNJ  CO BY  VUL.,  DRY

             PtKCLNI  N«» HY  vUL..  URT

             MOLECULAR  rtT-IJHY  S1ALK  (iAS

             MULtLtJLAK  rtl-STAL^
                                             ENGLISH UNlIb
                                                1.037
  1.C1  1N-H.JO


 7o.b<)ij CU-FT


 59.<4   F

 7
-------
PB        0ARUMETRK  PKESSUHt

pai       STATIC PKES  UF  STACK  GAS

PS        STACK PRtS,  AB5.

TS        AtftMAbt STACK  TEMP

VS        AVG STACK bAS  VELOCITY

A3        STACK AREA

USSTU     STACK FLOW  KATt,  DRY*

US        ACTUAL STACK FLUrt RAIE

I3U       PERCENT iSUMNtTIC

UK        FILTERABLE  PART
            MG. EPA b

CS        FILTERABLE  PART

PCK       FILTERABLE  P*RT
            EMiSSlUM  NATt

HN        SULFUR OIOXIuE
            MG. EPA b

CS        SULFUR DIOAluE

Pfh       SULFUR OlUXluE
            EM1SSIUN  RATt

MN        SULFURK ACIU
            MG. EPA t>

CS        SULFURK ACIU

PCR       SULFuRlC ACIU
            EM1SSIUN  RATE
 -l.bl)  It

 iftt.ab  1N-HC



 74.1   FPS

       SU-IN

        SCFM

        ACFH

100.b
                                              GR/USCF*

                                      Sb.SUU  LB/HH


                                    167U.O
                                                          -3U.10  K

                                                          /13.0«  KK-HG

                                                           btt.    C

                                                           ^^.6   KPS

                                                                  SU-M
                                                                  ACHH
                                                          100.5
                            KG/hR
                    1070.0
                                        .3975 GR/USCF*    909.B30 KG/DSC*

                                    3bb7.00V  LB/HR       lbltt.00 KG/hR
                                      33.9
                      33.9
                                        ,007«!  GR/USCF*     16.494

                                      64.664 LB/HR         c!9.33 KG/HR
6t> Otb F,
                  IN.HG.
-------
            tXAMPtfc PAHIlCULAIfc  C ALLUL A1 I UNb ItbT NU.t!AM5bP

                 UNIT  1



      VULUMt OF UkY bAS  SAMPLtl)  Al  bTANUAHU CUNUI1IUN5

      VHSIO = (17.647  *  VM  *  Y  * (Pb t pM / 13.6)) /  UM  +  4bO.)

                17.647  *     70.892  * 1.037 * I 28.97  *  1.230  /  13.6)
      VHSIO =	"	=     72.590  03CF
                                I  b9. + 4bO.)



      VULUMt UF NATtR  VAPUH Al  STANUAHU CUNUIlIUNb

      VrtC = .U47U7 * VLL

      VAC = .04707 *   166.  =    7.BO SCF



      PtRCtNT MOlbTuRt  IN  STACK  bAS

      BMO = (100. * VMCJ /  (VMSTD + VnCJ

^               100. *   7.ttO
I     6»«0 =	 =   9.70 PtKCtNT
N>                 72.b90 »    7.«0
CT.


      MQLt FRACTIUN OF  UHY  bTACK bAb

      FHD = (100. - BrtU) /  100.

                100. -   9.7
      FMD = - — — — - — — - — — =   ,S03
                     100.



      AVtKAbt MuLtCuLAH  MtlbHl  UF UKY SIACK GAS

      MU = (PCOi * .44)  +  (H()<;  * .3^) + (PN«: » PCU) *  ,«;8

      MU = (11.75*44/100)  » ( b.b*3d/100)  + (IHl.b* .0)  * 20/100  =   30.15



      MULtCULAR WblGHI  UF  SIACK  GAS

      WrtS = Ho * (I. -  iMnU/lUU)) » to. *  (HAU/lOU)

        S =  40.Jb* (1.  -t  4.70/lyuj) + 10. *  ( S.70/100) =    20.47
-------
STACK GAS  VtLuClTY  AT SlACK

OtLH = !>UM. UF  IMt  5QKTIVH • ITb * <4bU.J)

VS = B5.49  • CP  *  DtLP / lbuHT(M*»b * HSJ  »  PMS)

VS = 85.49  •   .at  «   157.999 /  CSukTf  2JJ.97  *  2tt.ab)   *
                                                                         74.1u FP3
      STACK  GAS VUtUMtTHIC FtO"  AT  STACK  CONDITIONS

      05  =  VS  • »b • JbUO/lM^

      OS  =    74. 1U * 45c!iS.  jbUU/144  -   dJtJOU^Ufl. ACFH
SlACK GAS VULUHtTHIC  FLUM AT bTANUAHl) CUNUITIUNb

USSTO = I7.b47  •  US  * PS * (1. • (8*0/100))  /  (IS  t  4bO.)

          17.647  *    OJHOU2UB. *  io.8b *(!.-(  9.7U/10U))
                                          - --- • — ---- - -----
                         . * 4bO.)
OSSTD
                                                                        bi?a07520.))*UO.UU«!bt><**VLC)»(V>'«r«(Pb*(PM/l3.b) )/CTM»4bO.) J)/ t f I * VS*HS*I>N*OM

                                            lbb.)*(    70.a<»«>*l .037* ( 28,'J7+(    1 .236/1 3.b) ) /
                                                   --------------- ....... ------- .....
                                          *      74.10  *    26.86 *   .162  *   .1K2
      ISO  s
                                                                                                                  «  100. 
-------


1 l/£9/8<
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3 — 1 O
CJ <%J U
^
JJ -s
U UJ •
X — M
« >- X
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« O Z
Z X



«S5SSS5S555.5 ^


-»»ii».3rui»i»ininoi»-f^ -\i

^SSSSSSSS'JiJIS S
So3l333°.S:; = 2? 5

inoB.:> 	 rxj3,n-3Tj =r
:
•
oooooooooooo
I *\ n
— O333OOOOO33U1 9
a - UJ
Z -1 «
-• « Z
A-27
-------
           PAHTICOLATE  FIELD UATA &

PLANT- NAMt ANu  ADoRESb

MONO


FEbT
                                            b  UBOLATION

                                        TtbT TtAM LEADER

                                        uu
                 UNIT  I

TEbT OATt
TB
IF
TT
NP
r
UN
CP
to
00 VC
TK
V^bTU
VLC
ENGLlbH ON1TS
1 1/2V/B2
TIME-START Ib2b
TlME-FlNlbH 1726
NET TIME OF lEbT, MIN. 120.7
NET SAMPLING PolMb 12
METER CALIBRATION FACTOR .99B
SAMPLING N021LE UlAMEtER .177 IN
PHUT TOBE COEFFICIENT .64
AVERAGE ORIFICE PRESbOKE 1.21 1M-H20
OROP
VOLUME OF DRY bAb bAMPLEU 71.924 CU-F (
AT METER CONOITIONb
AVERAGt bAb METEK TEMP 57.7 f
VOLUME OF URY b*S bA^4PLEO Tl.lOb aCF
AT blANOAHU LONOlTlONb*
TOTAL M20 COLLtCTEU IN 200.1
METRIC bNITS
11/2S/JJ2
1726
120.7
I*
.99B
«.5 KM
.84
31.4 PM-H2U
2.037 CO-M
14.3 C
2.013 SCf
20B.1
vhC



BKO

FCU
PCO
MU


MMb
           IMPI^GERb  ANU  blLlCA GEL,ML.

           I/OLOML  OF  ^AIEK VAPOR
           AT  S1ANOAHU
          PtRCtNT  Ml) I SI UKt  BY VOLOMt

          HOLE FRACTION  UHY bAJ>

          PERCENT  C02  dY VOL., OHY

          PERCENT  02  BY  VOL., ORY

          PERCENT  CO  BY  VOL., UKV

          PERCENT  1*2  UY  VOL., U*
-------
 I
NJ
    PB

    HS1

    PS

    IS

    vs

    AS

    U3STU

    US

    130

    MN


    CS

    PPk
CS

PCK


MN


CS
bAHUMETHIC PHtbSuHt

STATIC PKtS UF STACK GAS

5TACK PHtS, ABS.

AVEHAGt STACK  (tMP

AVb STACK GAS  VELOCITY

STACK AHtA

STACK FLUM W*Tt, UHY*

ACTUAL STACK FLUM HATE

PEHCENT 13UK1NETIC

FlLTtHAbLt PAHT
  MG. tPA b

FILTERABLE PART

FlLTtHABLE PAHT
  E.HISSIUN NATt

SULFUR UJUXIUE
  MG. EPA 5

SULFUR DIOXIDE

SULFUH DIOXIDE
  EMISSION HATE

SULFURIC ACIO
  MG. EPA b

SULFuRJC ACIU

SULFUHIC ACID
           HATE
       *  «>8  DtG  F,   29.92 IN.MG.
 -l.bO  I

 <;a.t>b  iN-

Ibl.    F

 7«.b   FPS
        SCFH

        ACFH
lUb.tl
                       -36.10

                       733.04   fM-HG



                        22.7    I»PS

                        29.1Mb  SO-M

                   173993b.

                   238b030.

                       lUb.tt

                        2b.2


                        13.014  KG/DSC*

                        22.b<4 KG/HH


                     2310.0


    ,b013 GK/USCF*   1147.377

4000.720 Lb/HR       1996.17 KG/hK
   .U057 GH/OSCF*

 49.913 LB/HK
                                               01 .6


                                                 .0170 GK/USCF*

                                              15b.63b LB/HH
                      ttl.tt


                      40.b30 Cb/OSCC

                      70.69 KG/HH
-------
      EXAMPLE  HAKIltULAlE C ALL UL A 1 I UN6 ItbT NU.

YMSIO =  (17.b47  •  VM • t • IPH  * PM  / 1.5. b)J /  UM  * 4bO.)
           I7.b47  •    71.934  *   .99B * I iJB.S7 *  1.238  /  13. b)
VMSID = - _________________ - -------------------------- "•• — ••' =      71.1Ub USCF
                          (  Stt.  *
VULUHt UF nAltW  VAPuR AI 5TANUAHU  CUNUITIUNi)

V»C » .0<4707  *  VLC

Vi»C « .04707  *   aoB. =   9.00  3CF
PtHCENT MUISTUHt  IN STACK GAS

B*iO » (100.  •  Vi»C)  / (VMSTU  t

           too.  •    v.tto
BnU » — — — — — ----- — — — - — -  =  12.11
             71.10b  t   4. BO
MOLE FRACTION  UF  UHT bTACK, OAS

FHO = (10U.  -  BnUJ  / 100.

           too.  -   !<;.!
                     - --- — -..  =    .679
                100.
AVEKAbE MULtCuLAK Mtlbhf UF  UKT  SIACK GAS

MO s  (PLO«!  «  .41) » (H0«! «  .1^)  +  (PN«! + HCO) * ,<;fl

MO =  (1 1 .7S*44/lUu) » ( b.b*3c:/lGO)  t (iHl.b* .0) *  ^M/100 =   40.



MULtCULAK rttlbMi  uF SIALK UAb

    = Mj  *  (1.  -  IbrtD/luUj)  *  It).  *  (bnu/100)

    =   30.1b«  (1. -llc!.l 1/lUOj)  »  Itt. * (l
-------
SULK GAS VtLuCJTI  A!  STACK

OtLP = iUM. OF  THt  bUHllVh  *  I T i>

Vi = B5.49  * CP  * OtLP /

Vb = 55. 0*

       I305.5tt«i I54.t4b0.) J*l(0.00ibb9*   ?08.)t(    71.924* .99a*(

                                    121. •      74.47  •    2(t.0b *  .177 •
                                                                          /(T T»VS*PS»UN*UN)

                                                                          (    1 ,d30/ 1 3 .6) ) / (   56. + 460.)))
                                                                                                    .....
                                                                          .177
                                                                                                          z 105.77 PERCENT
PARTICIPATE LOAUINU -- EPA METHOD  5  (AT  STANDARD  CONDITIONS)

Ci = 0.001 * MM *  15.43  / VHSTO

C3 = 0.001 *     tib^ *  15.43  /     71.105  =        .0057 UK/UbCF
PARTICULATE LbS/nw -- EPA MLTHUU  5

PM« = C3 » uSbTu / (15.43 * 4bi.bJ

            .0057 *   bl444
-------
                                                             FltLU   DATA
 I
to
NJ













PLANT
SAMPLING LOCATION
SAMPLE IYPL
UPEHATUH
AMBIENT TtMP. IDEG.F)
BAR.PHESS.(IN.HG)
STATIC PRESS. (IN. H20)
FILTER NUMBER(S)
STACK 1NS1UL DIM. (IN)
PITuT TUBE COEFF.
THERM. NO.
LEAKAGE
MtTER CAUB. FACTOR
MUMiU
UNIT
MbB
PUftEK PLEASANTS
1




CLAHKE
' 50.
20. 9b
-1.50






OUOc!b04
240 .
00 .00

UATE
HUN NUMBER
PHOUE LENbTH tt TYPt
NU/^Lt 1-01 : 1.0.
ASSUMED MOISTURE
SAMPLE BOX NUMBER
METtH BOX NUMBER
MtTtR htAU OIFF.










.04 PRUbE HEAIER SETTING
dOl
.015
l.UOb
RtAD & HECORD DATA EVERY 10.0
ThAVEHSE SAMPLE CLOCK GAS MtTLH
POINT
NO.


INIT












TIME TIME
(MIN.) (24-HR
CLOCK;

0 Ib2b
10.0 153b
20.0 1545
30.0 Ibbb
40.0 IbOb
bO.O Iblb
60. 0 Ib2b
70.0 Ib35
00.0 164b
90.0 lobb
100.0 I/Ob
110.0 1 71b
UO.O 1725
HEADlNb
(CU.FT.)


300.104
3ub.0bl
312.002
317.525
323.91 7
320. 120
333.675
339. U7
345.355
351.110
3b7.753
363, bib
371.025

CFM •! 4.0 IN.HG

MINUTES
VELOCITY uRIFlCt




PRESSURE STACK
HEAD OlFFkRENTlAL TtMP
(!N.h20) (IN.H20) (OEG.F)

UESIREU

.bOO .27
.200 ,19
.300 .12
.200 .00
.200 .00
.200 .00
.200 .00
.300 .10
.600 .40
.900 .60
2.000 .70
2.000 .70

ACTUAL

.30 151.
.20 153.
.10 156.
.00 157.
.00 155.
.00 153.
.00 153.
.10 155.
.40 155.
.60 155.
,70 152.
.70 140.
HEATER BOX SETTING

K FACTOR

UHY bAS METtH PUMP
TEMP VACUUM
(UEb.F) (IN.HG)

INLET OUTLET

50. 52. 3.0
54. 52. 3,0
60. 54. 3.0
to4. 54. 3.0
60. 54. 3.0
60. 54. 3.0
70. 54. 3,0
72. 54. 3.0
73. 56. 3.5
75. 58. 4.0
75. 50. 4,0
76. 60. 4.0




1 1/29/82
2CM5B
b* GLASS
,100
10.0

FB3
2.00

320,
320.

1.0

SAMPLE IMPINGEH
BOX TEMP TEMP
COE6.



298
329
313
331
319
320
328
330
322
320
320
321
F> (OE6.F)



• 42.
t 40,

! 40!
42.
. 42.
. 42.
40,
40.
42.
40,
42.
      TOTALS
      AvEKAbE
uo.o
70.841
                                        1.2b
                                     154.
b7,
                                                                         5b.
3.3   322.
41.
-------
           PARTICULAR  FltLU DATA & MEMJLTij TAbULATlUtv




PLANT- NAME ANU  ADDRESS               TEST TtAf LEADER




MONGU POMER PLEASANTb                 CLARKE






                 UMT  1

TEST UATE
IB
IF
IT
NP
Y
UN
CP
> PM
1
U)
U)
v*
IN
VNSTU
VLC
VHC
a*u
F*0
PC02
P02
PCU
PN2
MD
MWb
ENGLISH UNITS METRIC UNITS
11/2^02 11/2S/02
TIME-START 1525 1525
TlME-FlNISh 1725 1725
NET TIME OF TEbT, MIN. 120.0 120.0
NET SAMPLING POINTb 12 12
METER CALIBRATION FALTUR l.OOb l.UOb
SAMPLING NOZ/LE DIAMETER .100 IN «.b KM
PITOT TUdE COEFFICIENT .0.bO 01. bO
MOLECULAR rtT-UKY blALK GAb 30.15 30. lb
MULEtULAK wr-blALK GAb 
-------
PB

PSI

PS

T3

VS

A3

USSTu

U3

130

MK


CS

PMrt
CS
ttAHOMEfRK

STATIC PKES UF STACK  GAS

STACK PRES, xaa.

AVtRAUt STACK TEMP

AVG STACK GAS VELOCITY

STACK AhtA

STACK FLUH HAlt, UHY*

ACTUAL STACK FtOft HATE

PEHCtNT ISOKl^tHC

FILURAbLE PAHI
  MG. fcPA i

FlLTtHAbLE PART

FlLTtHABLfc PAR[
  EMISSION HATt

SULFUR UIOXluE
  MG. tPA b

SULFUR DIOXIUE

SULFUR 01UXIOE
  EMISSION RATE

SULFuRIC ACIU
  MG. EPA b

SULFuKIC ACIU

SULFURIC ACIU
  EMISSION RATE
                                            c"B.4b  IN-hb
          b  IN-HG

             F

      7«.b   FPS
61379104.    SCFH

             ACFh

     101. 6

      bb.b
        .Uldb GR/USCF.

             LB/HH
        .4973 GR/USCF*

    43bl.049 LB/HR


     190.0


        .0410 GR/USCF*

     3bb.b37 LB/HH
      a  ("M-HG

 -3B.10  KM-Mit)

 732.70  KM-HG

  bB.    C
                              . tab  SU-M
 101. b

  bb.b


  20.507 fG/DSCP

  49.b4 KG/HH


2260.0


1130.251 KG/DSC*

1970.17 KG/HR


 190.0


  95.b94

 lbb.31 KG/HH
   *  oO UtG F,  29. <*2  Iiv.riG.
-------
       EXAMPLE PAKHLULATE CALCULAI IUNS  TEST  r\u.  2CCbb

            UNIT  l



VULUMt  UF  UKY GAS  SAMPLED AT iTAMlAKt) CUNUIUUNS

VMSTD  s  (17.607  *  VM • V • IPb » PM  / 13.6))  /  (TM + 460. J

           17,617 *    70.841 * 1.U06 *  I 26.96  » 1,250 / 13.6)
VMSTD  =  ----------------------------------------------------- =      70. lit  UbCF
                          (  61. +
VOLUME  UF  MATER VAHUH AT bTANUAHU CUNOITIUNb

VMC =  .U47U7  »  VLL

V*«C =  ,0«»707  •   ^07. =   <*.7i StF
PERCENT MOlbTUHt  IN STACK GAS

BMU =  (10U.  *  VMC)  / (VMSTU » ViCJ

           100.  *    S.75
BMO =  -------------------------- = 12.20 PEKCEMT
             70.1i«  »   9.75
MULE FRACTION  OF  ORT  STACK bAS

FMD =  (100.  -  HftOj  /  10U.

           100.  -   Ic.i!
FMD =  —————— »..—»..
                100.
AVEHAbE MULECULAH  rttlGHl  UF  DKY STACK GAS

MU = tPCOi  *  .f4J  *  (HOd  * ,3
-------
      STACK  GAS  VtlUCUY  AT  SIAtK CONDlllONb

      OtLP =  SUM.  OF  THt  bQNllVH * (Tb t 460.))

      VS s «5.49 *  tP  *  UtLP / ISl/HHMWb * PS) • HMb)

      WS = b5.49 «   .04  «   357.999 / ibukU ao.bb * £0.65)   *   It.  -    74.50 FPS



      S1ACK  GAS  VULUMfcTHIC  FLO" AT STAC* CONDITIONS

      OS = VS  •  A5  *  JbOO/144

      OS =    71.50  *  45.tt5 * (1. - (12.2U/10U))
      U5>S10  =  - --------------- - ----- •--• ----------- - -------- " --- - =    blJ79104. SCFH
                          (  Ib4. + 4bO.)
•      Pt»CENT  I30KINETIC
U)
0\     ISO =  (30b.bO«(T5*4bO.)>* I (u . OOibb9*VLC ) » ( V^*»* iPb* (PM/l3.bJ ) / ( TMt4bO. ) ) } / 1 TT »VS*PS*ON*ON )
              l305.bU«(  lb4.«4bU.))*((U.OOdbb9»  207. )»(   70 .04 1 * 1 . OOb* I  ^0.9b«(   1 ,d5B/ 1 3 .b) ) / (  6l.t4bO.)))
       ISO s ------------------------------------------------------------------------------------ - --------- —  » 101.56 PERCENT
                                          120. *     74. bO *   20. 65  *   .100  *   .100



       PAHIICULAU  LUAUING  — tPA ME THUD 5 (AT bTAi-OAHU CONDITIONS)

       Cb = 0.001  *  HN  •  Ib.flJ / VMSTO

       Cb = 0.001  *      bb.b  * lb.43 /    70.1<:4 =       ,0l(!5 bH/USCF



       PARIlCUuATE  LbS/HK  —  fcPA MtTHOU b

       PHH = Cb  *  uSbTu  /  lib. 43 • 4bi.b)

       PHR =        .Ol«;5  *    613/4104. / (15.43 * t53.b) =
-------
                                                               I- 1ELU  DAT A
>
U)













PLANT
SAMPLING LOCATION
SAMPLE TYPE
OPERATOR
AMBIENT TEMP.tDEG.F]
BAH. PHEbS. (IN.HG)
STATIC PRESb.UN.H20)
FILTER NUMbER(S)
STACK INSIDE UlM.UN)
PITyT TUBE COEFF.
THEHM. NO.
LEAKAGE
METER CALiB. FACTOR
MUNGU
UNIT
PUwEH HLEAbAIJlb
1


UATE
RUN NUPBER




MbH PRUbE LENGTH & TYPE
CLAKKE
51.
«iH.9b
-1.50
0002b
240.



05
00 .00





NOZZLE 1-04 : l,g.
ASSUMED MU
SAMPLE bOX
PETER BOX
PETER HEAD

ISTURE
NUMBER
NUPBER
DIFF.






.04 PHUbE HEATER SETTING
201
.OOb
.960
REAO a RECORO DATA EVERY 10.0
TRAVERSE SAMPLE CLOCK GAS MtTER
POINT
NU.

1N1T












UTALb
TIME TIME
(MIN.J 124-HR
r i nr K i
I- L.UL ** >
0 1525
10.0 1535
20.0 1545
30.0 1555
40.0 loob
50.0 Iblb
bO.O Ib2b
70.0 Ib35
00.0 Ib45
90.0 Ib5b
100.0 170b
110.0 1 71b
120.0 172b
120.0
HEADING
ICU.FT.)

992. 3b5
999.190
3.975
a. aoo
14.2*4
20.0b5
2b.450
31.300
37.310
44.000
50.250
57 .201
b.4.545
7Z.100

CFM ol b.O IN.HG

MINUTES
VELOCITY UR1F1CE




PREbbUKE blACK
HEAO DIFFERENTIAL TEMP
(IN.H20) (1N.H20) (UEG.F)
UEblREO

.500 .30
.200 .00
.300 .10
.200 .03
.200 .00
.200 .00
.200 .00
.300 .10
.bOO .40
.900 .bb
2.000 ,7b
2.000 .70

ACTUAL

.30 151.
.00 153.
.10 15b.
.00 157.
.00 155.
.00 153.
.00 153.
.10 155.
.40 155.
.bO 155.
,00 152.
.00 140.

HEATER BOX

K FACTOR

DRY GAb METEK
TEMP
(UEG.F)
INLET OUTLET

bO. bO.
bO. bO,
bO. bO.
70. bO.
72. bO.
74. 62.
7b. b4.
77. b5.
70. bb.
79. bb.
00, b7.
01. 60.

SETTING



PUPP
VACUUM
(IN.HG)


4.5
4.0
4.0
4.0
4,0
4.0
4.5
5,0
5.0
5.0
5.0
6.0





11/29/82
2DM5B
6* GLASS
.102
10. 0

FB5
1 .95

320.
320.

1.0

SAMPLE IPPINGER
BOX TEMP TEMP
(DEC.


319
338
325
310
328
331
331
319
317
325
329
326

FJ (OE6.F)


40.
t 40(
42.
44.
» 48t
4d.
52.
54.
50.
50.
52.
4«.

     AVERAGE
                                                           1.2b
154.
72.
b3.
4.b   32b.
47.
-------
              PARTlCOLAlE FltLO DATA  &  hEbULTb  UbULAHUN

   PLANT- NAME AND AOORESb                TEbT  TEA*  LEADER

   MONGO POrtEH PLEASANTS                  CLARltE
   TEbT   2DM5U
                UMT  J

TEST
IB
IF
TT
NP
»
ON
CP
PM

DATE
TIME-STAHT
TIME-FINISH
NET TIME OF TEbT, MIN.
NET SAMPLING PolNTa
ME TEH CALIbRATION FACTUH
SAMPLING NOZZLE DIAMETER
PITOI TOBE COEFFICIENT
AVERAGE ORIFICE PRESSUKE
ENGLISH UNI IS
11/29/02
1525
1725
120.0
12
.986
.182 IK
.*>«
1.26 IN-H20
METRIC UNITS
1
1525
1725
120
12

«

32
1/29/82
.0

.908
.6 PM
.«<•
.0 MM-I
U)
CD
   VP
VMSTU
VLC
VKL
FPD

PC02

P02

PCO

PN2

MO

MUb
          DROP
          VOLUME OF  DRY  UAi>  SAMPLED
          AT METER CONDITIONS

          AVERAGE bAS  MEIER  TEMP
                                               72.180  CO-F1
             VOLUME OF URr bAS
             AT STANDARD CONDITIONS*

             TOTAL H20 COLLECTED IN
             IMPIuGERS ANu SILICA GEL«ML,

             VOLUME OF ftAUH VAPOR
             AT STANDARD CONDITIONS*

             PERCENT MUlSrUHt bY VOLUME

             MOLE FRACTION DRY bAb

             PEHCtNT C0<; bY VuL.» OHY

             PEKCENT 02 bY vUL.t DRY

             PERCENT LO bY VOL., DRY

             PEKCENT N2 01 vOu., U«r

             MOLECOLAH rtT-DWY STACK GAS

             MOLtCULAK rtl-STACK
2.0M4 CU-M
67
69
206
9
12

11
6

81
30
20
.7 F
.28H SCF
.9
.739 bCF
.32
.877
./5
.65
.00
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.15
.65
19.
1.
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•
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*)
11.
6.
•
01.
30.
20.
8 C
9b2 SCC
9
276 SCK
32
877
75
65
00
60
15
65
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-------
             EXAMPLE PAHTICOLAIE  CALCULA!IONS TEST No,
                  UNIT i
       VOLUME  UP UKY GAS SAMPLED  AT  iiTANOAHU CUNOIlIUNb

       VhSTO  * ill. 047 • VM •  Y *  IPb * PK / 13.6)) /  (TM  t  460.)

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       VOLUMt UF HATth VAPUR AI  STANUAHD CONDITIONS)

       VnC  * .01707 • VLC

       VnC  » .04707 *  307. =    9.74  SCF



       PtRCENT MUIbTuHL IN STACK  bAS

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>                100. *   9.74
 I      BnO  » — — --------------- --- --- =  15. 3c! PEkCtNT
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       MOLE  FRACTION OF DRY STACK

       FMD • (100. - BMO) / 100.

                 100. -  Id.i
       FMO = - ------------------- —  =   .«77
                      100.
       AVENAbE MULtCULAH HtlbMl UF  OKY  blALK bAS

       MU  =  (PCOii * .44) *  CPOd *  .3
-------
STACK GAS VtLUClTY  AT  STACK  CONDITIONS

DELH = SUM. OF  THE  SQHHVH  *  (15 * 4bU.))

V5 = B5.49 » CP  » OtlP /  (SuRUMWS * PS)  » PNTS)

VS = B5.49 •   .OH *   357. 99S  /  ISUHK 2b.b5 * 20.B5)  *   12.  =    /4.5«: FPS
STACK 6AS VULUMETHIC  FLUX  AT  STACK CONDITIONS

05 = VS * Aa  *  3bUO/l44

OS =   74.52  •  <«S239.  JbUU/144 =   tt
-------
                                                               MLLU   UAIA
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       tXAMPLt  PAKllCULATt  L ALL JL A I 1 tmb  Itbl HU

             UN II 1




VULUHt Uh  UKT  bAb  bAMHLtU  AT  SIAMJAKU LUNll i I IDI.b

VMblO =  117,647 •  vM *  V  * (Hb  *  PM  / 13. bj)  /  IIH  * ttoO.)
            17.6<47 *    110.104  *  1.03/  *  I  i^.lV  t 3.£i>«!  /  13. to)
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MULE FHALUUN  Op  OHY STALK bAb

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MO  = I lc!.bO««»«4/ 10U J  t  t  h.l*3t?/lUOJ  +  llol.3*  .Uj  » ib/lOO  =     30.«Jb




MULtLULAk rttibhl Ut-  b I A C A L>Ab

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Cirtb =   JU.tb*  (1.  -( 10.9 J/100) j t  Irt.  •  U0.43/100J =    dQ.^ti
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                                                           MtLO   UAIA
        HLAM
                                   MUlMU f'UrttN HLtAbAMb
SAMPLING LULAllUN UN 1 1 1
bAMPLt 1 1 Pt Mbbn
UPtKAIUH UU
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bAK.HHtSb. (iN.HG) 24.19
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blACr INblUt DIM. (IN) eilu.UU .UU
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MtltK CALlb. FAC1UH .446
KtAU & KtCUKU OAlA tVtrtY 10. 0 MNUltb
(KAVtKbt bAhHLt CLOCK GAb MtltH VtLUCllT C
PUlNl UMt llMt KtAUlNG ntAu
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bAMPLt bUX NUrtbth
MtltK bUX NUMUtH Fbtt
MtlEK MfcAO IUFF . 1 .SO
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MtAltW dUX btTllNG 320.
OKI GAb MtTtK HuMP bAhHLt iMPjNbtH
ItMH VACUUM dUX ItMH ItMH
lUtb.F) UN. Ho) (Utb.M (UEb.F)
INLtl UUlLtl
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-------
                h-ANULULA It  FltLL)  UAIA &  KtbuLIb  (AoULAlJUU

         T- NAML  AND AOUKtbb                 Ubl  ILAH  LcAUtK

    MONO  PuwtK PLtAbAmlb                     Uu
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r
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1 IMt-STAHl
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Wt 1 SAMPLING PUIMb
MtTtH CALlBKAlION F AC
SAMPLlNb NU/^Lt UlAMt
PHUl lUbt LUtFFICltH
AVtHAbt UKlFlCt PrttSS
UKUP

•

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1
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iMPirJbtHb Al«0  61L1LA btL.ML.

VULUMt  UF nAltk  VAPUK
Al blANUAKU LiINO 1 I lUNb*

PtkLtWl  HUlblUKt OY  VULUMt

MULt FKAcIiUlM  UHY bA5

PtKLtM  LUU


Uci.l II  CU-h I




lU.btti  bLF
                      MtTKlC UNilb

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ttl.i    MM-HdU


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b. ib
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-------
Pt>
PSl
PS
TS
VS
AS
USSIU
us
1 30
MU

CS
PMK
UANUMtlKlt PKtSbUHt
bl Al 1C PKtb Uf blACK
SlACK PNtb, AdS.
AVtNAbE SlACK IbHP
AVb SlACK bAS VtLUCl
blACK AKtA
L.AS

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SlACK PLUrt KAft, OKV*
ACfUAC SlACK t-LUn HA
PtkCtNT ISUK1NLT1C
.^SbH
Mb. tPA b
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It





PMH

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PMh
                        KAlt
SULl-UK  OlUXlut
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        OlUXlUt
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            bULl-UKlU  AC ill
                        KATt
                                          bbl 4160U.
                                          t;v.n   lu-tib
                                          -l.bu   IN-n^U
                                          <;s.oo   lu-hb
                                         ib7.     ^
                                          o u. o    ^ \' b
                                                         bLKH
                                                 lo.
                                                 M.fautt Lb/HK
                                               MUfiU.U
                                                   bK/ObCh*
                                                  Lu/MK
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                                                                        Ml.<43   MM-Hb
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                                                                         /U.     t
                                                                                 bU"M
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                                                                  o'*.'*
                                                                         .JS. 
-------
                  tXAMPLt  HAKliCULAlt  t ALC uL A 1J Uub  IL5I

                        UN II  1
          VULUHt  Uh  UKt  bAb  bAMPLtU  Al  SlANUAHU  LONIl 1 I lllltb

          VMbtO = (17.b<4?  *  VM  *  T  •  (Pb »  HM  /  M.bJ)  /  t I f. »  160. J

                       1/.61/ *     112.1/7  *   ,S98  «  I  ^'^.\<^  »  3.^10 /  ll.bj
          YMSTU = -----------------------------------------------------
                                          t   ib .  +  4bU . )
          VOLUMt  Ul- nAltW  VAPUK  AT  SIANUANU  LUNUlllUNb

               =  .U4/U7 *  VLC

               =  .U«707 *   till.  -   1J.0
          PtHCtNF  MUlSIUKt 1U

          UWU  =  (100.  * VwC)  / (VHSTU +  VHC)
>
I                      100.  •   13.05
^         bMO  =  ----- - ------------------- -  =
                       ll^.bOi  t   13. Ob



          MULt  t-HACriUlM UP UNY SlACK  bAS

               =  1100.  - BrtOJ  / 100.

                      100.  -   10. M
               =  ----------------- --- .--  =
                             100.
         AVtHAbt  HULtUULAh ntlbhl  Uh  UKT  SlACK

         ML» =  (rLUt  *  .4MJ +  (PUc^  *  .JrfJ  *  IHUe!  t HtUJ  «  ,e?b

         MU =  I ItJ.bO'lM/ IOOJ  t   I  t.. 1 •J.VlUOJ  «  l(ol.i»  .uj  «  rftt/100  =    iO.iib
         MOLttULAK mtlbnl  (J(-  51 AC* (.A5

         Mif.b  =  MU  •  II. -  UiAtl/tOiJi)  »  lO.  •  (bnU/loOJ

                   iu.db*  11.  -( 1 0.3S/10UJ J  +  Id.  *  110.4
-------
            (,Ab VtLUCllY  AI STACK  COriU 1 1




     UtLP =  bUM. ut-  iHt  MJKllVri  * US  t  4t>U.)J




     WS = tti.49 * CP  *  UtLP /  IblJitllMAb  »  Pbl  • Hi*Tbl




     vs> = «b.<49 •  .at  »
     SIACK bAS  VULUMtlKiC F-LOW  AT  31ACK




     Ub = Vb  «  Ab * 3bUU/14<4




     US s   bo.tti • 4i«;j9. 3buu/l<44 =
SIACK  UAb VULUHtlKlL FLOn  AI  b'lANUAHL)  CUUU1I1UNS




       =  I7.b<47  •  US * PS  *  (1. -  (UrtU/lUUlJ /  115




                   *    VMibaua. •   ^9.oe *  11.  -  U




                     1 I'll.  *  -46U.1
                                                              "4bO.J
     USblU =
                                                                                       5CI-H
U1
ISO =  (JUS.ia*(rS»'4b0.1 )• ((O.Uoat>bS«VLClt lvM«Y«(Hb*(HM/13.b) ) /t
     IbO =
                                                                                       IT I *VS*H5>*ON«UN)




                                                                                                  i.b) ) / I   bb.t"4bO.)ll
                                                       ttO.ttb
                                                                                                                                  PtHCENT
     HAKIltULAtt  LUAU1NG  — tPA MtThOO b  IA|  blAHOAhU  CUi^Ul




     Cs = O.ool  * MN *  15. «3 / VMSTO




     tS = U.OUl  »      10. £  * 15.43  /   lltf.bHi =        .OU14
     PAKIlCULAlt  Lbb/HK  -- tHA MtlMUU "3




     PMK = Lb  •  UbSIU  /  lib. 43 •  Mbi.bl




     PMK =        .0014 «    bttMlbi/u.  / lib.
-------
                                                           HELO   DATA
tn
N)
pLAN| MUNGO POwEH PLEASANTS
SAMPLING LOLA1ION UNIT 1
SAMPLE TYPE M5b
OPERATOR CLARKE
AMBIENT TEMP. (OEG.F) 50.
STATIC PRESb.UN.HiU) -1.5o
FILTER NUMBtfllS) 0002629
STACK INSIDE UIM.HN) 240. oo .00
PITUT TUBE COLFF. ,6<4
THERM. NO. 201
LEAKAGE .000 CFM a 6.5 IN.HG
METER CALIB. FACTOR 1.006
READ fc RECOMO DATA EVtRY 10.0 MINUTtS
TRAVERSE SAMPLE
POINT TIME
NO. (MlN.)


IN1T 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
60. 0
90.0
100.0
110.0
120.0
CLOCK
TIME
124-HR
CLOCK)


1030
1040

100
110

130
14u
15U
120U

1220
GAS MLUR
READING
(CO. FT.)


303.047
392.174
400.000
409.625
418.455
428.620
436.245
445.910
454.735
464.275
473.728
403.055
493.098
VtLOCIl Y
HEAD
(IN.H20)



.500
.700
.700
.700
.600
.700
.700
,600
.700
.600
.900
2.000
ORIFICE PRESbORt
DIFFERENTIAL
(IN.H20)

OESIRED AC

2.68
3.01
3.00
3.05
2.90
3.07
3.07
3.26
3.12
3.30
3.46
3.70


TUAL

2.70
3.00
3.00
3.05
2.90
3.10
3.10
3.30
3.10
3.30
3.50
3.70
STACK
(DEG.F)



152.
157.
157.
158.
157.
15S.
159.
159.
155.
156.
159.
156.
UATt 11/30/82
RON NUMBER 3CM5B
PKObE LENGTH ft TYPE 5* GLASS
NOi/LE 2-09: 1.0. .220
ASSUMED MOISTURE 12.0
SAMPLE BOX NUMBER coc
METER BOX NUMBER FB3
MtTER HtAD UIFF. 2.00
C FACIOH 2.14
PROBE HtATER SETTING 320,
HEATER BOX SETTING 320.
REFERENCE PRESS. OIFF. .00
DM GAS MfclER
TEMP
(DEC

INLET

50.
54.
60.
66.
71.
74.
76.
78.
00.
80.
02.
82.
.F)

OUTLE T

50.
48.
46.
49.
50.
51.
54.
55.
56.
58.
59,
64.
PUMP
VACUUM
(IN.HG)



4.0
4.0
5.0
5.0
5.0
5.5
6.0
6.0
6.0
6.u
6,0
6. 5
SAMPLE
BOX TEMP
(OEG.F)



319.
321.
326.
329.
346.
320.
327.
329.
326.
305.
323,
313.
IMPINGER
TEMP
(UEG.F)



34.
36,
44.
78.
68.
64.
54.
49.
46.
44.
40,
40.
   TOTALS
   AvEkAbE
120.0
                                  HO. 051
                                        3.14
3.15   157.
                                                                  71.
54.
5.4   324.
                                                                                                   50.
-------
            PAHTICULAlt FIELD  DATA  & KtoULTb  lAdULATIUN




PLANI- NAMt  ANU ADuRESb                TEbT TEA*  LEADER




KONGO POllEH  PLEASANT!.                  CLARKE
TEST   3CMbb
UMT I

TEbT DATt
IB
TF
IT
NP
r
UN
CP
> HH
|
Ul
U)
T*
VfbTU
VLC
VftL
UMU
FKU
PCU2
P0«!
PCO
PKa
MD
M*b
ENGLlbH UNITS
ii/3o/oa
TIME-STAKT 1020
TIME-FINISH iaao
NET TIME OF lEbT, MIN. UU.O
NET SAMPLING POlNTb Id
METER CALlbRATlUN FACTOR l.OOb
bAMPLlNG NU/ZLE UIAMETER .>M-H
3. lib CU-M
lfa.9 C
3. lib SCC
3ab.o
.133 SCt'
ia.ai
.070
U.bU
b.lb
.ou
01. ab
30.ae>
«;tt.7/
-------
 I
U1
PB        bAKOMETRIC  PRESSURE

PSl       STATIC PKtS  UF  SIALK  bAb

PS        STACK PRES,  AUS.

TS        AVERAGE STACK  ItMP

V3        AVb STACK bAS  VELOCITY

AS        STACK AREA

USSTU     STACK FLOM  RATE,  OHY*

US        ACTUAL STACK FLOW KAIt

ISO       PERCENT ISOKINEUC

MN        FILTERABLE  PART
            MG, tPA b

CS        FILTERABLE  PART

PHR       FILTERABLE  PART
            EMISSION  RATE

MN        SULFUR DIOXIDE
            MG. EPA b

CS        SULFUR DlOXIuE

PMH       SULFUR DIOXIDE
            EMISSION  RATE

MN        SULFURIC ACIU
            HG. tPA b

CS        SULFURIC ACIU

PCH       SULFUHIC ACID
            EMISSION  RATE
      29.0(1  1N-HG

     157.    F-

      81.t   FPS

   45139.   SU-1N

b70UbbOO.    SCFH

             ACFH

      97.7

      5B.B


        .0062 GR/USCF*

      7B.937 LB/HR


    3970.0
              GR/USCF*

    5329.b73 LB/hk


     104.0


        ,01<»b GK/USCF*

     139.bib LB/HK
                                                                     741. «3  >»K-hG

                                                                     "3B.1U  KM-Hc!U

                                                                     7ib.b«i  CM-MG

                                                                      7U.     C
                                                                      •J9.1B6 SU-M
                                                                      97.7

                                                                      btt.tt


                                                                      16.«7£ CG/USCK

                                                                      3b.Bl  KG/HR


                                                                    3970.0
                                                                        .49 KG/HR


                                                                     104.0


                                                                      33.3BO

                                                                      b3.33 KG/HH
           60 OEG
                            IN.HG.
-------
              EXAMPLE HARMCULAU  CALCULATIONS TEST NO.

                   UNIT  1
VULUMt OF OHY  GAS  SAMPLED AT  STANUAHU CONDITIONS

VMSII) =  (17.647  •  VH  «  T * IPU + HM / li.b)) /  UM  +  460.)

          17.647 *    110.051  * l.UUb * I 19.19  t  5.14b  /  13.6)
           — — — — .— — ..—......-_ — — — — — — -.- — .—
                          (  t>2. + 4bO.)
VMSTO =
                                                                             110.038
        VOLUME OF WATtR VAPUH  AT  STANDAKD CUNOIIIONb

        VMC  = .04707 * VLL

        VMC  = .04707 *  Jc!5. =   lb.30  SCF
tn
PERCENT MOISTURE  IN  STACK GAS

    =  (100.  *  VftC)  / (VMSTD * VftC)

           100.  •   15.30

            110.038  *  Ib.iO
BnO =
                                                  PthCtNT
MULE FRACTIUN  OF  UKY  STACK

FMU =  (100. -  BnOJ  /  100.

           100.  -   Id.ci
           - ---------- - --- -
                100.
        FMO =
                                           .B7B
AVtHAbt HULtCuLAR  rttlbhl  UF  UKY STALK GAS

MO = (PCO«i  *  .44)  »  (HUd  *  .3^) * (fUd * PCU) *  .lie

MU = (lc:.bO*44/10U)  »  (  6.1*3^/100)  + (IHl.it .0)  *  ^ti/HHt
                                                                         30.^6
        MULtCULAH MtlGHT UF 5IACK  GAS

        MnS = Mo « (1. - (brtG/luUj)  t  It).  *  (UriU/100)

            =  30.
-------
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-------
                                                                        DATA
U1
-J
PLANT MUNGU PU*EH PLE
SAMPLING LUCATIUN UNIT i
SAMPLE TYPE M5b
OPEHA10K CLAHKt
AMBIENT UMH.IOEG.F) 50.
BAR.PHESS.UN.HG) 
-------
            PART1CULA1E FIELD  UAlA  A KEMJLlb T AbUL A1 lllK




PLANT- NAME  AND  ADDRESS                1EST TEAM LEADER




MOMGU POWER  PLEASANTS                  CLARKE
TEST  3DM5t»
TEST DATE
UNIT 1
                                           ENGLISH UNITS




                                              11/30/62
                                                METRIC  OMTS




                                                   1 l/30/8«!
IB
TF
TT
NP
1
UN
CP
s *-
TM
VfSTU
VLC
VhC
B»0
FMU
PC02
P02
PCu
PI.2
MU
MfcS
TIME-START 102U
TIME-FINISH 1220
NET TIME OF TEST, MIN. 120.0
NET SAMPLING POINTS 12
METEH CALIBRATION FACTOR .<*8tt
SAMPLING NOZZLE DIAMETER .220 IN
P1TOT TUBE COEFFICIENT .o«
AVERAGE ORIFICE PRESSURE 3.16 IN-M20
DROP
VOLUME OF DRY GAS SAMPLED 11*4.439 CU-FT
AT METER CONDITIONS
AVERAGE GAS MEIER TEMP 66.6 F
VOLUME OF DRY GAS SAMPLED 111.536 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 322.2
1MP1NGERS ANO SILICA GEL, ML.
VOLUME OF nATEK VAPOR It). 166 SCF
AT STANDARD CONDITIONS*
PEHCENT MOISTURE BY VOLUME 11. S7
MOLE FRACTION DRY GAS .660
PERCENT LU2 bY VOL., DrtY 12. bO
PEHCENT U2 BY VOL., uRY 6.15
PEKCLNT CO BY VOL., URY .00
HEHCENT N2 bY VOL., UKY Bl.
-------
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-------
              EXAMPLE PAHTILULAlt C ALtUL A llONi  ItbT  NU.  3DM5B

                   UNIT  1
        VOLUME  UP  OUT  GAS SAMPLED AI STANUAKU

        VM3TD s (17.647  * VM * V * IPB + PM /  13.6)}  /  (TM  +

                  17.647 *   114.939 *  .986 *  I 34.19  *  3.15U  /  13. b)
        VM3IO s --------------------- ................................ =    111.536 USCF
                                 I  69. » 060.)
       VOLUME  OF  MATER VAPOR AT STANOAMO CONDITIONS

       VitC  =  .04707  *  VLC

       V*C  =  .04707  •   32<2. =  15.17 SCF
       PERCENT  MulSTuRE IN STACK

       UNO  =  (100.  *  VMCJ  / (VMSTU * VftC)
>                 100.  *  lb.17
I      BftO  =  — — -------- - — --- ---- --- =  11.97 PEhCtNT
                   111.53U *  15.17
       MULE  FRACTION OF  DRY STACK GAS

       FMO = (100.  - UnO)  / 10U.

                  100. -   Id.O
       FMO = ------------- -- --- — -- s   ,U80
                       100.
        AVEHAGE  MULtCULAR WtlbHl OF DHY STACK GAS

        MO  =  IPC02  *  .44) « (HOa * . 3*  (1. -(I 1 .97/100) ) »  10. *  (11.47/100)
-------
          STACK  GAS  VtLUClTr AT SIALK CUNUIIiUNb

          DtLP  = SUM.  OF  TMt 5UHHVH * (Tb « «bO.))

          VS =  US. 49 • CP * DtLP / lSUNT(MMii * PS)  * PNTS)

          VS =  05. 4V *  .04 *  392. £44 / ISURU 20.79 * 29.00)  *  12. =   0 1 . 1 t FPS



          STACK  GAS  VOLUMtTKIQ FLO" AT STACK CONDITIONS

          OS =  VS •  AS *  3bOO/144

          US =    81.12 *  45239. 3bOu/144 =   91743080. ACFH



          STACK  GAS  VOLUMETRIC FLON AT STANUAHO CUNOIUUNS

          05STO  s 17.047  • US * Pb * 11. - (BwO/100)) / (TS « 4bO.)

                    17.647 *   91743000. t  29.08 •  (1. - (11.97/100))
          OSSTO  » — .. — . — — . ---- - --- ... --- - --- . — ----- — ... -. — -- s   b71b204a.  SCFH
                             I 157. t 4bO.)
"          PfcHCtNT ISOKINETIC
a\
M         ISO =  (305.b8«(TS+4oO.))*l(0.002bb9*VLC)»(VM*T* tPB»lPM/l3.bJ )/(TM»4bO.) J)/(TT*VS»PS«UN«ON)
                           lS7.t4bO.))*((0.002bb9*  Jt!2.)»(  114.939*  .988«(  29.19«(    3. 158/ 1 3.6) ) / (  b9.+46U.j))
          J30 a ---------------------------- - ------------------- - ---------------- — ......... ------ — ----- -— — >  9A.A4 PEKCEM
                                             12U. *     61.12 *   29.00  *   .220  •   .220



          PARTICIPATE LOADING -- EPA METHOD b (AT SUNOAKU CONDITIONS)

          C3  * 0.001  « MN • 15.43 / VM8TO                                                           ,  . _  ____

          CS  = U.001  »     69. b * IS. 43 /   111. bib =       .009b GK/USCF



          PARTICULATE LUS/HH -- EPA MtTMOU 5

          PHR = Ci> •  uSi,TU / C15.M3 * 
-------
                                                                FJELL)  UA1A
>
a\
PLANT HONU PuwtR PLEASAMS
SAMPLING LOCATION UNIT 1
SAMPLE TYPE Mbb
OPERATOR UU
AMUIENT TEMP.IOEG.F) bb.
BAR. PRESS. (IN. HG) 29.15
STATIC PRESS. UN. M20) -1.50
FILTER NUMBbR(S) 0002690
STACK INSIDE DIM. (IN) 240.00 .00
P1TOT TuflE COEFF. ,»4
THERM. NO.
LEAKAGE .002 CFM at 9.0 IN.HG
METER CAL1B. FACTOR 1.037
REAU ft RECORD DATA EVERY 10.0 MINUTES
TRAVERSE
POINT
NO.

INIT












SAMPLE
TIME
(MlN.)

0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
00.0
90.0
100.0
110.0
120.0
CLOCK
TIME
124-HH
PI r\ r* M \
CLOCK j
1328
0
0
0
0
0
u
0
0
0
0
0
ib2a
GAS MtUK
READING
(CO. FT.)
VELOC11Y
HEAD
UN.H20)
UR1FICE PRESfjUKE
DIFFERENT
(IN.H20)
IAL

blACK
DATE 11/30/82
NUN NUKbER 4AM5B
HRObE LENGTH tt TYPE 6* GLASS
NU21LE 2-03 : 1.0. .219
ASSUMED MOISTURE 12.0
SAMPLE bOX NUMBER
FETER BOX NUMBER FB4
KETER HEAO DIFF. i.e7
PROBE HEATER SETTING 320.
HtATER BOX SETTING 320.
DM bAS
CETEH
TE*P TEMP
(DEb.F)
UESIREO ACTUAL
523.858
533.520
543,320
553.000
562.810
572. BIO
582.880
592.930
603.000
612.800
bdZ.BOO
b32,940
642.746

2.000
2.100
2.000
2.000
2.100
2.200
2.200
2.200
2.100
2.100
2.200
2.100

.57
.75
.59
.58
.77
.95
.94
.96
.78
.78
3.95
3.78

3.57
3.75
3.59
3. be
3.77
3.95
3.94
3.96
3.78
3.78
3.95
3.78

159.
159.
158.
165.
165.
166.
169.
166.
166.
168.
169.
168.
(DEC
ULET

59.
61.
72.
72.
73.
72.
73.
74.
74.
75.
75.
76.
.F)
OUTLET

59.
58.
59.
62.
64.
63.
63.
63.
64.
65.
65.
66.
PUCP
VACUUM
(IN.HG)


7.1
8,5
8.6
e. a
8.6
8,8
8.4
8.3
7.9
7.9
8,2
7.8
SAKPLE
BOX TEMP
(OEG.F)


313.
336,
330.
343.
329.
343.
328.
342.
328.
335.
325,
531.
JfPINGER
TEMP
(DE6.F)


54.
5*.
96.
125.
99,
76.
63.
37.
52.
48.
47 ,
*5.
       TOTALS
       AvEHAbE
120,0
118.aaa
                                         3.7a
                               3.7B    165.
71,
63.
8.2   332.
68.
-------
           PART1CULA1E FIELD DATA « NESULTa  lAbULAlION




PLANT- NAME AND ADDRESS                UST TEAM  LEADER




HONO PONtR PLEASANTS                   UU
IEST  4AM5B
UNIT 1

ENGLISH UNITS
TEST DATE 11/30/B2
TB
IF
TT
NP
1
UN
CP
1
0-1 VM
U) ¥
TM
VM3TO
VLC
VMC
b*u
FMU
PC02
P02
PCU
PN2
MO
M*S
TIME-START 1328
TIME-FINISH 1528
NET TIME OF TEST, MIN. 120.0
NET SAMPLING POINTS 12
METER CALIBRATION FACTOR 1.037
SAMPLING NOZ2LE DIAMETER .219 IN
PITOT TUBE COEFFICIENT .64
AVERAGE ORIFICE PRESSURE 3.78 IN-H20
PROP
VOLUME OF URY bAb SAMPLED 118.88(1 CU-FI
AT METER CONDITIONS
AVERAGE GAS METEH TEMP 67.0 f
VOLUME OF DRY GAS SAMPLED 121. 500 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 295.7
IMPINGERS AND SILICA GEL. ML.
VOLUME OF MATER VAPOR 13.919 SCF
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VOLUME lO.cfa
MOLE FRACTION DRY GAS .B97
PErtCENT C02 BY VUL.i l)KY 12.90
PERCENT 02 bY VOL., URY 5.00
PERCENT CO BY VOL.. DRY .00
PERCENT h2 UV VOL.i UKY 01. .10
MOLECULAR rtT-UHY STACK GAb 30. .30
MOLtcoLAK MT-SIACK GAS 29.U3
METRIC bNITS
11/30/62
1326
1526
120.0
12
1.037
5.6
.64
96.1
3.367
19.4
3.440
295.7
.394
10.26
.697
12.90
5. BO
.00
U1.3U
30.30
d9.03



CM

CM-H20
CU-M
C
sec

sec








-------
 I
CTl
PB

PS1

P3

T9

V9

AS

USSIU

US

ISO

MN


ca

PNR


MN


CS

PPk


MN


CS

PM«
bAKUMETRIC PRESSURE               29.15   IN-Hb

STATIC PREb OF  STACK  GAb          -1.50   1K-H21

STACK PRtS, ABb.                  29.01   1M-HG

AVERAGt bTACK TEMP               Ibb.     P

AVG STACK bAS VELOCITY            89.6    FPS

STACK AREA                     45239.    SU-1N

STACK FLU* RATt, OHY*       7<4b«*b«9b.     SCI-H

ACTUAL STALK FLOn HATt     101509312.     ACFH

PERCENT 13UK1NEUC                97.7

FlLTtRABLE PART                   2b.7
  MG. £PA t>
FILTERABLE PART

FILTERABLE PART
  EMISSION HATE

SULFUR OIOXIUE
  MG. EPA S

SULFUR DIOXIDE

SULFUR UIUXIUE
  EMISSION HATt

SULFUH1C ACID
  MG. tPA t>

SULFuRK ALIU

SULFURIC AGIO
  tMiSSION HATE
                                                   .0034 GR/DSCF*

                                                 3b.lBtt LB/HR


                                               «350.0
          GR/USCF*

5695.UU LB/MR


  26.3


    .0036 GH/USLF*

  36.357 LB/MR
                                                                      710.41   KM-HG

                                                                      -36.10   CM-MiO

                                                                      737.bl   t»M-MG

                                                                       7«.     C

                                                                       £7.4    CPS

                                                                       29.106  SO-M
  97.7




   7.761

  16.41 KG/HR


4350.0


1264.472

£!b7U.3<4 KG/HR


  20.3


   6.226 PG/OSC*

  17.40 KG/HR
        *  b6 DEG f,   29.92  1N.MG.
-------
                                                            ti-  Ml
                                             .  -PI  *  (mm/nun)  - *n  » nw = S«»H
                                                    SVO  X1V1S  JO
                      not/9? » (o* »fifli) *  (ooi/?r»»*<;  i  +  (oot/t7h»ob*?n
                             B?*  » (03d + 7Nd) +  (?f  • ?OH)
                                           MOV IS  AHO  JO
                                                              •not
                                                           9*01   -  '«
                                                        •001  /  fOMfl .  *001)
                                                                 JO
                                IMIDHId 9?*0t =	
                                                         ?6*f!   »  *00!
                                              (D»A » 01SHA)  /  (DMA » *«OI) = 0»B
                                                   SV9  HIVIS N!
                                               JDS ?6*Fl   =  *<»6?   »  /fHhO* s
                                                               D1A  »  ZO/bO* s DMA
                                    •JNOIIIONOD OMVOMVIS 1* HOdVA 8ll¥«l JO
JDSn 005M?l    =  --- --- - --- - ----------------------- - ------ - — - ------ — s 01SHA
                  (9'fl  /  99/*f * SI'b? 1 » /ffl't » 909'ftlt    •
                            4 Mil / f(P*9t / Hd » Bd) •  1  « HA  •  itr<»*/U  : 01SHA
                                         D o»»nN»i<; iv ondnvs  s»9  AHO jn
                                                                i  UNO
-------
STACK GAS VtLUClTY AT  STACK  CUNUlllUNS

OtLP = bUM. OF  THt bUKMVH  *  CTb  +  460.))

V3 = 05.49 • CP • OtLP /  lSuRT(M*b  *  HS)  *  HNTS)

Wb = 05.49 *  .0   09. 7S • 1S239.  3t>00/14 •  (1.  -  (UrtO/100))  /  (TS  +  <4bO.)

          17.647 *  101509312.  *   29.04  *  (1.  •  (10.20/100))
          — — . — - — - — . — — - — — — - — — . — — — — -.- — .
                   ( Ibb. * 4bO.)
USSTl)
                                                                 7<4b9b09b. SCFH
PtRCENT ISOKINETIC

150 = (305.58»(T3 + «t>0.))*{(0.002bb9«VLC)*(VH*»*(Pb*lPI'/13.b) )

       (305.56*( Ib5.«4b0.))*((u.002bb9«   29b.) + (   1 Itt.flfta* 1 .037* I  29.1b«(   3. 7«3/ 1 3.b)
                                                             -
                                    120. •     89.75  •    29.04  *   .219 *  .219
ISO »
                                                                                                          »  97.6tt PEKCENT
PARTICULATE LOADING — EPA METHOD  5  (AT  STANDARD  CONDITIONS)

CS = 0.001 * HN » 15.43 / VMSTO

Cb = O.U01 *     dt.l * 15.43  /    Ul.buO  =        .0034  bH/USCF
PARTICULATE LBS/HH -- tPA MtTHOU  5

PMH = Cb * UbbTD / tli.43 * 453.6)

PMH s       .O0i4 *   74b9b«9b. /  (lb.43  *  453. b)  =     3b.lbtt
-------
                                                            FIELD  UATA
CT.
PLANT MUNO PUWEK-PLEASANTS
SAMPLING LOCATION UNIT i
SAMPLt TYPE M5b
OPEHATUN UO
AMBIENT TEMP.(OES.F) 55.
BAH.PHESS. (1N.H6) 29.15
STATIC PRESS. (IN. H20) -1.50
FILTEH NUMBERIS) ooo269<:
STACK INSIDE DIM. (IN) 240.00 .00
PITOT TUBE COLFF. .64
THEHM. NO.
LEAKAGE .010 CFM « 7.0 IN.HG
METER CALI8. FACTOR .990
READ * RECOHD DATA
THAVEHSE
POINT
NO.

INIT












UTALS
SAMPLE
TIME
(MIN.)

0
10.0
20.0
30.0
40.0
50,0
60.0
70.0
00.0
90.0
100.0
1 10.0
120.0
120.0
CLOCK
TIME
(24-HR
f I DP K k
L l.Uln J
1329
0
0
0
0
0
0
0
0
0
0
u
1529

EVEHY 10.0
GAS METEN
HEADING
(CU.FT.)

242.256
252.140
262.230
272.100
281.910
291.970
3V2.190
312.500
322.890
313.000
343.290
353.660
363.819
U1.563
MINUTES
VELULITY
HEAD
(1N.H2U)


2.000
2.100
2.000
2.000
2.100
2.200
2.200
2.200
2.100
2.100
2.200
2.100


UH1F1CE

PREbbUKE

MACK
DIFFERENTIAL TE'P
(IN.
UESIKEU

3.57
3.75
3.59
.58
.77
.95
.94
,96
.78
.70
3.95
3.78

H20)
ACTUAL

3.57
3.75
3.59
3.58
3.77
3.95
3.94
3.96
3.78
3.78
3.95
3.78

(DEG.F)


159.
159.
158.
165.
165.
166.
169.
166.
166.
168.
169.
168.

UATE 11/30/82
HUN NUPUEK 4BM5B
PKUBE LENGTH « TYPE 5* GLASS
NU21LE 2-01 : I.D, ,220
AbSUHED MUISTUhE 12.0
SAMPLE BOX NUMBER
KETEH BOX NUMBER FB8
ftltH HEAD UIFF. 1.90
PHObE HEA1EH GETTING 320.
HEATER bOX SETTING 320.

UM GAJ> ft IEH
TEfP
(DEG.F)
INLET OUTLET

57. 55.
60. 55.
65. 56.
69. 59.
71. 60.
72. 61.
72. 61.
73. 62.
73. 63.
74. 64.
74. 64.
74. 65.


HlfP
VACUUM
(IN.HG)


5.7
.7
.8
.7
.8
.9
.8
,0
.5
.5
.7
.6


SAfHLE
bOX TEMP
(DEG.F)


343.
332,
331.
327.
328.
340.
342.
342,
338.
33*.
328,
334.


IPPINGEK
TEMP
(OEC.F)


43.
52t
72.
124.
102,
77.
61.
54,
49.
48.
47,
47.

  AVERAGE
                                                        3.70
3.78   165.
70.
60.
        6.6
335.
65.
-------
           PART1LULATE  FIELD DATA 4 KtbUlTb TAbULATlUIS
PLANT- NAME AND AOURtSb               ItbT TtAH LEADER
MONO PUHER-PLEASANTS                   uu
TEST
TEST OATL
UNIT J
                          ENGLISH  UNITS
                             II
                                                               METRIC  UNITS
18
TF
IT
NP
1
ON
CP
CTi
ocj VH
TM
VfSTD
VLt
VHC
UMU
FMO
PC02
P02
PCO
PN2
MU
MM 3
TIME-START 1329
TIME-FINISH 1529
NET TIME OF TEST, MIN. 120.0
NET SAMPLING PUINTS 12
METER CALIBRATION FACTOR .990
SAMPLING NUZ/Lt OIAMEUR .220 IN
PITOT TUbE COEFFICIENT .on
AVERAGE ORIFICE PRESSURE 3.76 IN-H2U
DROP
VOLUME OF DRY GAS SAMPLED 121.563 CU-FT
AT Mtun CONDITIONS
AVERAGE GAS METER TEMP 65.0 F
VOLUME OF DRY GAb SAMPLED 120.017 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 297.5
IMPINGtRS ANU SILICA GEL, ML.
VULUME OF WATER VAPOR 14.003 SCF
AT STANDARD CONDITIONS*
PERCENT M01SIUHE BY VOLUME 10.45
MOLE FKALT10N DRY GAS .096
PEKCtM CUt! bY VUL.» OKY 12.90
PERCENT U2 BY VUL.t DRY 5.00
PERCENT CO BY VOL., DRY .00
PfcRCtNT N2 OY VOL.. D«Y 01.30
MOLECULAK »»T-DKY SIACK GAb 10.30
MULECULAK «T-S(AUK b A t> 2S.01
!52J
120.0
>2
.990
5.6
.04
96.1
10.3
3.390
297.5
.397
10.45
,09b
12.90
5. BO
.00
01.30
30.30
29.01




KM

KM-M2U
CU-M
C
3CK

SCP








-------
   PB        bAHOMETHIC  PnESSuRt

   PSI       STATIC  PHES OF  STACK  GAS

   P3        STACK PRES,  ABS.

   TS        AVbHAGt  STACK  TEMP

   VS        AVG  STACK GAS  VELOCITY

   A3        STACK AREA

   USSTU     STACK FLOW  RAlt,  DRY*

   US        ACTUAL  STACK FLOM RATE

   130       PERCENT  ISUKlNtUC

   MN        FILTERABLE  PAK1
                MG. EPA 5

   CS        FILTERABLE  PART

   PNH       FILTERABLE  PART
                EMISSION  HATE

   MN        SULFUR  D10XIUE
J>               MG. EPA 5

^  CS        SULFUR  OIUXIUE

   PMM       SULFUR  DIOXIUE
                EMISSION  HATE

   MN        SULFURIC ACID
                MG. EPA 5

   CS        SULFuHIC ACIU

   PNR       SULFURIC ACIO
                EMISblUN  HATfc
   £9.15  iN-hb

   -J.bO  !

   29.04  IN-M1,

  Ibb.    f

   89. b   FPS

45«!39.   SU-IN

          SCFH

          ACFH
                                  745B1920.

                                 101545960.

                                        95.6
    740.41  KM-Hb

    -30.10  K

    737.61  CM-HG

     74.    C

     £7.4   KPS

     £9.106 SU-M

£111937.    SCKM

£075477.    ACKM

     95.0

     £6.7
                                          .0034 GH/USCF*       7.057  »>G

                                        36.579 LB/MH          16.59 KG/HH


                                      4360.0                4360.0


                                          .5605 GH/USCF*    I£e3.030

                                      5973.179 LB/HH        £709.43 KG/hR
                                        90.5
                                                              98.5
                                          ,01£7 GK/USCF*      £0.906  PG/USC*

                                       134.945 LB/HH          6l.£l  KG/HH
*  60 DtG F,  £9.9£ IN.HG.
-------
             EXAMPLE  PARHCULAlfc CALCULATIONS IbbT NO.  4UH5B

                  UNIT 1



       VOLUMt  UF  DKY  GAS  SAMPLED AT STANUAKO CUNUHIONS

       VMSTD  3 (17. 617 *  VM • Y • (Pb «• PM / 13.6)) /  (TM * 160.)
                 17.647  *    U1.563 »  ,99tt «  I a9.1b *  3.763  /  13.6)
       VMSIO  =  - ------- - — - ---- - — ----------------------- - --- •- -----  =    U0.017 USCF
                                I  bb. + <4bO.)
      VOLUMt  OF  NATfcH  VAPUR AT STANUAHO CUNUITION5

      VisC  =  .U4707  *  VLC

      VMC  =  .U4707  *   296.  =  14. 00 SCF
      PtMCtNT  MUIbTuMt  IN  S1ACK GA!>

      8nO  =  (100.  *  VMC)  / (VHSTO * VwC)

>                100.  •   m.oo
             — -— ---- - -------------- -- = lo.ob PtkCtNT
O                U0.017  »   11.00
      MULt FRACTION  OF  DRY  STACK GAS

      FMO s  (10U. -  bwU)  /  10U.

                 1UO.  -   lu.4
      FHD = —-—..- — ...
                      100.
      AVENAbE MOLtCuLAW  ntlbHT  UF  DKY STACK GAS

      MU =  (PCO^ *  .44)  *  (P0«!  •  .3
-------
STACK GAS VtLuClTT  AT  STALK

OtLP = bOM. OF  IHt  bUKT(Vl)  *  (Tb  *  460.))

VS = ttS. 49  * CP  * OtLP /  ISuHKMMb  *  PS)  * PMS)

VS = *»5.49  •   ,»4 *   
-------
                                                             FjtLU  DATA
>

to
PLANT MUNGU PUWEH PLEASAHTS
SAMPLING LOLATIUN UNIT 1
SAMPLE TYPE M5oP40o
OPERATOR CLAHKE
AMBIENT TEMP.IOEG.F) 5b.
BAR. PRESS. UN. HG) 29.19
STATIC PRESS. UN. H2U) -1.50
FILTER NUMHER(S) ooo2b9i
STACK INSIDE DIM. UN) 240.00 .00
P1TUT TuBt COEFF. .64
THERM. NO. 201
LEAKAGE .006 CFM • 7.5 IN.HG
METER CAL1B. FACTOR 1.006
RtAD A RECORD DATA
TRAVERSE
POINT
NO.

1NIT












SAMPLE
TIME
(MIN.)

0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
100.0
110.0
120.0
CLOCK
IIME
(24-HR

1330
1340
135o
1400
1410
1420
1430
1440
1450
1500
1510
1 52 0
1 5 3o
tVtWY 10.0
GAS MtUR
READING
(CU.FT.)

493.363
503.136
513.200
523.664
533.136
543.765
553.725
563.895
574.280
584.813
594.436
604,555
615.114
MINuTtS
VELOCITY
HEAD
UN.H2D)


2.000
2.100
2.000
2.000
2.100
2.200
2.200
2.200
2.100
2.100
2.200
2.100

ORIFICE

PRtSbUKE
DIFFERENTIAL
(IN.
DESIRED

3.60
3.80
3.60
3.60
3.8,;
4.00
4.00
4.00
3.64
3.85
4.00
3.85
H20)
ACTUAL

3.60
3.60
3.70
3.60
3.60
4.00
4.00
4.00
3.00
3.90
4.00
3.90

STACK
TEMP
(DEG.F J


159.
159.
158.
165.
165.
Ibb.
169.
166.
166.
168.
Ib9.
168.
DATE 11/30/62
RUN NUMBER 4CM5BP
PKCbE LENGTH & TYPE 5* GLASS
KUHLE 2-02: l.D. .219
ASSUMED MOISTURE 12.0
SAMPLE BOX NUMBER
PETER BOX NUMBER FB3
MEIER HEAD DIFF. 2.00
C FAC10R 2.14
PMliBE HtATEH SETTING 400.
HEATER BOX SETTING 320.
REFERENCE PRE53. DIFF. S00

DKY GAS

METER
1EMP
(DEG
INLET

o2.
65.
75.
78.
80.
82.
84.
85.
85.
Ob.
Ob.
88.
.K)
OUTLET

62.
61.
61.
62.
62.
63.
64.
64.
65.
69.
69.
70.

PUMP
VACUUM
(IN.HG)


7.5
7.0
7.0
7.0
7.0
7.5
7.5
7.5
7.0
7.0
7.5
7.5

SAMf-LE
BOX TEMP
(OEG.FJ


325.
330.
336.
316.
325.
313.
319.
326.
314.
316.
324.
321.

IMPINGER
TEMP
(OEG.F)


40.
39.
40.
44.
46.
44.
48.
48.
52.
50.
56.
50.
     TOTALS
     AVERAGE
120.0
UI.751
                                        3.83
                               3.84
165.
00.
                                                                                          64,
7.3   322.
46.
-------
           PAKUCULATE FltLO DATA  & KtiULli  TAUULA1IUN

PLAM- NAME AND ADDRESS                TtST TtAM  LEADER

MOH6U POHEH PLtASANTS                  CLARKfc
TEST ICMbBP
      UNIT  1

TEST DATE
TB
TF
TT
NP
If
UN
CP
> PM
U)
VM
TC
VMSTU

TIME-START
TIME-FINISH
NET TIME OF TEST, MIN.
NET SAMPLING POINTS
METER CALIBRATION FACTOR
SAMPLING NUZ/Lt DIAMEUR
PITOI TUBE CUEFF1C1ENT
AVERAGE ORIFICE PRESSURE
DROP
VOLUME OF DKY GAS SAMPLED
AT METER CONDITIONS
AVERAGE 6AS METER TEMP
VULUMt UF URY bAS SAMPLED
ENGLISH UNITS
11/30/02
1330
120.0
1*
1.006
.219 IN
.01
3. BO IN-H20
121.751 CU-FT
72.0 F
119.702 5CF
METRIC UNITS
1
1330
1530
120
12
1
5

97
3
22
3
1/30/02
.0

.006
• O r M
.0<«
.6 PM-H20
.000 CU-M
.2 C
.391 SC*
VLC
vhC
UMU
pcu2
PCO
HD
AT STANDARD CONDITIONS*

TOTAL H20 COLLECTED IN
IMPINGERS ANU SILICA GEL*ML.

VOLUME UF MATEK VAPOR
AT STANDARD CONDITIONS*

PEHCLNT MOISIUHE BY VOLUME

MOLE FRACTION UHY bAb

PERCENT L02 BY VUL., UKY

PERCENT 02 bY VOL.. URY

PERCENT CO BY VOL., UHY

PEHCtNl N2 BY VOL., UHV

MOLECULAR wT-OHY STACK GAS

MOLtCULAH nT-bI*LK bAS
                                              .6
17.679 5CF
                                                                   .6
                                                                   .bOl  SCK
12. 87
.071
12.90
b.bO
.00
01.30
30.30
20. n
12.07
.071
12.90
b.BO
.00
01. 3U
30.30
20.71
-------
>
HB

PS1

P8

IS

VS

A3

USSTU

US

ISO

MM


C3
HN


C9

PCk


MN


CS

PMR
bAROMEIHIC PRESSURE

STATIC PRES UF STACK GAS

STACK HUES, ABS.

AVERAGt STACK TEMP

AVI> STACK t>AS VELOCITY

3TACK AREA

STACK FLOW HATfc. DRY*

ACTUAL STACK FLO* RATE

PERCENT ISOMNtUC

FILTERABLE PART
  HG. tPA b

FILTERABLE PANT

FlLTtMABLt PART
  EMISSION HATt

SULFUW U1UXIUE
  MG. EPA 5

SULFUH DIOXIDE

SULFUR OlOXluE
  EMISSION RATE

SOLFuHlC ACIO
  MG. EPA 5

SULFUHIC ACIU

SULFURIC AGIO
  EMISSION RATE
   *  00 OEb F,  29.
             IM.HG.
                                                «?9.19   IN-hG

                                                -l.bO   I

                                                29,06   1N-HU
                                                90. i.    FPS

                                                  .    SU-1N

                                                       SCFH

                                                       ACFH
                                                40.0
                       741.4J   CM-ht

                       -30.10   ft

                       730. b2   fM-HG

                       74.     C

                       27.S    KPS

                               SU-M

                               SCCH
                                                       GH/OSCF*

                                                54.031 LH/HH


                                              4300.0
                       90. S

                       40.0


                       U.034

                       24.07 KG/HR


                     4300.0


          GR/OSCF*   1291.000

500b.300 LB/HR       2b70.03 KG/hR


                      107.0


                       31.5bO CU/USCK

                       bS.23 KG/HR
                                               107.0


                                                  .0138 GK/USCF*

                                               143.790 LB/hR
-------
             EXAMPLE  PAHTItULATfc  C ALCIIL A I IUM5> ItbT NU.4CM5UH

                  UNIT  1



       VULUMt OF DMT  GAS  SAMPLED  Af STANDARD CuNUIlIUNS

       VMSIO = (17.647  *  VM  *  T  * (fti * PM / li.o)J /  ITH  «• 460.)

                 17.647 *    121,751 * l.OOb * I «>9.19  * .5.042  /  13.6)
       VM3TO = — — - ---- --- --------- - ------------- --- -------- - ----- =    119.74«i USLF
                                 I  7«J. » <460.)



       VULUMt OF KATES  VAPUH AT  5TANOAHD CONDITIONS

       VnC = .04707 * VLL

       V*C * .04707 *  376.  =   17.60 SCF



       PtRCENT MUIiTUHt IN  SIACR  GAS

       BrtU = (100. *  VMCJ  /  (VHSTD « VwC)
>
^,                100. *   17,6*
tn      B*0 a -------------------------- =  li.B7 PENCENT
                  119.74,e  »   17.60



       MULE FRACTION  OF UHY  dTACK GAS

       FMD = dou. -  tinot  /  too.
                  loo.  -   !«:. 9
       FMO a -- ------------ ......... s   ,b71
                       100.
       AVEHAGE MULtCuLAH  ntlbHT  UF  UHY STALK GAS

       MU s iPCOci •  .44)  »  (PO«J  «  .3
-------
STACK GAS VLLOCITI  AT  STACK  CUNUlTlUNb

DiLP = SUM. OF  Tht  SOHTIVH *  (Ib  *  460.))

Vi = »5.4* * CP * OtLP /  (SuHHMwb  *  PS)  *  PNTS)

VS = US. 49 *  .64 *  43b.4Btt  /  (SUHT( 2U.71  *  29.0tt)   •   12.  =   90.19 Ff-S



STACK GAS VOLUMETRIC FLO* AT  STACK  CONDITIONS

Ob = VS * As *  36UO/144

OS =   90.19 *  45239.  3600/144  =   101999792. ACFH



STACK GAS VOLUMETRIC FLO" Al  STANDAHD CuNUIUONb

QSSIO * 17.647  • US * PS  * (1.  -  16*0/100))  /  (TS  *  460.)

          17,647 *  10199979a.  •  29.08 •  11.  -  (12.87/100))
QSSTO * ---------- -- ------------------------ ...-.-. — . --- .. s   72994096. SCFH
                    ( Ibb. +  4t>0.)
PERCENT ISOKlNETIC

ISO = <30b.ba*US*4bO.)J*t(O.UO * uSbTu / lib. 43 * 4b3.6)

PMR =       .0053 *   7^994u9o. / (15.43 » <*53.b) =    5«.B31
-------
                                                        F1ELU  UAIA
PLANT MUNGO POWER PLLASANTS
SAMPLlNb LOCATION UNIT 1
SAMPLE TYPE Mbn-H4oo
OPEKAIOK CLARKE
AMBIENT TEMP. (OEG.F) 56.
BAR. PRESS. (IN. HG) 29.19
STATIC PRESS. (IN. H*0) -1.50
FILTER NOMBER(S) 0002093
STACK INSIDE DIM. (IN) 240.00 .00
PITOT TUBE COEFF. .84
THERM. NO. 201
LEAKAbE .000 CFM 4 9.0 IN.HG
METER CALIB. FACTOR .988
READ * RECORD DATA
TRAVERSE
POINT
NO.

IN1T












SAMPLE
TIME
(MIN.)

0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
loo.o
1 10.0
1*0.0
CLOCK
TIME
124-HR

1330
1340
1350
1400
1410
1420
1430
1440
1450
1500
1510
1520
1530
EVERY 10.0
GAS MtUR
READING
ICO. FT.)

192.382
201.736
211.900
223.415
233.037
244.271
254,835
265.900
276.375
287.7i;0
298.325
309,110
319.624
MINUTES
VELOCITY
HEAO
(IN.H2U)


2.000
2.100
2.000
2.000
2.100
2.200
2.200
2.200
2.100
2.100
2.200
2.100

ORIFICE PRESSURE
DIFFERENTIAL
(1N.H20)
DESIRED ACTUAL

3.69 3.60
3,80 3.80
3.65 3.70
3.66 3.70
3,86 3.90
4.05 4.10
4.03 4.00
4.06 4.70
3.88 3.90
3.88 3.90
4.06 4,10
3.88 3,90

STACK
TEPP
(OEG.F)
DATE 11/30/82
RUN NUPBEK 40M5BP
PROBE LENGTH ft TYPE 6* GLASS
KO/ZLE 2-07: 1,0. .221
ASSUMED P01STUKE 12.0
SAPPLE BOX NUMBER
PETER BOX NUMBER FB5
PETER HEAD DIFF. 1.95
C FACTOR 2.14
PROBE HEATEH SETTING 400,
HEATER BOX SETTING 320.
REFERENCE PRESS. DIFF. .00

ORY GAS
TEMP
(OEG.

PE1EK

F)

PUPP
VACUUM
(IN.HG)

SAMPLE
BOX TEMP
(OEG.F)

IPPINGEH
TEMP
(OEG.F)
HLET OUTLET

159.
159.
158.
165.
165.
166.
169.
166.
166.
168.
169,
168.

66.
68.
67.
82.
t»5.
87.
87.
88.
88.
90.
90.
90.

66.
67.
67.
67.
68.
*«.
70.
72.
72.
74.
74.
75.

4.5
7.0
7.5
7.5
7.5
B.O
8.0
8.0
8.0
8.0
8,0
8.0

335.
335.
334.
324.
316.
318,
335.
324.
319.
326.
319.
326.

40.
36.
40.
44.
48.
, SO.
49.
54,
58.
52.
50,
50.
TOTALS
AVERAGE
120,0
127.242
                                                    3.87
                                                 3.94   165.
                                               82.
70.
7.5   326.
48.
-------
00
                PAHHCULAIE  FIELD  DATA  t RESULTS  tAbULAUUK

     PLANT- NAME ANU ADDRESS                IEST  TtAH  LEADER

     MON6U POWER PLEASANTS                  CLARKE
     TEST 4UM5BP
UNIT 1

TEST
IB
TF
TT
NP
Y
UN
CP
PP

OATt
TIME-START
TIME-FINISH
NET TIME OF TEST, MlN.
NET SAMPLING POINTS
METER CALIBRATION FACTOR
SAMPLING NUZZLE DIAMETER
PITOT TUBE COEFFICIENT
AVERAGE ORIFICE PRESSURE
ENGLISH UNITS
11/30/62
1330
1530
120.0
1*
.968
.221 IN
.64
3.94 1N-H20
METRIC UNITS
1 1/30/62
1330
1530
120.0
12
.9Ab
                                                127. ^«2  CU-FT
                                                 3.603 CU-M
7b.2 F
121.969 SCF
367.7
17.30U SCF
12.43
.676
12.90
5.60
.00
U1.30
30. iU
20.77
24.
3.
367.
•
12.
•
12.
5.
t
ttl.
30.
2tt.
6 C
454 SC»
7
490 SCP
43
676
90
60
00
30
30
77
-------
 I
-J
PB        UAHOHETR1C PRESSURE

PS1       STATIC PHEb OF SIACK GAS

PS        STACK PRES, AB8.

TS        AVERAGE bTACK TEMP

VS        AVb STACK CAS VELOCITY

A3        STACK AREA

USSTO     STACK FLU* HATE, OkY*

BS        ACTUAL STACK FLOW HATE

ISO       PERCENT ISUKJNEUC

MK        FILTERABLE PART
            MG. EPA b

CS        FILTERABLE PART

PKR       FILTERABLE PART
            EMISSION RATE

Mh        SULFUR OIOXIUE
            M6. EPA b

CS        SULFUR OIOXIUE

PMN       bULFuR UIUXIUE
            EMISSION RATE

MN        SULFuRIC ACID
            MG. EPA b

CS        SULFUH1C ACIU

PMH       SULFUH1C ACIU
            EMISSION RATE
                                                a9.19  IN-hb

                                                -l.bO  IN-HdU

                                                29.00  1N-H(>

                                               Ibb.    e

                                                90.1   FPS

                                                      3U-IM
101904160.    ACFH

       90.1

       2/.2


         .0034 GH/USCF*

       36.033 LB/HH


     4340.0


         .b490 GK/USCF*

     5749.45b LB/HH


      105.0


         .0133 GH/USCF*

      139.100 LB/HH
                           /Ml. 43  KM-HG

                           -3d. 10  CM-H2U

                           73tt.bi>  CM-Ht,

                            74.    C

                            27. b   KP3

                                   SU-M
                                                                      7.tt7b KG/OSCf

                                                                      lb.34 KG/HH


                                                                   4340.0
                                                                         *5  KG/HH


                                                                     105.0


                                                                     30.404

                                                                     63.10  KG/HR
        *  btt UEG f,  29.92 IN.HG.
-------
              EXAMPLE  PARTICIPATE CALCULAI IUNS Tts>T Nu.4UMbbP

                   UNIT  i



        VULUMt  OF  ORT  GAS  SAMPLED AT STAMUAHD CONUIlIUNb

        VMSTO  =  (17.647  *  VM * V • IPb » HM / 13.6)) /  (TM «• 460.)
                  17.647  *    127.244 *  .9tttt * I 29.19 » 3.942 /  13.6)
        VMSTO  =  ---- - --- — — - ------ --- — -"- --- - ---- - -------- " ----- --•  =     121.969 OStF
                                 (  76. » 4t>0.)
       VOLUMt  OF  NATtR  VAPOR AT STANDARD CONDITION*

       VisC =  .UU7U7  •  VLC

       VNC =  .04707  *   368.  =  17.31 SCF
       PERCENT HUIbTURL  IN  STACK

       BMO =  (100.  •  VNCJ /  (VMSTD » VnC)
>
I                 100.  *   17.31
00      BNO =  -------------- - ----------- = 12.13 PtRCtNT
0                  121.969 *   17.31
       MULE FRACTION OF  DRY  STACK bAi

       FMD =  lioo. - HMO)  /  loo.

                  100.  -   1<>.4
       FMD s  — — — ————.... 3   ,«76
                       100.
       AVERAGE MOLECULAR  WEIGHT  OF  DRY STACK GAS

       MD =  (PCU2  *  .14)  »  (P02  *  .3cJ) » (PN2 * PCO) * ,iiO

       MD =  112.90*44/100)  *  1 5.tt*3c:/100)  » ((81. 3+ .0)  * 2a/100 =   30. 30



       MULECOLAR MEIGHT (Jf  STACK  GAS

           = MU *  (1. - tbnO/100))  +  la. •  (bnu/ioo)

           =  30.30*  (1.  -112.43/100 j ) t Id. *  (12.41/100) =   20.77
-------
    STACK GAS  VtLUClTY  AT  SIACK LUNUlllUNi

    DtLH -  SUM.  OF  IMt  OUKTIVM * (Tb * IbO.j)

    VS s »5.49 «  CP  *  OELP / lSuHT(HKb * PS) * HMS)

    VS = »5.
-------
                                                                KltLU  UA1A
 I
CD
ro
PLANT ' MUNO PUHER-PLt AS AN TS
SAMPLING LOCATION UNIT 1
SAMPLE TYPE M5B
OPERATOR UU
AMBIENT TEMP. (DEC. F) 55.
BAR. PRESS. (IN. M6) 29.15
STATIC PHtSS.HN.H20) -1.50
FILTER NUMBER(S) 0002694
STACK INSIDE DIM. (IN) 240. UU .UU
PITOT TUBE COEFF. .04
THERM. NO.
LEAKAGE .000 CFM 4 10.0 IN.HG
MtTtR CALIB. FACTOR 1.037
READ ft RECORD DATA
TRAVERSE SAMPLE
POINT TIME
NO. (MIN.j

INIT 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
00.0
90.0
100. 0
110.0
120.0
CLOCK
TIME
124-HR

1636
0
0
0
0
u
0
0
0
0
u
0
1836
tVEKY 10.0
GAS MtTtR
READING
ICU.FT.)

643.067
652.020
6b2.320
672.130
601.670
691.240
700.000
710.530
720.240
730.070
739.750
749.430
759.021
MINUTES
VtLUtllY URlFlCt

PRESSURE
HEAD DIFFERENTIAL
(IN.H2U) (IN.
DEMREU

2.000
.900
.900
.900
.900
.900
.900
.900
2.000
.900
.900
.67
.48
.51
.51
.51
.53
.53
.54
.73
.54
.55
.900 3.53
H20)
ACTUAL

3.67
3.46
3.51
3.51
3.51
3.53
3.53
3.54
3.73
3.54
3.55
3.53

STACK
TEfP
(DtG.F)


168.
170.
169.
169.
169.
168.
169.
167.
169.
169.
167.
170.
UAlt 11/30/02
HUN NUMBER 5AM5B
PROBE LENG1H ft TYPE 6* GLASS
NU2/LE 2-11 : l.U, ,222
ASSUMED MUISTUHE 12.0
SAKPLE BOX NUMBER
METER BOX NUMBER FB4
CtTtH HEAD OIFF. 1.87
PKOBt HtAfER btlTJNG 32U.
HEATER BOX SETTING 320.

OKI GAS

KEltM
TEMP
(OEG
1KLET

62.
64.
74.
70.
72.
74.
75.
76.
76.
/b.
7b.
76.
.F)
OuTLfcT

62.
62.
63.
64.
63.
64.
65.
65.
66.
67.
67.
67.

PUCP
VACUUM
(IN.HG)


8.7
9.2
9,0
a.l
0.2
0.2
7.9
7.8
8.2
7.0
7 fy
7.7

SAfHLE
BOX TEMP
(DEG.F)


322.
335,
321.
319.
334.
330.
322.
325.
33fc.
337.
321 ,
331.

IMPINGLR
TEMP
(OEG.F)


52.
40,
106.
102.
76.
61.
54.
50.
48.
47.
48,
48.
       TOTALS
       AVERAGE
120.0
115.954
                                                           3.55
                                                  3.55    169.
                                                73.
65.
8.2   320.
62.
-------
PLANT- NAMt AND AOORLSS
NONO PUHtH-PLEASANTS
                       FIELD DATA & RESULTS IAOULATION
                                      UST  TLA*  LEADEN
                                      [)U
TEST  bAM5U
                UNIT I

ENGLISH UNITS
TEST DATE 11/30/02
TB
TF
TT
NP
Y
ON
CP
PM
1 VM
00
U)
TH
VMSTO
VLC
V*C
UMU
FMD
PC02
P02
PCU
PN2
MO
MMS
TIME-START Ib3b
TIME-FINISH 1036
NET TIME OF TEST, MIN. 120.0
NET SAMPLING POINTS 1 «!
METER CALlbRATIUN FACTOR 1.037
SAMPLING NUZZLE OlAMiTER ,«;22 IN
P1TOT TUbE COEFFICIENT .04
AVERAGE ORIFICE PRESSURE 3.b5 1N-H20
DROP
VOLUME OF ORY GAS SAMPLED 115. 954 CU-F T
AT METER CONDITIONS
AVERAGE GAS METER TEMP 60. fa F
VOLUME OF DRY bAS SAMPLED lib. 069 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 31b.O
iMPlNGtRS ANO SILICA GEL, ML.
VOLUMt OF MATER VAPOH 14.674 SCF
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VULUMt 11.19
MOLE FRACTION DRY GAS .000
PEKCtNT C02 dY VUL., OHY 11.90
PERCENT 02 BY VOL., DRY b.bO
PERCtNT CO UY VOL., L»H» ,UO
HEKCtNl Nd bY VOL., OK» 01.30
MULbLULAK rtT-OHt S'tALK GAS 30.10
MOLECUI.AK «T-STALK I.AS 20.01
METRIC UNITS
11/30/02
1636
1036
120.0
12
1.037
5.6
.04
90.2
3.203
20.3
3.343
316.0
.421
11.19
.000
11.90
6. BO
.00
01 .30
30.10
20.01



PM

I»M-H2U
CU-M
C
sec

sec








-------
>
CO
PB        BAROMETRIC  PHESSURb

PSI       STATIC PrtES  OF  STACK  GAS

PS        STACK PNES,  ABS.

TS        AVERAGE STACK  TEMP

V3        AVli STACK GAS  VELOCITY

AS        STACK AREA

U3STU     STACK FLO"  RATE*  DRY*

U9        ACTUAL STACK FLOW RATE

150       PERCENT 130MNET1C

MN        FILTERABLE  PART
            MG. EPA 5

CS        FILTERABLE  PART

PPH       FILTERABLE  PART
            EMISSION  HATE

MN        SULFUR DIOXIDE
            HG. EPA 5

CS        SULFUR DIOXIDE

PKH       SULFUR DIOXIDE
            EMISSION  RATE

MM        SULFURIC ACID
            MG. tPA b

CS        SULFURIC ACID

P*H       SULFURIC ACID
            EMISSION  RATE
       *  68 OEG f,
                        1N.HG.
                                                29.15  IN-HG

                                                -l.bO  IN-H.JU

                                                39. 01  IN-Hb

                                               US.    F

                                                6b.c!   FPS

                                                      SU-1N
                          . <41   f

                      •30.10   K

                      717.61   »»H-HG

                        76.     C

                        ^b.3    PPS

                        ^9.10ti  SU-M

                  1997901.     SCfH
                                                       ACFH
                                                                            ACKH
                                                97. «

                                                07. b


                                                  .00t>2 GR/DSCF*

                                                b
-------
              EXAMPLE PAHTICULAIt  C ALUIL»T IUN6 ItSl NU.

                   UNIT  1
        VULUME UF OHY GAS  SAMPLED  AT  5TANDAKU CUNUIHUNS

        VMSTD a (17.607 *  VM  •  V  * IPtt * PM / 13.6)) / tTM + 460.)

                  17.647 •    US. 954  » 1.037 * I £9.1!> * 3,b53 /  13. 6J
        VMSID = -----------------------------------------------------  s     lla.oe'*
                                  I  6•       BNO s — .-- — .--- — ... ------ ....  -  u. IV HEKCENT
 1                  118.069 »   14.U7
CD
U1
        MULE  FRACTION OF URT STACK

        FHO = (100. - BwU) / 100.

                  100. -  11.2

                       100,
        AVEHAGE  MULECULAH MEIbHf UF DKr  STACK  GAS

        MU  =  (PCUcJ * .44) * (PO«J * .3d)  +  (HNi  + PCO)  *  ,«!8

        MU  =  (11.90*44/100) » ( 6.tt*3t:/100)  +  (Ittl.J*  .0)  « dd/100 =   30. IB
       MULECULAH  MEIGHI  UF SUCK GAb

       MwS  =  MU  *  11.  -  (BrtO/luOJJ +  Itt. *  (bkvU/100)

       MwS  =   30.1U*  (1. -111.19/lUOn t la. *  (11.19/100)  =   eJB.ttl
-------
        STACK  GAS VtLUCjTY AT STACK CUNUltluNb

        OELP = SUM.  OF THt SOHTIVM * (Tb + 4bU.)}

        V3  = «5.49 * CP * OtLP / (SgHHMKb * PS) * HMS)

        VS  ' 05.49 *  .04 *  41b.52tt / (bUKti 20.H1 * 29.04)   *   12.  =    tit.
        STACK  CAS VOtUMtTHJC FLO* AT STACK CONDITIONS

        OS  =  WS  * AS •  3bOO/i44

        OS  =   ttb.17 *  45239. 3bOU/14. *  29.04 * (1. - (11. IS/100))
        USSTO  =  -- — - ------ - -------------- --- -------- - ---- - ------- - =    7u554e3d.  SCFH
                           ( 169. * «bO.)
^      PtHCCNT  ISOKJNtTIC
 I
00      ISO =  (iOb.bfl* (TS*4bO.) ) * ( (0 . 00^bb9* VLC ) » I VM *Y • (PU» (PH/l i.b) )/ (TM«4bO.) ) )/ ( T T * VS»PS«ON*ON)
                     a«(  169.t4bO.))*t(O.OOib6«J«  316. )*(  llb.954* 1 .037 * I 29.1b*(    3.553/1 3.6) ) / {   69.+460.)))
        ISO =  ------------------------------------------------------------------------------------------- . --- -- =  97.80 PtHCEM
                                           120. *     0b.l7 *   29.04 *   .222 *   .222



        PAKTICULATE  LUAulNG  --  tPA  METHOD 5 (AT STANUAKO CONDITIONS)

        CS = 0.001  *  MN •  15, «3 /  VMSTD

        CS = U.U01  *      47. b  * 15.43 /   Ilb.0b9 =       .OUb2 GH/USCF



        PAKIICULATE  LBS/Hk -•  EPA  MtTHOU b

        PMR =  CS  *  USSTO  /  115.43  *  4b3.b)

        PMR =        .U0b2  *    70554U32. / (15.43 • 453. b) =    fa«?.70tt
-------
                                                                     DATA
00
PLANT MONO PU*EH-PLEASAMS
SAMPLING LOCATION UNIT 1
SAMPLE TYPt MSB
OPEHATOH DO
AMBIENT TEMP. (OEG.F) 55.
BAR. PRESS. (IN. HC) 29.15
STATIC PRESS, UN.H20) -1.50
FILTER NUMBER(S) 0002t>9S
STACK INSIDE DIM. (IN) 240.00 .00
PITOT TUBE COEFF. .04
THERM. NO.
LEAKAGE .014 CFM ol 9.0 IN.HG
METER CAL1B. FACTOR .990
READ * RECOHO DATA
THAVEMSE SAMPLE
POINT TIME
NO. (MlN.)

INIT 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
loo.o
110.0
120.0
CLOCK
TIME
(24-HR
f 1 fif tf I
I* I. V v " 9
1637
0
0
0
0
0
0
0
0
0
0
0
1037
EVtHY 10.0
GAS MtTEH
HEADING
(CO. FT.)

364.038
373.990
3B3.010
393.750
403.660
413.500
423.600
433.560
443.600
453.710
463.660
473.560
403.433
MINUTtS
VELOCITY
HEAD
(IN.H20)


2.000
.900
.900
.900
.900
.900
.900
.900
.000
.900
.900
.900

UH1FICE

PHtSaUHE
DIFFERENTIAL
(IN.
DESIHED

.67
.40
.51
.51
.51
.53
3.53
3.54
3.73
3.54
3.55
3.53
H20)
ACTUAL

3.67
3.40
3.51
3.51
3.51
3.53
3.53
3.54
3.73
3.54
3.55
3.53

STACK
TEMP
(OEG.F)


168.
170.
169.
169.
169.
160.
169.
167.
169.
169.
167.
170.
DATE 11/30/B2
NUN NUCbtK 5BM5B
PHOBE LENGTH ft TYPE 5* GLASS
KUl/LE 2-10 : 1.0. ,221
ASSUMED MUISTUNE 12.0
SAMPLE BOX NUMBER
MEIEH BUX NUMBER FBO
MtTEH HtAD 01FF. 1.90
PHOBE HtATER SETTING 320,
HEATER BOX SETTING 320.

DHY GAS

MEIEH
TEMP
(DEG
IIVLET

61.
62.
65.
69.
70.
71.
71.
72.
72.
72.
73.
73.
.F)
OUTLET

60.
60.
59.
61.
61.
62.
62.
63.
63.
64.
64.
64.

POMP
VACUUM
(IN.HG)


0.6
0.0
9.0
0.7
0.7
8.7
0.5
8.4
0.0
0.6
0,5
8.6

SAMPLE
BOX TEMP
(OEG.F)


308.
335.
335.
337.
334.
336.
330.
330,
328.
320.
324,
324.

IMPINGER
TEMP
(OEG.F)


53.
48.
36.
102.
86.
61.
73.
61 1
57.
56.
54,
54,
      TOTALS
      AvEHAbE
120.0
m.395
                                                          3.55
                                                 3.55
                                      169.
69.
62.
8.7
329.
65.
-------
           PAR1ICULATE FIELD  DATA  &




PLANT- NAME AMD ADDRESS




MONO PUWER-PLtASANTS
                                             TAbULAMUN




                                       TEST  TtAM  LEADER




                                       UU
TEST  58M5B
                UNIT 1

TEST DATE
TB
TF
TT
NP
Y
UN
tP
1
00
oo w||
TM
VfSTO
VLC
V*C
B*U
FMD
PCu2
PU2
PCU
PN2
MO
Mfcsi-


TIME-START
TIME-FINISH
NET TIME OF TEST, MlN.
NET SAMPLING POINTS
METER CALIBRATION FACTOR
SAMPLING NOZZLE DIAMETER
PITOT TUBE COEFFICIENT
AVERAGE ORIFICE PRESSURE
PROP
VOLUME OF DRY UAb SAMPLED
AT METER CONDITIONS
AVERAGE GAS METER TEMP
VOLUME OF DRV GAS SAMPLED
AT STANDARD CONDITIONS*
TOTAL H2U COLLECTED IN
IMP1NGERS AND SILICA GEL, ML.
VOLUME OF MATER VAPOR
AT STANDARD CONDITIONS*
PERCENT MU13TURE BY VULUME
MOLE FRACTION DRY UAb
PERCENT CUt dY VOL., UKY
PERCENT U2 BY VOL., UHY
PERCENT LU BY VOL., UHY
PERCENT N2 bY VOL., UW»
MULECULAK rtT-UKY STALK GAb
MULECULAH *T-S|ALK GAS
ENGLISH UNITS
11/30/02
1637
1637
120.0
12
.996
.221 IN
.04
3.b5 1N-H20
119. 39i CU-FI
65.6 F
117.666 SCF
310.9
14.634 SCF
1 1.06
.069
1 1.90
6.60
.00
HI. 30
30. 18
fb.O J
METRIC UNITS
1 1/30/02
1637
1637
120.0
12
.996
5.6 KM
.64
90.2 PM-H20
3.301 CU-M
10.7 C
3.332 SCK
310.9
.414 SCI*
11.06
.069
11 .90
6.00
.00
01 .30
30. 10
20.03
-------
   Pb

   PS1

   PS

   T3

   V9

   AS

   USSTU

   US

   ISO

   MN


   cs

   PHH


   MN
S"
  PPH
  MN


  CS

  PNM
    (JAkOMETHIC  PNtbSUHt

    STATIC PHES UF  STACK  UAS

    STACK PRES, ABS.

    AVEHAGt STACK  TEMP

    AV6 STACK CAS  VELOCITY

    STACK AREA

    STACK FLU*  RATE*  DRY*

    ACTUAL STACK FLOW KATt

    PERCtNT 1SUK1NET1C

    FILTERABLE  PARl
      MG. tPA b

    FILTERABLE  PART

    FlLTtRABLE  PART
      EMISSION  RATE

    SULFUR DIUXIUE
      MG. EPA 5

    SULFUR DIUXIUE

    SULFUR UIOXluE
      EMISSIUN RATE

    SULFURIC ACIO
      MG. tPA b

    SULFUHIC ACIU

    SULFURIC ACIO
b« DtG F,
                          IN.HG.
         IK-NO
->
,•9
Ib9
86
£39
9^
OOt)
46

bl
.bO IN-McfU
,04 IN-HU
f
.1 FPS
. SU-IN
SCFH
ACFH
.«:
.UObl GH/OSCF
.142 LB/HH
-3U.IO KM-M
737. bl *M-h
7b. C
tib.j KPS
c!9.1U6 SU-M
200UO.U


    ,b79b GH/USCF*    132b.bbb

5B49.54b LB/HK        <>bb3.35 KG/HH


  84.4                 84.4
    .Ulll GK/USCF*

 111.697 LB/HK
ib.333 t-b/OSCK

SU.b7 KG/HK
-------
              EXAMPLE PAKTICULATE CALCULAI IONS TEST NO.

                   UNIT i
        vuLuMt UF DRT GAS SAMPLED AT  STANUAHU  CONDITIONS

        VMSTO = (17.647 * VM * V •  (Pb  »  PM  /  11. b))  / ITM * 460.)
                  17.647 *   119.395  *   .99(1  *  (  «>9.15 * 3,b53 / 13.6)
        VMSTO = — — — --- - --- ......... ------- . --- --- — - ---- ....... =     117.660 USCF
                                  (  66.  «•  160.)
        VOLUME UF NATE.R VAPOR AT STANDARD  CONDITIONS

        VHC  =  .04707 * VLL

        VNC  =  .04707 *  311. s  14.63  SCF



        PERCENT MOISTURE IN STACK GAS

        BnO  3  (100.  * VNC) / (VMS 1 1) «•  VWC)

t£>                 1UO. *  14,63
O       BNU  *  ............. — . — . — — . s  11.06  PERCENT
                   117.660 t  14-.63



        MULE FRACTIUN OF DRY STACK bAS

        FMD  :  (100.  - HMO) / lOu.

                  100. -  11.1
        FMD  =  —. — . — —
                       1UO.
        AVERAGE  MULECOLAR HEIGHT OF DHY  STACK  GAS

        MO  s  (PCOi * .44) » (POi *  ,3
-------
SIACK GAS VtLUCITT  AT  blACK  tUNDlIlUNb

OtLP = SUM. OF  THt  SOHHVM  *  ITS  t  <4bO.))

VS * 85,49 » CP  • DELP /  (SuKUMKS  *  PS)  * PMS)

VS = 65.49 *   .04 •  41b.52«  /  ISUHU  2tt.t»3 * 29.04)  *  I 2 . =   ttb.lb  FPS



STACK GAS VOLOMETKIC FLO* AT  STACK  CONDITIONS

OS = VS • AS •  3bUO/l44

Ob =   flb.ib *  45239.  3b(IU/144  =    97431000. ACFH



STACK GAS VULUMtTHIC FLUM AT  STANOAMD  CUNU1HUNS

OSSTO = 17.047  • US *  PS  *  11.  -  (BnO/lbO)) / (TS * 4bO.)

          17.b47 *   974310UB.  *  39.04  *  (1. • (11.0b/100)J
OSSTD = — — ----- — - ------------------- --- --- - — - ---- - ---- =    70b3b91<>.  SCFH
                    ( Ib9. »  4oO.)



PtWCEwT ISOKINETIC

ISO > (30i.bB* (TS»4bO.) )»tlU.OO«;bb9*VLC)'»(VH*r*lPU* lPM/13.b))/(TM'»4bO.)))/lTT*VS*HS*()N*ON)
       (305.56«{  Ib9.t4b0.) J«((U.OO^bb9«   311. )t(  llS.39b*  .990«(  2S.l^«l    3.553X 1 3.b) ) / (  bb.*4bO.)))
ISO = ------------------------------------------------ • ------------------------------------ - ----- - --- —  *  90.24 PERCENT
                                    120.  *     ttb.15 *   29. 04 •   .221  •   .221



PARIICULATE LOADING --  EPA  METHOD  5  (AT  STANDARD CONDITIONS)

CS = 0,001 * MN *  15.43 / VM3TO

CS = 0.001 *      4b.2  * 15.43  /    117.668 =       .0061 bK/USCF



PARIICULATE LHSXHH --  EPA MLTHUU  b

PMR = Ct> * USSTO  / tlb.43 *  4b3.b)

PNH =       .OObl  *    70b3b
-------
                                                              FlELO  DATA
 I
U3
NJ
PLANT MONGU POWEK PLEASANT*
SAMPLING LOCATION UNIT 1
SAMPLE TYPE *5b
OPEKATUR CLARKE
AMBIENT TtMP.lOE6.FJ 5b.
BAR. PRESS. (IN. H6) 29.19
STATIC P»tSS.tIN.H*0) -1.50
FILTER NUMBER(S) 0002696
STACK INSlOt DIM. UN) 240.00 .CO
PHUT TUBt COtFF. .04
THEHM. NO. 125
LEAMbt .0*" CFM .ooo
.900
.900
,9uO
PRESSURE
DIFFERENTIAL
(IN.
OESIREU

3.5t»
3.40
3.40
3.44
3.4b
3.46
3.46
3.50
3.65
3.50
3.50
3.47
H20)
ACTUAL

3.60
3.40
3.40
3.40
3.50
3.50
3.50
3.50
3.70
3.50
J.bO
3.50
STACK
TEfP
(OEG.F)


168.
170.
169.
160.
169.
166.
169.
167.
169.
169.
167.
170.
DATE 11/31/02
RUN NUKUEH SCMbB
HHObt LtNblH & TYPE b* GLASS
^U//LE 2-09: 1.0. .220
ASSUMED MOISTURE 12.0
SAMPLE bOX NUMBER
CE1ER t)UX NUMBER FB3
MbTEH HEAU OlFF. 2.00
C FACTOR 2.14
PROUE HEATER SETTING 320.
HEATER BOX SETTING 320.
REFERENCE PRESS. OlFF. .00
DRY UAS Ktitw PUKP SAMPLE IMPINGER
TEMP
(OEG
1KLET

66.
60.
74.
ao.
02.
«4.
05.
05.
06.
06.
06.
07.
.F)
OUTLET

66.
65.
64.
b5.
65.
66.
66.
67.
67.
60.
60.
60.
VACUUM
(IN.HG)


e.b
"».o
9.5
10.0
9.0
•J.o
9.0
«.5
10.0
9.5
',5
S.5
BOX TEMP
(OEG.F)


324.
327.
329.
319.
313.
315.
316.
315.
316.
315.
315.
319.
TEMP
(OEG.F)


50.
«.
85.
84.
60.
54.
SO.
48.
40.
46.
44,
«6.
      TOTALS
      AVERAGE
120.0
                                    117.114
                                        3.40
3.bO
                                                         169,
01.
                        66.
                                 9.3    319.
                                  55.
-------
           PARTICULATE  FltLO UAIA 4 HEiULTS lAbULAIIUN




PLANT- NAMt  ANU  ADDRESS               TEST TEAM LEADER




MON6U POKER  PLEASANTS                 CLARKE
TEST  5CM5B
      UNIT  1

TEST DATE
TB
TF
TT
NP
y
UN
CP
>> PM
1
vo
w v»
TM
VHSTU
VLC
vntC
U»0
ENGLISH UNITS
11/31/02
TIME-START Ie36
TIME-FINISH 1»36
NET TIME OF TEST, MlN. 120.0
NET SAMPLING PUlNTS \
-------
PB        BAROMETRIC PKESSUHt

PSI       STATIC PKES UF SIACK  GAS

PS        STACK PRES, A8S. .

TS        AVERAGE STACK TEMP

VS        AVG STACK GAS VELOCITY

AS        STACK AREA

USSTO     STACK FLU* RATE. OKY*

US        ACTUAL STACK FLOn HATE

1SU       PERCENT ISOK1NET1C

MM        FILTERABLE PART
            MG, tPA b

CS        FILURA8LE PART

PMR       FlLTtRABLE PART
            tMlSSION RATE

Mfc        SULFUR OIOXIUE
            MG. EPA b

CS        SULFUR OIOXIOE

PKK       SULFUR OlUXlOE
            EMISSION RATE

NN        SULFuRIC ACID
            MG. EPA b

CS        SULFUKIC ACIU

PMK       SULFuDIC ACIO
            EMISSION RATE
                    29.19  1N-HG        741.43  KM-HG

                    -l.bO  1N-H20       -38.10  KM-H20

                    29.06  1K-HG        73tt.b2  PM-HU

                   Ib9.    F             7b.    C

                    Bb.2   FPS           2b.3   ^PS

                     >.   SU-IN          29.1ttb 3Q-M

                           SCFM     !V9ob42.

              974»3bOO.    ACFH     27b0443.

                    97.^                 97.2




                      .0073 GR/OSCF*     Ib.bl9 PG/OSCP

                    72.921 LB/HR         33.00 KG/hK
                  4420.U
                                                            4420.0
                      .b943 GK/OSCF.   1360.277

                  5S6B.753 Lb/HH       2707.43 KG/hH
                   134.0
                                                             134.0
                      .0100 GK/OSCF*     41.239 PG/OSCf

                   190.953 LB/HM         02.Oa KG/HH
•  b8 OEG f,  29.
iN.hG.
-------
      EXAMPLE PARTICIPATE CALCULATIONS  TEST  NO.
           UNIT  t
VOLUME OF UKY (iAS SAMPLED  AT  STANUARl)  CUNUITIUN5

VM3IO - (17.047 • VM  •  Y *  IPU  *  PM  /  13.6))  /  (TM t 460.)

          17.647 *    117.114  *  1.006 *  (  29.19  + 3.bOO / 13.6)
VMSTD = -- — - — — — ----- - --- - ----------- -- -------- --- --- --- =     114.760  OSCF
                         I   74. * 460.)
VOLUME OF WATER VAPUR  AT  STANDARD  CUNQITIUN5

VnC = .04707 • VLC

VNC ' .04707 *  322. =  lb.17  SCF



PERCENT MulMURE  IN STACK  UAS

BMO z (100. * VNC) / (VMSTD  «  VMCJ

          100, *   15,17
BftO = --------------------------  =  11.67  PERCENT
           114.760 *   15.17



MULE FRACTION OF  DRY STACK GAS

FMD = (100. - uno) / too.

          100. -   11.7
FMD = — — --- -- --- --——---  s    .683
               100.



AVERAbE MULECOLAR  MEIGHT  OF  DRY  5TACK GAS

MO = IPCOi » .1*4)  + (P0«i  * ,3
-------
      STACK GAS  VELOCITY  AT  STACK CONDITION!)

      DELP =  SUM.  OF  TMt  SQNTIVH * (T5 + 460.))

      VS = 65.49 * CP  * OELP /  ISUHHMKS * PS) * HNT3)

      VS = 55.49 *   .04 *  416.501 /  IbuHH 2B.75 * 29.08)  *  12. -   8b.l9  FPS



      STACK GAS  VOLUME TKICflQK  AT STACK CONDITIONS

      OS = VS  *  AS *  3bUO/l44

      OS s    66.19 *  45239.  3600/144  =   974B36UO. ACFh



      STACK GAS  VOLUMETKIC FLUM  AT STANUAHO CUNUIUUNS

      OSSTO *  17.647  * OS  *  PS  * (1.  - (BwU/IOO)) / (TS » 460.)

                 17,647 *   97463600.  *  39.0(4 * (1. - (11.67/100))
      QSSTO s  — - — - — — — — — — — — ------- - — ---- — — — s   7oa949i?0. SCFH
                          ( 169.  * 460.)


>

10    PERCENT  ISOKINETIC
cr\
      ISO = (30S.b8« (TS+460.) )•( (U.00^669«VLC)+ lVH»r* IPb* IPH/13.6) )/( TMt4bO .)))/( T T * VS*PS*DN*DM
              (305.5a«(  lb9.»460.)J»((0. 00^669*  3^^.)*(   1 I 7 . 1 1 4* 1 . OOb* ( 29.19+(    3. SOU/ 1 3.6 ) ) / I  74.+460.JJJ
      ISO * -------------- - --------------------------------------------- — -------------------------------- — a  97.15 PtkCENT
                                          120.  *     86.19 *    2V. OB *  .220 *   .



      PAHTICULATE LUA01N& --  EPA  METHOD  5 (AT  STANDARD CONDITIONS)

      CS s 0.001 * MN •  15.43 / VMSTO

      CS = 0.001 *      S4.0 • 15.43  /   114.760 =        .0073  GK/USCF



      PARTICULATE LUS/HH -- EPA METHOD 5

      PMH = C!> * uSbTU  / 115.43 *  4bl.b)

      PMH =       .0073  *   7029492B. /  (lb.43 *  453. b)  =    72.
-------
                                                        KULLt  DATA
        PLANT
        SAMPLING LOCAIION

        SAMPLE TYPE
        OPERATOR
        AMBIENT TEMP.(OEC.F)
        BAR. PRESS. (IN. HO
        STATIC PHtS5.dN.M20)
        FILTER NUMBERIS)
        STACK INSIDE DIM. UN)
        PITuT TUBE COEFF.
        THERM. NO.
        LEAKAGE
        ME TEH CALIB. FACTOR
                     MUNGU PO*EK PLEASANTS
                     UNIT i
                     CLARKE
                      55.
                     at.lt
                     -1.50
                      240.00    .00
                       .8*4
                     125
                      .008 CFH « 13.5 IN.HG
                      .988
                                                UAlt                      11/30/82
                                                KUIV NUMBER                 5DM5B

                                                PHOUE LENGTH  ft  TYPE       6'  GLASS
                                                MJZZtt  2-12:  1.0,         ,220
                                                ASSUMED MOISTURE          12.0
                                                SAMPLE box NUMBER
                                                PETEN BOX NUMBER          FB5
                                                METER HEAO D1FF.          1.95
                                                C FACTOR                  2.14
                                                PHUBE HEATER  SETTING      320.
                                                HEATER BOX SETTING        320.
                                                REFERENCE PRESS. UIFF.     .00
        READ * RECORD DATA EVtNY 10.0 MINUTES
THAVEMSE SAMPLE
POINT TIME
NO. (MIN.J
CLOCK
TIME
(24-MR
r* nrw i
GAS MtUR VELOCITY UR1F1CE PRESSURE STACK
HEADING HEAD DIFFERENTIAL TEMP
(CU.FT.) (IN.H2U) UN.H20) (DEG.F)
UESIREU
IN1T 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
40.0
100.0
110.0
120.0
1638
1648
1658
1708
1718
1728
1738
1748
1758
1808
1818
1828
1838
320.033
329.500 2.000
338.315
351.273
359.525
369.998
379.000
387.915
398.750
408.880 <
418.450
428,700
440.182
.900
.900
.900
.900
.900
.900
.900
.000
.900
.900
.900

3.60
3.40
3.45
3.46
3.48
3.50
3.50
3.50
3.70
3.50
3.50
3.50
ACTUAL

3.60
3.40
3.50
3.50
3.50
3.50
3.50
3.50
3.70
3.50
3.50
3.50
OKY GAS MEIER PUMP SAMPLE
TEMP VACUUM BOX TEMP
(DEG.F) (IN.HG) (DEG.FJ
IMP1NGER
TEMP
(OEG.F)
ULET OUTLET

168.
170.
169.
169.
169.
168.
169.
167.
169.
169.
167.
170.

70.
71.
79.
83.
86.
87.
88.
88.
88.
88.
87.
87.

70.
68.
68.
70.
70.
72.
72.
73.
74.
74.
74.
74.

6.0
9,0
s.o
9.0
9.0
10.0
10.5
12.0
13.0
13.5
13,0
13.5

323.
329,
344.
335.
313.
314.
317.
321.
324.
317.
314.
319.

50.
40,
74.
7*.
58.
50.
SO.
48.
40.
42.
42.
44.
TOTALS
AVERAGE
120.0
120,149
                                                    3.51
                                                 3.52
                                      169.
84.
72.
10.8
323.
52.
-------
           PARTICIPATE FIELD DATA & HE&ULTS
PLANT- NAME AND AUUHESS               TEST TEAK LtAOtK
HON60 POWER PLEASANTS                 CLARKE
TEST  50M5B
UNIT

TEST DATE
TB
TF
TT
NP
Y
UN
CP
PM
%
TM
VMSTO
VLC
VKC
UNO
FMU
pcu2
P02
PCo
PNc!
MO
MhS
ENGLISH UNITS METKIC UMTS
11/30/62 11/30/62
TIME-STAKT l6Jtt 1636
TIME-FINISH IU3B IS 3d
NET IIME OF TEST, MIN. 110. 0 120.0
NET SAMPLING POINTS 12 12
METER CALIBRATION FACTUH ,9«6 .988
SAMPLING NUZZLE DIAMETER .£20 IN 5.6 KM
PITOT TU<»E COEFFICIENT .«« .01
AVERAGE ORIFICE PRESSURE 3. 52 1N-H20 09.3 PM-H
URUP
VOLUME OF DRY GAS SAMPLED 120.119 CU-FT 3.402 CU-M
AT MtTEH CUNUITIUNS
AVERAGE GAS METER TEMP 77.5 F 25.3 C
VOLUME OF DRY (.AS SAMPLED 114.763 SCF 3.250 SC*
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 322. 0 322.0
IMPINGERS AMD SILICA G£L«*L.
VOLUME OF MATER VAPOH lb.157 SCF .429 3CK
AT STANDARD CONDITIONS*
PEHCENT MUlSTUKt BY VOLUME 11. b7 11.67
MOLE FHACT10N DRY GAb .663 .U03
PERCENT LU2 BY VUL.. DKY 11.90 11.90
PERCENT D2 BY VUL., uKY b.ttO o.ttO
PEKCENT CU BY VOL.i DRY .00 .00
HEKCtNT N2 BY VUL., OHf 81.30 U1.3U
MULECULAK nT-DKY STACK GAb 30.10 30.10
MOLECUL*K r.T-SIACK GAS 2B./6 2d.7o
-------
PB        BAHUMETHIC  PRESSURE

PS1       STATIC  PKES UF  STACK  GAS

PS        STACK PRES,  ABS.

T3        AVERAGE  STACK  ItMP

V8        AV6  STACK GAS  VELOCITY

AS        STACK AREA

USSTU     STACK FLOW  RATE*  OHY*

US        ACTUAL  STACK FLU* KATE

ISO       PERCENT  ISUKlNfcUC

Mfc        FILTERABLE  PART
            H6. tPA "3

CS        FILTERABLE  PART

PPM       FILTERABLE.  PART
            EMISSION  RATE

MN        SULFUR  DIOXIDE
            MG. EPA 5

cs        SULFUR  DIOXIDE

PKH       SULFUR  DIOXIDE
            EMISSION  RATE

MN        SULFUHK ACID
            MG. EPA b

CS        SULFUR1C ALIU

PHK       SULFURIC ACID
            EMISSION  RATE
 c!9.l9

 -l.SO
169.    F

 Bb.d   FPS

   .   SU-1N
        ACFH
                       741. <4i  t'M-Mii

                       -JB.10

                       7jU.bi>  KM-MG

                        76.     C

                        iJb.i    KPS

                        29.166 SU-M

                               SCKM

                  8760506.
  40.d                  46.2


    .0065 GR/DSCF*      14.633

  65.067 LB/HK          29


4400.0                4400.0


    .5916 GK/OSCF*    1354.069

5941.570 LB/HK        2695.10 KG/HH
                            KG/HH
 74.0
                        74.0
   ,0099 GK/USCF*     «iS.773 t'b/DSC»'

 99.926 LB/HK         45.33 KG/HH
   *  68 DEG F.  29.92  IM.HG.
-------
               EXAMPLE PAWIICULATE CALLULAlIUNb  TtM  NU.

                    UNIT 1
         VOLUME  uF  OHY  GAS SAMPLED AT STANUAHU CUNUIIIUNS

         VHSIU  = (17.647 * VM * T * IPO + PM / 13. b)) /  (IM  *  460.)
                   17,647 *   1*0.149 *  .988 *  ( ^9.19 » 5.517  /  13.6)
         VKSTD  *  .-._.--.---- — ....... --------- ... ------ .. ---- ........  =    114.764 OSCF
                                  (  78. * 160.)
         VOLUME  UF  NATEH VAPUH AT STANDARD CONDITIONS

         VwC  =  .04707  * VLC

         VMC  =  .04707  *  32Z. =  Ib.lb SCF
         PtHCtNT  MUISTUHt  IN STACK bAS

         BNO  «  (100.  *  VMC)  / IVMSTD »

^                  100.  *   15.16
 I        UnU  «  — — -- ---- — -- --- .-.---.- s 11.67 PERCENT
M                  1 14.763  *  15.16
o
o

         MULE FRACTION  UF  DRY STACK UAb

         FMO  *  (100.  -  BNU)  / 100.

                   100.  -   11.7
         FHU  =  --- ----------- - — — — • s   ,B83
                        100.
         AVEMAGE  HULtCULAH MblbHt UF OHY STACK GAS

         Ml)  =  (PLO8

         MU  =  (11.90*44/100) *  ( 6.0*3cV100)  + ((81.3* .0) * <>8/lOO =    30. IS



         MULbCULAR WtlbHT  UF STACK GAS

         MMS =  MO «  (1.  -  (HnO/luo)) + 10. *  (Hwu/lOU)

         M»S =   30.10*  (1. -11 1 .b7/luO) ) + 1U. * (11.67/100) =   
-------
STACK GAS VtLOClTY  AT  STACK  CONDITIONS

DtLP = SUM. OF  THt  5QHHVH  •  US  *  4bO.J)

VS s 05.49  • CP  * DtLP /  ISURTlMaS  *  PS)  *  PMb)

Vb : a5.49  *   .04 *  41b.52b  /  ISUHH 2a.7b *  29.00)   *   12.  =   bb.20 FPS



STACK GAS VOLUMETRIC fLON AT  STACK  CONDITIONS

Ob s VS * AS »  3600/144

QS =   Bb.20 *  45c!39.  3bOO/144  =    974fi5ba4. ACKH
31ACK GAS VULUMtlHIC FLU*  Al  bTANUAHD

05STD s 17.647 • US •  PS •  II.  -  iBnO/100))  /  (TS  *  4bO.)

          17.b47 *   974aBb
-------
                                                             FIELO  DATA
 I
M
O
PLANT MUNO PUWEH-PLEASAMS
SAMPLING LOCATION UNIT 1
SAMPLE TYPE M5b
OPEKATON UO
AMBIENT TEMP. (OEG.F) 55.
BAR. PRESS. (IN. HC) 29.10
STATIC PRESS. (IN. H20J -1.50
FILTER NOMUtRlS) 0002696
STACK INSIDE DIM. UN) 240.00 .00
PITUT TUBE COtFF. ,6<»
THEKM. NO.
LEAKAGE .002 CFM •! 6.0 IN.HG
METER CALIB. FACTOR 1.037
READ t HECOHO DATA EVERY 10.0 MINUTES
THAVEKSE SAMPLE CLOCK GAS MtTtH VELOCHY UR1FICE PHtSSOKt STACK
POINT TIME TIME HEADING HEAO DIFFERENTIAL TE*P
NO. (MlN.) (24-HR (CU.FT.) (1N.H2U) (1N.H20) (OEG.F)

INIT 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
60.0
90.0
100. 0
110.0
140.0
VV.UVHJ
941
0
0
0
0
0
0
0
0
0
0
0
1141
DESIrtED
759.746
769.060
777.910
766. 900
795.660
804.660
013.660
622.770
632.060
641.550
6b0.860
660.190
669.461
.900
.700
.700
.600
.700
.700
.700
.800
.900
.800
,600
.600

3.37
3.02
3.03
2.66
3.05
3.07
3.09
3.27
3.43
3.27
3.28
3.26
ACTUAL

3.37
3.02
3.03
if. 88
3.05
3.07
3.09
3.27
3.43
3.27
3,28
3.26
OATt 12/01/82
HUN NUPbEH 6AM5B
PHOUt LENGTH ft TYPE 6' GLASS
NUllLE 2-03 : 1.0. .219
ASSUMED MOISTURE 12.0
SAMPLE box NUMBER
CETEK BOX NUMBER F04
MtTER MEAO OIFF. 1.87
PHOdE HEATER SETTING 320,
HEATEH BOX SETTING 320.
OKY GAS KEIEH PUCP SAMPLE IMPINGER
TEMP VACUUM BOX TEMP TEMP
(OEG.F) (IN.HG) (OEG.F) (OEG.F)
INLET OUTLET

156.
159.
161.
160.
163.
160.
159.
160.
164.
162.
160.
164.

57.
60.
66.
/U.
72.
73.
74.
74.
75.
76.
76.
76.

56.
56.
57.
59.
60.
62.
63.
64.
65.
65.
66.
66.

5.3
5.5
5.4
5.0
5.2
5.2
5.2
5.6
5.6
5.7
5,6
5.7

321.
337.
325.
335.
339.
330.
320.
332,
339.
335.
323,
331.

42.
40,
59.
59.
57.
58.
57.
54,
52.
52.
SI,
so.
     TOTALS
     AVEHAbE
109.713
                      3.17
3.17
161,
71,
61,
5.5   331.
53.
-------
           PAHTICULAIE FIELD DATA 6 RESULTS  TAbULAIIUN
PLANT- NAMt AND ADDRESS                JEST TEAM LEADEN
MONO POWER-PLEASANT3                   oo
TEST  bAHSb
                 UNIT 1

TEST DATE
TB
TF
TT
NP
V
UK
CP
> PM
1
O yp
U)
TM
VMSTU

TIME-START
TIME-FINISH
NET TIME OF TEST, MIN.
NET SAMPLING POINTS
METER CALIBRATION FACTOR
SAMPLING N02ZLE DlAMtTER
PITOT TUBE COEFFICIENT
AVERAGE ORIFICE PRESSURE
DROP
VOLUME OF DRY GAS SAMPLED
AT METER CUNDITIUNS
AVERAGE GAS METER TEMP
VOLUME OF DRY GAS SAMPLED
ENGLISH UNITS
12/01/a2
941
1141
120.0
12
1.037
.219 IK
.04
3.17 1K-H.JO
109.713 CO-FT
66.2 F
112.234 SCF
METRIC UNITS
12/01/B2
941
1141
120.0
12
1.037
i.6
.04
00.5
3.107
19.0
3.170



CM

"""•
CO-M
C
sec
VLC

VftC

UNO
FPD
PCU2
POd
PCU
PNd
MD
          AT STANDARD CONDITIONS*
          TOTAL H£0 COLLECTED IN
          IMPINGERS AND SILICA GEL, ML,
          VOLOME OF MATER VAPOR
          AT STANDARD CONDITIONS*
          PERCENT MOISTURE BY VOLUME
          MOLE  FRACTION DRY GAS
          PERCENT LOd BY VOL., DHY
          PEHCLNT 02 BY VOL., DRY
          PERCENT CO HY VOL.» URY
          PERCENT Nt? BY VUL., URY
          MOLECULAR rtT-DHY SIA(,I\ (,AS
          MOLECULAH nT-SIAUK  bAS
339.4
        SCF
339.4
                        .452
Id. 46
.675
Id. 67
5.t>0
.00
ttl.bJ
Ju.td
26.75
12.46
.»75
U.B7
5.60
.00
01.53
.10. c! a
2B.75
-------
PB

PSI

P3

TS

vs

AS

USSTO

as

ISO

MK


cs

PPR


Mh




PMH


MK


CS
       BAROMETRIC PKESSURE

       STATIC PRES OF SIACK bAS

       STACK PRES, ABS.

       AVERAGE STACK TEMP

       AVb STACK bAS VELOCITY

       STACK AREA

       STACK FLU" HATti DRY*

       ACTUAL STACK FLOn HATE

       PEKCENI ISUKlNETiC

       FILTERABLE PART
         MG. EPA b

       FILTERABLE PARI

       FILTERABLE PART
         EMISSION HATE

       SULFUR DIOXIDE
         HC. EPA -3

       SULFUR DIOXIDE

       SULFUR UlUxIuk
         EMISSION RATE

       SULFURIC ACID
         MG. EPA i

       SULFUKIC ACIU

       SULFOHIC ACIU
         EMISSION RATE
      29.18  IN-Hb

      -l.bO  1N-H20

      29.07  1N-HG

     Ibl.    F

      ttti.U   FPS

   45239.   SU-IK

6711795^.    SCFH

             ACFH

     100.4

      33.6


        .U046 GK/USCF*

      44.^90 LB/HR


    3950.U
    741.17  *M-HG

    -30.10  CM-h^O

    73B.37  *M-HG

     72.    C

     25.0   fPS

     29, lab SU-M

1900579.    aCt-M

2627517.    ACPH

    100.4

     33.6
     10.573

     20.09 KG/HR


   3950.0
        .5430 GR/USCF*   1242.992 KG/DSC"

    5207.62
-------
            EXAMPLE  PAHTlLULAle CALCULATIONS TEST NU.

                  UNIT  t
      VOLUMt OF OHY  GAS SAMPLED AT STANUANO CUNUIIlUNS

      VMSTD a  (17.647  » VM * T * (PB » PM / 13.b)J /  CTM  t  4bO.)

                17.647  «    109,711 * 1.037 • I <>9.1b  *  J.16B  /  l3.b)
      VMSIO =  ----------------------------------------------------- =    H«!.
I                100.  *   lb.98
      BwO » — — .-.-. ----- - ------- .. — s 12. 4b PEKCENT
      MULE FRACIIUN UF  UHr  5TACK  bAS

      FMO = (100. - bwOj  /  lOu.
                100. -   li.S
      FMO = ---------------------- - c   .875
                     100.
      AVEHAUE MULECULAH  MtlbHT  UF  OKY STACK bAS

      MO = IPCUi * .44)  t  (PUd  *  ,3i) * (PN«J + PCU) • ,<2B

                                       UO)  » ((dl.b* .0) • 2t»/100  =    30.
      MULECULAR IfitlbHT uF  S1ALK  GAS

      Mlr»S = MU * 11. - COnU/lOOJ)  »  lb.  *  (BWU/lOU)

                    (1. -I I<;.4b/lu0) )  *  Id.  *  (12.40/100)
-------
      SIACK GAS VLLOCITY AT STACK CONDITIONS

      DtLP = SUM. OF THt SGKTIVH *  (Ts  *  <4bO.))

      VS  * ttb.49 « CP • OtLP / ISUHI(MWS  *  PS)  *  PMS)

      VS  = 05.49 *  .04 *  39t>.3b2  I  (bGJRH 20.75 *  29. 07)   *  12. =   02.04 FPS



      STACK GAS VOLOMtTKIC FtON AT  STACK  CONDITIONS

      Ob  = VS * A3 * JbUO/l. SCFH
                         I Ibl. » 4t>0.)


>
ji,     PS.HCENT  ISOKINETIC
o
CT.     ibO  -  (JOb.b8«(TS»460.))<»l(U.002bb9*VLC)*(VH«Y*lPb+(P«/l J.b) ) / ( TM«>4bO . ) ) ) / ( T T • VS*PS*ON*OK )

             (30S.Sa*l lbl.*4bO.))*( (0.002bb9*   339. )t{   109 . 7 1 3* 1 .037* C 29.1ttt(   3. Ib0/ I 3.b) ) / (   bb.+460.)))
      ISO  s  ------------------------------------------------------------------------------------- -- ---- ...... * 100.42 PERCENT
                                         120. •      82.04 *    29.07 *   .219 *  .219



      PAHTICULATE  LOADING — tPA METHOD 5 (AT STANOAHO CONDITIONS)

      CS = 0.001 * MN «  15.43 / VMSTD

      Cb = 0.001 •     33. b * IS. 43 /   112.234  =       .004b  bK/UbCF



      PARTICULAR  LbS/Hh — EPA MtTriOU 5

      PMK  =  Cb  * JSSTU / lib. 43 * 4bJ.b)

      PMR  x        .UOOb  *   b71179Sc!. / (15.43 * 453. b) =     44.29U
-------
                                                        FIELD  UAIA
PLANT MONO PUHER-PLEASAMS
SAMPLING LOLAIIUN UNIT t
SAMPLE TYPE M5b
OPERATOR UO
AMBIENT TtMP.lDE6.FJ 55.
BAR. PRESS. UN. HG) it. 10
S1ATIC PRE3i.CJN.H20) -1.50
FILTER NUMdtR(S) 0002699
STACK iNSiot uiM.dN) 240.00 .uo
P1TOT TuBt COtFF. .04
THERM. NO.
LEAKAGE .000 CFM «l 0.0 IN.HG
METER CALIB. FACTOR .990
READ 4 RECORD DATA EVERY 10. U MINuTtS
TRAVERSE SAMPLE CLOCK GAS MtTtw VELOCIIY ORIFICE PRESSURE STACK
POINT TIME TIME READING HEAD DIFFERENTIAL TEMP
NO. (MlN.) 134-HR ICU.FT.) (IN.H2U) (1N.H20) IDEG.FJ

INIT 0
10.0
£0.0
30.0
40.0
50,0
60.0
70.0
00. 0
90.0
100.0
110.0
UO. 0
^* v ****** /
942
0
0
0
0
0
0
0
0
0
0
0
1142
DESIRED
494.232
503.690
512.910
522.140
531.190
540.450
549.740
559.160
560.740
570.540
500.090
597.720
607.315
.900
.700
.700
.600
.700
.700
.700
.aoo
.900
.000
.000
.000

.37
.02
.03
.«8
.05
.07
3.09
3.27
3.43
3.27
3.20
3.26
ACTUAL

3.37
3.02
3.03
2.00
3.05
3.07
3.0<>
3.27
3.43
3.27
3.20
3.26
DATE 12/01/62
RON NUfbtH 6BM5B
PROBE LENGTH ft TYPE b' GLASS
NUllLE 2-01 : 1.0, .220
ASSUMED MOISTURE 12.0
SAKPLE BOX NUMBER
METER BOX NUMBER FB0
KbTEH HEAD D1FF. 1.90
PRObE HEATER SETTING 320,
HEATER BOX SETTING 320.
UhY GAS PETER PUFP SAHPLE IMPINbER
TEMP VACUUM BOX TEMP TEMP
(DEG.F) IIN.HGJ (DEG.FJ (DEC.FJ
^LET OUTLET

150.
159.
161.
160.
163.
160.
159.
160.
164.
162.
160.
164.

51.
57.
61.
66.
60.
70.
71.
72.
73.
73.
/3.
74.

52.
52.
53.
55.
56.
50.
60.
61,
62.
63.
64,
64.

7.1
1,*
6.0
6.4
6.6
6.5
6.6
6.8
7.2
6.9
7.0
7.0

325.
323,
335.
334.
337,
328.
325.
325,
322.
331.
327,
330.

«•».
«5,
59.
50.
50.
60.
59.
5«,
54,
53.
52.
52.
TUTALb
AVERAGE
120.0
113.003
                                                    3.17
                                                 3.17
                                      161.
                                                                 60.
50.
6.9   329.
                                                                                                              55.
-------
           PARTICULAIE FIELD  DATA  4  hEbULTS  JAbULATIUN



PLANT- NAME AND AUORLSb                lEbT  TtAH  LEADER



MONO PUMCR-PLEASANTS                   uu
TEST  6BM5b
TEST DATE
UNIT 1
                                          ENGLISH  ONUS
                                               METRIC  UNITS






1
M
O
00












T8
TF
TT
NP
Y
UN
CP
PH
VH
T*
VHSTU
VLC
VftC
bfco
F*D
PCU2
P0«:
PCo
PN2
MD
MUtS
TIME-START 942
TIME-FINISH 1142
NET TIME UF TEST, MIN. 120.0
NET SAMPLING POINTS 12
METEH CALIURATION FACTOR .990
SAMPLING NUZILE DIAMETER .220 IN
PITOT TUbE COEFFICIENT .04
AVERAGE UR1F1CE PRESSURE 3.17 1N-H20
DROP
VOLUME OF DRY GAS SAMPLED 113.063 CU-FT
AT METER CONDITIONS
AVERAGE GAS METEH TEMP 63.0 F
VOLUME UF DRV bAb SAMPLED 112.005 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 350.7
IMPINGERS AND SILICA GEL, ML.
VOLUME OF MATER VAPOR Ib.b07 SCF
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VOLUME 12.05
MULE FRACTION DRY GAS .072
PERCENT C02 BY VOL., DRY 12.07
PERCENT 02 BY VOL., DRY 5.60
PERCENT CO BY VOL., DRY .00
PERCtNT N2 BY VUL.« ORY 01.53
MOLECULAR wl-OKY STALK bAb 30.20
MOLECULAK rtT-SIACK bAb 20.71
Q « i
1 1 41 ^
120.0
12
.998
5.6 >
-------
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-------
           tXAMPLt PARTICIPATE  C ALCUL A I IUNS ItbT NU.

                UNIT I
     VULUMt UF OHY GAS SAHPLED  At  ijTANUAHO CONDITIONS

     VMSID = (17.647 • VM  *  Y •  IP» » PM / 13. b)) / (TH * 460.)
               17.047 *    115*065  *   .S«Ja * ( as. IB t 3.160 /  15.6)
     VMSTO = — -------------- - — - ----------- •-- ---- --• -------- -•--  =     ii«J.ooa ustF
                              I  63.  » 4oC.)
     VOLUME UF WATER VAPUR  AT  STANUAHD CONDITIONS

     V«C » .04707 * VLL

     V«C s .04707 •  351. =   16.51  SCF



     PERCENT MOISTURE IN STACK  GAS

.     BNO f (100. * VMC) / (VMSTO  *  VnC)

H->              100. *  10.51
M    BMO =	=  12.8b PERCENT
0               lli.OOS »   10.bl
     MULb FRACTION OF DRY STACK  GAS

     FMO = (100. - HnOJ / 100.

               100. -  lc!.0
           - — --- -------- — .... ...
                    100.
     AVtHAUE HULtCULAR NLIbH)  UF  UHY  STACK  GAS

     MO = IPCO£ * .44) »  (P0
-------
STACK GAS VELOCITY AT  STACK CONDITIONS

OfeLP = bOM. OF THt bOHUVH *  ITS  +  4bO.))

VS = 05.49 • CP * DtLP  /  lSuKI(MHb  *  PS)  *  HNTS)

VS = BS. 49 *  .64 *  39c>.3b39.  JbUU/144  =    SaobbTU.  ACFH
STACK GAS VULUMtTHK FLUn AT 6TANUAHO CONDITIONS

OSS10 » 17.b47 « US • P5 •  11. -  (BwO/100))  /  (TS  »  4bO.)

          17.b47 *   9a0bb7U. *  Z9.U7  *  (1.  -
            .- — -. — .. — .- — ............. — . —
                   I Ibl. * 4oO.)
03STD s
                                                                 bbb7«OSt>. SCFM
PtHCENT I30KINETK
130 =
                                                lPU«(PH/l3.b))/(TM»4bO.)))/lTT*VS*PS*ON*OK)

                                           3M.)t(   113. 083* .99d*( i9.1»+(   3. Ib8/ 13. b) ) / (   b3.»4bl.J)}
                                                                   — ------------- - ----------- - --- — —
                                               aa.ll  *    £9. 07 *  ,2iO *
                                                                                                               . bb PERCENT
PARTICULATE LUAUINU -- EPA METHOD  5  (AT  STANDARD  CONDITIONS)

Cb = U.OOl • MN •  lb,4i  / VM3TD

Cb = l/.OOl *     33. « *  lb.43  /    lia.OUb  =        .0047  bK/USCF
PARIICULATE LBS/Hk -- tPA MtTHOU  b

PMR = Cb » USbTu / lib. 43 *  4ij.bJ

PMK =       ,00<47 «   bo«7Bu9o. /  lib. 43  «  453. 0)  =     44.493
-------
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-------
                                                             HELO  UATA
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M
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PLANT MUNU PUWER-PLEASANTS
SAMPLING LOCATION UNIT 1
SAMPLE TYPE M5B-P400
OPERATOR UU
AMBIENT TEMP. (DEC. F) 55.
BAR. PKESS. (IN.HG) «!9.14
STATIC PRtSb.(IN.H20) -1.50
FILTER NOMBER(S) 000270<>
SIACK INSIDE DIM. (IN) 240.00 .00
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THERM. NO.
LEAKAGE .OOb CFM a) 7.0 IN.HG
METER CAL1B. FACTUR 1.037
READ * RECORD DATA EVERY 10.0 MINUTES
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POINT TIME TIME HEADING HEAD DIFFERENTIAL TEPP
NO. (HIN.) (24-HR (CU.FT.) (IN.H2U) (1N.H20) (OEG.F)
DESIRED
IN1T 0
10.0
20.0
30.0
40.0
50.0
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70.0
80.0
90.0
loo.o
110.0
110. 0

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3.34
3.3b
3.5b
3.5b
3.58
3.40
3.59
3.40
3.39
3.39
3.55
ACTUAL

3.16
3.34
3.36
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3.56
3.58
3.40
3.59
3.40
J.39
3.39
3.55
DATE 12/01/82
HUN NUMBER 7AM5BP
PROBE LENGTH « TYPE 6* GLASS
NU2/LE 2-11 : I.D. .222
ASSUMED MOISTURE 12.0
SAMPLE BOX NUMBER
PETER BOX NUMBER FB4
PETER HEAD D1FF. 1.87
PHUBE HEATER SETTING 400.
HEATER BOX SETTING 32*J.
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TEMP VACUUM BOX TEMP TEMP
(OEG.F) (IN.HG) (DEG.F) (OEG.F)
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161.
163.
162.
162.
163.
162.
161.
162.
163.
165.
164.
170.

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65.
70.
73.
76.
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78.
79.
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79.
79.

63.
63.
63.
63.
65.
66.
67.
66.
68.
69.
69.
70.

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324.
345.
325.
340.
328.
341.
326.
340.
326.
336.
341.
325.

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40.
48.
57.
63.
61.
63.
61.
57.
54.
54.
56.
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120.0
114.635
                                        3.44
                               3.44
163.
                                                                 75.
                                                       66.
6.3   333.
                                                                                55.
-------
           PAR1ICULATE FItLO DATA & RESULTS TAbULAIlUN




PLANT* NAME AND ADDRESS                TEST TEAM LEAUER




MONO PUWtR-PLEASANTS                   UO
TEST 7AMitfP
TEST DATE
UNIT 1
                         ENGLISH UNITS




                            12/01/02
                                                               METRIC UNITS
TB
TF
TT
NP
\r
UN
CP
PH
1
M VM
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CO
TH
VHSTD
VLL
v*c
Bhu
FCD
PCU2
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MD
Mh5
• •
TIME-START 1242
TIME-FINISH 1442
NET TIME OF TEST, MIN. 120.0
NET SAMPLING PulftTS 12
METER CALIBRATION FACTuR 1.037
SAMPLING N021LE DIAMETER .222 IN
PITOT TUBE COEFFICIENT ,b4
AVERAGE ORIFICE PRESSURE 3.44 1N-H20
DROP
VOLUME OF URY GAS SAMPLED 114. 635 CU-FT
AT METER CUNUITIUNS
AVERAGE GAS METER TEMP 70.4 F
VOLUME 01- DRY bAS SAMPLED llb.^50 SCF
AT STANDARD CONDITIONS*
TOTAL H20 COLLECTED IN 340.9
IMPlNGERa ANU SILICA GEL, ML.
VOLUME OF MATER VAPOR lb.04b SCF
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VOLUME 12.13
MOLE FRACTION DRY bAS .to79
PERCEN1 C02 bY VOL., DRY 12.53
HERCENl U2 bY VOL., DRY b.OO
PERCENT CO BY VOL., URY .00
PERCENT h«! HT VOL., 1>I
-------
>
N)
PB        BAHOMtTRlC  PwESSUHt

PSl       STATIC PRE6  UF  SIACK GAS

PS        STACK PHtS,  ABS.

IS        AVtRAGb STACK  TEMP

VS        AVti STACK GAS  VELOCITY

AS        STACK AREA

USSTU     STACK FLUN  RATE.  DRY*

US        ACTUAL 3TACK FtOw HATE

ISO       PERCENT ISOKJNtUC

M*        FILTERABLE  PART
            HG. EPA b

CS        FILTERABLE  PART

PfH       FILTERABLE  PAH1
            EMISSION  HATE

MN        SULFUR OIUXIUE
            MG. EPA i

CS        SULFUR U10XIUE

P»«H       SULFUH OIUXIUE
            EMISSION  HATE

MM        SULFURIC ACIU
            MG. EPA b

CS        SULFUHIC ACID

P»H       SULFURIC ACIU
            EMISSION  RATE
                                         29.1«  IN-HG

                                         -i.bfl  IN-M«;U

                                         ?9.U3  IN-Hb

                                        163.    f

                                         6H.il   FPS

                                      45

                                                                       64.93 KG/HH
*  bit UEG F(
                        1N.HG.
-------
to
Ui
              EXAMPLE  PAHTILULAIE CALCULAI IONS

                    UNIT  t


        VULuMt  UF  UKY  GAS  SAMPLED AT bTANUAND CONDITIONS

        VMS1D =  (I7.to47  •  VM • t * IPU * PM / 13. to)) /  ITM  *  160.)

                   17.047  •   114, b35 • 1.037 * ( £<).14  *  3.440  /  13. o)
        VMSTD s  ---- — - ------------ - ------------ - ------- .-. — -. ------ =    llb.<>50 OSCF
                                  I  70. » 4bO.)


        VOLUME  UF  NATfcR  VAPuH AT STANUAKO CONUH10NS

        V«C s .U4707  * VLC

        VnC > .04707  *  341. =  lb.05 SCF
        PERCENT  MUlbTuRt  IN STACK GAb

        BMO  >  (100.  *  VNC)  / (VMSTO »

                   100.  *   lb.U5
        B*U  *  -------------------------- = 12.13 PEHCtNT
                    116.^50  »  Ib.uS
        MULE  FRACTIUN OF  DRY STACK

        FMD &  (ioo.  - HMUJ  / iou.

                   100. -   ld.1
                          — — ....... s   .679
                        100.
        AVEHAGE  MULECULAH MEIbHT UF DHY STACK GAS

        MO =  IPCOci  »  .44) + CPU*; * .3c!) * (PNi t PCu) *  .«»«

        MU =  U^.b3*<(4/10U) t ( b.U«3cV100) t ((61. bt .0)  *  ^d/100
        MULtCuLAR  rttlbhl  OF STACK GAS

        MMS  =  MU "  11.  -  (BnO/lUUJ) + lo. * (brtU/100)

        M«S  =   30^^*  (1. -I l
-------
STACK GAS VELOCITY AT MACK  CuNlMTlUNb

OELP = SUM. OF THt bQKTlVH  •  ITS  *  460.))

VS * «5.<49 « CP • OtLP /  ISuKHMKb  *  H3J  *  PMS)

V!> s tt5.«9 *  .54 *  00/l<»4  =    •*«»99 * uSiTu / lib. 43 *  4b3.b)

PMK =       .0062 *   6U610160.  /  (15.43 * 453. b)  =    b0.3ttl
-------
                                                             FltLU  DATA
>

H
KJ
PLANT MONO PUKER-PLEASANFS
SAMPLlNb LUCA1IUN UNIT 1
SAMPLt ITPE M5B-P400
OPEHATOH UU
AMBIENT TEMP. (0£G. FJ 55.
BAR. PKESS. (IN.HG) £9.14
STATIC PHtSS.UN.H2Q) -1.50
FILTER NUMBER(S) 0002703
STACK iNSlDt UlM.llN) 240.00 .00
PITUT TUBE tOtFF. ,«<4
THERM. NO.
LEAKAGE .OOB CFH « 9.0 IN.HG
METER CALIb. FACTUH .990
READ • RECOhO DATA EVtHT 10.0 HINUTES
TRAVERSE SAMHLt CLOCK GAS MtTtR VELOCITY URIFlCt PRESSURE SUCK
POINT TIME TIME HEADING HEAD DIFFERENTIAL TEMP
NO. (MlN.) 124-HR (CU.FT.) IIN.H20) (IN.H^U) (UEG.F)

1NIT 0
10.0
20.0
30.0
40.0
bO.O
00. 0
70.0
00. 0
90.0
100. 0
110.0
IdO.O
\* L « If " /
1243
0
0
0
0
u
u
0
0
u
u
u
1443
OESIHEU
607.517
616.850
66
3.^)8
3.40
3.59
3.40
3.39
3.39
3.55
DATE 12/01/62
NUN NUHBER 7UM5BP
PrtUUE LtNbTH ft TYPE 5' GLASS
NU2/LE d-10 : I.D. .221
ASSUMED POISTUKE 12. 0
SAMPLE BOX NUMBER
METER BOX NUMBER FB8
MtTEH HEAD DIFF. 1.90
PHOBE HtAIEH SETTING 400.
HbATEH BOX SETTING 320.
\
UKY GAS ME1EH PUMP SAMPLE IMPINGER
TEMP VACUUM BOX TEMP TEMP
(DEG.F) (IN.HG) (OEG.FJ IOEG.F)
1KLET OUTLET

161.
163.
162.
162.
163.
162.
161.
162.
163.
165.
164.
170.

62.
64.
67.
/O.
72.
?3.
73.
71.
/«.
/5.
75.
75.

61.
61.
61.
61.
63.
63.
64.
65.
66.
66.
67.
67.

7.3
8.2
8.2
8. 6
8.7
8.6
8.5
8.8
8.6
8.5
8.5
0.8

327.
337.
323.
328.
332.
340.
340.
326.
324.
333.
334.
339.

««.
42.
«3.
47.
51.
S2.
55.
38.
60.
60.
57.
Sb.
    TuTALS
    AVERAGE
120.0
117.890
                                                         3.44
                                                 3.44
                                      163.
71,
64,
8.5   332.
52.
-------
           PARTICULATE FIELD  DATA  4  htbULTb  lAbULATIUN




PLANT- NAME AND ADDRESS                ftST  TEAM  LEADER




MONO PUWtR-PLEASANTS                   OU
TEST 7UMS8P
TEST DATE
UNIT 1
                                          ENGLISH  UNITS
                                               METRIC UNITS
TB
TF
TT
HP
t
UN
CP
PM
1
M Vt»
to
00
TH
VMSTD
VLC
VhC
»»U
FMU
PC02
P02
PCO
PN«!
MO
M*b
UME-STAHT 1243
TIME-FINISH 1443
NET TIME OF TEST, MIN. 120. 0
NET SAMPLING PUlNTb 12
METER CALIBRATION FACTUR .990
SAMPLING NUZZLE DlAMtTER .«:21 IN
PITOT TUBE COEFFICIENT .04
AVERAGE ORIFICE PRESSURE 3.44 JN-M20
ORUP
VOLUME OF bRY GAb SAMPLED 117. 69U CU-FT
AT METER CuNDlTIONS
AVERAGE GAS METER TEMP 67. i F
VOLUME OF DRY GAS SAMPLED llb.70U 5CF
AT 9IANOARD CONDITIONS*
TOTAL H20 COLLECTED IN 363.1
1MPINGERS AND SILICA GEL, ML.
VOLUME OF nATEK VAPOR 17.091 SCF
AT SIANDAHU LOnUlTlONS*
PERCENT MOISIUKE BY VULUME 12.07
MOLE FRACTION DRY GAS .071
PEHCtNT CU«2 dY VUL., OHY I
-------
K)
UD
PB

PS1

PS

T9

va

AS

U8STD

US

ISO

Hfc


CS

PHR


MM


CS

PHK


MM


CS
bAROMETHIC PHESSUKt

STATIC PKES UF STACK GAS

STACK PHtS, AttS.

AVERAGE STACK TEMP

AVG STACK GAS VELOCITY

STACK AREA

STACK FLU" RATE« OrtY»

ACTUAL STACK FLO* HATE

PERCENT 1SUK1NET1C

FILTERABLE PANT
  MG. EPA b

FILTERABLE P*HI

FlLTtRAULE PART
  EMISSION RATE

SULFUR DIOXIDE
  MG. EPA b

SULFUR OIOXIuE

SULFUR UIOXIUE
  EMISSION RATE

3ULFURIC ALIU
  Mb. EPA b

SULFUHIC ACIU
                       ACIU
                         KATE
                                                      IN-Hb
                                               29,03  IK-Ml,

                                              163.    F

                                               84.1   FPb

                                                     SU-IN

                                                      SCFH

                                         9S14440U.    ACFH

                                              100.1

                                               3tt.O


                                                 .OObl GR/USCF*

                                               4V. 344 LB/HH


                                             4
-------
             EXAMPLE PAKJKULATE  CALCULAI IUN:> TEST Nu.7BM5bP

                  UNIT  l



       VOLUME OF OKY GAS SAMPLED  AT  bTANUAhU CuNDIHUNb

       VMSTD » (I7.b47  * VM  *  T *  (Ptf » PM / 13. b)) / (TM » 4bO.)

                 17.047 *    117,890  *  ,99tt * I 1*9.14 * 3.440 /  13. b)
       VMSTO * — . — — .-. — — — - — ---•---• — .. — —— — ----- — —  =     lib. 700 USCF
                                 (  t>7.
              UF NATfcR VAPUK  Al  STANDARD CONUIUUNb

       VnC = .04707 * VLC

       VMC « .04707 *  3b3. =   17. 09  SCF



       PERCENT HUISTUHt IN STACK  UA5

•^      BftO • (100. * V«CJ / IVMSTD  »  VWCJ
H
(.o                100. *  17.09
0      BwO « — — --------- - --- --- --- -- =  Id. 87 PEKCtNT
                  lib. 700 +   17.09
       MULE FRACTION OF DRY STACK

       FHO s (100. • BwUJ / 100.

                 100. -  lc>.<4
                      — ............  x    ,571
                      100.
       AVEHAUE MULECULAH MEIGHI OF  DRY  STACK  bAS

       MU = (PCO
-------
SUCK UAS VtLuClTT AT STACK CUNDIHUNS

DtLP = SUM. UF THE SUHHVH *  (TS •»  4toO.))

VS = ttS.49 * CP * DtLP /  lSuHT(MWS  * PS)  *  PNTS)

VS = 65.49 *  .64 •  405. 550  /  CSuRH 26. b7  •  29.03)   *   12.  =   84.13 FP3




3IACK GAS VULUMtTHIC FLU* AT  STACK  CONDITIONS

Ui = VS • AS * 3bOO/l44

US =   64.13 * 45<>3<*. 3bUU/144  =    9S1444UO. ACFN




STACK GAS VULUMtTHIC FLU* AT  STANDARD CUNDIT iUNS

OSSTU s 17.647 * US * PS  * (1.  - IBAU/IUO))  /  (TS  t  4bO.)

          17.b47 *   95144400.  *  29.03  *  (1.  -  (12.07/tOU)}
OSSTO » .—. — — . — ... --------- .... --- .................... s   bai48b7£. 5CFH
                   I IbJ. * 4bO.)




PERCENT ISOKINETIC

ISO * (30i.bU* (TS»4bO.) J*l(O.OOcibb9«VLC)*CVM*r* (Ptt* lPM/l3.bJ )/(TM»4bO.) ) )/(TT*V3*PS*ON«ON)
       (305. 58«( Ib3.«4b0.)j*l(0.002bb9*   3b3.)t(   117.090*  .99(1*1 29.|7c!. / (15.43 * 453. b)  =     49.344
-------
                                                                FIELD  UATA
U)
to

PLANT
MUNGU PUMEH PLEAiANTb
SAMPLING LUCA1 1UN


SAMPLE IYPE
OPEHATUK




AMBIENT TtMP.lOEG.FJ

BAN. PRESS. (
1N.HG)

STATIC PNtb5.UN,M20)
FILTER NUMBER(S)
STACK INSIDt UIH.llN)




PITUT TUBE
THEHM. NO.
LEAKAGE
METER CAL1B
COtFF.


. FACTOR




REAO * RECORD DATA tVtKY
TRAVERSE SAMHLt
POINT
NO.

IN1T












TIME
(MIN.)

0
10.0
20.0
30.0
40. 0
SO.O
60.0
70.0
so.o
90.0
100. U
110.0
120.0
UNIT I
M5B
CLARKE
55.
29.14
-1.50
0002704
240.00 .00
.84
201
.003 CFM « 10
1.000
10.0 MINUTES
CLUCK GAS MtTtR VELOCITY
TIME
(24-HR
CLOCK )
1240
1250
1300
1310
I32u
1330
1340
1350
1<400
141U
142u
143u
1440
HEADING HEAD
ICU.
FT.) 11N.H20)
























DATE
RUN NUPbEH
PHUBE LENGTH 6 TYPE
NUZZLE 2-09: I.D,
ASSUMED MOISTURE
SAMPLE BOX NUMBER
PETER BOX NUMBER
PETER HEAD D1FF.
C FACTOR
12/01/82
7CM5B
5* GLASS
,220





PHUUE HEATER SETTING

.0 IN.HG




HEATER BOX SETTING

REFERENCE PRESS. DIFF.


UR1F1CE PRESSURE
DIFFERENTIAL
(1N.H20)




STACK
T£l»f»
(UEG.F)
DESIREU ACTUAL
854
Bol
870
600
090
899
910
919
928
937
947
9i8
967
.012
.700 .700
.870 .800
.780 .800
.7«!b .900
.800 .900
.245 .900
.191 .800
.858 .900
.474 .800
.078 .800
.130 .800
.794 .900

.10 3.
.2b 3.
.30 3.
.50 3.
.50 3.
.50 3.
.30 3.
.50 3.
.30 3.
.30 3.
.30 3.
3.50 3.

10
30
30
50
50
50
30
50
30
30
30
50

161.
163.
162.
162.
163.
162.
162.
162.
lt>3.
165.
164.
170.


UMY bAS PETER PUPP
TEMP VACUUM
(OEG.F) UN.HGJ
INLET OUTLET

68. 66. 4.0
72. 64. 7.0
80. 65. 8.0
85. 65. 8.0
87. 67. 8.0
88. 68. a.O
90. 68. 8.0
90. 70. «.5
90. 70. 8.0
91. 71. 8.0
91. 71. 8.0
91. 71. fl.5


12.0

FB3
2.00
2.14
320,
320.
,00


SAPPLE
BOX TEMP
(OEG.


323
316
325
325
331
330
328
317
316
320
322
323
FJ


•
»
•
•
•
•
•
•
•
•
•
»










IMP1NGEH
TEMP
(OEG.F)


40.
38.
40.
42.
«8.
52.
52.
56.
so.
50.
54.
54.
      TOTALS.
      AvEhAGE
120.0
113.782
                                         3.36
                                3.37
163.
85.
68.
7.7   323.
48.
-------
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-------
 I
M
U)
PU        BAKUMtlHIC  PKESbUHt

PS1       STATIC  Prtt;> UF  3IACK  bAS

PS        STACK PRtS,  ABS.

IS        AVtRAGt  bTACK  TEMP

VS        AVb STACK OAS  VELOCITY

AS        STACK ARtA

USSTU     STACK FLO*  HATti  UKY*

U9        ACTOAL  STACK Ft 0*1 HATE

ISO       PERCENT  ISUK1NETIC

M*        FlLTERAdLE  PAH!
            MG. EPA S

C3        FILTERABLE  PART

          FILTERABLE  PART
            EMISSION  HATt

          SOLFUR  OIOXIOE
            MG. tPA t>

          SOLFOR  OIOXIOE

          SULFUR  010X1UE
            EMISSION  RATE

MN        SULFUR1C ACIO
            MG. EPA b

CS        SULFUHIC ACIU

PPR       SOLFUH1C ACIO
            EMISSION  RATE
    H*
    CS
                                                it.Ui   IN-Mb

                                                IbJ.     F

                                                84.1    FPS

                                             45139.   SU-1N

                                                        SCFh

                                                        ACFh

                                                Sb.5

                                                BO.O


                                                  .011^ GH/DSLF*

                                                10&.77U  LB/HK


                                              4U7U.O
                       740. lb   CM-MG

                       -.18.10

                       737. 3b   fM-HG

                        73.     C

                        lib. 6
193lSb<>.
                       9b.5

                       ttO.O
                               SU-M

                               Stf'H

                               ACKM
                               CG/OSCK

                       49.34  KG/HK


                     4070.0
    ,bb76 GH/OSCF*    1299.b3b  Pb/OSCP

Sb33.b9b Lb/HH        ciblO.OH KG/hH
                                                b7.3


                                                  .0094 GH/USCF*

                                                91.503 LB/MH
                       b7.3


                       at.490

                       41,51 KG/HR
   *  oB OEG F,
                            IN.HG.
-------
              EXAMPLE PAKTILULAtt CALUILAHUNb  TEbT NU.

                   UNIT 1
       VOLUME  UF  UKV GAS SAMPLED AT  bTANUAHO

       VM3TO = (17.b47 * VM * T *  IPb  t  PM  /  13. b)) / (TM * 460. )

                  17.647 *   |l.).7ti2  «  l.OOb *  I  
                       100.
       AvEHAbE  MULtCULAH htlGHI UF OHY  STACK  GAS

       MU =  IPCO^  *  .44) * (HU«; •  ,3«>)  +  (PHZ •» PCU) * .
-------
SIACK GAS VtLuClTr AT STACK CONDITIONS

DtLP s SUM. (if THt SUKUVH *  ITS  *  <4t>(i.))

VS = 65.49 * CP » OtLP /  (SgRKMNS  * PS) * HM5)

VS = 65.49 *  .64 *  405.577  /  IblrfKH 2B.d6  * 29.U3)   *   12.  =    U4.ll  FPs



STACK GAS VULUMtTKIC FLU" AT  STACK  CONDITIONS

OS = VS * A5 * 3bOO/l44

QS =   ai.ll * 45239. 3bOO/144  =    95129066. ACFH



STACK GAS VULUMtTKIC FLO* Al  bTANDAKD CONDITIONS

QSSTO = 17.647 * US * PS  * 11.  -  (BnO/100))  / (TS + 4bO.)

          17.b47 *   95129U6B.  •  29.03 *  11. • (I2.7b/100))
OSSTD s ——	.--	. —.	.....	. — .--. — ---. s    b6212060.  5CFM
                        . + 4bO.)
PtRCENT ISOKINETIC

ISO = (30i.56«(TS^IoO.))* I (0.002bb9*vtC)*lVH*r*tPb»IPK/13.b))/(TM + «bO.)))/(TT*VS*PS*DN*DN)
       (305.56M Ib3.»4b0.))*((0.002bb9*  344.)»(  113.762*1.OOb*(  29.14*(    3.367/13.6))/ (   77.t4bO.)))
ISO s ......	.	...........—.........	. — .	..... — ...................................... *  96.49 PERCENT
                                   120. *     04.11 •   29.03 *   .220  *   .220



PARTICULATE LOADING -- tPA METHOD 5  (AT STANDARD CONDITIONS)

CS = U.001 * MN • 15.43 / VMSTD

CS s 0.001 *     00.0 * 15.43 /   110.bu3 =       .0112 GK/oSCF



PAHIICOLATE LbS/HK -- EPA MtTMUU 5

PMN s CS * jSblU / U^.43 * 4b3.bJ

PMK =       .0112 *   b»2120ttU. / (15.4J * 453.b) s   106.770
-------
                                                         FIELD   DATA
PLANT MUM.U POKER HLtAbANTi
SAMPLING LOCAIIUN UNIT t
SAMPLE TYPE M5B
OPERATON CLARKE
AMBIENT 1EMH.COEG.F) 55.
BAR. PRESS. UN. HG) 29.14
STATIC PRESS. UN,H20) -1.50
FILTER NUMBERO) 0002705
STALK INSIDE UIM. UN) 240.00 .00
PITUT TUBE COEFF, .84
THERM. NO. 201
LEAKAbE .002 CFM ol 8.0 1N.HG
METER CAL1B. FACTUH .98B
READ * HECDRD DATA EVERY 10.0 MINUTES
TKAVERSE SAMPLE CLUCK GAS METER VELOCITY ORIFICE
POINT TIME
NU. (MIN.J

^ INIT 0
7 10.0
M 20.0
L-J 30.0
--1 40.0
50.0
bO.O
70.0
80.0
90.0
100.0
110.0
120.0
TIME
r t nr K i
LL.UL K j
1240
1250
1300
1310
1320
1330
134u
1350
1400
1410
1420
1430
1440
READING HEAD
(CU.FT.) UN.H20)

562.046
570.925
581.270
591.450
buO.525
bit. 000
622.351
640.700
641.525
b50.620
661 .b
-------
           PARHCULATE FIELD DATA  «.  RESULTS  IAHULAIIUN



PLANT- NAMt ANu ADDRtSS                IEST UAM LEADtR



MONGO POwEH PLEASANTS                  CLARKE
IEiT
TEST UATt
UNIT 1
                                         ENGLISH UNITS
                                              METRIC  UNITS
Tb
TF
TT
NP
1
UN
CP
PN
1
i f
U) VH
00
TM
VMSTD
VLC
V*C
d*u
FHO
PC02
PU2
PCU
PN,:
MU
Mfci,
TIME-STAKT 1240
TIME-FINISH 1440
NET TIME UF TEST, MIN. 120.0
NET SAMPLING PUlNTb 1 2
METER CALIBRATION FACTOR .900
SAMPLING NUZZLE DIAMETER .220 IK
PITOT TUbE COEFFICIENT .04
AVERAGE ORIFICE PRESSURE 3.40 1N-H2CI
DROP
VOLUME UF DRY GAS SAMPLED 121. 47b CU-FT
AT METER CONDITIONS
AVERAGE GAS METER TEMP 80.3 F
VOLUME UF DRY GAS SAMPLED lib. 201 bCF
AT STANDARD CONDITIONS*
TOTAL H2u COLLbCTEO IN 33D.7
1MPINGERS ANU SILICA GEL»ML.
VDLOfft OF NATEK VAPOR lb.S43 SCF
AT STANDARD CONDITIONS*
PERCENT HU1STUKE bY VOLUME 12. Ib
MOLE FRACTION DRY GAS ,o7o
PERCENT CU<; uY VOL.. ORY 12. t>3
PERCENT 02 bY VUL.» U*Y b.OO
PERCbNI CO BY VUu./ DRY .00
PtWCLNT l»2 BY VOL.. UHY Bl.47
MULEtOLAK rtl-OKY SIACK GAS 30.<;4
MOLECULAM ftT-SIALK GAb «Jt).7b
1240
1440
120.0
\a
.906
S.b fM
,B4
ttb.4 KM-H
3.440 CU-H
2b.V C
3.2b2 SCK
330.7
,4M SCf
12. Ib
.B70
12.53
b.OO
.00
01.47
30.2<4
20. 7b
-------
OJ
VD
HB

PS1

P8

IS

vs

AS

US&Tu

US

ISO

MN


CS

PCH


MN


CS
    CS
BAROMETRIC PKESSuRt

STATIC PHES uF STALK GAS

STACK PHtS, AdS.

AVERAGE STACK TEMP

AVfi STACK GAS VELOCITY

STACK AREA

STACK FLUft RATE* DKT«

ACTUAL STACK FLO* MATE

PERCENT I3UK1NEUC

FILTERABLE PART
  MG. EPA b

FILTERABLE PART

FILTERABLE PART
  EMISSION RATE

SULFUR OIOXIUE
  MG. EPA 5

SULFUR OIUXIUE

SULFUR OlOXlbE
  EMISSION RATE

SULFUR1C ALIU
  MG. EPA b

SULFuRIC ALIU

SULFUR1C ACIU
  EMISSIUN RATE
                                                       IN-Hb
                                                -I.bO
                       7«U.lo   KH-HG

                       -ib.lU   CM-MiO
29
161
04
45239
b«S90000
9bOOb01b
99
0b

113
.03 IN-Hb
f
.0 FPb
SU-1N
SCFH 19
. ACFH 2b
.9
.3
.Ullb bK/USCF*
.290 LB/HK
737. Jb CM-H
71. C
2b.b FPS
29.100 SU-M
42490. SCMH
9026b. ACKH
99.9
ttb.3
2b.4bfl *G/U:
bl .39 KG/UK
4210.0


    .5639 GR/UbCF*

5b2b.o8b LB/HK


  70.4


    .UlOb bK/USCF*

 102.920 LB/HK
4210.0


1290.b07

<^50b.90 KG/HR


  70.4


  24.03b Kli

  4b.b0 KG/HR
       «  b8 OEG F,  29.92  IN.HG.
-------
      EXAMPLE PANllCULATE  CALCULATIONS ItST NO. 7U*bB

           UNIT  1



VOLUME UF OMV GAS  SAMPLED  AT STANUAKI) CUNU1T1UNS

VMS1D = (17.647  »  VM  *  t  * IPb * PM / 13.6)) /  (TM  »  460.)

          17.617 •    |21.«7to *  .SBU * ( 29.14  *  3.400  /  13.6)
VHSTO , ..    .......  ~
                          t   60. + 4bO.)
VOLUME UF MATfck  VAPUR  AT  3TANUAHU CUNOI1IUN&

VnC > .04707 * VLC

VwC » .04707 *   J39.  =  lb.««4 SCF



PEKCENT MUlilUHt  IN  STACK (,AS

bMO * (100. * V«C)  /  IVMSTD + VnC)

          100. •   lb.<<4
B»iO = -------------------------- - 12.10 PEKCtNT
            lib. 201  *   lb.<<4
MULE FRAC1IUN  OF  UHY  STACK

FHD =  (loo. -  BrtU)  /  loo.
           100.  -   1
-------
SIACK GAS VtLuClTT  AT  MACK

OEtP = SUM. Ut-  THt  tUMUVll  *  Ifi,  t  460. J)

Vi = 65.49 * CP  * DtLP /  (SgKHMWb  *  PS)  *  PNTS)

V5 = b5.<(9 *   .t>4 *  405.577  /  (SURll  2b.7b *  29.03J  *  12. =   B4.0U
STACK GAS VuLUMtTNlC  FLO"  AT  bTACa,  CONDITIONS

OS s VS • A5 * JbUU/144

OS =   (14.00 * 45£3S.  3bOU/144  =    95bOb01b.  ACFH
SIACK GAS VULUMtTKIC FLUft  AT  bTANUAKO  CUNUIlIUNb

OSSTD = 17.647 « u3 •  Pa *  (1.  -  (flrtO/JOO))  /  (TS » 4bO.)

          17.b47 .   95006016.  *   29. 03  *  (1.  •
            — — — — . — - — - — -- — — — — —
                   I Ib3.  »  IbO.)
OSSTD =
                                                                 babSBOOO.  SCFH

PfcHCENT ISOKINETIC
150 »
ISO * (30i.5tt« (TSt4bO.) J« l(U.OOVLC)»CVM»Y* (Pb* (PM/ 1 3.b) )/CTM*4bO.) ))/ ( T T * VS*PS*UN*t)N)

       1305. 50*(  Ibi.t4o0.)j«l(0.00^bb9*   3i9.)t(  U1.47b* .9Ua*( £9.14*1    3.400/ 13.6) j /

                                    iao.  *      84,oo *   a9.o3 *
                                                                                                           s   99.94 PERCENT
PAKTICULAIE LOADING  --  EPA  METHOD  5  (AT  STANDARD COuDlllONSJ

CS = 0.001 * MN «  15.43 / VMSTO

Ci, = 0.001 *     86.3 * 15.43  /    llS.aol  =        .0116 GM/USCF
PARIICULATE LbS/HH --  EPA  MtTHOU  5

PuR s C5 * USbTu / lib. 43  *  4b3.b)

PMH s       .0116 *    66590000.  /  (15.43  *  453. b)  =   113.290
-------
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 htAUliMb      MtAU        0 IF I-tKt l« I J AL       ItMP
 ILU.f-l.)   ll^.H^OJ      ilN.rlcfU)        lUtb.F)
                                                                                          UA It
                                                                                          hllM UOMlttW
                                                                                                                        ld/U

.U
.0
.u
.0
.0
.u
.u
.u
.0
.0
.b
. u
lb«b
U
U
(1
u
u
U
U
U
U
11
u
Ittlu

734. d ,tb(j
771. 3bU
70U.06U
7Su.HbU
SOU .^7u
o 1 u .dOg
ae!U. 1 3U
o30 .ibu
a3**.bri.J

1 . 7uu
1 .buu
1 . b U U
1 . / UU
1 .bl.U
1 .bUU
1 .buu
1 ,vuu
I .vuu
<: . uou
1 ,VUU
1 .^uu

3.ub 3.ub lb<4.
cf.o7 d.al 163.
ji.t« /* M *^ 1HS
3.0V 3 . UV Ibti .
«i.^l i?.^l lb«;.
3.e:b 3,
-------
              PAKHLULAFt  HHLO  I)A(A  tl  KLbULIS  UttULAlUJft

PLANI-  NAMt AKl) AuUHtob                   Itbl  ItAN LLAuch

MONU PUrttK-HLt AJ>AN I b                       UU


                    Ul.l I  1


                                                    trtbL Ibh  UNI Ib

ItSI  UAlt                                             Ici/Ul/ltd
ItSI  ObM'jbrt
TM

VMS IU


VLC


VML


rtnil

KhD
HLU
MU

MrtS
             VULUMt UH  UKY  bAb bAMHLtU
             A I  Mt I tH  LlMU 1 I lul«b

             AVtHAUt  bAS  MtltK ItMP

             VULUMt Uh  i)KY  bAb bAMHLtU
             Al  blANUAKLI  LUNUi I il)No«
             TulAL
                         LULLtCTtU  IH
                         Aral)  SILICA  btL,HL,
             VULUMt Uh  rtAltK  VAHUH
             Al  blAIMUAKU
            HLKLtixf  MUlbTUHt  HY  VULUMt

            MULt  hKALllUlj  UhY  bAb

                    l  LU£  h» Vol.,  uKY

                    !  U«i Of  VUL.,  UhY

            HtKttl.l  Lu t)Y  VUL.,  UHY

            r'tKLti«l  IMC; DY  V(IL.,  UKY

            MULtLULAK  Al-lJWY  ft I A(,iv OAS

            1'iULtLUI.AK  ftl-blALt\  bAb
10           IlMt-blAHl
IF           IlMt-flUlbM                          101U

Tl           Ntl  UMt  Oh  Itbl,  Mil*.             IcJO.U

HP           i^tl  bAHPLlNb  Hi) IN It)                  \d

Y            MtltK  CALlbKAI1UN

UN           bAMKLlNb  UU/ILt

tP           P1IUI  lUbt  LOth h 1C Itlg I

             AVtKAbt UKlhlCE  PKtbbUHt
                                                     1 1<4. UJ<4 LU-h 1
                                                      bO.O
                                                      l-J.lb?


                                                      1 1 .^b

                                                         .000
                                                                              MtlKlL  UMIb
                                                                              Jolo
                                                                                Icf
                                                                                 5.0    MM

                                                                                   .04
 i.ii^1*  LU-M


dU.b    L

 \  I "^ W  ^» I M
 3 • i j 7  o L n
t 1 .^b

   .000



  •3. n>

   .00

O 1 . tJ/

lo.tib
                                                      <; o. fi u
-------
Pb
PSI
PS
TS
vs
AS
UbblU
US
ISO
Ml*
Cb
HMK
MN
JL Cb
«£> Pink
Ml«
CS
PMH
bAKOMtlKlC HhfcSbUKt t^.l«4 lU-Mb
SlAllt K«tb OF S1ALK bAb -l.bu Jn-Hill
5IALIV PKkb, Abb. iJ^.UJ li*-nb
AVEKAbL blACK ItMP lf>3. F
AVG blACK GAS VtLOClIT et.l F^b
blAtK AMtA >4b
-------
                          PAKI1LULAIL  L ALL'UL A I I uub  Itbl

                          l  1
       WULUht  Ufr  OKI  UAb  oAMFLtU  Al  SlAUUAKU  LllnU 1 I 1 Hub

       VMOlU =   117. OHI  *  WM  «  If  *  IHB »  PM  /  M.OJ)  /  (IM  t  Ht>\>.)
                     1/.04/  *     lltt.UJH  *   .940  *  (  A.'>

       M..b  - i-iu  *  II.  -  li)/.il/I Hi/) J  t  Jo.   •  liiniJ/lou)

       Mrtb  =   i0.to«  U.  -111.40/100))  +   IH.  »   UI.4b/10U)  =     drt.ttO
-------
       bAb  VtLOLllr  A( blALK LUul) t I

UfcLP  = SUM.  U(-  Int  bUKIlvrt * (IS

VS =  a~3.it1)  • IIH «  utLH  /  IbuNllMrtb  * l-bj  * r'Hl

VS =  o!s.a<*  •  .f»4  *   3V9./UO /  (iurtll ctt.ftu •
                                                                    *   Id.  =   0«i.M l-Hb
      blACR  UAb VULUHtTKlC hLUW  AT StALK  L


      yb  =  Vb • Ab  « JoOU/144


      US  =    Od.M  » <4t><;39. ibUO/ia-4  s
       t>Ab  VULUMtlKlC H LUrt  Al blANUAKu L ONI) 1 I 1 U.»i>

       = It.bHI *  ua * Pb  *  (1.  -  (b,-,u/!UU)j /  (Ib t

            ll.b<4l  •    43bblb^0.  *   tJS.OJ  «  II.  -  ( 1 1 ,Sb/ 1 0 1) J )
       = ------ ------------------------------------ --- — ---
                      ( Ib j.  +  *4bU. j
                                                                                         .  ^)C^M
Ul
      HthCtMl. ISUMNtT IL
      ISO =
      ISO =
                                                                                                                 bS.f4bO.jJ)
                                                                                                                             =   9tt.0i»  PtKltNT
      HAhllCULATt  LUAlJl!Mb  -- tHA  MttMUU  b IAI  blANUAMU  COhUll


      C!> =  0.001  »  MN *  lb.«3 /  VMSTU


      LS =  U.Ol/l  •       10.1 * Ib.MJ /    111. bo/  -        .Uuelb
      HAKUCULAIt  Lbb/MK  -- tKA  ML I MOO  b

      HHK  =  Lb * iwbblu  /  (Ib.ai  *  <*-Di.t>)

      Hlth  =
-------
                                                             FJELU  DATA
Ul
u>
PLANT MUKGU HO«EK t'Lt
SAMPL1NU LULATluN UNIT 1
SAMPLt TYPE Mbb
UPfcKAIUH CLAMKt
AMBIENT TEMP.IUEG.F) 55.
bAK.PNESS. UN.HG) 29.14
STATIC PHESb. CIN.H2U) -1.50
FlLfErt NUMbEHlS) 0002709
STACK INSIDE UIM.IIN) 240.00 .00
PITgT TUBE tOtFF. .04
TMEHM. NO. 201
LtAKAbE .015 CFM w 10.
METEH CALlb. FAUuK l.OOb
REAU A KECUHO DATA EVtKY 10.0 MINUTES
TNAVEKSE SAMPLE CLOCK GAS MLHH VELOCITY
POINT TIME
NO. (MlN.J

TIME HEADING HEAU
124-rlH ICU.FT.) 1IN.H20)
CLOCK)
AbANT
0 IN.
URIF
HG
ICE PRLSbUKE
UIFFEHENT1AL
(

1N.H2U)

UtblKEU AC
1N1T 0
10.0
20.0
30.0
40.0
iO.O
bO.O
70.0
60.0
VO.O
1 00.0
no.o
120.0
900
Ib5b 970.415
Ib05 905.825
lolb 993.920
|625 3.4C7
700 14.220
710 22.222
720 31.bll
73o 42.424
/<40 M.2SO
/5o oO.JoO
000 7 1 .340
1010 Ol.2bO
.700
.bOO
.600
.700
.600
.000
.000
.900
.900
'.000
.900
.900

3
2
2
3
2
3
3
3
3
3
3
3

.00
.90
.<»0
.10
.95
.20
.Jo
.47
.50
.70
.50
.50


IUAL

3.10
2.90
2.90
3.10
3.00
3.30
3.30
3.50
3.50
3.70
3.50
3.50
blACK
TE*P
(UEG.F)



164.
163.
163.
162.
162 .
Ib3.
161.
165.
162.
162.
Ibb.
Ifa3.
DATE 12/01/02
KUK NUHbEK 8CM5H
PKObE LENGTH ft TYPE 5* GLASS
NUI/LE 2-02: 1.0. .219
ASSOMED KUlSTUht 12.0
SAMPLE bOX NUKOEH
CETEK BOX NUMBEH FBJ
CETEK HEAO OIFF. 2.00
C FACTOK 2.14
HKUbt HtAltH SETTING 320.
hEATEK bOX SETTING 320.
KEFEKENCE PHEbS. OIFF. .00
Oht GA5 CETEH POHP SAKHLE IMPINGEH
TEMP
(UEG

HLET

bO.
74.
00.
01.
Ob.
71.
79.
Ob.
90.
*M .
92.
94.
.F)

OUTLET

bO.
64.
b5.
b5.
bb.
• b4.
bb.
bb.
bO.
b9.
70.
71.
VACOUM
HN.hG)



b.O
5.5
5.5
b.O
b.O
b.O
b.O
7.0
7.0
7.0
7.0
7.0
BOX TEMP
(DEG.FJ



320.
300.
310.
324.
313.
327.
300.
320.
309.
319.
319.
312.
TEMP
(DEG.F)



50.
40.
40.
44.
50.
48.
40.
54.
bO.
bO.
bO.
62.
    TOTALb
    AvEKAbE
120.0
113.100
                                         3.26
                                3.27
                                                         163,
03.
                                                                           b7
6.3   316.
                                                                                  51.
-------
Ul
                 PAKIKULAlE  FltLO DATA & (lEbllLTb  lAbULAllUN

     PLANT-  NAHt ANo AUUKtSb                lEbT  UAf LEAUth

     MONGU  POWfcH PLEAbANTb                   CLAHKE
      TEbT
TEbT OATE

IB
TF

TT

NP

r

Of.

CP
                 UNIT 1
Vf


If

VKbTU


VLC


vKe
Feu
P0
-------
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cr. x     x         x     cr x     x
c/i ••-     •-     r^  •••«     en
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-------
              E*AMF-Lt  PAkHCULAft  CALCULAHuNb  HbT NU.

                   UNIT  1
        VOLUME OF OUT  UAS bAMPLtU  AT  bTAIYUAKO  CUNUlllUNi)

        VHS10 = (l/.b<*7  • VM *  V  •  tPtl t PM  /  13.0)) / ITM  t  <4bU.)

                  I/. 647  *   113.180  * l.UOb  *  I  d9.11 t 3.«J75  / 13. b)
        VKSIO = -----------------------------------------------------  =     H0.37U  UbCF
        VuLOMt OF WATtH  VAPurt At  bTAI,UAMU CUNUITIUN6

        V*»C  = .01707  *  VLC

        VwC  = .OM707  »   313. =   Ii.o7 SLF
       Pt«CtNT MUlbTUHt  IN STALK  b

       OnO  = (10U.  *  VrtCj  / IVMSTO  + VrtCJ
M                100.  *   Iti.b?
Ui     HisO  = -------------------------- = 12. «3  HEKCtM
°^                 110.370 »  lb.67
       MuLt  FRACTION  UF  UKt 5TACK  GAb

       Fnl)  = (100. -  BrtUJ  / lou.
                  100.  -   lt.t
       FMD  = -------------- - ------- - =   ,B7b
                        100.
        AVEKAkE MoLtCULAK  fttlbHF UF  OHY STACK UAb

        HU  =  (PCutr « .i<4)  + (rud *  .ic;) + (Prod *

        MO  =  t Icf. /3*44/ 10U ) t ( b.7*3c!/10U)  + (KM. b» .0) » 2b/lUO z   30
       MultCuLAM rttlbhl  uF  SIALK

            = MU > ll.  -  titnU/lOOJ)  +  Ib. *

            =  30.i»b»  (1.  -1 ld.^3/ JuU J )  + 16.  *
-------
       STACK GAS VtLuClIV «T  bTALK  CUNUlTIUNb

       OtLH = bUH. OF Iht aUKltVM  *  (Tb  *  MbD.J)

       Vb = B5. 49 * CH * UtLH  /  (SuKUMftS  *  Pb)  *  PMS)

       Vb = U5.49 *  .01 *  399.700  /  lauHH 26.71 •  £9. OS)  *  12. =    02.81  FPb
       S1ACK GAS VULUHtTKK FLU*  AT  STACK  CONDITIONS

       Qb = VS • Ab • 3bUO/l44

       OS =   62.81 * 1^c!39.  ibOO/111  =    93bSbtt<)0.  ACFH
       SlACK GAS VULUHtTKIC FLUX  AT  bTANUAKD  CUNUITIUNb

       ObSTD = 17.647 * US • Pb *  (1.  -  (BrtO/100))  / (TS + ObO.)

                 17.047 *   93b55i)<10.  *   ^9.uB  *  (1. - (12.43/100))
       OSSIO = — ------------------ - ------- - --------- - ------- --- — =   t>74379dO.  SCFH
                           C 163.  + 4bO.)
^      PtRLENT liOMNETIC
Ln
^j      ISO = (30b.i8«lTS»460. ) j«((0.00
-------
                                                                      UATA
M
Ui
00
PLANT MUNGU PUAEK PLEA&Ar«T;>
SAMPLlNb LULATIUN UNIT 1
SAMRLt TYPt *bd
OPEHATOK LLAKKE
AMBIENT TtHP.COEt.F) 55.
BAH.PhtbS.UN.Hb) 29.14
STATIC PHt-55. IIN.H20) -1.50
F1LTEK NUMttEHlS) 0002710
STALK iNMUt UlM.tlN) 240.00 .00
P1TOT Tout LOLFF. .84
ThErtM. NO. 201
LEAKAGE .002 CFM 01 8.0 IN.HG
METEH CALIb. MCTuK .998
RtAu » KECUHO DATA tvtKY 10.0 MINUTLS
ThAVEMSt SAMPLE CLOLK GAS MtTtK VELOCITY OHIF1CE PtitSSUKt
POINT TIME
NO. (MlN.J

1NIT 0
10.0
20.0
30.0
40.0
50.0
bO.O
70.0
BO.O
90.0
100.0
1 10.0
120.0
IIHE
124-rtH
CLOCK)
1545
1555
1605
Iol5
lt>2i
700
710
720
730
/4y
l/5u
1000
lolo
KEAUING HEAD
(Cu.FT.) (1N.H20)

663 746
694.5U5
702.225
711.315
721.300
733.700
741.610
750.895
7t>2. 150
771 .800'
701.315
793.000
603.637
.700
.600
.600
.700
.600
.800
.800
.900
.900
.000
.900
.900
UIFFtRtNTlAL
(1N.H20)
OEblKEO AC

3.10
2.90
2.9o
3.10
3.00
3.30
3.35
3.50
3.56
3.7b
3.55
3.60

TUAL

3.10
2.90
3.00
3.20
3.00
3.30
3.40
3.50
3.60
3.80
3.60
3.60
i.1 ACK
TtfP
(OEG.F)


164.
163.
163.
162.
U2.
163.
161.
l<>5.
162.
162.
166.
Ib3.
UATE 12/01/82
KuN NUCbtK 8UM5B
PMOBE LENGTH & TYPE 6' GLASS
NU//LE 2-07: 1.0. .221
AbSUPEO fOISTUKE 12.0
SACPLE BOX NUMBER
CETEH bux NOMBEN FB5
KtTEH HEAU OIFF. 1.95
C FACTOh 2.14
PKOBE HtATEK SETTING 320.
HtATEK BOX SETTING 320.
HtFEHEKCE PRESS. OIFF. .00
UNY GAb MEIEH PUKP SAMPLE IMP1NGEH
TEMP
(OEG
INLET

73.
76.
82.
87.
90.
78.
84.
08.
92.
94.
94.
95.
.F)
OUTLET

73.
72.
72.
72.
74.
74.
74.
74.
76.
78.
76.
80.
VACUUM
IIN.HG)


5.0
5.0
5.0
5.0
5.0
5.0
5.5
7.0
7.0
7.5
7.0
a.o
BOX TEMP
IOEG.F)


333.
312.
317.
322.
318.
308.
317.
322.
324.
322.
320.
322.
TEMP
(OEG.F)


44.
40.
40.
40.
40.
42.
40.
45.
48.
48.
54.
64.
      TUTALi>
      AVEHAbE
120.0
119,691
                                         3.31
                                3.33   163.
                                                t>6.
75.
6.0
319.
45.
-------
           PAK1ICULA1E FltLU DATA « heiULTb  TAbULATIUN

PLANT- NAME  ANO  AOOHEbb                TtbT  TEAN  LEAUEH

MONGU POKfcH  PLEAsANTi                  CLAKKE
ItbT  
-------
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•n    ^    »-    c-.
T    1    7
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                         rv
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                tr
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                en
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                         rv
                            rv    »
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-------
              tXAMPLt PAHlICULAIt  I ALCUL A 1 I uNb ItbT  NU.  8U»"jb

                   UNIT I



        VOLUME  OF 0X1 UAS SAMPLED  Al  bTANUAKU CUNUIHUNS

        VMSTD  = (I7.b<»7 « VM  *  Y  *  IPtt » HM / 13. b))  /  ITM +  USCF
                                  I   60.' » 4bO.)



        VOLUME.  OF NATtK VAfuN  AT  bTANOAKO CUNUITIONi

            s  .04707 * VLC

            =  .04707 *  3t>3.  =   Ib.bl SCF
        PtKCENT  MUlblUHt IN  SlALK  bAS

        U»tU  c  (10U. * VnCJ /  (VMSTO » VMCJ
>
!_,                 100. *   lo.bl
CD       BwO  s  ------------------------ -- = U.64 PEkCtNT
^                  114. 61^ t   Ib.bl
       MOLt  FRACTION OF QHY  dTACK

            = (100. - ttnOJ  /  100.

                  100. -   l<^.b
                       ---- — — — • s   .074
                       100.
        AVEHAbE  MOLtCULAk MtlbH!  UF  UWY STACK L.AS

        MO  =  (PCD*! * ,4M) »  (HUc!  *  .ieij * IPN2 » PCU)  *  .lib

        MU  =  (l
-------
STALK GAS VtiuCiTr  AT  SUCK

DELP = SUM. OF  TMt  iUKTCVH * ITS + 4bO.))


VS = a5. 49 • CP  * OtLP /  tSuKHMKb » HS) • PMS)

Vi = B5.49 *   ,b4 *   199. 70U /
                                                                  1 2 . =
                                                                   «2.04
STACK GAS VULUMETHIC  FLU*  AT  STACK CONDITIONS


OS s VS • AS •  JbOO/144


US =   a2.B4 *  «SU.)
OSSTO =
                                                                  b73049U. SCFH
M
CTi
PtRCENT ISOKINETIC
ISO
I30
                                                                        TM*4bO .
                                                                             T T
                                 .) J«((U.OO«;bb9«
                                                                                       3 .
                                                                                        6)
                                                                                                           * 100. 60 PERCENT
                                                         29.03
PAHTICULATE LUAolUU  --  tPA  METHOO 5 (AT STANDAHU CONDITIONS)


CS = U.U01 • MN  *  lb.43 /  VMSTD


Cb = U.UOJ »     Ott.d  » li.43 /   114.812 =       .0119 GH/UbLF
PAHTICOLAlfc LbS/MH  --  tHA  MtlhDU 5


PMK = CS * uSSlU  /  llb.^J  *  4bl.bJ
                                                        114.7to3
-------
    F1ELO  DATA
PLArtT MUNU PUWEH-HLE AbAN T S
SAMPLING LULAIIUN uMT i
SAMPLE TYPE M5b
OPEKAIOH UO
AMBIENT TtMP.iOEG.F) bO.
BAH.PHES5.dN.Hb) 29.33
STATIC PRESS. UN, H2Q) -1.50
FILTER NUMBERlS) 0002711
STALK INSIDE UIM.UN) 240.00 .00
PITuT TUBE COEFF. .84
THERM. NO.
LEAKAGE .OOb CFM a 7.0 IN.HG
METER CALIB. FACTOR 1.037
REAU a RECOKD DATA EVEWY 10.0 MINUTES
TRAVERSE SAMPLE CLOCK GAb MLUk VELOCITY uRIFICE PRESSURE
POINT TIME
NO. (MIN.)

1N1T 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
60.0
90.0
loo.o
1 10.0
120.0
UTALS lc:0.0
T 1ME
124-HR
CLOCK)
931
0
0
0
0
0
u
0
0
u
0
y
1131

HEADING HEAD
ICU.FT.) (IN.H2U)

96.377
105. bbO
115.120
124.490
133.720
143.240
152.930
Ib2.430
1/2.130
161 .650
191.290
200.660
210.393
.800
.900
.800
.700
.600
.900
.600
.900
.800
.900
.6uO
.900
114.016
STACK
UlFFtRtNTlAL TEMP
(1N.H20)
UEblHEU AC

3.30
3.49
3.32
3.15
3.3b
3.54
3.35
3.55
3.34
3.50
3.28
3.54


TUAL

3.30
3.49
3.32
3.15
3.35
3.54
3.35
3.t»5
3.34
3.50
3.28
3.i4

(UEG.F)


165.
166.
166.
168.
166.
Io8.
169.
169.
174.
179.
166.
173.

OATE 12/02/82
HUN NUMBER 9AM5B
PRUbE LENGTH 4 IVPE 6' GLASS
NOllLE c-11 : 1.0. .222
ASSUMED MOISTURE 12.0
SAMPLE BOX NUMBER
METER BOX NUMBER FB4
METER HEAD OIFF. 1.87
PHOBE HEATER SETTING 320.
htATEh BUX bETTING 320.
UhY GAS METEH PUMP SAMPLE IMPINGEH
TEMP
IUEG
^LET

60.
63.
68.
73.
75.
77.
78.
79.
79.
80.
60.
61.

.F)
OUTLET

60.
60.
60.
b2.
63.
65.
67.
67.
69.
69.
70.
71.

VACUUM
UN.HG)


5.7
6.3
6.2
5.8
6.2
6.3
5.9
6.2
5.9
6.1
5.6
6.2

BUX TEMP
IOEG.FJ


315.
327.
334.
335.
338.
336.
340.
336.
333.
319.
314.
326.

TEMP
IDEG.F)


11 .
10.
61.
79.
73.
70.
68.
65.
61.
57.
54.
54.

3.39
3.39
171,
74.
                                  65.
6.0
330.
                                                  60.
-------
cr<
           PAKI1CULAIE F'lELD UATA  &  HEbULfb lAUULAIIUN

PLANT- NAME  ANu  AODKtbb                IEbT TtAK LEAOEH

MONO PUWEH-PLEASANTS                   oo
|E5»T
TEST DATt
                 UNIT 1
    VM


    1*

    VPSTO

    VLC


    VMC
    PC02

    PO«J

    KCU
    MU

    Mhb
          UROP

          VOLUME  OF  UHT bAb SAMPLED
          AT  METEM
AVERAGt GAS METEH  TEMP

VOLOME OF LiHY  bAb  SAMPLED
AT STANOAHU CONDITIONS*

lOfAL MdU COLLtCTEO IN
          ANu  SILICA GEL,ML,
           VOLUME  OF  rtAlEK VAPOK
           AT  SIANOAHu CONDITIONS*

           PEHCENT  MUlSTUHfc BY  VOLUME

           MOLE  FMALT10N UHT bAb

           HEKCENl  COt! oY VOL.. UKY

           PEKCtNf  i>2 bY VUL.,  UKY

           PEKCtNT  LO bY VOL.,  UKY

           HthCENl  n«? br VOL.,  utfY

           MOLEtOLAh  rtl-DKY SIALK

           MOLH-ULAK  rtl-blALK  (,Ab
                                           ENGLISH OMITS

                                              U/Oii/Oc!
Id
TF
IT
NH
Y
UK
CP
PH
TIME-SIAKT
IIME-F INISh
ttt I TIME OF TEaT, M1N.
NET SAMPLING PulNTS
MtTEK CALlbHATlOU FACTOR
SAMPLING NU21LE OlAMETtR
PITOT TUbE COEFFICIENT
AVERAGE ORIFICE PRESbUKE
931
1131
120
Id
1


3
  1.037

   .d£d IN

   .04

  3.39  1N-H.JO


114.016 CU-FT


 69.a   F

llo.4B4 bCF


343.1


 lb.150 bCF




   .070

 Id.HO

  b.75

   .00



 30.d4
                                                                     METM1C UMIS
                                                                 1131

                                                                  IdO.O



                                                                    1.037

                                                                    5.6
                                                                          KM-H20
                                                                              CO-M
                                                                  343.1
                                                                          SCI*
                                                                         .070
                                                           .00

                                                        01 . Ib

                                                        30.d4

                                                        dO.00
-------
   HB

   PSI

   PS

   IS

   VS

   AS

   USSTU

   US

   130

   MN


   CS

   PCH
>  HN
 I
I-1
   CS
   UN


   CS

   PHM
UAKUHETK1C HKESSuHt

STATIC PkEb UF STACK bAb

STACK PKtti, ABb.

AVtKAGt SlACK  IEMP

AVb STACK bA5  VELOCITY

STACK ARtA

aTACK FLUM RATt, OHY*

ACTUAL STACK FLOw HATt

PERCENT ISOK1NETJC

^ ILTEKABLE PAHI
  MG, EPA t>

FlLTtKABlE PART
FlLTkRAUtt
  EMISSION HATE

SULFUR DIOXIUE
  HG. EPA b

SULFUR UlOXloE
SULFUR
  EMISSION KATE

SULFURIC ALIU
  HG. EPA i

SULFuRlC AC1U

5ULFUKIC ACIU
  EMISSION HATE
          btt  OEG F,
              IlM.HG.
                                         IN-Hb
  ^9.<;a  IN-hb

 171.    F

  a<4.t;   FPS

    .   SU-IN

    .    bCFH

  ld.    ACFh

  99. b
M2.10  KH-MG

 77.    L
        SU-M

        SCKH
 99.6
    .007b GR/USCF*      17.313

  73.661 LB/HK          33.50 KG/UK
                                             431U.U
                                                                   431U.U
    .S709 GK/USCF*    130b,790

5b7b.l«l LB/HH        «Jb£8.9o  KG/hK
  07.b


    .Ullb GK/USCF*

 113.b73 LB/HH
                                                                     07.6
       KG/HK
-------
      t»AMPi_t  PAWTKULATE CALCULAI IUN:>  rt^r  NU.

            UNIT  1
VOLUME UF  DKT  GAS SAHHLED Al bTAMUAKD  CUNUIl

VMSTD =  (17.647  * VM * Y *  IPB » HM  /  13.6))  /  ITM + 460.)
           17. 647  .    Jia.OJb « 1.U37  *  I  as. 33  *
VMSTO =  — — — .-..--. — .-. — .... — — .-.--. — — — — . — ..-.. s     nt>.«4e<4 OSCF
                          I  /O. » <4t>0.)
VOLUHt UF HAlfcH  VAPUH AT blANDAHU CUNUIIIUN5

VnC =  .04707  *  VLC

VNC =  .04707  •   343.  =  16.15 SCF
PERCENT MJIbTuRt  IN  SIACK

BnO -  (100.  *  VwC)  / IVMSTO + VnC)

           100.  »   16.15
B*0 =  — — -------- - --------- --- = U.IU PtKCLNT
           116.464  »  16.15
HOLE FRACTION  OF  Dkr  STACK

FHD = (100. -  BnUj  /  100.

           100.  -   \d.t
FMO = ——.—----.--—— 3   ,a7fl
                100.
AVtKAbt MULtCULAH  MtlbHT  UF UKY blACK GAS

MU = tPCO«i •  .44)  *  (HOd  * .3ii) * (PN2 » PCU) *  ,ii«

MO = tlci.<*U*44/lUU)  »  (  5.B*3d/lOU) + ((«1.4» .0)  *  i?b/10o  =   30.£<>
MOLECULAR MEIGHT  UF  SIACK

MwS = CO «  (1.  -  ItlftO/lUO))  + \ti. *

    =  30..J4*  (1.  - 1 \tt. Itt/ 100 J )  + Ib. •  (!«?. IB/100)  =    «?«.BU
-------
   STACK GAS  VELOCITY  AT  STACK CuNUllIuNa


   otLP = SUM.  OF  THL  bunTiVM * ITS * tbu.))


   VS = tt5.<*9 •  CP  *  OtLP / iSuNHMKb • PS) * PMS)


                                                           *   12.  =
   STACK GAS VuLUMtTNlC  FLQM AT STACK CONDITIONS


   Ub = VS • Ai  *  3bUU/144


   OS =   04.17  *  . *  ^<^.^^ * d. -  (U
   OSSTD = ------------------------------------------ - --- --- —  =    bd347<>4a. SCFH
                       I  171 .  t «bl). )


>

M  PEHCENT ISOKlNETIC
Oi
~^  ISO = (30b.btt«(IS»'«bO.))* t (O.U0^6b«*«VLC)»lVf * f * IPo* IPC / 1 3 .6) ) / ( TMt<4bO . ) ) ) / I T T * VS*PS*DN*UN )


          1305.56*1  J71.*(»bO.))«l(U.OO^bb9*  3«3.)*(  1 U.Ulb* 1 .037 * (  c!9.33*l   3.392X 1 3.6) ) / (
   ISO = ------------------------------------------------------------------------------------------------ . s  99. bO PERCENT

                                       120. *     64.17  *    24.22  *   .222 *  .222




   PAKTICULATE LOADING --  EPA  METHOD  5 (AT STANUAHU CONDITIONS)


   CS = O.UOl * MN •  15.43 /  VMSTD


   CS = O.U01 *      'j7.l  * 15. «3 /   Ilb.4tt4 =       ,007b
   PAHTICULAIE LbS/HK  —  EPA  MtTMOU b


   PhN = Cb « USbTO  /  11^1.43  •  t^3.b)


   PMh =       ,007b *    b«3<47(!«tt.  / (lb.«i * 4b3.b) =     73. Obi
-------
                                                         F1ELU   DATA
PLANT mi MI PUWEH-PUASAMS
SAMPLlNb LOCATION uM 1 1
SAMPLt TYPE M5b
OPEHATUK UU
AMblENT TtHP.lOEG.Fj bO.
BAR.PKESS. UN.Hb) 29.33
STATIC PHtSfc. (1N.H20) -1.5U
F1LTEH NUMHEK1SJ
STACK INSIDE uIH.UN) 240.00 .00
PITUT TUBE COEFF. .04
THEHM. NO.
LEAKAGE .000 CFM ol 9.0 IN.HG
MtTEH CALlb. KACTuH .990
RtAU & NELOkD DATA tVtHY 10.0 flNUTtb
TNAVEKSE SAMHLt CLOCK bAS MtTEH VELOLI1Y UH1F1CE
POINT
NO.

p IN1T
1
I—1

932
0
0
0
0
0
0
U
0
0
0
0
1132

HEADING HEAD
ICU.FT.) UN.H2U)

BJ4.9B8
449.490
059.240
6b6.790
o/o. loo
007.000
B97.670
9u7.350
917.240
9^6. 9JO
93b.770
9<4b.4gO
956.299
.000
.900
.000
.700
.800
.900
.000
.900
.000
.400
.OuO
.900
116.311
PHtSbUKt
blACK
DlfFtKtNT lAL TtHP
(IN.
UEblHEU

3.30
3.49
3.32
3.15
3.35
3.54
3.35
3.55
3.34
3.50
3.20
3.54

M2U)
ACTUAL

3.30
3.49
3.32
3.15
3.35
3.54
3.35
3.55
3.34
3.50
3.20
3.54

IUEG.F)


U5.
166.
166.
loo.
166.
160.
169.
169.
174.
179.
tttb.
»73.

DATE 12/02/02
RUN NUPbEH 9bM5U
PKObt LtNbTH & TYPE 5' ULASS
NUZZLE 2-10 : I.D, .221
ASSUMED MUISTUNE 12.0
SAfPLE bOX NUKUEH
HtTtn box NUCBEH pua
>*tTEH htAD 01FF. 1,90
PKUbt HEATEH SETTING 320.
HtAIEH bUX StITINb 320.
UhT bAS CETEK PUKH SAKf-LE ICPlNGEH
TEMP
IDEG
ULET

57.
60.
65.
69.
71.
73.
74.
74.
75.
76.
76.
77.

.F)
OUTLET

56.
56.
57.
50.
60.
61.
63.
64.
65.
66.
67.
67.

VACUUM
IIN.HG)


7.3
7.9
7.0
7.5
7.0
a. 2
7.0
a. 2
a.o
a. 2
7,9
a. 3

BOX TEMP
(OEG.F }


324.
33B.
331.
326.
320.
31S.
324.
333.
330.
334.
339.
339.

TEMP
(OEG.F)


41.
39.
44.
52.
54.
55.
62.
bb.
bb.
69.
65.
65.

AvEKAbE
                                                    3.39
3.39   171.
71
62.
7.9   330.
                                                                                                               57.
-------
           PARI1CULATE  FltLU DATA a KfcsllLTa TABULATION




PLANT- NAME AND  AODRtSb               TEbT TEAM LEADER




MONO PUWtR-PLEASANTS                   00
TEJ>T  9BM5b
IEST DATE
UNIT 1
                                          ENGLISH UNITS
                                                                METRIC UNITS
TB
TF
TT
NP
y
UN
CP
,L P*
en
V*
T*
VfSTD
VLC
""•
ttMU
FKU
PCU«>
P04
PCU
PKc!
MD
M*;,
TIHE-STAHT 93i
TIME-FINISH 113«:
NET TIME OF TEbT, M1N. 120.0
NET SAMPLING POINTS 1 i.
METER CALIBRATION FACTuR .998
SAMPLING NUli.lt OIAMtTtR ,tl\ IN
PITUT TUUE COEFFICIENT .««
AVERAGE ORIFICE PRESSURE 3.39 U-H^O
ORUP
VOLUME OF DRY GAS SAMPLED lib. 311 CU-FT
AT METER cuNuiiiuNb
AVERAGE GAS METER TEMP bb.l F
VOLUME OF URY bAb SAMPLED llb.lbb SCF
AT STANDARD CONDITIONS*
TOTAL M^U COLLECTED IN 351.0
IMPlNGERb ANU blLlCA GEL, ML.
VOLUME UF AATEH VAPOR lb.559 SCF
AT STANDARD CONDITIONS*
PERCENT MOISTURE BY VOLUME ia.57
MOLE FRACTION URY bAb .074
PERCENT LOc! 6Y VOL., DRY It!. 90
PERCENT 0«J bY VOL., ORY 5.75
PEHCLNT CO BY VOL., DRY .00
PERCtNI ua 61 VOL., DRY 01. .55
MOLtCULArt rtT-l)KY SIAUK GAS 30.«!9
MOLtCULAK AT-blACK l.Ab t?tt.75
lisa
uo.o
12
.998
5.6 KM
.««
06. 
-------
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-------
      txAMPct  PAHTlCUCAIt C ALCllL A 1 IllNb  ItbT  NU.  Sb*SH

            UNIT  1
VOLUME uF UKY  GAS  SAMPLED AT

VHSTO =  (17.6<47  •  VM • t • IPb » PM /  13. b))  /  (TH «• 460.)
           t/.o«7  «    lib. 311 *  ,.8*Jc!/lOO) *  UB1.1*  .0)  *
MULtCULAK WtlbHl  (jf  STACK

Mnb = HU *  11.  -  (b/iU/lOOjJ * lu. *  (bnu/100)

       io.av*  (1.  -I ld.^7/luu) ) + 10. *
-------
STALK GAS  UtLUClTY AT S1ACK  CuNOlliUNb

OELP =  5UM.  OF  iHt bUHTlVH  •  (Tb  »  <4bU.J)

V!> = 05. US  «  CP * UtLP /  (SgRUMWb  *  HS)  • HNTS)

V3 = »5.<*9  *   .o<4 «  <40tt.yOb  /  (buHI( c?tj.7b « at
                                                                          FPb
STACK GAS  VULUMt. IKIC FLUH AT  STACK  CONDITIONS

OS = VS  *  Ab  *  jbUO/l4M

                                             . ACFH
SIACK GAS  VOLuMtTrfIC FLUM Al  blANUAhU

QbSTO =  17.647  •  uS * Ps *  II.  -  (HnO/lUU))  / (IS « 460.)

           I7.b<47  «    9'Jd7«>'43<».  *   ^<^.^^ *  (I. - (I
-------
                                                             ^ ItLU  DATA
-J
U>
PLANT HUKGU PO*ER PLEASANT^
SAMPLING LOCATION UNIT 1
SAMPLE TYPE M5a-P40o
OPERATOR CLARKE
AMBIENT TtMP.lUEG.F) bo.
BAH. PRESS. UN. HG) d9.33
STATIC PRESS. UN. H2U) -1.50
FILTER NUMBER(S) 0002/13
STACK IHSIUE UIM.UN) 240.00 .00
P1TUT TUBE CUEFF. .84
TriERM. NO. «J01
LEAKAGE ' .000 LFM o> 9.0 IN.HG
METtR CAL1B. FACTOR l.OOb
RtAo a HECURU DATA EVERY 10.0 MINUTES
TRAVERSE SAMPLE CLOCK GAS METER VELOCITY URIFICE
POINT
NO.

INIT












TIME
(MIN.)

0
10.0
20.0
30.0
40.0
bO.O
60. 0
70.0
00.0
90.0
loo.o
110.0
120.0
TIME
124-nH

930
940
95u
looo
1010
Iu2u
1030
104g
1050
1100
1110
1 120
1 130
READING HEAD
ICU.FT.) (IN.H2U)

93.bbb
102. bOO
111.390
121 .525
131. d4b
1 39.3c!0
149. 3b5
159.555
IbO.bbb
1 /B.020
107 .045
197. b77
207.159
.000
,9oO
.000
.700
.BoO
.900
.000
.900
.000
.900
.000
.900
PRESSURE
SlACK
UlFFEHbNTlAL TEMP
UN.
UESIREU

3.20
3.30
3.20
3. Ob
3.2b
3.44
3.30
3.4b
3.25
3.40
3.20
3.50
H20)
ACTUAL

3.20
3.40
3.20
3.10
3.30
3.40
3.30
3.50
3.30
3.40
3.20
3.50
lUEG.F)


Ib5.
Ibb.
Ibb.
IbO.
Ibb.
IbB.
169.
169.
174.
179.
lOb.
173.
UATE 12/02/62
NUN NUMBER 9CM5BP
PRUBE LENGTH A 1 YPE 5' GLASS
MJ/*LE 2-09: 1.0. .220
AS3UMEU MUISTUKE 12.0
SAMPLE BOX NUMBER
METER BbX NUMBER FB3
METER HEAU UIFF. 2.00
C FACIllR 2.14
PRUBE HEATER SETTING 400.
HEATER BUX SETTING 320.
REFERENCE PRESS. 01FF. .00
URY GAS MEIER PUMP SAMPLE IMPINGER
TEMP
CUEG
ll^LET

bO.
63.
70.
70.
00.
02.
64.
06.
Ob.
07.
bO.
09.
.F)
OUTLET

bO.
50.
50.
69.
b2.
62.
64.
b5.
65.
bO.
b7.
bO.
VACUUM
UN.HGJ


0.0
8.5
0.0
0.0
0.0
e.o
a.o
a.o
e.o
0.0
0.0
a.o
BOX TEMP
IDEG.F)


310.
324.
314.
319.
326.
314.
319.
325.
31b.
319.
327.
320.
TEMP
(OEG.F)


56.
40.
44.
64.
64.
60.
50.
56.
52.
55.
56.
52.
    TOTALS
    AVERAGE
120.0
113.493
                                                         3.30
                                                  3.32
                                       171,
79.
                                                        b4
                                                                a.o
320.
55.
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en
    HB         UAHOMETHIC HKtabUKt

    PS1        STATIC PWES uF SULK GAb

    PS         STACK, PktS, AdS.

    TS         AVtHAGL STACK TEMP

    VS         AVtt STACK OAs VELOCITY

    AS         STACK AREA

    USSTU      STACK FLU* HATt, OHY«

    US         ACTUAL STACK FLUn MATE

    ISO        HfcKCtNT I9UK1NET1C

    MK
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       FlLTtRABLE PART
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       FlLTtRABLE PART

       FlLTtRABLt PAHf
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       SULFuH OlOxlUE
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         HG. EPA b
                       ALlU
              SULFUKJC  AL10
                EMISSION HATE
      cJV.JJ  IN-hb         711.4t»

      -l.iO  IN-h«iO        -38.10

      ^'^.d^  IN-HU         /aa.la  CM-H

     171.    f              77.     C

      6*4.i:   FPb            ib.7    fPS

        .   SU-IN           <>9.tUb 5U-M

        .    bCFH      19^0«79.     SCfH

952b99tt<4.    ACFH      5b977bO.     ACHM

      97.9                  97.9

      31. b                  Jl.b


        .UO
-------
             tXAMPLt HAWdLULATfc  C ALCUL A I lUNb TtbT NU.9CMbbP

                  UNIT 1



       VULUMt UF OUT GAS SAMPLtD  Al  bTANuAKU CUMUlTIUNb

       VKSTD  = (17.647 * VM •  Y  *  IPB » HM / 14.6)) /  (TM  *  160.)

                 17.617 *   113.493  • l.UOb * ( 24.J4  *  3.417  /  13.6)
       VMSTD  = ------------- --- -.-_--. ------ . — ......._--.--.-.-.--- =     ll«J.Ob4  ObCF
                                 I   Id. * 4bO.)
              UF MATER VAPUK  AT  STANUAHU

       VMC  =  .04707 * VLC

       VHC  =  .04707 *  341. =   16. 07  SCF



       PtRLENT  MUISTuHt IN STACK  GAS

           =  (100. * VnC) / IVHSTU  *  V*C)
'                100, *  16. 07
.Ij     6nU  =  — — - ------------- - ---- --- = 12.5<4 PtKCtNT
Ch                 lU.Ufli +   lt>.07
      MOLt  FRACUUN OF UHY bTACK  GAb

      FHO  = (100.  - BnU) / 100.

                 100. -  l^.'3
      FHU  = -----------------------  =   .tt7b
                      100.
      AVtKAGt  MULtCULAK Mtlbhl UF  UKT  S1ACK GAb

      MU  =  (PC02  »  .«<») » IPOd *  .Jii)  * (ftid » HCU) • .26

      MU  =  (!
-------
      SIACK GAS  VtLUClTY  AT SFACK LUNUllIUNi

      OtLP = bUM.  OF  THt  bUkTIVM * tTb * <*bU.))

      vs = t»b.49  •  CP  *  otLP / isukUMKb • HS)  * HMbj

      Vb = B5.49  »   .b4  *   4Ub.UOi / IbuKIl 2«.7b  *  29.«!2)   *  \^. -   b4.c!4  FPb



      STACK GAS  VULUMtTHIC FLUH AT bTACK CUNU1T10US

      Ob = vS  •  Ab  •  3buO/la4

      US =   04.24  *  45i?39. 3bOU/t44 =   S5£b99(54.  ACFH



      STACK GAS  VULUMtTKlt FLU" AT bTANUAHU CuNUITIUNb

      QbSTO =  J7.b47  *  uS  * PS * II. - IBrtU/lOO))  /  (13 « 4bO.)
                 17.b47  *    9b«!b99a4. »  W.da  *  (1.  -  U£. 54/100))
      ObSIO = --------------------------------------- -- ---------- =    bbll7344. SCFH
                          t  171 . t 4bO.)


>
 *     PkRCENT IbOMNtTIt
^j
^J     IbO = (30^>.bB« (TS*4bO.) ) • I ( y . U0clbb9« VLC ) * ( VC * T • IPb* lPC/13.b) )/ lTM»4bO.) ) )/ ( IT * VS*PS*UN*l)N )
              (3u5.bt»*(  17l.t(lbO.)j*l(U.OO£bb9*   3<4l.)t(   1 1 3.494* 1 .UOb* t  ^9.33+(   3. 3 17 / 1 3 .b ) ) / (
      U.O - ----------------------------------------------------------------------------------------------- -- a   97. <)i  PtHCtNT
                                           I2u. *      aa.dt *   29. a^  *   .220  *



      PAHTICULATt  LUAUlNG -- hPA METHOD 5  (AT STAMOAHu CONDITIONS)

      CS = U.U01  •  HN •  li.43 / VMSTO

      Cb = O.U01  *      31. b • lb.<43 /   11^.053  =        ,UU4<4 bK/USCF
      PAHIICULATt  LHS/MK -- tPA MtThOU b

      PMk = Cb  * uSbTu / lib. 43 « 4b3.fa)

      PMH =        .UU44 *   60llM«<4. /  (Ib.t3  *  4b3.b)  =    4^.338
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PLANT- NAMt AND AOuKtbb                 IEbT  HA*  LEAUtH

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       E»AMPLfc  PAHllLUtATt CALCULAI lUNb

            UNIT  1  UuUtF



VOLUME UF  OWY  GAS  SAMHLEU AT JjlANUAKl) CONDITION*

VhSlO  =  (17.647  *  VM * Y * (Co * HM / 13. b))  /  (TM * 460.)
           17.647  •   119. 670 «   .9B6  *  I  «>9.3J » i.JbO / 13.6)
VMSTD s —--------------------_------------------------------  =     114.Ue!4 OSCF
                          t  70.
VULOMt OF  NAT£R  VAPuR AT 5FANUAKO CUNUIIIUNb

VMC = .U4707  *  VLt

VnC = .04707  *   3bl. =  16.94 SCF
PtHCENT MulbTUKt  IN SULK

    s  (100.  *  VwC)  / IVMbTO * VrtC)
           100.  *   to.99
BhU = - ------------------------- =  12.89  PthCtM
            114. oa-4 t  ID. 99
MULt FRACTION  OF  DMT STACK bAS

FMU =  (100.  -  BnO)  / lOu.

           100.  -   It!. 9
FHD = ----------- —
                loo.
AVENAbE MuLtCULAH  ntlbhl OF UKY blALK GAS

MO = iPtOi  •  .44)  »  (nod * .it:) +  (PN«; » PCO)  *  ,<;8

MU = Cl«;.90*44/lUO)  *  (  5.d*i<:/10U) * ((bl.4t  ,u)  * 
-------
        STACK  GAS VtLUCITt AT STACK CUNDIIIUNS


        DELP  = aUH.  OF  IMt oUHllVrt «  ( T b  *  4btl.))


        VS  =  U5.49 * CP • DtLH / ISDNHMKb  «  HS)  •  PMS)


        vs  =  U5.49 «  .at *  40t).oOb  / ibuKK 
-------
                                                        HELD  UATA
PLANT MONO PUWEH-PLEASANTS
SAMPLING LOCA1IUN UMT 1
SAMPLE TYPE Mbb
OPEMATOK 00
AMBIENT TEMP. (OEG.F) bb.
BAK.PHEi>S.( 1N.HG) e!9.30
STATIC PHESS. UN.H20) -1.50
FlLTEK NOMBEHIS) 0002Mb
STACK INS10E OIM.(IN) 240.00 .00
PITuT TUBE COEFF. .84
THEHH. NO.
LEAKAGE .000 CFM  10-°
1 «JO,0
t-1 30.0
CO «,o.O
00 bO.O
60.0
70.0
00. 0
90.0
100.0
1 10.0
120.0
CLOCK
T IME
f 1 1 1 P M 1
LLOCK )
1304
0
0
0
U
U
0
0
0
0
0
U
Ib04
EVEKY 10.0 MINUTES
bAS METEK VELOCITY
KEAOlNb HEAO
ICO. FT.) (1N.H20)

211.623
221.200 1.900
230.690 1.900
240. OiO 1 .OoO
249. 7bO 2.000
2b9.3bO 1.9oO
269.140 2.000
278.940 2.000
200. 5bO 1.900
297.940 1.000
4u7.b20 1.900
317. 560 2.000
327.690 2.100

UK1FICE

PKESbOHE

bTACK
OlFFEKtNTlAL TE*P
(IN.
UtblKtU

3.40
3.39
3.24
3.61
3.42
3.61
3.63
3.44
3.33
3.49
3.69
3. Ob
H20)
ACTUAL

3.40
3.39
3.24
3.61
3.42
3.61
3.63
3.44
3.33
3.49
3.69
3.06
(OEG.F)
DATE 12/02/02
HUN MlKbtK 10AM5B
PHObt LtNblH & TYPE 6* GLASS
N02/LE 2-03 : 1.0. .219
ASSOPEO ^OlSTOHE 12.0
SAHPLE box NOMBEN
CETEN BOX NOHBEK FB4
KETEK hEAO 01FF . 1 .87
PKObE htAIEK bETTINb 320.
HEATEK bOX SETTING 320.

UhY bAS HE
TEfP
(OEG.F)

IEK



PUf P
VACOOM
(IN.HG)

SAfPLE
bOX TEMP
(OEG.F)

IPPINGEH
TEMP
(OEG.F)
INLET OUTLEI

166.
170.
16t).
169.
172.
170.
170.
171.
IbU.
164.
170.
167.

60.
71.
76.
79.
00.
01.
02.
03.
05.
05.
07.
07.

67.
67.
60.
69.
70.
71.
72.
73.
74.
75.
/e.
77.

5.1
5.1
1.9
5.3
5.2
5.6
5.0
5.5
5.2
5.7
6.0
6.3

344.
334.
34(J.
337.
336.
329,
332.
330.
337.
336.
333.
331.

57.
45.
|j Q
H ~t
40.
St.
54.
59.
63.
66.
72.
75.
TOTAL*
AVtHAbE
120.0
116.075
                                        3.51
                                                             3.bl
                                      160.
00.
72.
5.5   336.
                                                                                                   57
-------
oo
           PAKTICULAIE  FIELD OAFA &

PLANl- NAMt AND AUONtSS

MONO PUKtR-PUEASANTS
       TEST
       TEST  DATt
                UNIT  1
PH


vc


TM

VKSTU


VLC


VWL


bKO

FMD
POii

PCU
AVERAGt ORlFlCt PRESSUKE
OkuP

VOLOME OF DRY bAS  SAMPLED
AT MtlER CUMUIIlONj

AVERAGE GAS METEH  TEMP

VOLUME OF ORY GAS  SAMPLED
AT SlANDAhD CONDITIONS*
                                              ftST  TtA* LEAUEH

                                              UO
                                                 ENGLISH UNITS
                 IOIAL M^O COLLtCIEO  IN
                 iHPlNGtHS ANU SlLlCA
MU
                 VOLUME OF 1A1E.K VAPUH
                 AT  SIANOAHU LONU1TIONS*

                 PEKCENT HOISIUHE BY VOLUME

                 MOLE  FKACTION U«Y GAS

                 PEKCENl LOcr oY VuL., OKY

                 PEWCtNT Ucf BY VOL.. LlKY

                 PEHCtNT CO BY VUL.» UKY

                 PEKCtNT HcJ dY i/Uu.i U*Y

                 MULtCOLAk wT-UKY SIALK  bAS

                 MULtCULAH rtT-SFACK l.AS
IB
IF
IT
NP
Y
UN
CP
TIHE-STAHT 1300
TIME-FINISH lbO
-------
00
Ln
PB

PS1

PS

TS

VS

AS

USbTU

US

ISO

MN


CS

PPH


MN


CS

PfH


MN


CS

PMH
               BAHUMtlHIC PhtbbUHt

               bTATIC PKtb UF blACK GAb

               MACK PKtb, Abb.

               AVtHAlit bTACK  ItMP

               AVli STACK GAb  VELOCITY

               bTACK AHtA

               STAC* FLOW hATti DKY*

               ACTUAL STACK FLUn HATt

               HEHCtNl IbUKlNtUC

                          HANI
                 Hb. tPA "3

               FlLTtRAttLE PANT

               FlLlthAbLt PART
                          HATt
               bULFUH DIUXlUE
                 MG. tPA b

                      DIOKlUt
               bULFUk UlOAlUt
                 LM1SS1UN HATt

               bULFUHIC AL1U
                 MG. tPA b
               bULFUHIC ALlO

               bULFUHIC AL1U
                 tMlSblUN HATE
      btt  PEG
                             li«.HG.
                                                        1N-HG
-l.bO 1N-H20
Ibtt. ^
»b.<4 FPb
239. biJ-lN
bOO. bCFH 19
b44. ACFH 27
101.1
,oOb9 GK/USCF*
5b.9U4 LB/HK
-3«J
743
7o
b7493
101
4b
13
2b
.10 fM-Hi
,4b CM-MI
C
.Ittb SU-M
.1
.0
.530 Kb/0
.72 KG/Hk
4300.U                4300.0


    .bb40 GK/USCF*    1292.B7b fG/USCK

bb2B.b9U LB/HH        «;bb3.13 KG/hH.


  92.0                  92.0
          GH/USLF*

 120.4£b LB/HK
b<4.b3 KG/hH
-------
               fXAMPut  PAkl 1UILAU  CALCl/LA I luNb ItbT

                     UNI I 1
        VULUMt OF  UiVT GAS  SAMPLtO  AI  ilANUAKU CONDITIONS

        VHSIO =  (17.6<4T *  VM • V *  IPb » FH  / li.b))  /  ItM +  4bU.)

                    I7.b«7 «    lib. 0/5  » 1.U3/  • (. tt. SO  «• J.iOS  / 13. b)
        VHSIO =  ------------------------------ - ---------------- • -----  =     117.<4b<»  UbCF
                                    I   7t,.
        VOLUMt OF  MATtR VAPUH AT bTANUAWU CUNUITlUNb

        VnC  = .U<47U7  * VLL

        VNC  = .U4707  *  3au.  =  1/.9U SCF
        PtKCENT MuISTUKt  IN  SIACK  UAS

        HMO = (100.  * V»CJ  /  IVMSIU  »

*?*                   100. »   17.90
H>       BnO = - ------------------------- =  U.2* PtHCtNI
CX>                    117.<«b4  »   1 /.9U
CTi
        MULt FRACTION OF DHT  bTACK

        FMO  = (100.  - BttOJ  /  100.

                    100. -   M.«J
        FMO  = ----------------------- =    .db«
                         100.
        AVtHAbt MULtCuLAW  MtlbHl UF  OKY bTALK  GAb

        CU  = (PCOci  •  .«^)  »  IPU<; »  .Id) »  (PNi> * PCU)  *  .c

        MU  = Ilc;.00«t<4/I0u)  » ( b.l»3d/10U)  t  (IB1.4+  .0)
        MOLtCULAH  NtlGHT UF  SIACK  GAS

               KU •  II. - lnn()/10U))  + 16.  *

                 i0.t?D» (1.  - I I i.dt1/ I UO J J +  |
-------
S1ACK GAS  VtLUCJTY AT SIACK CUNUlllUNb

OELP =  bOM.  UF  THt oUKTlVrl * lib + IbO.J)

VS = B5.49  •  CP  •  OtLP / ISuNUMwb • Hb) * PMb)

VS = bS.lV  *   . d<4  *   410.06tt / (bUNM 20. bU  * iH.tl)   *   12. =   bb.41 FPb
STACK GAS  VULUHtTHIC FLO* AT bTACK CONDITIONS

Ob = VS »  Ab  «  3bUO/144

Qb =   06.41  •  n'idW. )t>UU/144 =   97732544. ACFH




STACK GAS  VULUMtTHIC FLUft AT bTANUAHU CUNUlllONb

USSIO = I7.b47  *  uS • Pb « U. - (brtU/100)) /  US  *  4bO.)

           l/.b47  *    9773d544. *  29.«;7 •  (1.  -  ( 1 3.i«>/ 1 00) )
UbSTO a — — — ..._.- — _ — ..._... — ........__.......__._. -   b9744bUtt.  bCFH
                    I lbt>. » 4bO.)




PtRCENT ISOKlNtTIC

ISO = (JO^.b0.)j«l(0.0012bb9«   3«0.)»(   1 Ib.07b« I .037 • I i9.3t»*l    3.b09/ I 3.6) ) / (  7b.#460.J)J
ISO s -------------------------------------------------------------------------------------------- .....  s 101.14 KEHCENT
                                    li?U. *      86.41  »    <»9.i!7 *  ,e!l9  •  ,«Jl9




PAHTItULATE LOADING -- tPA METHOD 5 (AT STANDAHU CONDITIONS)

Cb s U.U01 *  MM *  15.43 / VMSTD

Cb = 0.001 •      45.0 * 15.43 /   117. 4b4  =        .0059  Gk/OSCF




PAWTILULATE LBS/MH  -- EPA MtTHOO 5

PMW = Cb * uSbTu  /  115.43 * 4b3.b)

PUN =       .0059  *   t>47i44oUO. / (15.43 * 453. b)  =    5«.9o4
-------
                                                                 I- ULO  UA I A
CD
CO
PLANT MONO POKER-PttASAMS
SAMPLING LOCAIION UNIT 1
SAMPLE ItPE M5b
OPERATOR UU
AMBIENT TEMP. (OEG.FJ b5.
BAR. PRESS. UN. Mb) 29.30
STATIC PRESS. (IN. H2U) -1.50
F1LTEK NUMbtH(S) 0002/lb
STACK iNSlUt UIM.(IN) 240.00 .00
PUuT TUBE COEFF. .64
THERM. NO.
LEAKAGE .OOo CFM » 8.0 IN.HG
METER CALIB. FACTOR .990
REAO & HELURO DATA
TRAVERSE SAMPLE
POINT TIME
NO. (MIN.J

IN1T 0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
00.0
9o.O
loo.o
110.0
120.0
CLOCK
1 IME
(2*-MH
CLOCK )
1 305
0
0
0
0
U
U
0
0
0
0
0
1505
tVERY 10.0 MINUTES
GAS MtTER VELOCITY
READING MEAO
(CU.FT.) (1N.H2U)

956.543
966.200 1.900
975.940 1.900
9tt5.5cO 1.000
995.530 2.000
5.3bO 1.900
15.420 2.000
25.490 2.000
35.370 1.9UO
45.070 1.600
55.0JO 1 .900
65.200 2.000
75.570 2.100

UR1F ICE

PRESSUHE
OIFFERENT1AL
(IN.
OESIHEO

3.40
3.39
3.24
3.61
3.42
3.61
3.63
3.44
3.33
3.49
3.b9
3.06
H20)
ACTUAL

3.40
3.39
3.24
3.bl
3.42
3.bl
3.b3
3.44
3.33
3.49
3.b9
3.06

STACK
TEfP
(OEG.F)


166.
170.
160.
169.
172 .
170.
170.
171.
IbO.
164.
170.
167.
UAlt 12/02/02
RUN NUPbER 10BM5U
HRObE LENGTH ft TYPE 5* GLASS
ASSUfEO MOISTURE 12.0
SAKPLE BOX NUPdER
KETER BOX NUMBER FB8
ftTER HEAD OIFF. 1.90
PRtBt HEATER SETTING 320.
HEATER BOX SETTING 320.

Oh Y GAS

KETER
TEfP
(UEG
INLET

65.
60.
72.
76.
77.
70.
70.
00.
01.
02 .
03.
03.
.F)
OUlLEI

64.
64.
65.
60.
67.
60.
69.
70.
71.
73.
73.
/4.

F-UKP
VACUUM
(IN.HGJ


5.9
.1
.1
.6
.4
. 7
.0
.6
.5
.0
7.0
7.3

SAKPLE
BOX TEMP
(OEG.FJ


341.
341.
330.
334.
338.
327.
327.
330.
340.
329.
333.
341.

IMPINGER
TEMP
(OEG.FJ


50.
47 .
45.
49.
52.
56.
55.
SB.
62.
64.
67.
69.
       TOTALS
       AVERAGE
120.0
119.027
                                         3.51
                                3.51
IbO.
77,
b9.
                                                                                                       6.6
335,
57.
-------
00
VD
               PAHIIUULAU  FltLO  DATA  a KtSULTS

    PLANT- NAMt ANU AOUKLSb                TtST TLA* LtAOtK

    MONO PUHtH-PtEASAMS                   UU
    TEST  IUHM5n
UNIT 1

TEST DATE
IB
IF
II
NP
T
UK
CP
PV
VM
IH
«»1U
VLC
VMC
«*0
FCU
PC02
P0<>
PCU
P^
HU
MhS
ENGLISH UNITS
u/o^/Bd
TIHE-bTAnT I30b
TIME-FINISH Ibob
NET 1IME OF IEST, Mil*. 120.0
NEI SAMPLING PUlNTa It!
METEN CALIBRATION FACTUR .990
SAMPLING NUZ/Lt UlAMtTtH .«;20 IN
PITUT TUoE COEFFICIENT .tiH
AVEHAGt OHIFlCt PHtSSUKE 3.bl IN-H<>0
ORUP
VOLUME OF UkY bAS iAMPLEU 119.0^7 CO-FT
AT MtTtR CuNUITluNb
AVtHAGt bAS METEN TEMP 7«J.b F
VOLUME OF UHY oAb SAMPLED llb.bll SCF
AT STANOAKU CONDITIONS*
TOTAL H^O LOLLtCTEO IN 614.2
IMPlNGtHS ANU SILICA GEL«ML.
VOLUME OF «A1EK VAPUK 17,bl9 bCF
A I SIAMJANU CONDITIONS*
PEKCtNT MOlSIUHk BY VULUME 13. Ob
MOLE FKACTION uHi GAS .bb9
PEKCtNT U0
-------
   PB

   P3I

   PS

   TS

   VS

   AS

   USSTO

   US

   ISO

   HK


   CS
   HN

>
^  «
VD
O  Pt»H


   MN


   CS

   Pt»H
    dAKUMEIHlC  Phtb'bUKL

    STATIC PKEi  uF  SULK GAb

    STACK PHtb.  ABb.

    AVtBAUt STACK  TEMP

    AVb bTACK bAb  VELOCITY

    STACK AKtA

    STACK FUOl*  KATt,  UHY*

    ACTUAL SFACK FLOA KATE

    PERCENT IbOMNtUC

    FltTtHAttLt  PAHI
      MG. tHA b

    FlLTEHAdLE  PAHf

    FILTERABLE  PAKt
      EH1SS1UN  HATE
           UlUxlUE
      H6. EPA b

           DIOXluE
      EMISSION  KATE

    SULFUH1C ALIU
      MG. EPA "3

             ALIO
    bULFUHIC  ALlO
      EHISSIUN  HATE
b8 UEG F,
                           lU.HG.
  t?4.id  1N-MG

  -l.bO  U

  £S.ef7  IN-Mb

 lob.    F

  ttb.M   FPb

        SU-1N

         bCFH

         ACFH
JU.b
   UObl GM/OSCF*

       LB/HH
                          b  KM-HG

                         lU  fM-H«>0

                         4b  KH-HG

                      76.    C

                      
-------
            EXAMPLE  PAHIUULAIE CALUILAI 1UN5  Ttsi

                       1
      VULUHt OF [MY  bAb SAMPLED Al  bTAMJAKU CONUITIUNS

      VHSTO =  (I7.b47  • VM * r •  (PC  »  PM / 13. b)) /  IT*  *  4bO.)
                 17.647  *   119.027  •   .S9a  *  ( c!9.3o *  3. SOS  / 13. b)
      VMSID = -------------------------------- - ------- - ------------ =     llb.bll UbLF
                                 I  73.  +  4bO.)
             UF NATtK  VAPuft Al bTANuAND  CUNUItlUNb

      V«C = .01707  •  VLC

            .00707  •   3/a. =  17. aa  SCF
      PENCENT MOl^TuHt  IN S1ALK bAb

      0MO = (100.  *  VnCJ  / (VMSTD »
>
 I                100.  *   17. b^
1-1     B*0 = ---- - ------------------- --  =  13. Ob PEKCEM
 L                llb.bll  +  17. Sd
      HOLE FRACTION  OF  UKT 6TACK

      FHD = (100. -  BrtOJ  / 100.

                100.  -   13.1
      FMD = — - — -
                      10U.
      AvEKAbE MULtCuLAK  rttlbHl UF UKY  blACK  bAS

      MU = (PCO«i •  .44)  *  IPOt! * ,3«i)  +  (P.Vt; + PCU) • .db

      MU = (l«!.bO»44/10u J  » ( b.l*3d/lUO)  *  ((U1.4+ .0)  *  Ab

      HrtS = MU * 11.  -  IM..1J/ I UUI ) t  Jo.  «  (UwU/100)

             il).c!o*  (1.  -11 3.Ob/100 j )  +  10.  •  (13.Ob/100)  =    «fb.bb
-------
STACK  GAS  VtLuCjTt AT blALK CUNOlllUNb

OtLP =  bUM.  OF  I ML bUWTlVH *  (\o  *  <4bU.))

Vb = *»5.<49 *  CP * OtLP /  (buNMMKb  *  Pb)  *  PNTSJ

Vb = «5.<49 *   .01 *  41B.ObB  /  (buKH  2(J.ob * 29.27)  *   12.  =    bt.JO
STACK GAS  VULUMETNIC FLUM AT  blACK  CUNDIT1UNS

OS = VS  »  Ai  «  3bUU/l<4<4

OS =   db.3tt  *  I5c!39. 5bUU/ia<4  =    97fa905bO.  ACFH



STACK GAS  VULUMtlKlL FLUM Al  bTANUAHU  CUNU1TIUNS

UbSTO =  17.607  •  US • Pi *  (1.  -  IbnU/lOOJ)  / (TS * 4bO.)
           17. ba?  *    97b9a5bO. *  29.27  *  (1.  - (13.06/100))
OSSTD = ------------------------------ - --------- ........ --- s    b9H509c!t>. SCFM
                           * 4oO.)
PERCENT  IbOMNEUC

I»0 =  (30^.^0* (TS»«bO.J )• I (y .U02bb9«VLL)»lVl'*r« (Pu* (PP/M.b) )/( rM*<4bU.) ))/( IT • VS*PS«UN*DM
        1305. 5d»(  Ibb.t^bO.) )« ( (u.00«!bb9*   37£. ) + (   119.027* .99tt»(  29.3a«(   J.509/ 1 3. to) ) / (   73. + 460. ) ) )
ISO = ----------------------------------------------------------------------------------------------- — =  99. 3b  PtKCtM
                                     120.  *      Sb.ia *   29. 27 *   .<:20  *   .<:20



PAkTICULAlt LUAUlNb  -- tPA METHOD 5  (AT  STANUAHU  CONDITIONS)

Cb = 0.001  « UN  *  lb.43 / VHSTO

Cb = 0.001  «      ie.b * lb.13  /   llb.bll  =        .OOil GH/UbCF



PAKHCULAlt LbS/Hrt — EPA MtTHOU b

PMh = Cb »  ubbTu  /  Hb.143 * «b3.b)

                                                  )  =    50.tt«2
-------
                                                        MtLU  UAFA
PLAWT MUNbu POrttK PLtASANTS
SAMPLING LUCAIIUN UNIT i
SAMPLt lYHt M5B
GPErtATOH LLANi^t
AMBIENT TtMP.lDtG.F) bO.
BAH.PNESS.(IN.HIi) 29.3U
STATIC PMtSb.CIN.H2U) -1.50
FILltK NUMBtHlS) 0002717
STACK iNSlOt UlH.UN) 240.00 .1/0
PITuI TuBt COtFF. .84
THEHM. NU. 201
LtAKAGE .Old CFM o, 10.0 1H.HG
HtTtN CALIB. FACTUH i.oob
RtAU * HtCUKO UATA
THAvEHSt
PU1NI
NU.

1N1T












SAMPLt
1IME
(MIN.)

0
10.0
cfO.O
30.0
40.0
50.0
bO.O
70.0
80.0
90.0
100.0
1 10.0
120.0
CLOCK
I IMt
r- . nf* \
CLUCK I
300
310
320
330
340
350
1400
1410
1420
1430
1440
1450
1500
tVtNY 10.0
bAS MtUR
KtAOINb
(Cu.M.)

207.427
217.190
22b.4l7
235.595
245. 9MO
255.555
2b5.450
2/5.325
205.635
294. 4b4
3o4.b<;5
314.144
324.450
MINuTtS
VELUL11Y
HtAO
IIN.H2U)


1.900
1.900
1.800
2.000
1 .900
2.000
2.000
t .900
1 .800
1.900
2.000
2.100

UHlFJCt PHtSbUKt
UIFFtfttNTlAL
(1N.H2U)
UtblKtU ACTUAL

3.40 3.40
3.40 3.40
3.20 3.20
3.b5 3.70
3.46 3.50
3.b7 3.70
3.70 3.70
3.50 3.50
3.3b 3.40
3.50 3.50
3.70 3.70
3.89 3.90

bT ACK
TEPP
(Utb.F)
UATt 12/02/82
HUN MjCbtH 10CM5B
PHObt LtNblH A TYPE 5' GLASS
i\U//Lt £-09: I.U. .219
AbSUPED CUISTUHE 12.0
SAPPLt bUX NUMbtK
CtTEH bOX NUKbtR FB3
VtUH htAU UIFF . 2.00
C FACIUK 2.14
PHOBt HEATEN btTTING 320.
HtATEh bUX SETTING 320.
HtFtHENCE PNtSS. D1FF. .00

UHY bAb ft
TtMP
(Utb.F)

ItK



HUPP
VACUUM
lIN.hb)

bAKPLt
bOX TEMP
(DEG.F)

IHPIUGEH
TEMP
(UEG.F)
INLET UUTLET

Ibb.
170.
»6fl.
Ib9.
172.
170.
170.
171.
IbO.
Ib4.
170.
Ib7.

bb.
72.
79 .
83.
87 .
89.
90.
91.
91.
92.
9c!.
93.

bb.
bb.
bb.
b9.
b9.
/O.
71.
71.
71.
73.
73.
73.

6.5
6.5
b.O
7.0
7.0
7.5
7.0
7.0
7.0
7.5
7.5
8.5

322.
308.
316.
317.
318.
31e.
313.
313.
3U.
313.
313.
319.

52.
54.
4b.
46.
50.
50.
54.
52.
5b.
5b.
54.
58.
TOTALS
AvtHAbb
120.0
117.023
                                        3.54
                               3.55
Ib8,
85.
                                                        70.
7.1   315.
                                           53.
-------
            PAHIlCULAIt FitLU OATA  & hEbULTb lAbULAtluK

PLANT- NAMt  ANo  AUOHtbb                ItbT TtAH LtADtK

MONGO POwEW  PLtAbANTb                  CLAHHE
TEbT lOCMbti
TEST OATE
                 UNIT I
                                           ENGLlbH UNITS
V*L
FHU

pcoa

POcJ

PCu
MO

Mhb
           IHPlNGtKb ANu blLlCA  GEL, ML,

           VOLUME  UF nATEK VAPOK
           AT  SIANUARU
                                             17.b7b bCF
          PENCfcNT  MOlblUKE BY  VOLUME

          M0|_t  FKACTIOU URY UAj

          PEHCtNl  co«; or VUL., IJHY

          PEKCENl  U«J bY VUL.,  U«Y

          PEHCLNT  CO BY VUL.,

          HERCtNl  ^<,^ tlY VUL.,

          MULbCULAh ftl-OKY blACK  bAb

          MOLtLULAK nt-blALK l,Ab
                                                                 METRIC  UNII5






>
1
H
^



IB
TF
TT
NP
»
U*
CP
p.
Vf
TF
VFbTO
VLC
TIME-START 1300
TIME-FINISH Iboo
NET TIME OF lEbT, MIN. 120.0
NET bAMPLli«G PuIrtTb \
-------
  HB

  PS1

  PS

  TS

  VS

  AS

  USSTU

  US

  ISO

  MK


  CS
  MN
vr>CS
Ui
  HHH
  MN


  CS
UANOMtFHIC  PKEiSUHt

STATIC PWtS  uF  SIAUK  GAS

STACK P«t3,  ABa.

AVtHAGt STACK  TEMP

AVfa STACK GAS  VELOCITY

STACK AHEA

STACK FLUM  HATt,  OKY*

ACTUAL S1AIK FLU*

PEHCENT ISUKlNtUC

FILTERABLE  PANT
  HG. EPA "3

FILTERABLE  PAHT

FlLTEHABLE  HAH I
  EMISSlUN  HAlt

SULFUH OIOXIUE
  MG. EPA i

SULFUR DlUXIuE

SULFUH OlUXluE
  EMISSION  HATE

bULFuHIC ACIU
  MG. tPA b

SULFUHIC ACIU

SULFuRIC AtlO
  EMISSION  HATE
          IN-hb
  -l.bO
     160.
64b<4«97o.
         IN-Hb

         f

         FPS

        SU-1N

         SCFH

         ACPh
                                                .Ollb GH/USCF*

                                                     LB/HH
                                            1190.0
          GH/USCF*

bb!7.t>3b LB/Hk
    .Olo£ GH/USLF*

 101.631 LB/Hk
7Mb. tfl  KM-Mb

-iB.10  KM-HcJO

7«i.«b  Kh-HG

 76.    C

 db.i   KPS

 t!9.1ttb Su-M
                            9B.7



                            ab.337 KG/USC*

                            bl.9t KG/HH


                          4190.0


                              .1/7

                              ,2b KG/hH
                        75.U
                                                                    ^3.1/b Kb/USLf

                                                                    <4b.lO KG/hH
     *   bB UtG F,
              IN.HG.
-------
           tXAMPU  PAHULULAIt C ALCUL A J I UNb ttbT

                UNIT  1
     VUl UHt OF UMY  GAS  SAMPLtO AT  bTANOAKl) CUNUIIlUNb

     VHSIO = U7.b .Ua707  *   37b. =  17. b7  SLF


     PtRCENT HUlblUKt  IN SIACK GAS

     BnO : (100. * V*C)  / (VHSTU *  VMC)
>
 I              100.  *   17. b7
J     BMO = ------------------ - ------- =  13.37 PthCtNT
                         »  17. b7
     HULt FRACTION OF  DRY  bTACK UAb

     FHO = (100. - UnUJ  /  10U.

                1UU.  -   13.4
     FMD = - ---- - ------- - — - --- --- =    .Bbb
                     100.
     AVtKAGE MOLtCuLAH  ntlbHI UF UKY  S1ALK  GAS

     MO = (PtO«i *  .«

     M«S = MO *  Cl.  -  (bnU/lOOJ) *  IB.  *  (b«U/lUO)

     M«S =  30. ab*  (1.  -U3.37/1UVJ)  t  IB.  *  (13.37/100) =   titt.bt?
-------
STACK GAS VtLUtlTr  AT  STACK  CUNullIUNb

OtLP = SUM. OF  THt  bUKHVH  *  ITb *  4bO.))

VS = B5.49 • CP  * UtLP  /  ISuNUMwS  *  PS)  • HMS)

VS = 05.49 *  .tit *  -4l«.0btt  /  ISUHK  ib.b2 * 7)  *
                                                                   tit, 44  FPS
SIACK GAS VULUMtTHlC  FLO*  AT  STACK  CONDITIONS

OS = VS * AS * 3bOU/l44

OS =   ttb.4<4 * 45«>3V.  3bOO/144  =   977b3l«!0. ACF M
STACK GAS VULUMtTKIC  FLUN  AT  STANUAKU CUNUITIUNS

QSSTO = 17.047 * US  *  Pi.  »  (1.  - (BnU/lUOj)  / (IS » ObO.)

          17. bar *    S77biUO.  *  e9.a?  • (I. - (13.37/10U)j
           ---------- — ------------ — .__.-.......-.-----.--
                    (  IbB.  *  4bO.)
OSSTO =
                                                                  b464B97b.  SCFM
PERCENT ISOKIMETIC

ISO s (iOb.58»(TSt4bO.)

       (3oS.5«*t
                                    121).
                                               Bb.44 *
                                                              J/(TM»4bO.)

                                                              .00b*l  £9
                                                                      -
                                                                        *
                                                                                     1 3.6)) / (   7B.«4bU.J))
                                                                                                           =  9B.7b PERCENT
PAttTICULATE LOADING  --  EPA  HLTHUO 5 (AT  STANUAMU CUNUlTIONSJ

CS = U.U01 • MN  »  IS. 43 / VKSTO

Cs = 0.001 *     ob. 4  * lb.43 /    H4.5«;l  =       .Ollb Uh/USCF
PAHIICULATt LUS/hN  —  EHA  MtTHUU b


PMM = CS * USblU  /  lib. 43  *  4bi.bJ


PHH =       .Ollb *    b9b4BS7b.  / (lb.43 * 4b3.b) =   114. bO
-------
                                                        FltLU  UA1A
PLANT MONGU PU*EK HttAbA^Tb
SAMPLING LOCAUUN UNIT i
SAMPLE TYPE M5b
OPtHATOH LLAHKt
AMBIENT TEMP.IOE6.FJ bo.
BAR.PHESS.UN.Hb) 29.30
STATIC PRtSb.llN.H20) -1.5U
F1LTEH NUMBtHlSJ 0002718
STACK iNSlDt U1M.UN) 240.00 .00
P1TOT TuBt COtFF. .84
THEHM. r.o. 201
LEAKAGE .004 CFM « 10.0 IN.HG
METER CAL1B. FACTOR .980
KtAO * HECUHO OATA
THAVEHSt
POINT
NU.

INIT
!>
1
H-J
vo
00








UTALb
SAMPLt
TIME
(MIN.J

0
10.0
20.0
30.0
40.0
50.0
oO.O
70.0
00.0
90.0
100.0
110.0
120.0
IdO.O
CLOCK
T I ME
124-nH
CLOCK j
1300
1310
132o
133o
1340
1350
1400
1410
1420
143u
1 440
1450
IbOO

tvtNt 10.0
GAS MtUH
HEADING
(CU.M.J

935. b84
946.222
95b.B20
9bb.275
97b!340
907.010
997. bOl
7.b53
18.780
28.528
38.758
49,049
t>0.9bl
125.297
MINUTES
VELOC11Y
HEAO
(IN.H2U)


1 .900
1.900
1 .800
2.000
1.900
2.000
2.000
1.900
1 .800
1.900
2.000
2.100


UHJF1LE

PHtSbUHE

bl ACK
DIFFERENTIAL 1E*P
(IN.
UtblHEO

.47
.45
.30
.70
.50
.70
.70
3.50
3.40
3.bO
3.70
4.00

H20J
ACTUAL

3.50
3.50
3.30
3.70
3.50
3.70
3.70
3.50
3.40
3.bO
3.70
4.00

(OEG.F)


Ibb.
170.
168.
Ib9.
172.
170.
170.
171.
160.
Ib4.
170.
Ib7.

UAlt 12/02/82
HUN NOKbtK lOUHbb
HHUbt LENbTH & TYPE 6' GLASS
NLUILE 2-0/: 1.0. .221
AbSUPEO KUISTUNE 12.0
SAPPLE box NUMBER
KtTtN BOX NOPBER FB5
t-tTtH htAO 01FF. 1.97
L FACTCH 2.14
PHOBt HtAltH SETTING 320.
HtATtH bOX SETTING 320.
HtFEHENCE PRESS. UIFF. .00

OhY bAb CtTtH
TEMP
(UEG.F)
INLET OUTLET

74. 74.
77. 73.
05. 73.
90. 75.
95. 76.
9b. 78.
98. 80.
98. 80.
99. 82.
100. 04.
100. 83.
100. 05.


PUCP
VACUUM
(IN.HG)


8.0
8.0
7.5
8.0
8.0
8.0
8.0
8.0
8.0
8.0
8.0
9.0


SAPt-LE
BOX TEMP
(OEG.F)


320.
318.
301.
302.
305.
307.
309.
310.
310.
309.
308.
309.


ICPINGtM
TEMP
(OEG.F)


56.
42.
44.
48.
48.
52.
48.
54.
54.
56.
58.
6*.

AvEHAbE
3.59
                                                             3.b9
Ib8,
         93.
79.
8.0   309.
52.
-------
vo
               HAHlICULATt  FltLU UATA  &  IttbllLTb




    PLANT- NAHt ANU  ADUKLSb                ItbT  TtAK LtAUtM




    MONGO RUMEN PLtAbANTb                   LLAHKE
    TEST  IOOM5b
    TEiT  DATt
UNIT I
                                               ENGLISH UNITS
                                                                     METH1C LM1S
IB
TF
TT
NP
r
ON
CP
PH
Vf
If
VMSTU
VLC
VHC
unu
FMD
PCg*
PC*
pcu
^
MO
MMb
TIME-STAHT 1300
TIME-FINISH 1500
NET TIME UF TEbT, MIN. 1£0.0
NET SAMPLING PulMS 12
METEH CALIBRATION FACTUR .906
SAMPLING NuZ/LE UlAMtTtR ,ct\ IN
HIT01 TUBE CuEFFlCltMT .B
-------
I
to
o
o
t>B

CSl

PS

IS

VS

AS

USSTU

US

130

HN


CS

PHH
CS
       MN


       CS

       PPN
                 BAROMETRIC  PHESbUHE

                 STATIC PHES  UF  SIACK  GAS

                 STACK PRES,  ABS.

                 AVERAGE STACK  TEMP

                 AVI, STACK UAS  VELOCITY

                 STACK AREA

                 STACK FLU"  HATE.  UHY*

                 ACTUAL STALK FLUn HATE

                 PERCENT ISUKlfcEUC

                 FILTERABLE  PART
                   Mb. EPA b

                 FILTERABLE  PART

                 FILTERABLE  PAHT
                   EMISSION  RATE

                 SULFUR 010XIUE
                   MG. EPA b

                 SULFUR DIUXloE
                 OlOXluE
            EMISSION RATE

          SULFOR1C ACIU
            MG. EPA b

          5ULFUR1C ALIO

          SULFuRIC AC10
            EMISSION RATE
•JS.iU IN-Hb
-l.bO IN-M«;0
£4.19 1N-MO
Ibt). F
ttb.b (-PS
<4b«JJ9. SU-IIS
b'ibUO'Mc!. SCFh
97BB1B7£. ACFh
100. J
77.3
7
-------
              EXAMPLt PARTICULAR CALCULA1 IUNb  ItbT

                   UNIT 1
        VOLUMt  UF  UKY GAS SAMPLtO A)  MANUAKl)  CUNUIllUNb

        VMSTD  = (17.647 * VM « T •  IPb  »  HM  /  13. b))  / (TM «• ObU.)
                  17.b«7 •   lib. 497  *   .980  *  (  £9. Jo + 3.b9e: /  11. 6J
        VMSIO  =  -- ------------------ -- ---------------- - ------------- -  =     lltt.JbS DSLF
                                 I  ttb.  »  <4bO.)
        VULUMt  OF  MATtK VAPUH AT bTANUAHD  CUNUITIUNb

        VrtC  =  .0«707  * VLL

        VMC  *  .04707  *  30b. =  ltt.15  SCF



        PtWCENl  MUlblUkt IN SIACK bAS

        BM()  =  (100.  « VnC) / (VMSTO t  vnCJ

;>                 100. •  IB.lb
 I       8*0  =  --- -- --------------- - --- -- =  13.30  PthCtNT
                              16.15
       MULt FRACTION UF  UHY bTACK

       FHU =  (100.  - BftOJ  / 10U.

                  100.  -   13.3
                            -- --- — — =    .«b7
                       100.
       AVtKAbt  MULtCULAH WtlUHT UF UKY SlAQK GAS

       HO =  IPCO^  *  .44) + (POd * .id) *  (PNi  » PLU)  «  .
-------
SIACK GAS  VELOCITY  AT  SUCK CONUIMONb


UtLP = SUM. OF  THt  bUWTlVH * lib * <»bO.J)


VS = 05.49  • CP  • OtLH /  lSU«l(fc«b * Hb) * HMb)


V5 = 05.19  «   .0« *   mo.obo /  (SURU 
-------
APPENDIX B




FIELD DATA
   B-l
-------
                                                 EMISSION TESTING  FIELD  DATA
                               HANI I Clll
          WMl^'Wi''^'''''^^
         2
S
                                              i i  i
                                                                   DAK
                                         II » It II 11 H 40 41
                                                                                           SAMPLING 10CAIION
                                                      41 4144 4S 141 41
                                                                                     Itl I) III4I
                                           1  3BI W /tl 1 ' "'  * 'I *^Jt"  •            "    All * I.. ... J..._ ^ I   I J ^i^-Jy '
                                           li/Kifi/fi/t-Mtki'iTt ih  i i  i  i i  i i  i  i i  i i i  i i i I  iH-fUfi
                                                                                                                             WUtflE
                                                           kl|>'|>lUl|'o|ll!>l|M|'4|/iL|ii|(||n|M
                                                             j *  ' ji             * i  i
                                                                                                                              M II I  I M  I
           IW M.
              4
                                 ONMIOI
                    I
           «|'»|"H'i|i4|<>|n|i)|.i|njjii|n|n|ii|i4|)>|it|ii
                          1 1 I  i  i I  I i i  i i i M  ' ' '  Swl^
                                           AM
                                           II HC
                                           Cf>
                                                     ii[n{.
                                                           cms.
                                                          (IN. Hf)
                                    II Hill 54
                                            SIM 1C
                                            MISi
                                            (IN H^
       is|n[ii|ii|ii
                         rum

                                                                                     1 I M I  I  I I  I |
                               SIAU INSIH
                              OlMtN. (INCMS)
                                                                                 M|\tUoilljllUj|t<|li|il|ll|ll|t
                                                                                 jrf  J •  I  I   *  I I I  I
                                                                                                      I I  i  I I
rnoT
IUU
                                                                                                                                       fust
                                                                                                                                       jM
                                                                                                                           nliilnl
                 HUM IU6IM AM> UN
          |.|.|4M.|.l.|tl..|..hi|..|..|.M..|.,|..i.t
                        I  i M  I I  I  I I
                                               Ml IH.
                                           1.0.
                            io|n|ii|iijii
                                                   NO.
                                    r^m.
H.O. |sAM>t{Ulll I
(t) ;BOI Mikono  AM*
                                  M 111 II
                                        J_L
                                                                        MUI
Mlll CA1
f AC 101 »
                                                         fi?y>
                                                                                        ICAK CHECK
                                                                                             cm
                                                                           IN. H«
                              £0
                                                                                                     FACTOR
                                                                                                    ' ' ' i 4
                                                                                                              MCIOI
                                                                                                             tltlt4|lt
                                                                                               MOM
                                                                                               MUI $41
                                                                                                                    ti ti it tt
                                     &
                                                                                                           jHjt
                                                                                                                 •01
                                                                                                               MUI Ml
                                                                                                     "I'tfh,
                                                                                                                                   HF.
                                                                         ititSt
             iccou
             OAIA
             HIM
>l«T?Ti5
       ifc
EQzEi
                                     •MiiEiE
                                  4a(4»bo }a
                                                  vcuxrinr
                                                               oairicc r us SUM
                                                                 DirrtUNTIAL
                                                                         STACK
                                                                      VXMTCIUTUU
                                      DAY CAS M£TCK
                                       TCMPtRATUKT
                                     IN£CT
                                                                                                       CHJTLtT
                                                                                                       IT    »«
                                                                                              ruwr
                                                                                             VACUUM,
                                              CAMPLE MI
                                              TCMfCKATUU
                                                                                                                           1
                                                      c
                                                                         TZZ
                                                                           m

                                                                                                          /v
                                                                                                         32
                                                    ZI"TJ
                                                    2
                                                                                                         7 •/
                                                                                                         22
                                                                                                         •77
                                                                ZS
                                                                         ZZZ
                                                                         H
           ICO.
                                                               sa
                                                              S2
                                                                     4970A&B   RUN. NO.  IA-
-------
EMISSION TESTING FIELD DATA
-------
                                                 EMISSION   TESTING   FIELD  DATA
                          HA»I t cm
         J'|i|i|ii|ii|ii|n|i«|ii|it[njii|n};fl[»i|»|n|].|n|n|»|ti|»|>o[ii|u|»
                                                         MM
                                                                        OAlf
                                                                 >4|n|)t|l>|)i|»|l|»|M[t«jSi|>|[>l[>|[M|Ki(u|n{»[M|l>
                                                                                     i  i
                                                 iTl I'l  I  I  I  I  I  I I I I !  I  I  I
tM
                                                                                                                                                  SMPLt TtH
                                                                                  "|l'|llM'o|tl|>l|>l|f4|ls|ll|l
                                                                                    1..' ;*» nV '  I  I  I  I  I-
                                                                                   JL
                            OMMIM
                                                      IINP
                                                      (•f)
                                                     II II 10
                                                            CiiSS.
                                                           (IN  M,))
                                                            £GE
                2/1 U If t             111111 -i--i-  --1--1—  '"'""j"i"i'i'*i" ••i-'i"i-']'~i-'i-*i»'i"r'ijji"i"i"i>*i"ijir

              -iQfWi I  M  I  I  I  I  M I  I I I  I  ^•plAgi?^ . T/A  I  i  .0.00^7.5^.  |  .  ,  .  , . M
                       SIAIIC
                        PUSS
                       (i«  M?O)
                                                                    IS lllll M 11
                                       mill iotju(s)

                                                                          IftSIM
                                                                   OIMN.  (IkCHtS)
                                                                        l"IH>.|»l>.|M|l>|>.|.,|..T
                                                                                                                     1 I A  I  I
                                                                                     I  M  I  I
                                                                                      1
                                                                                                                                                 '''''''''I
                                                                                     rnoi
                                                                                      IUM
                                                                                      c»
       MMC IUCTM AW ll«
   *Jtl«i>l|ltl"l"h»l'»lulltl'»l"l"I'«
_£li
                       Mini


                                    I0|ll|»|lljt4
                                                    NO.
itlitUiui |Ji
jȣ
 M,
 k4|4t U.J4I
                                                                                                  LUK CHICK
                                                                                                         crn
                                                                                              IN. Hg
                                                 l|Si{Sl|S4|sT
n|si|si[s«].o[r
                                                                                                                               rwiai
                                                                                                                                       rwu
                                                                                                                                      MUI UT
                                                                                                                                            IM
                                                                                                                                                               Mtf
                                                                                                           l|'l|»l|»
                                                                                                                                               HUI Ml
333JT
                                                                                                                                                          Af
                                                                                                                                                       >i|n)u|n
                                                                                                            KOMO
                                                                                                            OAIA
-------
                                           EMISSION TESTING  FIELD  DATA
                        HANI t cm
               |"|"|"I"H'>I|>I"I"I"H"I';I"I'I"I"I"IMI'°|||I"I"
                                                               Mlt

                                                                                                IOCAIIOM

                                       i  i  i  i i i  i  i  i  i   W&ft&rt  I  i .4u>/.rT ./....     .      .     ..
                                                                                                                              SMtflt TIN
                                                                                                                                  1 I  I  I I I
  It* NO.
                         OflMIOl
          'I.I
                         .  i  i i . i  . i ....
AN*.
UlV
      WSS.
     (in  Hql
 STATIC
 WSS
(IN. M?0)
                                                                               Him
             I'lVl I  I  «?|0|0|Zr?l5gl I  I  I I i  I  I  I I I  I j I I I  I  I A  j  I
                                               SIAC( INSIOC
                                               OlttN.
        MOH tiMTN AM HM
1 I I6ll
                    ..,.,,,
                                        Nome.
                                     i.o
                                 a|n|;i|nji4
                                              NO.
    M.
    (i)
                                                        BOl NO
   n[n|u
WT(I I  NCUI
KOI M.  4 M •
              Will CAl
              f«TM V
                                                                                4t 41
                                                                                      IU1 CHECK
                                                                                   IN.  Ng
  K
FACTOR
                                                                     NUI ui
                                                                                                                    >4[4(|4l|t1
                        rnoi
                        TUli
                         c»
                                                                                                                            an
                                                                            )olii|i; »|MII
                                                                     m
                                                                                                                                         PMC
  •01
NUT SCI
HI.
 tt
•[COM
 MIA
 N|*$
                                                                                            ill
-------
                QUAD TRAIN SAMPLE RECOVERY  AND  INTEGRITY  SHEET
Plant jjt
Sample location
Run number   /.-/•-
•£  ///*r^vITS*Sample date   ///e?/^o
  /
 C^c~rj-i7-7~     Recovery date
Particulate sample type    y^s M5<3
Particulate filter number 	
Particulate filter sample I.D.
Probe rinse
                                      Recovered  by
                                            Mfr 3£0-
                                     V970
                    rro^ vr	 I.D.
Purge train 20 min (check when completed)
Location of filter in back half
                                   MOISTURE
Final wt
Initial wt
Net wt
1st 2nd 3rd
impinger impinger impinger
557. b"g ^°l-^ g CM.
y$ST. <§ g bbO-^Q ScfZ.'
9/,
-------
              QUAD TRAIN SAMPLE RECOVERY AND  INTEGRITY  SHEET
Plant /'Cv£>
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
-2
:ion **"" /

sample type
filter number
filter sample
20 min (check
filter in bacl
1st
impinger
5T7.5g
#V.6 g
*X7 g

• ~P /j*L^<*£> 4'^7-^ Sample date / / /"Zc~t / * ~Z—
c>Lr-rj-j=-r Recoverv date if/Z'^j'S^—
Recovered by /ViZ-L./ P^€Lzi
x,fe_5. M5 ^> M5-3SO H-£4SO M5»<3cu
3F Occi^j^T''' ' i3 ^^
I.D. 4^1 "7^^ ^
vi«- I.D. ^/Q?^1^"
when completed) v^
< half r^T-cVif^-O 2.^ t- -\ ^^ -
MOISTURE
2nd 3rd 4th
impinger impinger impinger Silica gel
63) ^ g ^^r.6 g ^"^ • ' g ?^3g g
, -^- / «c-~ a -^"S'-f. T 	 a ('-jCDO.xV Q 7 "7 S~. (^ g
•y?. ^ g /7^' g 5"?,^ g /^-^ g
Total moisture 2-f ^. j^ g ^5^ * spent
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks	
                              RECOVERED SAMPLE
                                   4-  '
                                           LIQUID  LEVEL  MARKED
                                           LIQUID  LEVEL  MARKED
                                           LIQUID  LEVEL  MARKED
Received by ^
Remarks /-z.J*
                              LABORATORY CUSTODY
                                                   Date
                                   B-7
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /k^vAtA 1+1=^4 Axe, m/P^+^hJ-r^TA Sample date ///-?. ,
4 -'
Probe rinse H--? o I.D. ^9 ^3
Purge train 20 min (check when completed) -^
Location of filter in back half fe^FTcot^kTrO ^ ~^ -r- *
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
Final wt 5^^-Lo g L ZD T g 602.. 1 g 637. / g
Initial wt v9c?,£p g (=>7/. V g .S"7^-? g -V^D.'?. g
Net wt 'f^fl g -,T/U? g 5"5~,3 g 5 »/3 g
Total moisture ^05-7 g VO
^Z.
•9/?z:
r07t?5?,r€(
I V^ M5«-
.rg?



TAi^.
Silica gel
,?V7..i g
^/ jTg
nr g
% spent
                              RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks             	
                                           LIQUID  LEVEL  MARKED
                                           LIQUID  LEVEL  MARKED
                                           LIQUID  LEVEL  MARKED
                                  Or
                                                               ~
                              LABORATORY CUSTODY
Received by
Remarks  '-/
                                                   Date
                                   B-8
-------
QUAD TRAIN  SAMPLE RECOVERY AND INTEGRITY  SHEET





                        S7/4 Sample date  / //cQ/?
                             sample type M5 B M5-32fl M£=450
Particulate filter number ^ OCo *2.~?-^_ B> 	 _ — -
Particulate filter sample I.D. ^T-i " 	
I/ ^^^ T n ^V*"7' "7 <•/ ^
Prohprin^e rr ^O 1 . U. ^ 	 __^_
Purae train 20 min (rhpr.k when completed) ^
\ ?ci
Lnration nf filter in back half BsTUJcT^ro e^v -r- ^ j:-^(
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
o ^ i 3  ^^ >Jl 9
Initial wt £/£7 Z- g ££> £ 5" g ^7^-if g 6 g 7
RECOVERED SAMPLE
~ 4 ,'
ppnpF RTN-^F CONTAINER I.D. ^9~7S' '
TPA IMP r.nNTATNER I.D. -< *'^ ( /' -' ( ' ^< "^ — Date ^' -'
Remarks . >/-"-. •'• .^ '-'&'-> j 	 . 	 	
7/3^
-*J-Tt?S3c8
^^iM5a3




^>
Silica gel
? 7 3 J g
^0 5"^^ g
7^/ g
-------
                                                  DRY MOLECULAR WEIGHT DETERMINATION
PLANT.
DATE.
                          /OL<.
                                                                COMMENTS:
                                    .TEST NO.
          SAMPLING TIME (24-hr CLOCK)	
          SAMPLING LOCATION -S W. JC_
          SAMPLETYPE<
           SAJplNTEGRATED, CONTINUOUS).
ANALYTICAL METHOD.
AMBIENT TEMPERATURE
OPERATOR
          .ORSAT LEAK CHECKED
^^\^ RUN
GAS ^\^
C02
02 (NET IS ACTUAL 02
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N 2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
IZ.O
Af.?


NET
/Z-o
6.?


2
ACTUAL
READING
IZ.I
/9-o


NET
/z-/
6.7


3
ACTUAL
READING
/z.f
/9-o


NET
/z../
6.9


AVERAGE
NET
VOLUME
/2./
c,:J



MULTIPLIER
44/100
32/100
^/lOO
28 '100
TOTAL
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Md. Ib Ib-mole





CD
I
-------
                                        EMISSION TESTING FIELD DATA
VBAVKKM
 •VINT
       CLOCK TIMg
•AMFUM6X.  (24 kr
TMK,iU*  XXUJCE)
                 j&L
CM METE* urmiac
  IV.I. It*
                               VELOCITY
                                         omricc PMCSSUU
                                           DirrCRCMTIAL
                                           UHl.tn.HjOl
                                         iTACK
                                       TtMTCMATVU
 DAY CAS HETEB
  TEMPERATURE
"fiflif"
                                                                                   OUTLET
                 runr
                VACUUM.
CANPLC VOX
TCNTCtUTUU

 IHTINCU
RNTCMniM
                                ±L
                                                   1*
                                                                                               M.
                                         LZ
                                                   l*n&
                                                   ML
                                                                    S
                                                         £L
                                                                                                &
                                                                                               J&
                                                                                               SA'II
   w
          -y*?*
          S
                                             M
                                                                                           5
                                                                                                  s
                                          /.
                                                   m
                                 /.^
                                                                    22
£2x.
jt^/Z-
                                                             h
                                                             r
S
            •77
                                                   7?r
                                                                                           Ml
                                         22
                                                                   %
                                                                              337
                                         Z.O
                                                            J2
                                                 499'. A&B   RUN.
                                                                                                               J	L,
                                      nrt • . I 41\
-------
                                           EMISSION  TESTING  FIELD  DATA
                       n.Mi i cm
^'J:!!!^';^;^^^^?^1^1^^!)'1!"!"!"!''!"!"!'-!''!"!-!
       •I;I"H"'"H
                                       I  I  M  I  I I  I  I  I
                                                                OAK
                                                                                          VAMPliMC, IOCAIION
               4;[4iJ44J4t |u|4i]4iji'i|s«|si[s;[s)[s4hs|iiTsi|silsiUa|ii|ij[ij|i4Jts
               —i i .'r J>J» '  i' '—i—'—' '  '  '—*—•—'—I  '  '—•—•—'—
                          3
                                                                               i in i  i  i  i  i i i  i  i  i  i i i i 11
                                                 'ulimijHHiiliiliilMmiiiliil.ili.lii
 IM MO.
m
                         OfdUlM
              !uh.|..|.i|..|.>|.t|.i|.i|.iHf|»l»l»l''TOT
               i 11
                            1 i i >  t i I  i  I  >
                                             AMI
                                             IIW>
                                             CF)
                                                      WiS.
                                                     (IN.  M«)
                                                              SUTIC
                                                              C81SS
  "I'«N"I"
\A n/i-T
                                                                                rum
4i|4i|4i|4i|M|4s|4i[ii|ii|4$|sa|si|silsi|M|ss|si|si si|si|iglii|il[ii[i4|is|ti|ii|li[ii
».ii <»»4^»»A—^—g^. • *—J imAm iii 1  ll  i I  I   *  *  *	*--- l   1 t  I 	-L- |__
             m  \  i .1. M >  t  i i
                                                    SIACI IHSIW
                                                   OIMXK. (INCNCS)
                                                                                                                   Milt
                                                         VlX^f I  Mill
                                                         »IIOT
                                                         IUM
50^3
                                                                                                                                   TMIM
                                                                                                                                     Mil S
                                                                                                                                -i-L
                                                                                 tux
^XLtef
   '  lit
-------
                                                       EMISSION TESTING  FIELD DATA
                                   HAM t cm
           t|i|i|«|i|«|'|«l«l'»l"l'i|"l'«l'M^I"l"|"po|"|^|'i|M|n|n|n|)i|n|io|il|»|i
                                                          ..
                                                                         U 11)1 It 40 41
                                                                                                     •yAMCUHG IOCAIION
                                                   «|«.|M|..|..Mu|4.NM|M|*«MMMMh,H*.|..M*«h
                                                                                                                                           IMtfU IIP!
                                                                                                                                 *.|4,|..|ttH..|»l|,l|,.|M|,.|,,|,.[,
                                                                                                                                          M  M 1 1  1  Li i
             •l« NO.
          f£k±
                                     0««AION
                          Hu|ul>>|i«li>|it|ii|n|n|ii|ii|»|ii|>4|ii|n[ii
                                   i  i , , ,    |MM       p,j?
                                                            IINP
                                                            CO
                                                          "Hi
                                                                 MliS.
                                                                (IN  HI)
                              Il|ll|ll[i4
                                       SUIIC
                                       Mtii
                                       (IN  M,0)
         l>[ll]ll|llfll
                                       T\l&
                             fHUI MJWU(S)
             4>|4l[4j|4l|44}4t|4l|4l|4«|4t[M^l|w|»|v||i
                                                                                                      M 1 I  M
                                                      UAC« INSIH
                                                     OlMtN.
                                          |ll|t(^u|ll[7) >4|l>[t|||l[n)tt
                                                                                      J_L
                                                                                                                               Mill
                                                                           riTOT
                                                                           TUli
                                                                     Dt(W
                                                                      (J0.
                   MOM lUtlM MO
           nni«>tmniiiH.ihHn|u|.*i.iinT^pr
           i i 6Vi
                             I 1    Mill
                                                    MIIK.
                                                i.o
                                            O|ll|ll|lljl4
                                                         NO.
                   it|i>|;ipi[ii
                             tfi
  .  .  iAWlf
 (i) ||OI M)
H »l»i
II|M|I>
     HfllR
     •01 NO
ltlulll
                                                                                MUI
11[40|4||4I
                                                                                       MTU CAl.
                                                                                      4lU4|4t |4||4I
                                                                                                  LUK CHECK
                                                                                                        CfN
                                                                                                IN. M«
"I"I"N"
                                                                       \tiSL
                                                                                                                 FACTOR
                                                                                                              tihifiihiltolti
m
                                                                                                                                          Ml
                                                                                                                                        MAT SIT
                                                                                                                                         •i"i"i"
                                                                                                                                                  iff.
                                                                                                                                               '*I»N"
                                                                              •CCORO
                                                                              DATA
?l»i»no

IP|20|2I I 22|23|2
VBAVEMS
 •ourr
              I^RHI;
            SAMMJNC
            TIMK,Bta
                           TIMt
                         (]« kr
                         CUJCIJ
 CM Mcna mu>i»6
                     VEUX1TV
                                    omricc  PRCSSUM
                                                                         UH).ln.M20)
                                                                      ocso
                                                                                                                                         52|53 I 94
                                                            STACK
                                                         tCMFtlUTUMI
                                      DAY CAS MCTCM
                                       TtHPCRATUHC
                                     TSCef"
                                      .  »••*
                                                                            SAMPLE  BOX
                                                                                                                   OUTLET
                                                                                              VACUUM.
                                                                                            IHTIMCU
            •3*
                                                                       '  . 12-

    00
   -4-
                                                                        /.  0
                                                             2.
             *»
                                                 £

             7o
                                                                                 -I « "0
                                                                                                                                   3"°

            -^£_

              / <9 •
                                   <$  ?

                                    7 y  .02. <^
                                                        a.o


                                                                                        4997A&B   RUN. NO.
                                                         .-  7
-------
                                              EMISSION  TESTING  FIELD  DATA
                                CIII
E
111) i > •»11 u u u u u >t u u ui.tb, nn,
i|>t|ii|ii|n|io|n|u[i)
                                                     I I I I
                                                                   (Mil
|ll|l>jll[lljll|4o|4l
                                                                                              UWUM. 10CAIIUN
ifrMH"l»N*M»iflH"M*'l"l"N"
                                                                             J\  MiU/th  f/i i i i  i  |  i  i  i  i i
                                                                                                                                      SAMPlI  Tiff
                                                                                                                            4lJtl|u|tt[lo|MJt||ll|l4|n||,|,|[,,[M^
                                                                                                                                                         .-I   .  I/I
-------
              QUAD TRAIN SAMPLE RECOVERY  AND INTEGRITY  SHEET
Dl anf Irf/^A i—i fv-M i • — f> / r\ i~ A^AjtfT—V ^ '
Camnl o Inratinn ^^ / O c/7"X- fc* ~/~
/vr,oJ Sample date ///W^
Rprovery date /l/Zd/Z ~^
pun niiphor T-^J- ^^-PMc-o Recovered by /n.fi/ tr/4 	
Dar-Hmlatp <;amo1e type M5S
Dav-t-TruiatP filtpr number o oo Lo
Da^fTmiAtp filtpr samel e I.D. H^
Pv*nhp ri n^P £i s cJp> tJO^s
Purge train 20 min (check when complete
i nratinn nf filtpr in back half fjf.
Mgirjgy ^^ -MSH5> M5W
	 f '^/^'/^^OO
6
[ . D . 41 11 /V ^
vn ^X
-. j ^_.
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger Silica gel
Final wt 5$0 - 8 g _6^Li_ g ^3/-?g C3o ? g ?g^ 9
T n i t i a 1 wt • H^f 2^Z_ q (">"^ • «i 9
Npt wt ^it0 q "5Zo g
"S ^/^ . *-/ q bOO , (^ g <^-i / • o g
Hl.1 g 7Q.3 g £7? ^ g
Total moisture /^T,*? g' &£> % sPent
                              RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     I PA
                    H202
                     H20
                   Acetone
Samples  stored and locked _
Remarks	
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                t A
                              "11 ft-
Received by
Remarks   £
                              LABORATORY  CUSTODY
                                                   Date
                                    B-15
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant ^o>Jc
Sample local
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
?ou^/.\
.. /
:ion "P /
7i3>- .vijs-^- •
sample type
filter number
filter sample
20 min (check
filter in bac
1st
impinger
6llo g
SZS.& g
/^Y g

^AV^I/P^ Tr4T>o*J Sample date ///Zf/l
Ocm c="7~ Recovery date ///3^/^"^
^wco Recovered by n]-f> j £*,4
M53 M^^O ws^ MS^90
0^-io0^3 ^ ' "* '^r0
I.D. *Vr?Ns6 /
I.D. ^77 V ^T "
when completed) /
khalf 15 -4- 1 7U<-) .». 'x''3' ~T~r^- -^ -. . 	 -
ild 1 T Jj tfl '-O tf c N ^-- " T i--1 —i-' v>i»Or r^
' O
MOISTURE
2nd 3rd 4th
impinger impinger impinger Sili
6/^5^^ /^ -i C^f'V-l' 9;

-^//° g /?. 6 g V//3 g ^/
Total moisture 2-o?,( g /5> ^

/

M5W





ca gel
^ g
:^ g
» spent
PROBE RINSE CONTAINER I.D.
IPA IMP.  CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks
                              RECOVERED SAMPLE

                                 fr"
                                 rfV i/   LIQUID LEVEL MARKED
                                 '6/V-.   LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                 7,fK
                               11 A- *
Received by
Remarks
                              LABORATORY  CUSTODY
                                                   Date
                                      B-16
-------
              QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Kiant i <-*
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
^(_J ICJV"<— "C / I «-
ion ^ / C

sample type
filter number
filter sample
20 min (check
filter in bacl
1st
impinger
y 9 k ~") g
/ 17 3- g

>TTt_c^ Recovery
„, Recovered by /
S£>A M5Q> M5J3&Q
O-JA-'J H
I.D. y??7v5 .
I.D. V9?"7.^
when completed) ^X
< half ^fi~hj<.'ejJ Z^'^5
MOISTURE
2nd 3rd
impinger impinger
^b"^."z-^'g 60,^. C> g
b~l7. 1 g -^65"— ^g
./tr q vi.? g
Total moisture 2~°7.\ g
date Ifl&faz^
f\c.P/Rfi
PjL9V^^^J riD W
/v^rf-HWJO

v

LT^/J/^^r^
4th
impinger Silica gel
6/3.8 g ?sC2).r g
69o 5^ g S3V.O g
j~/.:2_g ^?^g
' ° % spent
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks	
                              RECOVERED SAMPLE
                                  ft  "
                                   /V
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
                                 > ft i-
Received by
Remarks /•'_/

                              LABORATORY CUSTODY
                             •  \ x  ,'  /.   /
                                                   Date
                                    B-17
-------
QUAD TRAIN SAMPLE  RECOVERY AND  INTEGRITY SHEET
Plant A1»«->o TotUuf^/^LtfASA^T ^4 Sample date /(/*•"/«
Samole location fTf' ^irr, ^r Recovery date ///£?/
Run number ?.& - mZ'Z Recovered by AlcP /ffr
Particulate sample type v^vi M&~^ MO* WtT ~nb*J4*
Particulate filter number Ooo ZLoX^ v/
Particulate filter sample I.D. £'<>'• >z>&> •'
Probe rinse rfceTorJ-^ — - I.D. oca on"
Purgp train 20 min (check when completed) ^
location of filter in back half JBxtfVjte'O 7^J f 3' ~Ar*p\"j\



- % spent
X
/
/

H?6 4*1-7 s~fr <- ^
Acetone M1")) fV " ""
Samples stored and locked
Remarks 	

,r ' LABORATORY CUSTODY
'W^> - V ^A •',<(•
Received by •..AT/«- ^- xi-^ 	 	 	





/- . }'• '

                     B-18
-------
                                                   DRY MOLECULAR WEIGHT DETERMINATION
PLANT
DATE  //79/ffZ-
                                                                          COMMENTS:
                                     TEST HO.
           SAMPLING TIME (24 hr CLOCK
           SAMPLING LOCATION
           SAMPLE TYPE (BAG) INTEGRATED. CONTINUOUS).
           ANALYTICAL METHOD   Or±oT	
           AMBIENT TEMPERAT
           OPERATOR
           .ORSAT LEAK CHECKED
\^ RUN
GAS ^\
C02
02 (NET IS ACTUAL 02
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
//• 1
/l^


NET
m
67


2
ACTUAL
READING
ll.i
l&.^


NET
11.8
L(*


3
ACTUAL
READING




NET




AVERAGE
NET
VOLUME
/'.?'
1.4



MULTIPLIER
44/100
32 '100
^/lOO
28 '100
TOTAL
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Md. Ib Ib-mole





VO
-------
                                   EMISSION TESTING FIELD DATA
""*  5JOG A&B  RUN. No.3/W\P>Q
-------
                                EMISSION TESTING FIELD DATA
5 j ;j § A&B  RUN. NO.
                                                 4 /I X
-------
                                                        EMISSION  TESTING  FIELD  DATA
                                    KAMI t CIM
           H»IM«l»IMU.|H'.|"|n|n|..|.>|..|u|..i..M»l>Hn|MN,.|,,i..hR^nTu
                                     ,
                                                           ' '  '  i  I  I
                                                                             DAI(
             IM IB.
                                     OMM1M
                            •i u|u|i4|i>ju[ii|iijn)it[ii]»|n|i4|»[u|ii
                                       I  I  i  I I I  I  I I I I
                                                  AMI
                                                  tiw
                                                  Cf)
                                                 n{n|io
                                                                  (IN.
                                                        II|H[II[M
                                                                                                       SAWlINd lOt-AII UN
                                                                                     N"H*l'>o|"J"hilv'l"h'lt'l"lttHtilt'lt'lt
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-------
D
                                                   EMISSION  TESTING  FIELD  DATA
           i JltOtMioi i
                                IAN* t cm
                             ijlMli*li*JiM'ti'>HH"NH'>l'*l»i"NM[iil"T»
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                                                                                                                               SAMPLE IOI
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-------
              QUAD TRAIN SAMPLE RECOVERY AND  INTEGRITY SHEET
m a. /V/
Plant //lev
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
P V
:ion ^/^<-£-~
.^r\ MS R\J
sample type
filter number
filter sample I


Sample date ///*»A
Recovery date ///^°
2^
/^ "^"
Recovered by A(^r///f
M5
M5-320 M5-450
.X M5W1
^4- -Cnro Z <-"? 1 v"
.D. 5103-
I.D
20 min (check when completed)
filter in back half £?tij
1st
impinger
Hf 1 . " g
//0,7 g
13 •
5 I o 5 n v
y
zt-*~> Is f O ' — P'^^
MOISTURE
2nd 3rd 4th
impinger impinger impinger
d^.3 g £69 & g &<&.! g
6-71.6 g
/2.9 g
Total moisture
6/^^g 5^1 7 g
r/y q ^^ g
3-?£7g ^?^



*'_<>
Silica gel
O C? "^
?i 0^5 - 3 g
5^3.7 g
% spent
                              RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples  stored and locked _
Remarks              	
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                             SI z-O F>
Received by
Remarks    t
                            -  LABORATORY CUSTODY
                                     ^ /  /  -^~
                           •J^  ^ ^-^/^'K.Tc.-    Date
                                   B-24
-------
               QUAD TRAIN SAMPLE RECOVERY  AND INTEGRITY  SHEET
                                            Sample date  // /?0
Sample location v5/*c/^ Recovery date // f<3o t
Run number 3I3M S 6v7 Recovered by /jf £/"/£#
Particulate sample type M5 M5-320 M5-450
Particulate filter number ^<^rv ~?~f-,^Co y
Parti r.ul ate filter sample I.D. ^5lOE> /
Probe rinse W^Tdr" I-D- o'^^n ^
Purgp train 20 min (check when completed) ^"
Location of filter in back half 3^"^^° "^"^•3r JL^oi^cTs
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
tf/T-i 573.7 c?/,1^
Final wt > C»i /.Z-yg i (jjki -* y -_ ) " o*-. / g / U~\ -c g
Initial wt ^^> • ° g 666-^ g 6o/-T g kr>?-2_g
Net wt 7.9 g -74:^ g 1?t? g /s~r,(> g
/tl^

y MS*





Silica gel
£57.4 g
?/ g
                        Total moisture   ^7*2
                              RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP.  CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
     i    I **•   \  ">" ^  T
Remarks  I   -*^      -J-^p'
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                                                 X'
                                                                     %  spent
Received by
Remarks /^:
                              LABORATORY  CUSTODY
                                                   Date
                                     B-25
-------
                QUAD TRAIN SAMPLE RECOVERY  AND INTEGRITY  SHEET
Plant
Sample location
Run number     J
                                             Sample  date
                                             Recovery  date  ///3o/o
Particulate sample type _
Particulate filter number 	
Particulate filter sample I.D.  x5loc?
Probe rinse       /Jctf
	 Recovered  by
 M56         M5-320
M5-450
                                                                          M5W
                                      I.D.
Purge train 20 min (check when completed)   */
Location of filter in back half  6>r.~t"
                                                 .  ~f£
                                                d- J>
                                   MOISTURE
Final wt
Initial wt
Net wt
1st
2nd
impinger impinger
6t/ -*
i O .
 5^/ • ^ g
g 05"7-O g
g -5.7 g
Total moisture
3rd
impinger
L>^2.-0 g
5W. i g
S-y,7 g
3^r g
4th •
impinger Silica gel
6^"^g "/O^ g
6~^^.O g Q2-3.O g
y-Z-Z. g cf^i / g
7O % spent
                               RECOVERED SAMPLE
 PROBE  RINSE CONTAINER  I.D.
 IPA  IMP.  CONTAINER  I.D.
 H202  IMP.  CONTAINER I.D.
 BLANK  CONTAINER(S)  I.D.
                      IPA
                     H202
                      H20
                    Acetone
 Samples stored and  locked _
 Remarks
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                    ft ,

                                    PC
                           -   LABORATORY CUSTODY
 Received by
 Remarks   / ••
                                                    Date
                                      B-26
-------
               QUAD  TRAIN  SAMPLE  RECOVERY AND  INTEGRITY  SHEET
Plant ff\od
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
r^odf"''
:ion j^-r-o.ck--'
J? 1) fA1^ p
sample type
filter number
filter sample
/-T <_£,To N *
20 min (check
filter in bad
1st
impinger
H^-^ g
/•?** g

Sample date /r/3? '
Recovery date /I I3of
Recovered by f/\tP /£n
vX m£> • M5-320 ' M5-450
^(UzrOS^:.?^? K
I.D. 5 n^Q .
1^ I.D. £>/ l~i^ PC v
when completed)
k half />>t^^/o -/"/^, Z"J * 3ro) J>p
MOISTURE
2nd 3rd 4th
impinger impinger impinger
675.9 q 633.^ 6/3- S^g
CTr-Z^q 556-^ g 5"?6.0 g
^7 q V^g" g 77.JT g
(""* r*
Total moisture 1H.2. g ^_>
ar *^
i$i"

M5W




A,a.:/0
Silica gel
^9^7,5 g
f7,/ g
% spent
                              RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP.  CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks	
-113
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                             <: I
Received by
Remarks   i.Ct,
                                         CUSTODY
                                                   Date
                                   B-27
-------
                                                 DRY MOLECULAR WEIGHT DETERMINATION
da
 i
ro
oo
PLANT.

DATE.
                                                                         COMMENTS:
                                    TFSTHO
          SAMPLING TIME (24-hr CLOCK).

          SAMPLING LOCATION _^5tccUr	

          SAMPLE TYPE (@INTEGRATED, CONTINUOUS).

          ANALYTICAL METHOD

          AMBIENT TEMPERATURE

          OPERATOR
         .ORSAT LEAK CHECKED
^^^^^ RUN
GAS ^^-^
C02
02(NET IS ACTUAL 02
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N 2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
!<.(*
/$•$


NET
JZ-L
L.^


2
ACTUAL
READING
/ZG
- /i-7


NET
/z-k
6./


i
ACTUAL
READING




NET




AVERAGE
NET
VOLUME





MULTIPLIER
44/100
32 '100
a/wo
28 '100
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Mjj, Ib Ib-mole




TOTAL
-------
-------
                  EMISSION  TESTING  FIELD  DATA
                                                                            52l S3 I 54
                                                                            SAMTLC MUI
                                                                            TfMPCMTUU
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-------
ID
                                                       EMISSION  TESTING  FIELD  DATA
                                   flA*I 1 Clll
           E
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-------
                                                  EMISSION  TESTING  FIELD  DATA
                                PlANI t Clll
                                                    i i  I  i i
                                                                     Mil
                                                                                                   tOCAIION
                                                                             41 4) 44 4t |4I I
                                                                                             I 1 1  I I I  I I  II I  I  I I I
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TCMTCIUTUU

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PHY CAS MCTCM
 TEMPtHATtiaE
                                                                DCS I RED
                                                                 IHLCT
                                                                 T_  I.
                                                                  "in
                                                                                                                     VACUUM,
       SAMPLE BOX
       TCMfCKATUU
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TCMTCMTUM
         6UTLCT
        
-------
              QUAD TRAIN SAMPLE  RECOVERY AND  INTEGRITY  SHEET
Plant /f \ofjo
Sample locat
Run number
•Particulate
Particulate
Particulate
Probe rinse
Purge train'
Location of
Final wt
Initial wt
Net wt
/^r- Sample date /'/^V CO CtJ-^C) *
filter sample I.D. ^jtlL>& „
flcefo***^ I.D. ^//£ # '
^ft min (check when completed) ^^
filter in back half i&fu>*zo Z^'Jcf3rd
MOISTURE
1st 2nd 3rd
impinger impinger impinger
^.-^ g 6/£'L'
— /p /) -
C. / /^•'i
M5-450 M5W




Zr-.p^^rj
4th
impinger Silica gel
/ s/4/ J? o / < /
C/ ' ' • o n / G ---* / Q
3 r " i ^
_^/L/"q R"7o.^g
3J. ? q ^Kf g
  A"  "
IPA IMP.  CONTAINER I.D.     s5M"]  ft
H202 IMP. CONTAINER I.D.    6">llfft
BLANK CONTAINER(S) I.D.
                     IPA
                     H20
                   Acetone
Samples stored and locked _
Remarks        	^__

                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                  ft
                                 Pi
                                 A
Received by
Remarks ,^ /
          7
                              LABORATORY CUSTODY
                                          '
                                                   Date
                                    B-33
-------
                QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant
 Sample date
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
VSJ 1 flULI^.-
:ion ^d~A.<-\(^~ '
V5/As/3^
sample type •
filter number'
filter sample
20 min (check
filter in bad
1st
impinger
(jy Z> j -v g
_53 M g


Recovery date /V/_?6
"&< Recovered by /fcP /£fr
/ mS M5-320 M5-450
^-/^•^ '? (->Q "7 U
I.D. 6~'/9J5 "
^ I.D. sS'l*?/^ "
when completed) ~^""
i i_ 1 r T3 -+* -sNld i, -7("~<^ "" I — '_^.^ _ ,
K half vD^luJedVJ I •* O 	 UrOp'MO£.ru
MOISTURE
2nd 3rd 4th
impinger impinger impinger
L7Le'3g 66"7.6g 63o-^g
660. t g 6/6. ^ g 5*77.7 g
/T.7 g r"o.7g 3.1,,? g
Total moisture 3-^7 5 g 7>
/f2^

M5W





Silica gel
%3.3 g
7/r/ g
ff
% spent
                                RECOVERED  SAMPLE
 PROBE  RINSE  CONTAINER  I.D.  5\\°( ft •>

 IPA IMP.  CONTAINER  I.D.     ^7,0 ft- »

 H202  IMP.  CONTAINER I.D.

 BLANK  CONTAINER(S)  I.D.
                      IPA
                     H2o2    ;
                      H20
                    Acetone

 Samples stored and  locked _

 Remarks                	
LIQUID LEVEL MARKED

LIQUID LEVEL MARKED

LIQUID LEVEL MARKED
 Received by '

 Remarks   .>'
                               LABORATORY CUSTODY
        Date
                                      B-34
-------
QUAD TRAIN SAMPLE RECOVERY AND  INTEGRITY SHEET
// p .
Plant //(o/7, 1 g
Sample date |)/3c-A>-'
Recovery date II IJ>v /%'
 (/
I.D. ^17."? A '7
'hen completed) -^^
half BtfhueciO "^^ ^ ^ -Hr^p«^<7^
MOISTURE
- 2nd 3rd 4th
impinger impinger impinger
6 ^ iT. L? g /js*-) " / • O g (+> 1 ^ , / g
673. 0>q 5"?L>-"^g 5Xo-^ g
-/f.a q 5^,5 g J7.Q g
Total moisture -&£r g / 3
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
IPA
H202
H20
Acetone
Samples stored and locked
Remarks
RECOVERED SAMPLE
5ivier -
5/Z,£fl iX/ LIQUID LEVEL MARKED
vS/Z?/^ ^ LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
^cLift '' y
oi^fv - /
snxft x
^ITLCA •/ — '



1 	

M5W
)0



•3
Silica gel
o 1 1 . I--' g
#t d g
^
% spent
/
y
/

/

•


Received by I ^ . ^T^ ?.,.,_^
Remarks £,',_- ••* ". t? 'AI<
LABORATORY CUSTODY
; -.., 'A /v Zc- Date ^ -'/ ^ ,
';
/^

                     B-35
-------
                                                              1 t
QUAD TRAIN SAMPLE RECOVERY  AND  INTEGRITY SHEET
Plant /Pl*)in foMe.t*' Sample date ///5oA
Sample location Cfhdt-' Recovery date /J/3o/Y'
Run number <-lblA5&"P^t) Recovered by /<(CP/tft
Particulate sample type M5 M5-320 ^/ MG-45©
Particulate filter number ^ crcr& Z.<*&\ '•'
Parti rul ate filter sample I.D. J)l3oB
Probe rinse /TC^ToNd-1 I.D. o ' Jo n
Purgp train 20 min (check when completed) ^/
• x> i -~> /"* )
Location of filter in back half vDetofctxJ Z^ <^ 0 J/'-P/A^r^
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
Final wt llO-lq 6^7-.*] q 6>^.)g 6^-•^g
Initial wt Szrt .% g 1*71- o g 5/
TPA TMP. CONTAINER I.D. 513' ^ * LIQUID LEVEL MARKED
H.O. IMP. CONTAINER I.D. 5)32,f\ • LIQUID LEVEL MARKED
BLANK CONTAINER(S) I.D. LIQUID LEVEL MARKED
IPA 6" / ^3 fir /
H?0? ^-/7^fl ^' /
H?O 5"i?«r^ • / ^
Acetone ^24,4 ; ^
Samples stored and locked
Remarks 	

LABORATORY CUSTODY
Received bv 'A r^v^^' ^- /^ -l<. &- Date =-' ^/
Remarks / ^^,. fr C'3
-------
                                                 DRY MOLECULAR WEIGHT DETERMINATION
         PLANT
                                                                 COMMENTS:
                                   _TEST NO.
SAMPLING TIME (24-hr CLOCK)
SAMPLING LOCATION  6
                            /'* i
         SAMPLE TYPE<{0Sjr)NTEGRATEp, CONTINUOUS).
         ANALYTICAL METHOD  O ^>vT	
         AMBIENT TEMPERATURE
         OPERATOR
         .ORSAT LEAK CHECKED
^\^^ RUN
GAS ^\^
C02
02
-------
                                 KMISSION  TESTING  FIELD  DATA
          flA*I 1 Oil
nln Ii ill )|i4|it lull iliii ii bo|;i|n|))|ii|»|u|ji|ji|j»|)o|)i lulu
Jk\e  'ni'^fJj.   VJ ' ' '—i i  i  i—•—i—i  i  i
                          I I I 1 I  I  I  I  I  II
                                                        OAU
)«|>l|)«|jl|)l|ll|«o|4l

 I i * J W  * tV\ ' M
                                                                                     SAMPLING tOCAIIOM
4t[4l|444l|4>|<)[4l[«»[M>[ll[tj|si[t4|ll|tl|n|tl|t»|Kl{n|n[n{>4[lt
                       M.
!
                                                                               J (i i  I i  i I 1 I  M  I  I  i  I  M I
                                                                                                                                       tin
>l|ll|MN>0|ll|H|ll|l4|H|l||ll|»l|^}i;
                                                               I  1  I  I I I I  I .L
-------
EMISSION TESTING FIELD DATA
-------
                                                      EMISSION TESTING  FIELD  DATA
                                       i cm
                         Illllllllj I I  I  1 I  I '1  I  I I  I  I  II
                                                                          OAK
                                                                     14|n[lljll|ll[llj4o[4l
                                                                                                    iAWCtllK, t OCA! 1C*
                                                                                    4l|4l]44[4t|4l)4l{4l|4l|M|>l[>/|tl|^}t>|i|[tl[tl[t«[lo|n[n[ll{l4Jlt
                                                                                    J_L
                                                                                                      J I I  I  I  I I I  I  I  1 I I
                                                                                                                                         UMPU tin
                                                                U|i'[n|»|)o|ll|ll|ll[l4|)t|ll|l)|ll|n|l|
                                                                                                                                            I  I  I I  I  M  |
            I1M Ml.
          E

                                    OMUIM

                     1 I
                                     i » i »  '  » I M  t '
                                                           1IHP
                                                           CM
                                                           ll|n{l«
                                                                  fit iS.
                                                                 {IN.
II|»|II[M
         sum
         PiCSS
        (U  H2
                                                                    flllll MNIU(S)
                                                          4l|4l[4l|4l|44J4t [4t[4l|4l|4»|»|tl|tl|tl[S4|tt|tl|tl
                                                    SIUI INSIM
                                                   OIMt«. (INCHiS)
                                             tl[tl|n{n|tl[t| t4Jll[ll|ll[tl|l
                                                                                                                       I  I  I  I  I A  I  I
                                                                                                                                         IUM
                                                                                                                                              'J-ZL
                                                                                                                                                    PMC
                                                                                                                                                      H:
                                                                                                                                                    II II
                  HUM lUtTN MO UK
          ih|i|«|t|«|i|«|«H..bi|.i|..|.t|..|.,T.T
                            -L.i i  i  1 i I I
                                                   Momi.
                                                I.D.
                                                         NO
                                                    it n iiiii »i
H.O, IsAwirUn* I  win
It)  |aOI NO I KOI »0 |  AH*
                                        s
0il
                                                                   11 M
lt{»l{ll|M|40|4l)41
                                                                                       MHI CAl.
                                                                                       f*CIM V
                                                                                      4l|44|4t]4l]«l
                                                                                                 LUK CHICK
                                                                                                        CFN
                                                                                              IN. Hg
                                     w^
                                                 I
                                                FACTM
                                                                                                    X
                                                                                                   rtC
                                                        llfll[ll It
                                                             MUM
                                                            MUI UI
H]ll[ll{ll
         KU
        HUI UI
                                                                        •if.
                                                                        Af
14jn|u|l
                                                                                                                                               AS I  I
       It COM
        OAIA
         ia»
L
                                                                                                 '<**
7|||V|IO
                                                                                           3tT39MOr
                                        *^\^\'
                                                                                                                       TQ7
 H>I*T
                    CUKI TIW
                                                       VELOCITV
           TMC,aU>
                                     I
                                                                      omricc russuM
                                                                        OirrCUMTIAL
                                                                        IAHI.ln.HjO)
                             STACK
                          tCNFCMTUU
                                                                                       CAS H£TCB
                                                                                   TtMPtRATUW:
                                                                     OCSIMCD
                                          .  ;  70
                                                       ^TT<
      5 .
                                                  OUTLET
                                                  (T.    |.
                                                    out
                                                           runr
                                                          VACUUH,
                                                                CAMPLE BOX
                                                                TCMltUTUU
                                                                     •F
                                                                                          IMTIMCU
                                                                                         TCNTCIUTUM
                                                                                             •r
              2.0
        •*±
                                                                                                                    sr
                      n'.oc
                                                                                             IA2.
                             &
             ML
12LL
   j&L
                                                                                                        So
                                                                                                                                          r '  . *_ t
                                  6
                                                                                                                                        its'/
                                                                                                                                        7/4/3Z
             fr
                                     ^.
                            1  k~l
                                                                                   e <>'

                      1 6'.
                     7
                                                                                                                     7
                                                                                                                                                 JO
                                 7 ,
                                                JO
             //O'fr
                      L2LL
                           t*>7
                                                                                                                                        ^-/^ / *i /
                                                                                                                                        •','!'  •
               J ,° y  A&B    RUN. NO.
                                                                                                                                               -TJ
-------
                                                                               t I.kJ-,U  DATA
                                  KAMI t CMl
                 >'l|'l'l'l!'l'.'l"'!!l'lrt.l."l"i!'N>l|"l"l'l"l"l"N">1"1"111
                                                        )4|ls|)>[ll|ll[n|40|4
                                                                                                 SAMClINC IOCAIION
                                                   4>|4l[44|4tf4l|4l|4«|4«[M[M|»|si[*M>|{^|[>l[lo[il[li[ll|l4|l>
                                                                                                                                     SAMPU Tin
                                                                                                                  >l]lljlljll|lo[ll|ll|n|l4|li|u|ll|n||«[ii
                                                                                                                                  I  I I t  I  I I I  I  I I
            IM
                                   OflMIM
                                                  i ii a n
            i I^M^^^TI  11 11  i 11  i . i  I  igBTaiii iffl r-i/^l  i^aQ.?
                           AM.
                           1CHP
                           CD
                                             ii[n[ia
                                                               fdliS.
                                                              (IN. H«l
                                                             SIAIIC
                                                             WSi
                                                            (U  M.OI
                                       is|u[ii|»|»
                                                                    ..|..|4l|«lH.tHJ«.|..H»|u|»|t4R^
                                                                                                  l  i  1 1   |
                                                                   INSIM
                                                              GIMCN. (IMCHCS)
                                                                                                                     .
                                                                                                                            i .
                                                                                                                        rnoi
                                                                                                                         IUU
                                                                                                                                        TMtlN
                                                                                                       i2L
                                                                                                                                               fAtf
                                                                                                                                               ii « itjti
                  NMi LU6IM AM IIK
i  rfi'i
      [EIDj
11 i 11  11
                                              1.0.
                                                       NO.
                                                   M n
                        jitiiiin
                                                    i2r
       :«?•
                                                                 BOl M
                                                   •nnn
           Il|l4|lt
                                                       ±_L
                                                           Will
                                                           KOI M.
".''I".
                                                                             AH*
                                          ll|4l|ll|4>
                                          p • »4 •}
                                                                  Z2S.
             Mill CAl.
             fACTM »
"Hy..*;
                                                                                              LUK CHCCK
                                                                                                   CFN
                                                                                 IN. H9
vi*1!"!^
                                                                            K
                                                                           FACTOR
                                                                                                        is ti|ti|MhiUe((i
                                                                                                  2.0*
                                                                                         jt
                                                                                       F^
                                                                                                                       IOt
                                                                                                                   r«M(
                                                                                                                  HUI «l
ill I lull'
                                                                                                                                  HUT U!
                                                                             10 II II111
                                                                             •^on
                                                                                                           "D/
                                                                                                                               14)|lt|ll[ll
                                                              •(COW
                                                              MIA

HiT^
—^—^—•*  f* i   i   i j
VBAVKMB
 •OIMT
                TIN*
 MMTUMCS.   114  hr
CM MCTU K1ABJB6

   ULI. It*
                       VCUXITY
                                     OKI r ice rnxssuM
                                       DirrCftENTIAL
                                       |ANI.ln.H2OI
                                                                   DESlO
                                                                                       3«|39«40|4
                                               42J43|44|4i|46J4
                                                                                                             4^49^0 Ii
                                                                                                     52| 53 1 34
                                                                                 STACK
                                                                                            OKV CAS M£TCK
                                                                                             TfMPlRATUfU:
                                                                                                    I NUT
                                                                                                              OUTIXT
                                                                                                               VACUUM.
                                                                                                               ia.Hf
                                                                               SAMTLC KOI
                                                                               TCMtTCIUTUU
                                                                                   •r
                                                                              JH7T
                                                                                                                                                          57
                                                                             IHP1MCU
             /
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant/n^a PtuMf'
Sample location jSfa.cK,
Run number *5flfl(£R
Particulate sample type
Particulate filter number
Particulate filter sample
Probe rinse noi.Ta\j£_-
Purge train 20 min (check
Location of filter in bad
1st
impinger
Final wt 63Z-.O g
Initial wt V9/ / g
Net wt g

Sample date )l/3oA 7-"
Recovery
Recovered by Al<
y M56 M5-320
^oo^CyH v/
I.D. v5/3Ov^5 "
I.D. v5/3,^A !/
when completed) ^X
k half ,B«dtoc*u Z^^ 3^-
MOISTURE
2nd 3rd
impinger impinger
6~7/'7 g ^Vc>'^ g
^>73>,c^ g ^73;^ g
g g
Total moisture MM g
date /2-/I,
CP/W
M5-450




-J-^JxwtftrvJ
~ cj
4th
impinger
6^.79
(z>&& ,7 g
g
*'
/^^^

M5W





Silica gel
937. ^g
-8«.-rg
g
^> % spent
                               RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D. _
IPA IMP.  CONTAINER I.D.      Si
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
                                     
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /VsAfo
Sample locat
Run number .
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
rot^ec^
:ion ^S't'A-J/L-,

sample type
filter number
filter sample
20 min (check
filter in bacl
1st
impinger
(^1. 4.6? g
Hlo.z-S
g

Sample date ///-><•' A"
Recovery date H/5t>/%T'
Recovered by /Y\CP /£fr
S M56 M5-320 M5-450
rt&5?5"/3<;ft Y
when completed) <^
k half TVftLw^j 2,wJ
-------
                QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /Me/
           p
Sample location   .5 f«.<./(—
Run number
                                             Sample  date _
                                             Recovery  date
Particulate sample type    X
Particulate filter number 	
Particulate filter sample I.D.
Probe rinse      frceh
                                      Recovered by AfcP/Ufa
                                M56M5-320          M5-450
                                                                          M5W
                                 5/31
                                      I.D.
Purge train 20 min (check when completed)
Location of filter in back half BeJW^o
                                                   r
                                   MOISTURE
1st
impinger
6b'8.3
^$5.7


2nd
impinger
g m-3g
q 6 1 2, . I g
q g
Total moisture
3rd
impinger
M.I g
5$ 2^ g
g
5Z-W- g
4th
impinger
Crz^
6>I0.1



g
g
g
Silica gel
fVf.V'g
?6---g
g
^ % spent
 Final wt
 Initial wt
 Net wt
                               RECOVERED SAMPLE
 PROBE  RINSE CONTAINER  I.D.  5)3^ ft v
 IPA  IMP.  CONTAINER  I.D.    j
 H202  IMP.  CONTAINER I.D.
 BLANK  CONTAINER(S)  I.D.
                      IPA
                     H202   _
                      H20
                    Acetone _
 Samples stored and  locked _
 Remarks	
                                            LIQUID LEVEL MARKED
                                            LIQUID LEVEL MARKED
                                            LIQUID LEVEL MARKED
 Received by
 Remarks   /t
                           .    LABORATORY CUSTODY
                    ^~~>'t,(.^^   ^	^ x^- ••'i~<- -C <- " 	Date   / -^
                                     B.-44
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /rLk
Sample locat
Run number ,
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
Yy ^^— »
:ion v5Yc,<_ h-
^7\/Yl /
I.D. «5I^~Z- ft "
comoleted) ^^
t T5 -I-1 x —) ^O sT ~\r<^ i~/>^ Pn m -. ^/- <
t .rV T uv^ A. 1 /^ do --^ P'^Of/o
1 O
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
V'P -T g 6
g
Total
"7 1-*' "7 r~ /o/— " /~-^7//iO
/^ • / g 586.5 g Sii-l g
g g g
•^*? ^ /5 cT^
moisture ^'^ g 7O

/jz^

M5W





Silica gel
^fo-^ g
g
% spent
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.    5^3 f\ K
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks       	
                               RECOVERED  SAMPLE
                                  f\ __
                                           LIQUID  LEVEL  MARKED
                                      ^  LIQUID  LEVEL  MARKED
                                           LIQUID  LEVEL  MARKED
Received by  ^ '::._ +
                              LABORATORY CUSTODY
                                     / •
                                                   Date
Remarks
                                    B-45
-------
                                        DRY MOLECULAR WEIGHT DETERMINATION
PLANT
DATE
COMMENTS:
SAMPLING TIME (24 hr CLOCK)
SAMPLING LOCATION  vT)-fciJ^	
SAMPLE nPE(52?INTEGRATED,j;ONTINUOUS).
ANALYTICAL METHOD.
AMBIENT TEMPERATURE
OPERATOR
.ORSAT LEAK CHECKED
\^ RUN
GAS ^^\
C02
02(NET IS ACTUAL Oz
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N 2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
I2..0
/&•<*


NET
(1.0
(*.L


2
ACTUAL
READING
II. g
111


NET
It. I
iL,.°i


3
ACTUAL
READING
//•!
(..-)


NET




AVERAGE
NET
VOLUME
//.I
(../


<— ,
^ ^
MULTIPLIER
44/100
32 100
^/lOO
28 '100
TOTAL
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Mj. Ib Ib-mole





-------
                                                      EMISSION  TESTING  FIELD  DATA
                                       1 CIK
           I'Jii'j^'iTS «l'«l!'l|'l|'|i«|')Hi'l''i'«N''i"|i>i'«i»M»»l»'i''li«lH>iM|'i
                                                                          OAH
                                                            Mllt|)l|ll|M[MUo|ll
                                                            m — A., J,., * • i - J . .J -.J
                                                                                                    VMPLlNb IOUIION
                                                               4/|4)l4«|*U«»|4iUi|^|'»flUi|s;h)|s4KiK|K/KiKilko(n|4;|i]|M|iv
                                                               • I i.. lilM  .  J>   J    	      	     '  *
                                                                                sa
                                                                                                i i i  i  i  i t i  i  i  i i
                                                                                                                                          SMtfU Il«
                                                                          >i|i.|iiHio|M|ii|n|i.|,n,.|,,|,.|,,;.
                                                                                                             imi
            IUH M.
 .JiJ.|«|»|.
 f ri  jj-HT,
                                    OMIAIM
i|t|»|ii|u|u|n|i4|nju|u|iijii{)i|ii|njn|H|it|it|ii
                             » I I  I  I  t  I i t i  i i i  i  i i |  »
                                                           HUP
                                                           CM
    Jilnlio
                                                        •M.

                                                        Mlii.

                                                       (IN.
»i{ii Ti|
                                                J4
                                                    SMMC
                                                    PiliS
                                                   (I*  H
                 "H"N
                                                                 zs
                                                   -r«/^i
                                    nun
4B|4lI«]|4)l44|«%|4ft|4l|«4|4«|MKl|w|M|MKvK|U
in ii^*- i. * '^r*wrr*e. < •"•*•-*—1»«^-*•!• * i
                                         i  i i i  i  i  i i i  i  Wffi
                                                         MACI INSIM
                                                        OINCN.  (IKHfS)
              t»lt«jn[n}ti 44]ll[4l|tl|tl[l1
   M
   Mi
                                                                                                                       J_L
                                                                                                                    1 1 A I  I
                                                                                   i  i  i i i I  I  i i J
                                                        ruoT
                                                         1UM
                                                         c»
                                                                                                                    t'\7\  I  I
                                                                                                                                                     not
                  MOM lUtlN AW UK
          EEE
           Mi|iJ..|..h.|..|..|.t|..|.,|..|,
                           i  i i i  »  i  « M
                                                   HOt/U.
                        o|li|il|iijl
                        1 t i \ t
                        sis
                                                         NO.
                                                     HO.

                                                     It)
                                                                   (OJ M
             313E
                                                          -l_L
                                                    WUI
                                                    W)IM>
                          mui
                          a M •
                       Will CM.
                            »
                    i
         wt ki 41
                                                                                                 ICAK CHCCK
                                                                                               IN. Hg
                                                                                              cm
il[ti[tl[>4jit
                                  K
                                Mcron
ti|tijtt|ti[te(ti
                                                                                                                1 I  I
U|tl|t4Jll
                                                                                                                         4S I  I
                             MUM
                            HUT ui
                            •01
                          nut MI
                                                                                                                                                •Cf.
I4[ll|)l|ll
                                                                                                                                                * ' I
                              KCOW
                              MIA

                              »'«*
                                                                                                                                                            TO
MM
>lji2|l3iuks|l6| \J\\t
                          Mi
3S|?&l?7J3i|2
    30)31 i33J33|34J35J
           3«|3»UO|.
    l2J43|44|4i|46J
                               53 I 3
                    CUKM. T1M1
           •AMMJMTV   (14 hr
           TMB,«la
                         CM MCTU MJU>I»6

                            IW. ft*
                                  VELOCITY
                                                 OKI rice
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-------
                QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant
Sample location s

Run number
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Sample date  )L/\/^
Recovery date 
-------
              QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /Uc
Sample locat
Run number
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Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
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                              LABORATORY  CUSTODY
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                                           <. -  <;
                                                   Date
                                     B-52
-------
                QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant
Sample location 	C
Run number  PC/AS"
               Sample date
               Recovery date	/_
                                                           i *•/1A
                                                                 fz_
                                                                A
Particulate sample  type	M5  	
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                                   MOISTURE
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impinger
Tz.5.1
                              2nd
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                                           3rd
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                          4th
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                                                                 X
                                                                X
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                              LABORATORY CUSTODY
                                 -*      '
                                                   Date
                                     B-53
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant //
Sample locat
Run number
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Particulate
Particulate
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                              LABORATORY CUSTODY
                                                   Date
                                     B-54
-------
                                                  DRY MOLECULAR WEIGHT DETERMINATION
           PLANT_

           DATE	
TEST NO
                                        (a
                                                               COMMENTS:
                                  M3o
SAMPLING TIME (24-hr CLOCK)

SAMPLING LOCATION

SAMPLE TYPEtf "
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MULTIPLIER
44/100
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-------
                                                   EMISSION  TESTING FIELD  DATA
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-------
                                               EMISSION  TESTING  FIELD  DATA
                               i cm
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-------
                                                     EMISSION  TESTING  FIELD DATA
                                 KAMI t cm
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      5076  A&B    RUN. NO
                                                           *;
-------
                QUAD  TRAIN  SAMPLE  RECOVERY AND  INTEGRITY SHEET
Plant
Sample location
Run number
                                            Sample date
                                            Recovery date
                                                          /2./I /I
                                                                 /f
Particulate sample type
Particulate filter number
Particulate filter sample I.D.
Probe rinse     ncp\^>£*•
                                M5
                                     Recovered by
                                           M5-320
                                                            M5*45Q
                                                                          M5W
                                      I.D.
                                   MOISTURE
Purge train 20 min (check when completed)
Location of filter in back half T
                 1st
               impinger
Final  wt
Initial wt
Net wt
                              2nd
                            impinger
                                           3rd
                                         impinger
                                4th
                              impinger
    67Z..9   g
g   -//.?   g
 Total  moisture
                                           ^ ^ / • fl
                                                       60 "2- • !> g
 PROBE RINSE CONTAINER I.D.
 IPA IMP. CONTAINER I.D.
 H202 IMP. CONTAINER I.D.
 BLANK CONTAINER(S) I.D.
                                RECOVERED SAMPLE
                               /Soilft  '
                                        j_  LIQUID LEVEL MARKED
                                        _  LIQUID LEVEL MARKED
                                            LIQUID LEVEL MARKED
                     H202
                    Acetone
 Samples stored and locked _
 Remarks	
Silica gel
                                                                        spent
  Received by v- *  -
  Remarks  /bf <^- ^
                               LABORATORY CUSTODY
                                                    Date
                                      B-60
-------
                QUAD  TRAIN  SAMPLE  RECOVERY AND  INTEGRITY SHEET
Plant
Sample location v
Particulate sample type 	M5
Particulate filter number  oooZjo3
         Recovered by
               M5-320
Particulate filter sample I.D.
Probe rinse
          I.D.
Purge train 20 min (check when completed)
Location of filter in back half  &etog*jJ
                                   MOISTURE
                 1st
               impinger
  2nd
impinger
                                          3rd
                                        impinger
                   4th
                 impinger
 Final wt
 Initial wt
 Net wt
g
g
                           66 r.
g
g
                                                      1 V
                                   g
                                   g
                                   g
                         Total moisture
PROBE RINSE CONTAINER I.D.
IPA IMP.  CONTAINER I.D.
H202 IMP.  CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks          	
                               RECOVERED SAMPLE
                             5oloft  '	
                              SollR
                                       Is'
               LIQUID LEVEL MARKED
               LIQUID LEVEL MARKED
               LIQUID LEVEL MARKED
                                                                         M5W
                                           Silica  gel
                                            spent
 Received by
 Remarks  /
  LABORATORY CUSTODY
        /'y -'  • "
     \- -/^--.''i-<_,CL ^  Date
                                    B-61
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant /f fj
Sample local
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
filo ffttjjf-f
tion v5"fik<-^—
~7cMSiLfi
Sample date i^f i
Recovery date JL/t /%
Recovered by /ntP/fcn
sample type ^^ M5& M5-320 M5-450
filter number 6oo?-~iOl
filter sample I.D. <5<
ficA^^
20 min (check when comp
filter in back half ~PS
\ '

I.D. 5o7^A ^/^^rJ
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger
—i _ "> | / vZ "1 X / c/ •? / / "* 'i
1 ' / g w T / -^ g w» 7 t* • / g 6 J)O . ^ ) g
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/r ^
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M5W





Silica gel
*d/i 8 g
» I ^J *y *7 ^ ^^ ^^ ^^ J^^ — .
n ^^^ ~/ A Q j *^ • ^r Q / / » Q T
Total moisture ^^3,^ g / O
% spent
                               RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples  stored and locked _
Remarks         	
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
 Received  by
 Remarks  , x'
                              LABORATORY CUSTODY
                                                                 /   .4
                                                   Date
                                     B-62
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
                                            Sample date
Sample location J5f"<»-tr—
Run number ~"]j)fAb.J3
Parti cul ate sample type
Recovery date /2.//AZ-'
Recovered by /(
S M5S M5-320
*lcp/efl
M5-450 M5W
Particulate filter number
Particulate filter sample I.D.   5o~7l 3
Probe rinse
                                           J07£
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                                                  3
                                                    re
                                  MOISTURE
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                              2nd
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Final  wt
Initial  wt
Net wt
                            (j 7b".
      3rd
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g   6/0.Q  g
      5-11 -"?
-      ''• / 9
  4th
impinger
Silica gel
                         Total moisture
        . g
        76
         g
         g
                                                                      %  spent
                               RECOVERED  SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                              50
                    H202
                     H20
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Samples stored and locked _
Remarks              	
                              LABORATORY CUSTODY
Received by
Remarks  A.
                                                — Date
                                     B-63
-------
                                                  DRY MOLECULAR WEIGHT DETERMINATION
                 M      P
                 /I[G*JQ   i a
PLANT__/
DATE l-L/l/8*
          SAMPLING TIME (24-hr CLOCK;
          SAMPLING LOCATION.
COMMENTS:
                                    .TEST NO.
          SAMPLE TYPE (^INTEGRATED, CONTINUOUS).
          ANALYTICAL METHOD  O r^cT	
          AMBIENT TEMPERATURE.
          OPERATOR __
          .ORSAT  LEAK CHECKED
"^^^ RUN
GAS ^\^
C02
02(NET IS ACTUAL 02
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
Y 2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
n-y
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NET
M
6.1


2
ACTUAL
READING
/Z..C
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NET
/Z-6
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3
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n^
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12-6
6-D


AVERAGE
NET
VOLUME
/a//
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MULTIPLIER
44/100
32 '100
28/100
28 '100
TOTAL
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Md. Ib Ib-mole





Cd
 I
0%
-------
                                                   EMISSION  TESTING  FIELD  DATA
                                HANI 4 CIII
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-------
                                             EMISSION  TESTING  FIELD  DATA
                            1 CITI
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-------
                                                        EMISSION  TESTING  FIELD  DATA
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-------
                                                  EMISSION  TESTING  FIELD  DATA
                               HANI t cm
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          TIMC.iBl*
cuxai tiiu
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                              O*V CAS METCft
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                                                                            IT   i.»r
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                                                                     CAMPLE MX
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                                                                        •f
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                                                                             Z3.
                                                                                                76
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                                                                                                                           S
                                  RUN. NO.
-------
               QUAD TRAIN SAMPLE  RECOVERY AND INTEGRITY  SHEET
                                           Sample date
Sample location <^rfatc K.
Run number £flfl\5Rv/
Particulate sample type
Recovery date
Recovered by rfC-P
M5 M5-320
/L/l/fls

M5-450 X M5W
Particulate  filter number OQOZlo'7
Particulate filter sample I.D.
Probe rinse
                                -5<3%Z.JR. <-
            I.D.
                                             .5o
                                                l3fl
Purge train  20 min  (check when completed)
Location of  filter  in back half  .fi»-fcygj
                                  MOISTURE
                 1st
               impinger
                             2nd
                           impinger
                                         3rd
                                       impinger
                              4th
                            impinger
Final wt
Initial wt
Net wt
              "73 I .^  g    L/LaO
                 - ^   g
              3JLf
           g
           g
           g
Total  moisture
                                          n^g
                                              Zg
                                              _ g
    Silica  gel
g    / (00 •  /  g
     ^-,, ;  ?
             g
                                                             S Q    % spent
PROBE RINSE CONTAINER I.D.
IPA IMP.  CONTAINER I.D.
H202 IMP.  CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                              RECOVERED SAMPLE

                                          LIQUID  LEVEL MARKED 	X
                             5b3*fr
                  LIQUID LEVEL MARKED
                  LIQUID LEVEL MARKED
                              *7 '1 ft
                   H202
                    H20
                  Acetone
Samples stored  and locked _
Remarks  /PA-  XM/J
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant
Sample location
Run number
                                           Sample date
                                           Recovery date
Particulate sample type _ M5
Particulate filter numberfl6QZ"?Q%
            Recovered by
                  M5-320
                                                          M5-450
Particulate filter sample I.D.
Probe rinse
                                     I.D.
Purge train 20 min (check when completed)
Location of filter in back half
                                           2SJ<*r
                                  MOISTURE
 Final wt
 Initial wt
 Net wt
                1st
              impinger
              "7(1?Q.7
                              2nd
                            impinger
                  3rd
                impinger
  4th
impinger
Silica gel
Total  moisture  3TJL.Q  g
      RECOVERED SAMPLE
                                                            75
                                                                      % spent
 PROBE  RINSE  CONTAINER  I.D.   SoK^ft
 IPA IMP.  CONTAINER  I.D.
 H202 IMP.  CONTAINER I.D.
 BLANK CONTAINER(S)  I.D.
                      IPA
                     H202
                      H20
                    Acetone
 Samples stored and  locked _
 Remarks           	
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                          LIQUID LEVEL MARKED
                                                               X
                                                               X
Received by
Remarks
                               LABORATORY CUSTODY
                                  RATO
                                                  Date
                                  B-70
-------
QUAD TRAIN SAMPLE RECOVERY AND  INTEGRITY SHEET
Plant 4>,,A /2cJ
RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D. ^ISHft ^
TPA IMP. CONTAINER I.D. 4l 5"Tft " LIQUID LEVEL MARKED x
H_0. IMP. CONTAINER I.D. 4fS"fefr > LIQUID LEVEL MARKED -
BLANK CONTAINER(S) I.D. LIQUID LEVEL MARKED
TPA ^Ql'lfi •
i r r\ w i Mt -
H?0? 5f?'5°^, ^
H?0 5or^ft ^
Acetone <,oi>of\ t, ^
Samples stored and locked
Remarks 	

LABORATORY CUSTODY
Received by ! ^'•'.-S*?'. '.,'" ,' - /l-'^ -^ Date '' *-'-'/-
Remarks , t^"-z - '^ ^'3 yJ-^-£J
C f
'-^

M5W





Silica gel
o i G -O g
(PC-/ g
% spent
/
X
^
^^
•^ s
s~



^/ '

                    B-71
-------
               QUAD TRAIN  SAMPLE  RECOVERY  AND  INTEGRITY  SHEET
Plant /lie
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt
'tJO /OoO*-<
:ion ^"f~ax-
^JVAS'vB
sample type
filter number
filter sample
20 min (check
filter in bacl
1st
impinger
~7 2 d 3.
i Oo • -j g
5o3-%
^-5-5 . / g

Sample dc
,)C- Recovery
Recovered by
^M5e> M5-320
OC>T? 2-~U^ ,.'
I.D. 4K1B v'
L^ I.D. L(I5'7^ •/
when completed) i— -^
. •, ,• -r? -J- ~) *-xJ _i "*ry
< half vjDtfToj^ixJ ^- ^^>
MOISTURE
2nd 3rd
impinger impinger
/.14 ^ -5 g ^ ''"^ • ^ g
£75- 3g 57*3.79
"3 0 . *k g ^ i « / g
Total moisture 35~l-.cj g
ite !"l^ll<>^
date /2-A /i ~L~"
/y\cp
M5-450 M5W




X^v^^rS
4th
impinger Silica gel
/ . - o Q *t fl tJL
u3/-^ * 0 Q /• 	 / ' / g
J) j£ • (0 q O 7 6». / g
7 / -7 027
Lsl • i- q / _;> . o g
^ % spent
                               RECOVERED  SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
LIQUID LEVEL MARKED
                      x-
                   Acetone   .504,0
Samples stored and locked
Remarks	
 Received  by
 Remarks  /•
                              LABORATORY CUSTODY
                                                   Date
                                   B-72
-------
                                                   DRY MOLECULAR WEIGHT DETERMINATION
           PLANT
           DATE
                                         COMMENTS:
   .TESTNO.
           SAMPLING TIME (24-hr CLOCK)
           SAMPLING LOCATION
k=-
           SAMPLE TYPE((BAG)lNTEGRATED, CONTINUOUS).
           ANALYTICAL METfiOD.
           AMBIENT TEMPERATURE.
           OPERATOR      Mcf
           .ORSAT  LEAK CHECKED
^-v. RUN
GAS ^\
C02
02 (NET IS ACTUAL 02
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N 2 (NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
IZ.g
//•J


NET
/•a
5.7


2
ACTUAL
READING
H -1
//.v


NET
/Z.I
s.?


3
ACTUAL
READING
/i.l
//.
-------
                                                    EMISSION  TESTING  FIELD DATA
                                 1MI 4 Oil
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-------
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1
-------
                                                  EMISSION TESTING FIELD DATA
           ''
             lartflna
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-------
                                                  t-M.Lbb.LUN  Tt.bT.LNlj  t I fcL-U  UATA
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                                                            {00
                                                                                     111
-------
                QUAD  TRAIN  SAMPLE  RECOVERY  AND  INTEGRITY  SHEET
Plant /y}
         fltM
Sample location  l^+&Jc_\<
Run number
                                             Sample  date
                                             Recovery  date
Particulate sample type
                                M56
                                     Recovered by
                                           M5-320
                                                            M5-450
                                                                          M5W
Particulate filter number  aooZL7ll
Particulate filter sample I.D.
Probe rinse
                                     4"7QS'C)  "
                                      I.D.
                                   MOISTURE
Purge train 20 min (check when completed)   """
Location of filter in back half 3Vtuv,?jo Z^
Final  wt
Initial wt
Netwt
  1st
impinger
                                                       ^r? i y
                                                              O
                              2nd
                            impinger
                                           3rd
                                         impinger
                                                        4th
                                                      impinger
                                                                   Silica gel
                                     g
                                     g
                         Total moisture
                                                  g
                                                  g
                                               . I  g
                                            *43.1  g
                                                            . /
                                                                         -7
                                                                      % spent
                                RECOVERED SAMPLE
 PROBE RINSE CONTAINER I.D.
 IPA IMP.  CONTAINER I.D.
 H202 IMP. CONTAINER I.D.
 BLANK CONTAINER(S) I.D.
                      IPA
                     H202
                      H20
                                    ft  "
                                            LIQUID LEVEL MARKED
                                            LIQUID LEVEL MARKED
                                            LIQUID LEVEL MARKED
                    Acetone  ^
 Samples stored and locked
 Remarks           	
 Received by
 Remarks    £
                               LABORATORY CUSTODY
                                                    Date   /~-^/;~v
                                        B-78
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant Ma*.
Sample locat
Run number
Particulate
Particulate
Particulate
Probe rinse
Purge train
Location of
Final wt
Initial wt
Net wt

:ion vJf'AC.K.
?£M5"s6
sample type
filter number
filter sample
20 min (check
filter in bad
1st
impinger
6^3 ,0g
¥90 3 g
Zoz. } g

Sample date /z-/*£7
Recovery date /2/2/j
Recovered by /^\CP
^ M56 M5-320 M5-450
Ann 2-~7 / ^ ^
I.D. 4lo2B '
I.D. tfl^A •'
when completed) ^
ki_ i ^ ^j ^U / ^J o i^* ^^ f<^ A j^. ^^ r
n3 1 1 I jg T ' >J^ ^>~) ^1^ ^^ ^ — L^-^piw^ cr-j
MOISTURE
2nd 3rd 4th
impinger impinger impinger
GU^-tf q 57?.>"1 6/y.i_g
-^•^ q ^L,.^ g 3?-^"g
Total moisture 351.0 g o'3
6t~-
1^

M5W





Silica gel
/3/- / g
25Z.O g
^•7 g
% spent
                               RECOVERED  SAMPLE
PROBE RINSE CONTAINER I.D. 	
IPA IMP.  CONTAINER I.D.      i= -^	
                                       B-79
-------
               QUAD TRAIN SAMPLE RECOVERY  AND  INTEGRITY SHEET
Plant
                                            Sample date
Sample location <5"kck —
Recovery date /^/W/Z-'
Run number 2~"7)3
Particulate filter  sample I.D.
Probe rinse      <<
                                  H-l/IB
                                     I.D.
Purge train 20 min (check when completed)
Location of filter in  back  half  j^gt
                 1st
               impinger
                                                       /^o/vcg
                                  MOISTURE
                              2nd
                            impinger
  3rd
impinger
  4th
impinger
Final wt
Initial wt
Net wt
               cm-k  g
                             -31-
                         Total  moisture
         q
         q
         q
         q
         q
         q
                               RECOVERED SAMPLE
 PROBE RINSE CONTAINER I.D.
 IPA  IMP. CONTAINER I.D.
 H202  IMP. CONTAINER I.D.
 BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
 Samples  stored and locked _
 Remarks           	
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                   Pf •
Silica gel
         q
         q
                                                                       spent
 Received by
 Remarks   ><
                              LABORATORY CUSTODY
                                                   Date
                                       B-80
-------
                QUAD TRAIN  SAMPLE RECOVERY AND INTEGRITY SHEET
/?oodr"
Plant
Sample location
Run number 
-------
                                                 DRY MOLECULAR WEIGHT DETERMINATION
         PLANT.
         DATE.
                                                                COMMENTS:
                          _TEST NO.
         SAMPLING TIME (24-hr CLOCK)
         SAMPLING LOCATION
SAMPLE nPE4&KblNTEGRATED^CONTINUOUS).
ANALYTICAL METHOD _ "
AMBIENT TEMPERATURE.
OPERATOR
                             1*0
         .ORSAT LEAK CHECKED
\^ RUN
GAS ^\
C02
02(NET IS ACTUAL Oz
READING MINUS ACTUAL
C02 READING)
CO(NET IS ACTUAL CO
READING MINUS ACTUAL
02 READING)
N2(NET IS 100 MINUS
ACTUAL CO READING)
1
ACTUAL
READING
/?.«
19. <*


NET
W
s*


2
ACTUAL
READING
/3.0
18,7


NET
/3,o
^


3
ACTUAL
READING




NET




AVERAGE
NET
VOLUME
VJ
S.iS



MULTIPLIER
44 100
32 '100
^/lOO
28 '100
TOTAL
MOLECULAR WEIGHT OF
STACK GAS (DRY BASIS)
Md. Ib Ib mole





03
I
00
ro
-------
                                                                                           DATA
                                       i cm
           VJMJ'l'l,'l*H''j'>l'>l'*l'>l'^
           ffifiUfl rfii^Ut^^rr ^L£^^Mju^\ \  \  \ \ \  \  \  \  \ \
                                                                          OAK
                                                          >l|lt|lt|ll[lll)l[lolll
                                                          i iai ii ai i J-..A .J ffr^~JI
ID
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                                    tV(MIM
     '|i|t ii|ii|ii|ii|'4|[4l}44|4t {«IJ4l|4l}4l|t«|tl[t;{tl|t4|tt|tl|tl|u|tt[ltl{4l|ll[lljl4[li
                                                                                                   I  I  I  I 1 I  I  I I  I  I  I  M '
                                                                                                                                        SMPU UN
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                                       NUHtUR(S)
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       J 'jgj'j' Jl t\ /'->* ' 'I''—Illl
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                                              DIMM. (INCMS)
               |»|H I4|lt|t4|tl|ll[t1
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     35
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                     STACK
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  TtMPtRATURC
                                                                                                       I NUT

                                                                     Dl>a I HX.D
                                                                                                                             VACUUM.
                                                                                                                 OUTLCT
 SAMPLC BOI
 TCM/CAATUW

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                                                                                 IkL
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                                                                                  222
                                                                                                                                    M
                        4730 ASB    RUN. NO.
                                                                                                                                                       I   1
                                                                                           iWr
-------
                                                     EMISSION  TESTING  FIELD DATA
                                      1 CIII
                 t  I I I I Illlllll
                It
               |itliijiijiibo|ii|ii|n[)4ln|it|>i|M|M|io|ii|ii|ii
               >/r*.]'.l ' oA> *  ' ' ' '—'—' '  '—L-*—
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                                                     VELOCITY
                                               ounct rucssuM
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                                        ^	
                                4733
                                        A&B    RUN. NO.
-------
                                                       EMISSION  TESTING  FIELD  DATA
                                   Pi A* I 1 CHI
            |i|.|»lM»lH«»»N.4.|.iM.*l4.|..i.«M»l»«N».Mul»i»»l..|JT^ra
                                                      i i  i  i i i i i
                                                                           OAK
                                                            •«H"J"I»I»H
                                                                                                    SAmiNt 10CAIION
                                                                   41 4)44 4t lit 41
                        EE
         «|M|s)|si|w[n[»i|si|si[»|tci|n|n[t1[>4|4s
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             tM H.
                                     ViMIM

                                      1  M  I I I  I I I  I  I
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                                                          »
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                                                      (IN. Mg)
                                                      >i|iiii)[)<
                                                       STAIIC
                                                       wss
                                                       (!••  H?0»
                                                      ^m
                       fllUI MM8C«(S)
               l|4l|4l]44[4t[4t|4l|4t|4l|M|tl[tl|tl|t4|tt|il|tMt[>l[to{tl|n[tljt4|n[4t|tl|tt|t1
                                                                                            Mil
                              i(A£I INSID1
                             OIHtN. (INCMS)
                                                                                                                          1   till
                             rnoT
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                                                                                                                                       II II II II 1411
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                                                         NO.
                                                     «,0.  SA*»U MIU   Mill
                                                     (I)   601 MlttOl 10. 1  B M •
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                                                                     r«ciM *
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                                                                                                 LCAK CMCK
                                                                                                       CfN
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                                                                                   tl|il|tl|t«[it tt|tl|tl|tt[to[tl
                                                                                                                J_L
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                                                                                                                                                                57
                                                                            STACM
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                                      OH* CAS HCTEA
                                       TFNPtftATUM:
                                                                                                        INUCT
                                                                                                                  OUTLET
                                      runr
                                    VACUUM,
                              CAMTLX BOX
                              TCMfEMTUM
                                  •4T
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  TKNrCKAlUM
             _g73 f O
                                                                          •4-
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                                                                                                                      ?
                                                                                                                                '/&/ Z A 7
                                                                      z
                                                                                               10
                                                                                                                           •/•?/
-------
                                                EMISSION  TESTING  FIELD DATA
                                   i cm
         I  i > «  > I
                     |n|n|ii|ii|'4|i>|it|i)|ii|n|;o|)i[ij[n|i4|M|)t|i>|)i|ji[)o|ii|i)|))
                                                                  Mil
                               ..HitHnN»|«7
                                                                                        SAMPLING I OCA IIOH

                                                                           I I H M)l/ TrTl/iiilililliiiM'
                                                                                                                         UMPLf
                                     l.Mu|>,H"l'.-|MN.»|..|..N»K
                                                                                                                        i ' '  ' '  ' M 1
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                                OHkAIM

                                ' ' '.  ' '  ' ' ' ' '  ' '
                                                  Ml
                                                  UUP
                                                  rri
                                                      10
                                                        (U. itgl
                                                      •MI
                                  suite
                                  CilSS
                                  (IN. M
                                                              it
                                                                               IILIII MfMU(S)
                                         »|..M"H"H"H"H"I"H'
                                                                      i i  6-1001*474 i.
4 kr
                                               VEuxrirv
                                 I
                                                           OKI rice  rwssuu
                                                             OirriMCNTIAL
                                                             UHI.in.NjOI
                                                    STACK
                                                 TtM»CNATUU
                 DKV CAS M£TEB
                  TFMPtKATUfct
                                                                                           I NUT
                                                                                           IT   l.»f
                                                                                             in
                                                                                                    OOTLtT
. rum*
VACUUM.
i..tt«
                                                                 CAMFLC  »OI
                                                                 TCMKMTUU
                                                                               INNMCCB
                                                                              TCMTCMIUM
                                                                                 •»
                                                                       J.
                                                                                 h
                                                               77
                                      8
                tf
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                                                              2Z.
                                     . 275""
                                                              7. 7
                                                                               /69
                                                                                   €
   CO
                                   * &l O
                                                 £
-g
 sr
ff ?  .
                          zs:
                                                                        2
                       t /«>
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                               3.
           S/4.0
                 1+tfO
-------
               QUAD TRAIN SAMPLE RECOVERY  AND  INTEGRITY  SHEET
Plant /l[r,k>h /ooj-c_r-"
Sample location OV/acK
Run number /Q^f^Sj^
Particulate sample type
Particulate filter number
Particulate filter sample
Probe rinse / 1 c«d"« N/£J
Purge train 20 min (check
Location of filter in bac
1st
impinger
Final wt fi^f -o g
Initial wt >5o3 • O g
Net wt g
PROBE RINSE CONTAINER I.D
IPA IMP. CONTAINER I.D.
H,0, IMP. CONTAINER I.D.
Sample date /Z-fl /&
Recovery date /Z/2-/
Recovered by n^JP
^ MSE M5-320 M5-450
ru-^-lX" "
T H *-r 1 "^ r\ f~~) v
I.D. 4-"l3o-A ^
when completed) _//
r 	 *—. —
< half .fy^tuwjo 7-u <^Z J-^piw«t-i
MOISTURE
2nd 3rd 4th
impinger impinger impinger
k^.^g ^39.^ g ^ < ^ ' / g
bl^-3 q 5?^-gg 6(0.? g
g g g
~ + -7 9f>
Total moisture ^A^- S 9 '
RECOVERED SAMPLE
. ^H3oA -''
4~)3 ) (V - LIQUID LEVEL MARKED
^•"/32-(\ ^X LIQUID LEVEL MARKED
L^
'52^-

M5W





Silica gel
^^7-Z^g
g
1 % spent
^
y
BLANK CONTAINER(S)  I.D.

                     IPA
                    H202
                     H20
                   Acetone

Samples stored and locked _

Remarks              	
                                          LIQUID LEVEL MARKED
Received by _

Remarks /r/4
                              LABORATORY CUSTODY
                                                   Date
                         ./, 1
                                                                                  J
                                                                   57-
                                        B-87
-------
                QUAD  TRAIN  SAMPLE RECOVERY AND  INTEGRITY SHEET
Plant
                    Sample date
Sample location ^"au
Run number l£>\*>lf\'ZB
, £__, Recovery date iz/Z^AfZ--^
Recovered
by /YfcP
partimlatP sample type S M5/5 M5-320 M5-450

M5W
Particulate filter number no-i?J7/6
Particulate filter sample I.D.
Probe rinse     nce
              I.D.  ^ 4131A^x
Purge train 20 min  (check  when  completed)     ^
Location of filter  in  back half .Scltco^o "2J°  c/- 3
                                 m
                                                           p /.
                                                                f r
                                   MOISTURE
  1st
impinger
  2nd
impinger
                   3rd
                 impinger
Final wt
Initial wt
Net wt
g
g
                                                        4th
                                                      impinger
                                                                  Silica gel
                                                  g
                                                  g
                                                g
                                                g
                                                g
                         Total moisture
                                              % spent
                               RECOVERED SAMPLE
 PROBE  RINSE CONTAINER  I.D.   ^133 ft /
 IPA IMP.  CONTAINER  I.D.
 H202 IMP.  CONTAINER I.D.
 BLANK CONTAINER(S)  I.D.
                      IPA
                     H202
                      H20
                    Acetone
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                          
-------
QUAD TRAIN SAMPLE RECOVERY AND  INTEGRITY SHEET
                             Sample date
s?mpip inratinn ,5f«.c \<- Recovery date /l-fl-/^
Run number /ocM^A Recovered by //jcP
Particulate sample type  ^ / «4<-l ^/ / "7 "^1 .JL / / i--n AJ
Final wt . ~) T>I — ^n Lr'''"'q -M* 'iU / ' c/ q C^-r5r- c g /T1
Initial wt -5^O>3.o g C»7 7 -cO g ^L->.(j> g 5? 1 >(s g 0_
Net wt g g 9 , g —
x K7 S^
Total moisture "JfJT. ? g o ^
RECOVERED SAMPLE
PRORF RTNKF CONTAINER I.D. ^13^ R "
TPA IMP. CONTAINER I.D. 4~I3"7 A X LIQUID LEVEL MARKED
Hln. IMP. rnNTAINER I.D. M"?3gfrv LIQUID LEVEL MARKED
BLANK CONTAINER(S) I.D. LIQUID LEVEL MARKED
H,0, .^ofnft * ^
H?0 *5&&f\ , , ^ ' '
Acetone £t>(ac>ft •' ^ 	
Sample^ stored and locked 	
Remarks . 	 	 — — —

LABORATORY CUSTODY
,s / \ ^ s .y ,^, X,
Rpceived bv ,' V', s- , <. -• ^ --:^'^/<-'_ -* - Date x^" ,,f
. / t • i /
Remarks * ^ s-/>Z" ~>, ^\ /.* /^. ^ :/^ ^ /-.- t^: - " 4"^.x ^ *V ;<•<•.-'. .^ <• 	 _
x /; ' £ */ jie -*5~ 9- a 5)4*«<- ^ * r)
// N-*^-^''ir -^


M5W





Tjpf if1
Ur g
5?.^ g
g
% spent









V r> 	
.- ,. ..L

                       B-89
-------
               QUAD TRAIN SAMPLE RECOVERY AND INTEGRITY SHEET
Plant
               /oil
                             Sample date
Sample location ->5~fac
Run number lcjj\n,
Particulate sample typ
Particulate filter num
Particulate filter sam
Probe rinse Actta*

Recovery date }'t
i/z/fa
T_D Recovered by Me?
e ^ M55
ber CXM\T~(
pie I.D. 4*739
M5-320 M5-450 M5W
0 ^
^LJ *'
e_ I.D. M13"? A -X
Purge train 20 min (check when completed
Location of filter in back half JBeitujd
) ^
e.U 'L''" ^ ^ c XfY-,p

Harrt
^w' / _j
MOISTURE
1st 2nd 3rd 4th
impinger impinger impinger impinger Silica gel
Final wt TJO-fg Ct> nO-^g G"L3'T g £ ^ 5"* g fri**- g
Initial wt J5o/.f
Net wt

^g 6-73 Dg
g g
Total moisture
57?. ?g s^o-t
g
?fr; ? g
^g ^17. 1 g
g g
8 ^ % spent
                               RECOVERED SAMPLE
PROBE RINSE CONTAINER I.D.
IPA IMP. CONTAINER I.D.
H202 IMP. CONTAINER I.D.
BLANK CONTAINER(S) I.D.
                     IPA
                    H202
                     H20
                   Acetone
Samples stored and locked _
Remarks
                   /A  '
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                           LIQUID LEVEL MARKED
                                   1 A *'
 Received by
 Remarks />/••;
<'.
                              LABORATORY CUSTODY
                                                   Date
                                      B-90
-------
                                        DRY MOLECULAR WEIGHT DETERMINATION
PLANT.
DATE_
                ro
                                                                COMMENTS:
                          JTESTNO.
/fl
SAMPLING TIME (24-hr CLOCK
SAMPLING LOCATION
SAMPLE TYPE (^INTEGRATED, CONTINUOUS).
ANALYTICAL METHOD _
AMBIENT TEMPERATURE.
OPERATOR	
.ORSAT LEAK
\^ RUN
GAS ^^\j
C02
02,U
£
-------
                                            GAS VELOCITY AND VOLUME DATA
2.
PLANT AND CITY
'P/Wwk $k ,
* *
CLOCK
SAMPLING LOCATION TIME
L/C
PI TOT
TUBE Cp
//
MOISTURE
%
*£.
   40
                         «l
                      FIELD DATA
                                              70
TRAVERSE
POINT
NUMBER
7 . 1 . 9 .10


0_
\
Y
c^
^



































POSITION
(in.)
1 ,13 ,!3«H

>v
3-
3 ^.L''
-«Tv^
W





VELOCITY
HEAD
(Ap ) , in.HjO
75.26.77, 28 .29
/•*?
i,<2
'i'$
7/f
/.4


































































R-<-
STACK
TEMP, °F
38,39,40,41
/*/V
/?V.
/yy.
/•/.Y
IVf



































-
2
                                                              76
T
-------
    APPENDIX C




LABORATORY RESULTS
       C-l
-------
                                         THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                       PN 3
   Plant
o
to
   Sample location 	
   Relative humidity  6 .
                       Density of acetone (pa)  - 7^c-fc|_.
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
£f?373 -


CtWZ;
Ct*»4i .•
cezotA


Sample I.D.
6/HCHA -


lAf»6t>
8l'A/K „
IAM6&


Container No.
^7/ A -


43 70 A s
	 - -
t/4706 ^


Initial Vol. (ml)
A7^mX's --


a^^o^'s ^
OOO3-(t'j -'
Coo2~TB(~


Tare Wt. (mg)
\0!?> y


C£3<+3. ,
CtZ+i ,
C/C3C-(0 ;


b-9 y
c, o s
},C /
8-3 -
Number of
treatments
required
to achieve
a stable
weight
cA -


A X
2- .
ta/

Heat to
600° F
6'nours
cool ,
weigh
0.6 --


5-4? -'
-o./ -.
/..3 ^
fc-9 >
Number of
treatments
requ i red
to achieve
a stable
weight
a x


Jl X'
J-
3. '

    Remarks
    Data  reviewed by

    *
     Tiioco a ro
nun.  minu<; tarp wt.} without blank subtraction.
-------
                                         THERMOGRAVIMETRIC PARTICULATE  ANALYSIS

                                                       PN
    Plant
                                                                             Run No.
o
I
U)
    Sample location 	


    Relative humidity   5Q'~/?
               Analyst    0 • -J one.
Density of acetone  (pa)
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
£/e?>73^


C/?343 s
C£34-/ ,-
C£3i0A x


Sample I.D.
A//C /+A ^


I&W6& •
BKW<
I6'tt56 x


Container No.
'-/rr 7/ A .,-


^9731 A -^
	 .
4^7A6 ^


Initial Vol. (ml)
^J^.mJi'6 -


^9^'5 ^
ooo£-i\q _
0002755 /


Tare Wt. (mg)
IO(c490,-J -


/07335.3 ^>
346-5 -^
355- / ^ x


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
<2£373 ,


6/?343 s
C£34~/ „
C^SiCA.

Initial wt.
(ambient)
3-"7 ,


75. 8 '
0. 31 ^
3-9 X
Tf.?/
Heat to
320°F
6liours^
cool ,"
weigh
M ^


/*f.3 -^
"O./ X

•7^
/6.0 X
Number of
treatments
required
to achieve
a stable
weight
^ ^


£ y
^ /
A^

Heat to
450°F
fc^hours
cool ,
weigh
/•6 ^


^•A -
o.o ^
/./ x
10.3 x
Number of
treatments
required
to achieve
a stable
weight
A ''


P. -
$~ -
A ^

Heat to
600°F
fe^hours
cool ,
weigh
o.g -


8-1 ^
'O.I ^
C?,0 ^
8.9 x
Number of
treatments
required
to achieve
a stable
weight
P~ x


A x
^ ^
A '

    Remarks
    Data reviewed by _Sj'.v,_i     ..  I..1'  _.'.v-	t	

    *    '                                                          *
     These are net weights  (gross wt. avg.  minus  tare  wt.)  without blank subtraction.
-------
                                         THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                       PN 3f>'.-to -16
    Plant   if-S. £.A3- /7?CA/o
Run No.  ^f\K\5&-
Sample location 	


Relative humidity  6oe(c
                                                                            Analyst  d- Oo/\/fc5
                                                             Density of acetone (pa)
                               (g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
(2*373 -


££344,,
C£3>4l .
C£3itA -


Sample I.D.
£/\ /
Heat to
3^0 °F
^*f hours
cool , *"
weigh
'•/ x


/4.4,
-£)J X
^•8y
/zay
Number of
treatments
required
to achieve
a stable
weight
<^ /


3 -
P- >-
^./

Heat to
450°F
Pffhours
cool ,
weigh
(.(i,


M3^
G,O
2.+ .
/7.3 /
Number of
treatments
required
to achieve
a stable
weight
JL,


^X
^ .
JL ,

Heat to
600°F
^ fiours
cool ,
weigh
0-6 -


//,e /
'O,( ^
^.3 x
/4./x
Number of
treatments
required
to achieve
a stable
weight
A ''


^.x
^^
P.X

    Remarks
    Data reviewed by
                                                                  •

     'ihese are net weights (qross wt.  avg.  minus  tare wt.)  without blank  subtraction.
-------
                                           THERMOGRAVIMETRIC  PARTICULATE ANALYSIS
      Plant   U>$  CPr\ -
               Run No.
      Sample location 	

      Relative humidity  50%
               Analyst   C-
Density of acetone (pa)  .l°iO8
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
6^373 ^


C£346s
C£3<41 ^
ce$\zf\ .


Sample I.D.
6iK K3L ^


2&m56 Pico
6/<0 .


S-4,
<9.O -'
3-3 x
gr? >
Number of
treatments
required
to achieve
a stable
weight
^^


^,
A,
5LX

Heat to
600° F
6 nours
cool ,
weigh
0,8 .-


4-3 .
"<9.| .
^,7 x
-J-0 /
Number of
treatments
required
to achieve
a stable
weight
J.


^^
a ^
^^

      Remarks
      Data reviewed by
      K
       These are net weights (gross  wt.  avg. minus tare wt.) without blank subtraction.
-------
                                            THERMOGRAVMETRIC PARTICULATE ANALYSIS

                                                          PN
n

cr>
Plant  60S
                         - /Vlo/N/0  feo
      Sample location

      Relative humidity
                                                                         Run  No.
                                                                               Analyst  C •
                                                          Density  of  acetone (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££573^


££346
C/^34'
££3/34'


Sample 1.0.
6/K fO /


2C#\6e>
&(o*lk
2Cm$e> s


Container No.
^7//\


^•77^ ^
	
4^7/5i /


Initial Vol. (ml)
21^rtJL<<> x-


336 m£ '5 /
COO 27 (£]
OooZbS* -


Tare Wt. (mg)
lOb4?0>7 ^

•
\o3-b51.6 / -
348-5 .--
35^.^. - "


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
C£373 -


6/C34<2> -
C*34-i


Initial wt.
(ambient)
3:7 /


464 '
o. a „
7-7 .
£>(c>(0 (/
Heat to
320°F
A4fiours
cool ,
weigh
/•I .


/if. 3 y
-CM./
34 /
/8-a. /
Number of
treatments
requ i red
to achieve
a stable
weight
^ y


3 J
3L s
3V

Heat to
450°F
^u/Tiours
cool ,
weigh
/•6


/fc-3 ^
0-0 • .
3-1 ,
ir z -••
 Data  reviewed  by

 *
            npf
                              (orn«;«; wt. avci. minus tare wt.) without blank subtraction
-------
                                           THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                         PN 3
Plant  g.6.
                        - Mono  fi
       Sample  location

       Relative humidity
Run No.

Analyst
                                                        Density of acetone (pa)  , T-1Q&
                               (g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
<2£2>73^


££347 -
C£ 34 i ^
C/e3/4A-


Sample I.D.
6/K KA '


<2D/ri56 •
ftldA)*
^EtflSrf ^


Container No.
&^> •/


Tare Wt. (mg)
IO(y4&O.7 ^


lOSMb-Z. -
346-5 ^
340.3^ "


0
I
                                            Analysis results (ing)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
££373 ~


CZM-7 -
C£34| -
c2/?3i<-M..

Initial wt.
(ambient)
3-7 X


s^.O •
0.3L x
5-3.'
34.3 /
Heat to
320°F
fcliours
cool ,
weigh
/'I -


0.0 /
'O.I x
3-8/
n&s
Number of
treatments
requ i red
to achieve
a stable
weight
A ,-


a y
^ ;
^/

Heat to
450 °F
fcliours
cool ,
weigh
/•6 y


5-6 x
o.o ,
3-5 ,
^?./y
Number of
treatments
required
to achieve
a stable
weight
2-J


^^
a -
«P-/

Heat to
600° F
(c hours
cool ,
weigh
0-6 ,-


3.O x
~0.t ^
2>±/
s.±y
Number of
treatments
required
to achieve
a stable
weight
^


^/
£ -
^^^

      Remarks
      Data reviewed by
       r

       These are net weights (gross wt.  avg.  minus  tare  wt.)  without  blank  subtraction.
-------
n
CX3
                                            THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                          PN
       Plant   U'5. £7^ ->
                                                                               Run NO.
       Sample  location
       Relative  humidity
                                                                               Analyst   ^.Tt
       Density of acetone (pa)   .7^/\ /


5I03A ^
, 	
6 104 fi ^


Initial Vol. (ml)
^CBmJt'5 •'


33$ t*J- 's *
OoO 3-~l l^f ~~
oootett^ ^


Tare Wt. (mg)
106183.4- ^>


I0b5ii.4- ^
346-6 X
3
-------
                                           THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                         PN 3S
      Plant
                                                                              Run No.
o
I
      Sample location 	


      Relative humidity   5K ^
53)^50
	 	 v-

Container No.
5/^/1 ^


5/aA ^




5//^6


Initial Vol. (ml)
P-00.nl. '5 ^


337-^ '-5
OOO^~?l£f "
ooote g$ s


Tare Wt. (mg)
/ 06 <£ ^^
3^ ^
d^/'

      Remarks
      Data reviewed by
       These are net weights (gross wt. avg. minus tare wt.) without blank subtraction.
-------
o
I
H
O
                                              THERMOGRAVIMETRIC PARTICIPATE ANALYSIS

                                                            PN 3530-/5
         Plant   U,$,CPft
         Sample location 	

         Relative humidity  60%
                                                             Run No.   *'A M68

                                                             Analyst   &
                                              Density of acetone (pa)
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
<2£374-


C/C35O „
C£$m -
££3<74


Sample 1.0.
6//<3*4-.


4AM S& /
6/<«Aj£ ^
4Aw$s ^


Container No.
5/A6/4 -


SlItoA s




StlbG ^


Initial Vol. (ml)
ZoGnJl's '


LlWrtL'S ^
O002~7l^
Ooo^^io ^


Tare Wt. (mg)
{OSl^^'4- -•


104<*63.I '-
3^8-5 -
3^0- 4- ^


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total participate
Lab No.
<^374.


C£ 360 <
6£34l ,
C-£2>nA J

Initial wt.
(ambient)
2-7 x


20,$ /
0.3. ,
6-<-f /
^6-7 >
Heat to
3y20°F
fe 'hours
cool ,
weigh
<9,5 ^


/
'0. | ^
	 • y
	
Number of
treatments
required
to achieve
a stable
weight
£ '


	 , j
2* '
	 j

Heat to
4^0 °F
fe hours
cool ,
weigh
tf.if /


?-•/ -
0-0 „
^.7 .
/A. /^
Number of
treatments
required
to achieve
a stable
weight
^ /


JL^
^ -
3- ;

Heat to
600 °F
fc ''hours
cool ,
weigh
- 1-5 /


(*.<&/
-a i /
*f.^L X
n,o/
Number of
treatments
required
to achieve
a stable
weight
3*. x


A x
A --
JL/

         Remarks
         Data reviewed by
npt wr»inht<; (nrnc.s. wt
                                                minus  tare wt.)  without blank subtraction.
-------
Plant  UiS. CPft  - A!OA/O
Sample location
Relative humidity
 THERMOGRAVIMETRIC PARTICULATE ANALYSIS
              PN 3530 IS

	  Run No.
	  Analyst
	  Density of acetone (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££374- ,


C£35/ x
f'£34/ -
6£ 3/6/4 .


Sample I.D.
6//C 3+4- ^


£//g/n5i3 ^
6/a/v>/( ^
& ,


Container No.
5a<^/i x


5//44 ^
	
S//46 „


Initial Vol. (ml)
P-<9£3 t'nJi ' S _^


^f V?- 3 TU/ 'i ^-
Oco2~?i^ -^


\O(0%1'1>S J^
34-6-S ^
3«v-4,«? ^-


                                            Analysis results (mg)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
.
Acetone rinse
Filter blank
mfrpr

Total particulate
Lab No.
dt 374^^


-. n 'if- ,
C, K. <_*O I '
^3tf/ ,
/? P ~^.\0 &
C'tO 1 Dft /

Initial wt.
(ambient)
£•7 /


m tf j

0.3- ,
/ CA

/
Heat to
320°F
^hours
cool ,
weigh
(9,5 x


^

'O.l „

s
	
Number of
treatments
required
to achieve
a stable
weight
^ /


j

2- s

s

Heat to
450°F
"cool ,
weigh
0.4- x


^

6>-o .^

^
	
Number of
treatments
required
to achieve
a stable
weight
P- ''


/

5- /

X

Heat to
600°F
£/fiours
cool ,
weigh
- ( • 6 /


7 /
' X
-(9. I -
, . ,
T" / ( ^
//•P. ,/
Number of
treatments
requ i red
to achieve
a stable
weight
3- "'


.-* /
er~- **•
JL x

Cr*- /

Remarks
Data reviewed  by
K
 These are net  weights  (gross wt. avg. minus tare wt.)  without blank  subtraction.
-------
                                             THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                            PN  JS30-/5
Plant a,S.£W-M?/\/o A?u)?£
Sample location
Relative humidity 'So^o
Run No. t+CWSS-pyet
Analyst Q-To/\)£S
Density of acetone (pa) -*7 *?£?£>
->

(g/mi)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
C* 374 ,


C/f352./
C£34( -
C£3tff\ .


Sample I.D.
i3//t 3+4 -


ttcmsA-pjco *
$/tf/0/( ^
- tCrtSfc -Pwo ^


Container No.
6/^fc/? ^


S<>74 _.
— 	
S/3-?6 ^


Initial Vol. (ml)
2O&^<3 ^


3-53 rnJL '5 ,
GGO27'4
Ooo3-(j'j< ^


Tare Wt. (mg)
leS/Wx*- -x-


I&r4/S,b J.
346'S ^
3*7 -4- >


Analysis results (mg)*
n
 i
M
to
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
CO>7^- s


C&3S2-S
01 341 .x
<2/3/«jd -

Initial wt.
(ambient)
P-7 /


33-^x"
O,2- ,
' -],to /
yc. B >
Heat to
320°F
6' hours
cool ,
weigh
C.5 ,-


	 '
-0. { ^
	 " ;
	 .
Number of
treatments
required
to achieve
a stable
weight
PL ,


. 	 -
2- ^
y

Heat to
450°F
^fiours
cool ,
weigh
£>•«-/- ''


/3,3 ./
0,0 /
5-5 -
/0.6 y
Number of
treatments
required
to achieve
a stable
weight
3-7


^- y
5L ;
A ^

Heat to
600°F
4/fiours
cool ,
weigh
- / • 6 /


//.O -'
'(C?. ( .
^ft s
/6.0 ^/
Number of
treatments
required
to achieve
a stable
weight
a


a. x
5. -^
P>.y

     Remarks
     Data  reviewed tjy    •• ^'
i.ininhlc  ^
av/ri  niinnc
wl
withnill'
                                                                               <;ilht r^P 1 1 nn .
-------
                                          THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                        PN 3^3^ -is
     Plant  (JLiS-cPfl - Mono
     Sample location 	

     Relative humidity   5Q°/o
                           Run No.
                           Analyst   (2- X-
            Density of acetone (pa)
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
c/e-574-..


ce 353 .
££341 -
^315£ 'P4CO;


Container No.
6iJbA .-


5f3cM ^
	 .
S/J£>6 .x-


Initial Vol. (ml)
POg^'S -'


P-,?5,n/'i -.
j?(90J7/^
c^^o^&^S /


Tare Wt. (mg)
I OS i 9-1,4- ~"


I04&I&.0 ^
b<4V-S ^
5+S-8 ^


o
I
I-1
U)
Analysis results (mg)"
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)

Acetone nnbc
Filter blank
Fi 1 tpr

Total particulate
Lab No.
££ 374 ^


n 0 y*^^
C'Y'C co ^) •/
C£34l .
OR ^1f A
'C- P~ O ZrO l\ -r

Initial wt.
(ambient)
^•7 x


'1/1 U- '
<7'-CV • t-f
0.3L ;
/ ,.
(£/ 1 <_) S
ll.Z'S
Heat to
320°F
cool ,
weigh
O.S »


-'
-""
-<9. i x

"
	
Number of
treatments
required
to achieve
a stable
weight
2- /


j'

^ s

~ '

Heat to
450°F
(# hours
cool ,
weigh
(9.4- •'




(9,0 ,

-'
	
Number of
treatments
required
to achieve
a stable
weight
«P~ /


7

^-



Heat to
6pO°F
~cool ,
weigh
~1>S


Q\ f /
-------
                                         THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                       PN  .3530 IS
Plant
              'S.  CPft -
                                                                       Run No.
     Sample location 	
     Relative humidity   5O °/o
                                                                       Analyst   £?- JcA/'c5
                                                        Density of acetone (pa)  ,73o
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££376 '


d£35^-
C/^34/ -
<2£3P-'^


Sample I.D.
6/fc S-/0 /


5#/tt56 -
6 /6M> £
5ri/^Sg •


Container No.
SofroA. y


Slid ft y


5/336 ^


Initial Vol. (ml)
3/6^t-/'«5 -^


4
nP ~^i\-\
Hi 321 ^

Initial wt.
(ambient)
CT~ ' 7^ /


^T/") i ;
0,31 ^
7-3 .-
4-7, fc ^
Heat to
3^0° F
(o hours/
cool ,
weigh
M V


/5.5 y
-O.i x
6-6 y
^/•/ /^
Number of
treatments
required
to achieve
a stable
weight
d~ s


2. <
cr*~ /
^ /

Heat to
450°F
^^hours
cool ,
weigh
/<4 '>


/A. 4 X
dP.O ,
^•7 „
/7-/^
Number of
treatments
required
to achieve
a stable
weight
^ '


2-s
3~ '
2~s

Heat to
6pO°F
(o hours
cool ,
weigh
0. 6 y.


-
Number of
treatments
required
to achieve
a stable
weight
, 3- x


5L/-
-------
                                            THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                          PN 3530-/S
Plant
                    .  CPA-
        Sample  location
        Relative humidity
Run No.
                                                                       Analyst   C. Jb/v/e.
                                                        Density of acetone (pa)
                               (g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
c/e 375 -


££356 >
££34f x
6'£33P^-


Sample I.D.
/8/fc 5-/o „


S£/r?5-3 ^
£//C x
S&nsX --


Container No.
6060 A ^


5ib/3 x


Initial Vol. (ml)
3/fcMjC-'5 ^


P-7a^'^ ^
oooj~?t? -
C7oo^fc'^5 --


Tare Wt. (mg)
1034-10. 0 /


10541$. t* ^
T>H4»6 ^
$4-0- (0 -'


n
Ul
                                            Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
•Lab No.
6^-576^


Ce 355 --
(LL 3+t -/
6< 3^^ ,

Initial wt.
(ambient)
Pr£J X"


3^.0 /
0-^ /
7'P~ y
^.^ ^
Heat to
320° F
Wiours'
cool ,
weigh
M -


//•3 /
-o. ( ,
5'O x
Ho. 3 x
Number of
treatments
required
to achieve
a stable
weight
^x


3 >
;LX-
a /

Heat to
450°F
^fhours
cool ,
weigh
/•^ ,


/3-3 ^
^,O -
<4-<(# '
n^ ;
Number of
treatments
required
to achieve
a stable
weight
^ '


^-x
C^ X
^ /

Heat to
600°F
3^/fiours
cool ,
weigh
0.& ^


in x-
-O.i ^
<4>^ x
/3-
-------
o
I
                                           THERMOGRAVIMETRIC PARTICIPATE ANALYSIS

                                                         PN
Plant  (JL.S


Sample location 	


Relative humidity   50%
                                                                               Run  No.   6C
                                                                              Analyst   (\. Jc'/y)&6
                                                               Density of acetone  (pa)
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
d(- ^75 --


C.t 3^6^
££341 /
C£?P3y


Sample I.D.
/I i t/ £ i f^t .X
« ) I |Vr /J * \ ^"*


6CM5 •--
6/flA) K. '
£>Cf"S&


Container No.
£,ObO A x


5/3^ /? •-
	 . — •
5/34 fl ,"


Initial Vol. (ml

3/fcM/'a -'


3^^'i -
0002113 ^
OooMto ,


Tare Wt. (mg)
IOMIO.O .-•


lo(oW'4- .- -
34^-5 -^
3if6.0 ^


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
#£376 s


C£ 366-'

<£ -'


4S-5 J
0,3- ,
0.6 /
5^-. O /'
Heat to
3^20° F
^'hours
cool ,
weigh
(A


_ — -
'0. 1 .-
	 ./'
	 •
Number of
treatments
required
to achieve
a stable
weight
rX ^


	 • '
A X
	 	 „

Heat to
450°F
(^ hours
cool ,
weigh
/ • *"f~ *"


//•^ x
o.o .
5'P> -
_/?.»./_
Number of
treatments
required
to achieve
a stable
weight
JL /


A x'
<^- -
3-x-

Heat to
600° F
"cool ,
weigh
O.& /


4*0 x
-D. 1 ^
^/.^.
/3.£Ljr
Number of
treatments
required
to achieve
a stable
weight
A s


A ' -
3- /
3- / -

       Remarks
       Data reviewed by   •'_ •, >•.	L__i.__^-	—	


       *Ihese are net weights  (gross wt.  avg.  minus  tare  wt.)  without  blank subtraction.
-------
                                            THERMOGRAVIMETRIC PARTICIPATE ANALYSIS
                                                          PN 3530-/5
Plant  ti.S
                                   PQ.JUC*.
Run No.
        Sample  location 	
        Relative humidity   50%
                                                                        Analyst  C. TOA)C.S
                                                         Density of acetone (pa)   .7^ £'6
                               (9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££ 375 .


6C367/
C£ 2)4-1 .,-
£/e 3*4 --


Sample I.D.
6//C S-/o '


5Dr*i56 ^
6/756 .x


Container No.
^OleO l\ ,


6 if 2- ft '
	 .
b'iv^6 ,/


Initial Vol. (ml)
S / 6 m/ -s /


^3W'i /
CW.^7'


o
H
                                             Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
(Li 375


££2>S7 x
L.'£^4I -'
Ct 324 .

Initial wt.
(ambient)
J*Z ?
Heat to
320 °F
cool ,
weigh
M -


	
-C. ( x
	 	 _y
	 	
Number of
treatments
required
to achieve
a stable
weight
3- y


— —
P- X
	 . /

Heat to
450°F
>f ''hours
cool ,
weigh
/ ^ x


/P'3 .-
ao
¥•/ x
/^.4-X
Number of
treatments
required
to achieve
a stable
weight
3- /


2- X
^L x
3L /'

Heat to
600°F
,u/ 'hours
cool ,
weigh
O> & '


3'5 x
'0. 1 ^
3.^? •'
/3..1. y
Number of
treatments
required
to achieve
a stable
weight
^ /'


3- S >
2-^
2~s '

        Remarks
        Data  reviewed by
         These are  net weights  (gross wt. avg. minus tare wt.) without blank subtraction.
-------
                                              THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                             PN
Plant a.S. 6TA- r^e/vjc ?ouoc /
6'£3*/-l ..-
C£3?-6s


Sample I.D.
6/K. 6-10 ^


fe/Vn5£ --
&ICJKL
M^S6 ''


Container No.
£c?£>c># x


5^5 //I x-
	
soS/0 „••


Initial Vol. (ml)
ZibrtJL'S -



65/C3-f( ,
6-ca,^6 .

Initial wt.
(ambient)
P-g /


J5.^ y
O>2- s
&0/
tt.(*_j_
Heat to
320°F
^ hours
cool ,
weigh
M y


16-1 /
- a i ^
(c- <4 /
d
-------
                                         THERMOGRAVIMETRIC  PARTICIPATE  ANALYSIS
                                                       PN
    Plant     l('S. Clp(\ -
    Sample location 	
    Relative humidity  t>oc7o
	  Run  No.
	  Analyst
 Density  of  acetone  (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££375 -


ce 35^ s
CiC34'l ,
CeSZto.'


Sample I.D.
* &/C5-/0 ^


<0AiK6& -"
6/*/o£
6£>o4 -^


So 5^- ft /


50St/6 y


Initial Vol. (ml)
3ffo"U'$ -


334W '5 .
coo }~1 1 3 -
OOCWcfl ~-


Tare Wt. (mg)
IOSHIO<€> x


/

Heat to
600°F
6' hours
cool ,
weigh
0.0 ^


fa-6? -.-
't?. 1 ,,
^•7y
n.t*-S
Number of
treatments
required
to achieve
a stable
weight
P- -^


a x "-
^ /
«?. y -

    Remarks
    Data reviewed by
     These are net weights (gross wt.  avg.  minus  tare wt.)  without blank subtraction.
-------
                                        THERMOGRAVIMETRIC  PARTICULATE ANALYSIS
   plant   U> S.  C
o
to
o
   Sample  location
   Relative  humidity
	  Run No.
	  Analyst
 Density  of acetone (pa)
                                                                                (9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££375


C£$bO/
f'£34/ -
£/?3P-7 ,


Sample I.D.
e>iitf>-to ^


7/-W5/3 Ptjoc
6/^AjK
•jtms* Puoo^


Container No.
SOtoO A


SO&lft ^
	 .
66^76 x


Initial Vol. (ml

3/fc*U's -


P-5C5 «J. 'o ^
ODOJ7I5
^oP?-U „


Tare Wt. (mg)
103+10-0 ^


ICto$oO,<* ^
3^6-5 ,
3f &.£_-'


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
C£?>76 /


££?>toOs
tje$w
CIZ327 .

Initial wt.
(ambient)
^>-£ /


37.0 /
O. 2- /
°t>^
4fc.4 V
Heat to
320°F
k hours
cool ,
weigh
/•I s


20.£ ,
- O.I y
s;?y
^•5;
Number of
treatments
required
to achieve
a stable
weight
;L ^


^ '
3~ S
^ '

Heat to
450°F
(^'hours
cool ,
weigh
l"4


n o .
o.o x
5,0 s
23.0;
Number of
treatments
required
to achieve
a stable
weight
3~ i


2- S
3- -
3- /
	
Heat to
600°F
"cool ,
weigh
0.0 ^


It.O s
-o. i ./
4 .-7 ^
/5-7 V
Number of
treatments
required
to achieve
a stable
weight
A- ^


«a / -
P. x
a ^

                                                                                                                 ,x
   Remarks
   Data reviewed by
(t\rc\^^ wt .
                                        .  minus  tare  wt.)  without blank subtraction.
-------
                                         THERMOGRAVIMETRIC PARTICIPATE ANALYSIS

                                                       PN 3530  '5
     Plant
                           Run No.
     Sample location


     Relative humidity
                           Analyst  <2-
            Density of acetone (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
6>£37S x


<2£3kl /
Ct2>4\ -
C£3ie> .-•


Sample I.D.
6//c S-/C? s


16tn$e>' P<-t-i&~O s-


1 10 SOI' 3 j£
3^?'5" -
3^-S j?


o
I
Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
££375 ,


C/63(c/ /
<2£34-( /
(2 £326 .

Initial wt.
(ambient)
£•6 /


^.fc '
o. ^ ,
- /3.«f ^
*r
Heat to
320°F
"cool ,
weigh
M ^


/p,| ^
-0.1 ^
^•4-y
>•
Number of
treatments
required
to achieve
a stable
weight
A^


3* y
c^-X
3V

Heat to
450°F
"cool ,
weigh
/ » *'/-


/ <^ *" CtP */^
<9. o . ,
4?.7 /
	 1 	
Number of
treatments
required
to achieve
a stable
weight
P./


^ /
d -
«?- y

Heat to
600° F
"cool ,
weigh
o,a ^


/<5."7 s
- Oil ^
(e.+ /
/?'/ y
Number of
treatments
required
to achieve
a stable
weight
3- /


3* '
<2~ /
ay -•

     Remarks
     Data reviewed by
     t

      These are net weights  (gross wt. avg. minus tare wt.) without blank subtraction.
-------
o
M
ro
                                           THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                         PN
Plant   U.S. LPA- tfwo
                                                                              Run  No.   ^c
       Sample  location
       Relative  humidity   6O
                                                                              Analyst  C JorieS
                                                        Density of acetone (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
C/C'375 ,


C/O^A,
Cd $m -
cezw-


Sample I.D.
6//c 5-10 .


1C-MS& „
y|/j,0/C «•
70M56 -


Container No.
SObO A x'


£073 d ^
—
S£736 ^


Initial Vol. (ml)
3/6? mJi'S ^


3-3&tnl's -•
c'^c?J7^ '
rci 370^4 ^


Tare Wt. (mg)
(o'*>m&>o /•


ic5os&,o * -"
3w-^-5 -
3V/'6 ^


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
(•£.575.


££3^3- '
C/O4L
GZ3M .

Initial wt.
(ambient)
P<#.


fc'/W ^
(9.3- ,
/6.fc -'
gatf/'
Heat to
320°F
k'hours
cool ,
weigh
1,4 •


J-J-4 s
- O. l -x
to. 3- /
^#-& V
Number of
treatments
required
to achieve
a stable
weight
3- x


ta '
^/
3^

Heat to
4£0°F
t'hours
cool ,
weigh
/,cf .'


/ 7'0s ^
O.O .
^/.^ .
^-^y
Number of
treatments
required
to achieve
a stable
weight
P- /


J-y
<^ ,
A- ^

Heat to
600°F
^ 'hours
cool ,
weigh
O'S ,


%.(* .
- c. i ^
6.0 y
/3-^y
Number of
treatments
required
to achieve
a stable
weight
3- <

•
P^' "
P-/
^-

                             if <*>
       Remarks
       Data reviewed by 	_'. y.	1  ' •   . ...	T   	.	
            /                     •                                   "
       *Thp«;p arp net weiahts  (aross  wt.  avq. minus tare wt.) without blank subtraction.
                                                                                                          r.
-------
                                            THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                          PN v>*>-.'5
       Plant   U
               Run No.   7DrnS6
o
 i
M
U>
       Sample location

       Relative humidity
               Analyst    d •
Density of acetone (pa)   .7*7 C'_8_
(g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
C/C37S .


C£3b3 /
Ct2*t ,
£/C33£ ,


Sample l.D.
£/£ 5-/o .


7t>m5^ -^
fi/cUJlt -^
IDmse /


Container No.
5O&yf) A -^


5D76A -•




6o7(t>& ^


Initial Vol. (ml)
3 (t> rtJ •$ /


2>3£>nJ-'5
CDO^fi^
O002105 ^


Tare Wt. (mg)
ICZ4IO>0 /


1055 1 7-1 '„
3^-5 ^
3^' 5 ^


Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
C£375 '


6£3fe3 ^
e/e 34 i -
£/e 330 ,,

Initial wt.
(ambient)
^'^5 x


75.0. X
O.3L ,
//•/ -
86-3 "y
Heat to
320°F
aWhours
cool ,
weigh
/'*? x


^3-7/
-0. ( ^
7-6 /
3I-3V/'
Number of
treatments
required
to achieve
a stable
weight
•^ -


5 ^
P- /
<^^'

Heat to
450° F
jtf hours
cool ,
weigh
l-<-h -


A3.^- .
£.C .
7.0 ^^
3d? .4 w/
Number of
treatments
required
to achieve
a stable
weight
A /


^ -^
JL -
A. -'

Heat to
600° F
^^"fiours
cool ,
weigh
<9.# .


^0,3 /
-C'i ^
fc-0- -/
A6.6 •
Number of
treatments
required
to achieve
a stable
weight
5i ^


a ^
A .x
ay "

       Remarks
       Data reviewed by
        k-                                                                             i.
        These are net weights (gross wt. avg. minus tare wt.) without blank  subtraction.
-------
                                             THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                           PN
       Plant  d
               Run  No.   &ZM5&
       Sample location


       Relative humidity
               Analyst    C • -
Density of acetone  (pa)   .?iKi 5- to y


VCrt6& ./
g/Wit ^
2>Cm6£ ^


Container No.
£>0&O A -"'


4/S4/3 /
	 .---
415^6 •"


Initial Vol. (ml)
3/&rrt£'£> ^


P«?-3*i£'s •
Ooo ^H^ ^-
O002 ~?oq ^


Tare Wt. (mg)
\O$t±tO'0 ^


IO$S43,O ^
U6.S ^
W&.I ^


Analysis results (mg)*
n
i
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
Qt 375 ,


C£ 2&<4~y
<2£34-/ .x
<2£33i _

Initial wt.
(ambient)
«?-•£/


7^-P. s
o,& /
15-1 .
W3 x/
Heat to
320°F
.J4 "hours
cool ,
weigh
/.f"nours
cool ,
weigh
/•^ s


/3-5 v
<9.O ^
7 I/
Number of
treatments
required
to achieve
a stable
weight
3~ /


3* /
^ -
P- y

Heat to
600°F
^/-'hours
cool ,
weigh
o.$ /


/o,4 ^
-O.I ^
6'i /
15.5 /
Number of
treatments
required
to achieve
a stable
weight
A ^


J^S
3*s
J J \.
1,**^ •*

       Remarks
       Data  reviewed  by
                   nt>t  wpinhl-;  Cnrn<;<; wt.  avn.  niinu<; t.arp wt. \ without blank subtraction.
-------
                                          THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                        PN 3530/5
plant
                                      (i
     Sample location
     Relative humidity
	  Run  No. 	
	  Analyst    C
 Density  of  acetone  (pa) _1
                                                                                                       (9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
£/f 376,


C'^3^5 x
C/C3W-/ -^
££33a.


Sample I.D.
&ULS-IO -


&l>in6& ,-
6/cMjK
80^7 $£ ^


Container No.
6cfco/{ ^


W/S74 /


4/576 ^


Initial Vol. (ml)
3/6^'j.


J-l8sx4'3 ^
ooo^fi'i -'
OO027/0 ^'


Tare Wt. (mg)
(03 "^
C/- i?*- /
/4-'


/6^6 y
0,0 /
/'^ -
/6-5>'
Number of
treatments
required
to achieve
a stable
weight
3L /


JL/
3~ X
J. ,

Heat to
600°F
j^fiours
cool ,
weigh
0,6 „-


//-O „
-0,1 ^
/'5 y
/3--SS
Number of
treatments
required
to achieve
a stable
weight
cX S


3. ^
A /
2. / "

     Remarks
      Data  reviewed by
      c
      These are  net weights  (gross wt, avg. minus tare wt.) without blank subtraction.
-------
                                    THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                  PN
Plant  U.S.
Sample location
Relative humidity  5O
                                                                              Run No.
                                                                              Analyst    C • To*) c} 5
                                                               Density of acetone (pa)
                                                                                                      (g/ml)
Sample type
                      Lab  No.
                                         Sample  I.D.
                                                 Container No.
Initial  Vol.  (ml)
Tare Wt. (mg)
       Acetone blank
                       /C 375
Acetone blank (2)
Acetone blank (3)
n
M
en
Acetone rinse
Filter blank
Filter
                            ££333,,
                                                                        cool-in
                                            Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
££37£/


ces^tc /
e* 34/ ^
6^335 -

Initial wt.
(ambient)
2-8 /


^5,«?/
<9,P- x
//•A /
67,i :/
Heat to
320°F
hours
cool ,
weigh
/'

Heat to
600°F
31/ "hours
cool ,
weigh
0,3 -


13-5 -"
-O. I ^
5,0 ;
/B-5 >
Number of
treatments
required
to achieve
a stable
weight
A /


^x ^
O. x
^-^

Remarks
Data reviewed by
                                                             "
                       forn<;<;  wt.  ava. minus tare wt.) without blank subtraction.
-------
                                         THERMOGRAVIMETRIC  PARTICULATE  ANALYSIS
                                                        PN
     Plant   U-S.CPA- Mo*
     Sample location
     Relative humidity
                           Run No.
                           Analyst	C_
            Density of acetone (pa)
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
££375


££3k7
££34/ .
/"/C334'-


Sample I.D.
AIK.S-/O


W6& v


Container No.
Svbo A


U-to8t\ ^
	
ty~)ij?& ^


Initial Vol. (ml)
3 ' k r*-l '.5


ZjbZrtJt'S S
ooo 2n i <7 ^
OoO27fJ^ ^


Tare Wt. (mg)
Io2>4/O>o -"


fo7f63,J2, ^
549 ;._, ._.  :  	•.'    • ^	.	
     ,r    <                     •
      These are net weights (gross wt.  avg.  minus  tare wt.)  without blank  subtraction.
                                                       i -y
-------
o
K
cc
                                         THERMOGRAV1METRIC PARTICULATE ANALYSIS
                                                       PN 35-ic? -IS
Plant  U'S'  <
Sample location 	
Relative humidity   6D°/c,
                                                                            Run No.  4£/rts&-
                                                                            Analyst    (L • .Ttw/g.5
                                                             Density of acetone (pa)
(g/mi)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
6/C37S x


£/C3<*£ -
fl£2>4! -
££336,


Sample I.D.
6/K6-CC? ^


eiC-M5t>'fae~,
Al**llL~-
''iCfn$e> P^oo ^


Container No.
SoboA


flu A „
	 	
V7//4 ^


Initial Vol. (ml)
Sl^ml'S


30$^'* -^
OOO^fl^ ^
oooj-?i3 .-


Tare Wt. (mg)
IC34IO,O


lO
-------
                                          THERMOGRAVIMETRIC  PARTICULATE ANALYSIS
                                                        PN $510  is
     Plant   U>S.CPA
                           Run No.   4V/»Sft
     Sample location 	

     Relative humidity £>Q°(o
                           Analyst   C • Tories
            Density of acetone (pa)   /~7v'oP
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
i ' f *"*l — 7 jg"
*—' *^ *-^ r C? .X


(Jt^3>^ /
f>P 2)ms& -P<+oo.
/t i * ± \ If
*ic,,n->e>-P*c^


Container No.
eoboA -


V705L/q -
. 	
^/7o.96 ^


Initial Vol. (ml)
3 /<£> /rt/ 'i> -^"


ZLtf'J'™-^ '$ '
0003-71*1 ^
Goon m- k^


Tare Wt. (mg)
IOMio-0 /


lObTbl.bS'
*>+$>$ ^
^6"A >


o
 I
M
vr
Analysis results (mg)*
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
C>£376 x


CtebQs
CtMi,
<2£m>^

Initial wt.
(ambient)
P-? ^


^•4/
/ hours
cool ,
weigh
/•4- x


/^•3 ,
O.CJ
5-^
±0,1 /
Number of
treatments
required
to achieve
a stable
weight
A. x


a /
«L ,
^ y

Heat to
y600°F
^ hours
cool ,
weigh
a 6 .


/P. 7 x
' 0- 1 ^
5. 3- y
/?<
-------
                                          THERMOGRAVIMETRIC  PARTICIPATE ANALYSIS

                                                         PN 35-k? is
o
 I
CO
o
Plant   M'5  	

Sample location _

Relative humidity
                                                                              Run No.  IOf\fY)£>&

                                                                              Analyst 	C_
                                                               Density of acetone (pa)  .
                                                                                   (g/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
6^375 „


££37CX
C£34/ ^
e,e337-


Sample I.D.
fl/K 5-/0 ^


toAW56 x
£//?o/£ —
/0/4/T7S6 "-'


Container No.
6obo A '


47.*>oA s
	
U110& -


Initial Vol. (ml)
^/C?r*-£'5 /


2'l$ml'$ ^
00021 «i ^
OOO}7($ ¥-


Tare Wt. (mg)
l02>t^io,O ^


/03SS5-4 ^
30 y
' 0. I ^
/3-S x
^5'5y
Number of
treatments
requ i red
to achieve
a stable
weight
A ^


3*-/
,X -
A- /

Heat to
450°F
J4 'hours
cool ,
weigh
/>3-S
Number of
treatments
required
to achieve
a stable
weight
A /'


a X"x
-------
                                        THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                      PN 35.30 15
    Plant   ti'S.  Lpf\  - Mono
               Run No.
    Sample location 	

    Relative humidity __£>Cc/o
               Analyst  Q .
Density of acetone (pa)  .7f£>?
(9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
^376


C£'b1\ x
ce?>m „
C/esiSx-


Sample I.D.
/?/£ 6 10 *


lo&msB -s
BlArik. ^
loA/wSg /


Container No.
SOboA. ^


47334 -x
— _ —
^7336 x


Initial Vol. (ml)
3 (U- tut'* x


Ib3rt£'s ^'
000^71^1 —
OOO37I (a S


Tare Wt. (mg)
lo*>t+io.c ^


1 '034-53, <& £
&?.£ ^
&&»? ^>


Analysis results (mg)*
o
 I
U)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter
Total particulate
Lab No.
C£ 376 -


CKZ7I <
C*34/ .
0£ 5SB x

Initial wt.
(ambient)
2<$ ,"


20.3 /
o,^ .
/7»fc >
3£,5 /
Heat to
320°F
6xhours
cool ,
weigh
14 ^


l*»± s
-Ott ^
/•f-3 J
zin 'J
Number of
treatments
required
to achieve
a stable
weight
^ /


^ /
^ /
2*s

Heat to
450° F
(0 hours
cool ,
weigh
/•<-/ ;


tc. 4 ^
(9'C -
//•*? ,
^-3 V
Number of
treatments
required
to achieve
a stable
weight
3- ;


3L/
P^x
5L ,

Heat to
600°F
kyhours
cool ,
weigh
0.0 ^


0.0 X
-c9. / ^
lt'?~ /
13'^?
Number of
treatments
required
to achieve
a stable
weight
3L -"


3/ -
2- '
2-S -

    Remarks
    Data reviewed by
     These are net weights (gross  wt.  avg. minus tare wt.) without blank subtraction.
                                                                                                            /v.
-------
                                         THERMOGRAVIMETRIC PARTICULATE ANALYSIS

                                                       PN
n
i
co
to
Plant   U'S.  (

Sample location 	

Relative humidity   60%
                                                                             Run  No.
                                                                            Analyst    (2 •
                                                             Density of acetone  (pa)   .
                                                                      (9/ml)
Sample type
Acetone blank
Acetone blank (2)
Acetone blank (3)
Acetone rinse
Filter blank
Filter


Lab No.
CR 375 x


C/C664/
Ct^\ ^
CZSMs


Sample I.D.
6/< S'/o /


loCM5ff> /
&lun)K.
lcCms& •/


Container No.
5oboA /


47-^/4 S
	 _ —
<+!*><*>& ^


Initial Vol. (ml)
3 l&m£ 'i x


t$Ortl '* .--
ceo 3-7 tq --
Ccel~~>i~l ^


Tare Wt. (mg)
103,^ -
\O<(* s
60,1 ./
Number of
treatments
required
to achieve
a stable
weight
^ /


2- /
/^ours
cool ,
weigh
&•& /


lS>1 /
'0.\ ^
lo.O .
^5^y
Number of
treatments
required
to achieve
a stable
weight
JL x


A x
cP- /
«?-/ ^

    Remarks
    Data reviewed by


    A
                ,,4. ..„ •;„!,«
ai/n  mimic
                                                      wt . \ without blank  subtraction.
-------
                                           THERMOGRAVIMETRIC PARTICULATE ANALYSIS
                                                         PN
      Plant    U>5.
      Sample location
      Relative humidity
                           Run No.
                           Analyst   Q.
            Density of acetone (pa)  .7^?is£ s
fii**)K ^
ICVWS& s


Container No.
6obo A --


<+~lMA •
— ... _
W3& .-


Initial Vol. (ml)
3 ( fo w-d 'S ^


iS&'nl's ./"
OOD^t^ -
OOO + 1t& „-


Tare Wt. (mg)
iOWl&o ^-


to-J4oQ.i ^
34 £ -5 ^
*>
"^- * ^
	


Number of
treatments
requ i red
to achieve
a stable
weight
^ ,


	 j
^..^
s

Heat to
450°F
^liours
cool ,
weigh
/.4- s


lto>6 .
£?. O .
/^'G? /
M-'U-
Number of
treatments
required
to achieve
a stable
weight
^. J


^ /
^x
ci

Heat to
600°F
^iiours
cool ,
weigh
aB •


II, b /
-o.i ^
(0,0 s
2-2. 6 /
Number of
treatments
required
to achieve
a stable
weight
a /


3L' x
SL ^
3L^>

      Remarks
      Data revie\>/ed by
       These are net weights (gross  wt.  avg. minus  tare wt.) without  blank  subtraction.
-------
                     LABORATORY REPORT
             U.S. EPA
        PN 3530-14
                 1-7-83
                    Mono Power Samples
                 S02/H2SO4 Determinations
  Run No.

1AM5B
1BM5B
1CM5BW
1DM5BW

2AM5B-P400
2BM5B-P400
2CM5B
2DM5B

3AM5BW
3BM5BW
3CM5B
3DM5B

4AM5B
4BM5B
4CM5B-P400
4DM5B-P400

5AM5B
5BM5B
5CM5B
5DM5B

6AM5B
6BM5B
6CM5BW
6DM5BW

7AM5B-P400
7BM5B-P400
7CM5B
7DM5B
PEDCo Lab Nos.
  CR
  CR
  CR
  CR
406/450
407/451
408/452
409/453
  CR 410/454
  CR 411/455
  CR 412/456
  CR 413/457

  CR 414/458
  CR 415/459
  CR 416/460
  CR 417/461

  CR 418/462
  CR 419/463
  CR 420/464
  CR 421/465

  CR 422/466
  CR 423/467
  CR 424/468
  CR 425/469

  CR 426/470
  CR 427/471
  CR 428/472
  CR 429/473

  CR 430/474
  CR 431/475
  CR 432/476
  CR 433/477
mg H2SO4

  18.3
  49.5
 107
   6.9

  33.9
  81.8
 190
  81.7

  78.5
  64.9
 104
  71.7

  28.3
  98.5
 107
 105

  73.8
  84.4
 134
  74.0

  74.3
 114
  44.9
  82.4

 110
 118
  67.3
  78.4
mg S02

 1910
 2020
 1970
 1990

 1870
 2310
 2260
 2370

 4090
 4080
 3970
 4080

 4350
 4360
 4380
 4340

 4540
 4420
 4420
 4400

 3950
 3910
 3900
 4050

 4230
 4240
 4070
 4210
                            C-34
-------
  Run No.
PEDCo Lab Nos,
                                      mg H2S04
                                    mg S02
8AM5BW
8BM5BW
8CM5B
8DM5B

9AM5B
9BM5B
9CM5B-P400
9DM5B-P400

10AM5B
10BM5B
10CM5B
10DM5B

Blank 1, 2
Blank 3, 4
Blank 5, 6, 7
Blank 8, 9, 10
  CR 434/478
  CR 435/479
  CR 436/480
  CR 437/481

  CR 438/482
  CR 439/483
  CR 440/484
  CR 441/485

  CR 442/486
  CR 443/487
  CR 444/488
  CR 445/489

  CR 446/490
  CR 447/491
  CR 448/492
  CR 449/493
 87.7
120
 58.6
 62.6

 87.8
101
 98.8
 85.6

 92.0
104
 75.8
 58.6
4070
 330*
3440
3960

4310
4270
4170
4290

4300
4210
4190
4340
*This sample has been analyzed twice and gave the same
 results.
                                      1-15-83
                              T.J.W.
                          C-35
-------
              LABORATORY REPORT

      U.S. EPA    PN: 3530-15   1-28-83

                 Mono Power
Nonwater Soluble Sulfate Particulate Analysis
Run No .
1CM5BW-F
1CM5BW-PR
1DM5BW-F
1DM5BW-PR
3AM5BW-F
3 AM 5 BW- PR
3BM5BW-F
3BM5BW-PR
6CM5BW-F
6CM5BW-PR
6DM5BW-F
6DM5BW-PR
8AM5BW-F
8AM5BW-PR
8BM5BW-F
8BM5BW-PR
Blank-F
Blank-PR
Blank-F
Blank-PR
Blank-F
Blank-PR
Blank-F
*15 ml
Net Weight
Lab No . mg
CR386
CR395
CR387
CR396
CR388
CR397
CR389
CR398
CR390
CR399
CR391
CR400
CR392
CR401
CR393
CR402
CR394
CR403
CR497
CR404
CR498
CR405
CR499
were removed
9.4
43.4
5.1
16.2
6.9
56.0
6.3
44.6
10.7
87. 9
7.1
46.0
10.2
32.1
8.1
31. 7
1. 6
1.7
(-0.2)
1.5
1.3
0.7
2.6
for ion
S04'
mg/1
24.20
79.75
15.36
19.58
14.58
45.18
15.14
87.34
21.70
163.5
15.39
79.60
22.12
42.35
16.48
50.16
3.63
0.29
2.75
0.13
2.71
0.30
2.81
chroma tography
Reviewed by: /,^f-^>
vuj. Luiie
Evaporated*
ml
235
308
235
407
235
550
235
317
235
325
235
320
235
242
235
228
235
403
235
250
235
360
235
analysis .
/* /*s
•T~€<^ / /*• /«r ^T-t.
NWSSP ,
mg
1.6
9.6
0.1
5.2
2.2
21.8
3.7
6.5
3.7
14.8
2.1
11.0
3.0
18.0
2.8
16.0
0.4
1.5
(-1.1)
1.5
0.4
0.6
1.7

-£-c-X <2 -^
                    C-36
-------
                              LABORATORY REPORT
                            U.S. EPA; PN 3530-15
                                MARCH 8, 1983

                             MONO POWER SAMPLES
Run No.
1AM5B-PR
1AM5B-F
1BM5B-PR
1BM5B-F
2AM5B-P400-PR
2AM5B-P400-F
2BM5B-P400-PR
2BM5B-P400-F
2CM5B-PR
2CM5B-F
2DM5B-PR
2DM5B-F
3CM5B-PR
3CM5B-F
3DM5B-PR
3DM5B-F
4CH5B-P400-PR
4CM5B-P400-F
5AM5B-PR
5AM5B-F
6AM5B-PR
6AM5B-F
6BM5B-PR
6BM5B-F
Lab No.
CR342
CR309
CR343
CR310
CR344
CR311
CR345
CR312
CR346
CR313
CR347
CR314
CR348
CR315
CR349
CR316
CR352
CR319
CR354
CR321
CR358
CR325
CR359
CR326
Cso4'
ml/liter
18.84
7.67
13.35
16.93
10.02
9.94
6.64
10.53
14.98
11.10
'7.62
10.26
19.42
13.21
31.94
11.50
12.12
12.78
16.33
11.32
19.29
12.16
10.01
14.16
Volume, ml
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
Blank
corrected
S04, mg
4.7
1.1
3.3
3.4
2.5
1.7
1.7
1.8
3.7
2.0
1.9
1.8
4.9
2.5
8.0
2.1
3.0
2.4
4.1
2.0
4.8
2.2
2.5
2.7
(continued)
                                 C-37
-------
MONO POWER SAMPLES (continued)
Run No.
7DM5B-PR
7DM5B-F
8CM5B-PR
8CM5B-F
8DM5B-PR
8DM5B-F
9BM5B-PR
9BM5B-F
10CM5B-PR
10CM5B-F
Blank-PR
Blank-F
Lab No.
CR363
CR330
CR364
CR331
CR365
CR332
CR367
CR334
CR664
CR339
CR373
CR341
SO,,
ml/liter
31.77
14.31
14.98
16.03
19.00
12.20
19.98
13.31
25.19
18.43
<1.00
3.27
X'
ml/liter
31.77
14.31
14.98
16.03
19.00
12.20
19.98
13.31
25.19
18.43
<1.00
3.27
!wed by /^^^
Volume, ml
250
250
250
250
250
250
250
250
250
250
250
250
~ /Xi,^
Blank
corrected
S04, mg
7.9
2.8
3.7
3.2
4.8
2.3
5.0
2.5
6.3
3.8
<0.2
0.8
3/9/&~t>
                                   C-38
-------
            APPENDIX D




SAMPLING AND ANALYTICAL PROCEDURES
               D-l
-------
               SAMPLING AND ANALYTICAL PROCEDURES


     A four-train (quad)  sampling system was used in this test

program.  This system allowed four samples to be collected simul-

taneously at essentially the same point in the gas stream.  Each

individual sampling train consisted of a Method 5* fronthalf and

a Method 8* backhalf.  Method 5 sampling procedures were used for

all tests, except as noted.


SAMPLING APPARATUS

     The sampling train(s)  used in these tests met design speci-

fications established by the Federal EPA and was assembled by

PEDCo personnel.   Each train, set up as shown in Figure D-l,

consisted of:

     Nozzle - Stainless steel (316)  with sharp, tapered leading
     edge and accurately measured round opening.

     Probe - Borosilicate glass with a heating system capable of
     maintaining  the desired gas temperature at the exit end
     during sampling.

     Filter Holder - Pyrex glass with heating system capable of
     maintaining  a filter temperature at desired levels.

     Impingers -  Five impingers connected in series with glass
     ball joints.  The first, fourth, and fifth impingers were of
     the Greenburg-Smith design, modified by replacing the tip
     with a 1/2 inch I.D. glass tube extending to 1/2 inch from
     the bottom of the flask.
 40 CFR 60, Appendix A, July 1981.
                              D-2
-------
         STACK WALL
D

U)
                              HEATED AREA
           •FILTER HOLDER
                                                                                             /
                                                        THERMOMETER
                         GLASS  PROBE
                           TEMPERATURE -
                             SENSOR
                            LOCATION
                                                              IMPINGERS
I	L_
  THERMOMETERS
                                                              AIHll1\Jl_l\*J               »



                                                                     ICE WATER BATH -^
                   BY-PASS
                    VALVE
VACUUM GAUGE

    £..
                                                                                              VACUUM LINE
                                                                                IMPINGER CONTENTS
                                                                                    RUNS 1-10
                                                        VACUUM PUMP
        1 .
        2.
        3.
        4.
        5.
                                             EMPTY
                                             200 ml  80% I PA
                                             100 ml  10% H202
                                             100 ml  10% H202
                                             400 g  SILICA  GEL
                                Figure D-l.   Methods  5 and 8 sampling train  schematic.
-------
     Back-Half Filter Holder - Unheated Pyrex glass inserted
     between the second and third impingers to prevent carryover
     of any sulfuric acid mist.

     Metering System - Vacuum guage, leak-free pump, thermometers
     capable of measuring temperature to within 5°F, calibrated
     dry gas meter, and related equipment to maintain an
     isokinetic sampling rate and to determine sample volume.

     A single pitot-tube and thermocouple located as shown in

Figure D-2 were used to measure stack gas velocity.  Equipment

consisted of:

     Pitot Tube - Type S pitot tube that met all geometry stan-
     dards was attached to the probe system to monitor stack gas
     velocity pressure.

     Temperature Gauge - A Chrome1/Alumel Type-K thermocouple  (or
     equivalent) was attached to the pitot tube, in an interfer-
     ence-free arrangement, to monitor stack gas temperature
     within 5°F by the use of a digital indicator.

     Draft Gauge - An inclined manometer made by Dwyer with a
     readability of 0.01 inch HnO in the 0 to 10 inch range was
     used.                     ^

     Barometer - Aneroid type to measure atmospheric pressures to
     within jfO.l inch Hg.

     Probe and filter temperatures were monitored using multi-

terminal digital indicators with thermocouple leads located in

the middle of each probe and immediately behind the Method 5

filter frits.  Rheostat devices were used to control individual

probe temperatures.  Filter temperatures were maintained at the

desired level by the use of individual temperature controllers.


SAMPLING PROCEDURE

     After selecting the sampling site, the stack pressure,

temperature, molecular weight, moisture content, and range of
                             D-4
-------
8 cm
                    15 cm
                           NOZZLE
        4 cm
            0.5 cm
                                 NOZZLE
                                        THERMOCOUPLE
 4 cm

•3- A-e

2 cm *

* 2 cm *

k}~~ h

3 cm
i


i
1.4 cm
r
                    S" TYPE PITOT TUBE
  *-(->-
              4 cm
 Figure D-2.   Four-train sampling system showing  nozzle,
        pi tot  tube, and thermocouple position.
                       D-5
-------
velocity head in the general sampling area were measured accord-

ing to procedures described in the Federal Register.*  A single

sampling point located approximately 1 meter from the stack wall

was selected to allow all four nozzles to be positioned at points

of equal velocity.

     Individual sampling train components were assembled and

labeled.  Glass fiber filters**  (3-in. diameter) used in the

Method 5 position were heated to 315°C prior to identification

and tare weighing to the nearest 0.1 mg on an analytical balance.

Each sample train had a Method 8 backhalf, modified by adding a

fifth impinger behind the filter to minimize evaporation loss of

IPA by additional cooling of the hot sample gas prior to its

contacting the IPA.  An unheated glass fiber filter** assembly

was inserted between the second and third impingers to preclude

any sulfuric acid mist carryover.  The contents of each impinger

was as follows:

          Impinger                 Contents - All Runs

             1                     Empty
             2                     200-ml 80% IPA
             3                     100-ml 10% H202
             4                     100-ml 10% H202
             5                     400-grams silica gel

     The sampling train subassemblies (probes, filter holders,

impingers)  were transported to the test site and assembled in the

quad train configuration as shown in Figure D-3.  The sampling

trains were leak checked at the sampling site prior to each test
  40 CFR 60, Appendix A, Reference Methods 2, 3, and 4, July 1,
  1981.
**
  Whatman RA 934AH.
                             D-6
-------
           HEATED FILTER COMPARTMENTS
                               \
                   B A  D  C
                    PROBES

               QUAD TRAIN ASSEMBLY

DO OA
CO OB
BACK
VIEW
PROBE
AND

1
NOZZLE
pr-fTl
C
c V-
k-— J 01
ORIENTATION
-
fll
Figure  D-3.  Quad train  configuration,
                  D-7
-------
run by plugging the inlet to the nozzle and pulling a 15 inch Hg

vacuum, and at the conclusion of the test by plugging the inlet

to the nozzle and pulling a vacuum equal to the highest vacuum

reached during the test run.

     The pitot tube and lines were leak checked at the test site

prior to each test run.  The check was made by blowing into the

impact opening of the pitot tube until 3 or more inches of water

were recorded on the manometer and then capping the impact open-

ing and holding it for 15 seconds to assure it was leak free.

The static pressure side of the pitot tube was leak checked using

the same procedure, except suction was used to obtain the 3 inch

H20 manometer reading.  Crushed ice was placed around the im-

pingers to keep the temperature of the gases leaving the last

impinger at 68°F or less.  For each train, the probe and filter

were preheated to the desired temperature prior to sampling and

maintained at that temperature throughout the run.  The partic-

ular conditions for each type of train were:

     Method 5B (Designated MSB)  - probe and filter assembly
     heated to 160°C  (320°F).

     Modified Method 5B (Designated M5B-P400)  - probe heated to
     204°C (400°F)  to minimize cold spots and filter assembly
     heated to 160°C  (320°F).

     Method 5BW (Designated M5BW) - probe and filter assembly
     heated to 160°C  (320°F).

     During sampling, stack gas and sampling train data were

recorded at 10-minute intervals and when significant changes in

stack flow conditions occurred.   Isokinetic sampling rates were
                              D-8
-------
set throughout the sampling period with the aid of a programmable

calculator.  All sampling data were recorded on the Particulate

Field Data Sheet.


SAMPLE RECOVERY

     The components of the quad train sample system were labeled

and disassembled at the stack for transport to the sample clean-

up/setup area.  The filter and probe assemblies were recovered as

follows:

     0    All filters were carefully removed from the filter
          holder and placed in a petri dish.  These filters were
          sealed and labeled for shipment.

          For Methods 5B and M5B-P400, loose particulate from all
          sample exposed surfaces prior to the filter and acetone
          washings were placed in a polyethylene container,
          sealed, and labeled.  For Method 5BW, deionized,  dis-
          tilled water was used for the probe rinse.   Particulate
          was removed from the nozzle and probe with a nylon
          brush.   The liquid level was marked after each con-
          tainer was  sealed.

     The impinger section of each sample train (modified Method

8)  was removed from its ice bath and purged with ambient air for

15  minutes  before recovering the contents.

     The contents were recovered as  follows:

     0    After  gravimetric weighing,  the  contents  of  the first
         and second  impingers (condensate and  80 percent IPA)
         were placed  in  a  polyethylene  container.  The  impingers
         and connecting  glassware prior to the backhalf filter
         were rinsed  with  80  percent  IPA  and  the rinse  was  added
         to  the  container  along  with  the  backhalf  filter.   The
         containers were then sealed,  labeled,  and the  liquid
         level marked.

     0    After gravimetric weighing,  the  contents of  the third
         and fourth impingers  (10 percent H202) were  placed in a
         polyethlyene  container.  The impingers and connecting
         glassware were rinsed with deionized,  distilled water
                             D-9
-------
          and the rinse was added to the container.  The con-
          tainers were then sealed, labeled, and the liquid level
          marked.

     0    The color of the silica gel was noted on the sample
          recovery sheet and the net weight gain determined
          gravimetrically.

     Blank samples were taken for each new batch (or a minimum of

two) of the following reagents:  acetone; deionized, distilled

water; 80 percent IPA; 10 percent ^2°2' and a filter'  In addi-

tion, each probe was rinsed prior to initial use with either

water or acetone  (depending on method type), and these rinses

were retained for probe rinse blank analysis.


SAMPLE LABELING

     The sample label identifies the test run number, sample

train, and each component of the individual train.   The run

numbers are consecutive from 1 to 10.  Since each run consists of

four single trains, each train was identified by a letter A, B,

C, or D.

     The last item of the label identifies the sample method and

the component of the recovered sample.   For example, identifica-

tion No. 1A M5B-IPA indicates Test Run 1, Sample Train A, Method

5B sample method at 160°C (320°F) and the IPA impinger contents

and rinse.  Another example is 4C M5B-P400-Probe indicating Test

Run 4, Sample Train C, Modified Method 5B sample method  (filter

at 160°C and probe at 204°C), and the probe rinse fraction.


SAMPLE RECEIPT AND CHAIN OF CUSTODY

     Every sample entering the lab for analysis was assigned a

unique alphanumeric identity on a Sample Receipt and Record Sheet
                              D-10
-------
(log).  In the sample log-in book, this number was correlated



with sample identification label and with the number of the



analysis requisition form.  A copy of the analysis requisition



was kept with the samples and later with the raw data.
            .»


     The samples remained in a locked sample storage room until



removed for analysis.  Transfer was documented on a Sample Con-



trol Record which is maintained by the sample custodian.  The



Sample Control Record documents all custody changes which occur



in the laboratory and each procedure performed on the sample.



     Release of samples requires notation of the Sample Control



Record and verification of information and sample container



condition.  If the sample is to be transferred between two per-



sons  (i.e., two analysts), the transfer must take place through



the sample custodian.  In other words, the sample will be re-



turned to the sample custodian and reissued.





SAMPLE ANALYSIS



Particulate Analysis



     Initially, the filter particulate catch was placed in a



tared glass weighing dish, desiccated for 24 hours, and weighed



to the nearest 0.1 mg until a constant weight was achieved.  The



probe rinse fraction was transferred to a tared beaker and evap-



orated to dryness at ambient temperature and pressure, desiccated



for 24 hours, and weighed to the nearest 0.1 mg until a constant



weight was achieved.
                              D-ll
-------
     For the purpose of this study a constant weight was defined



as a difference of no more than 0.5 mg or 1 percent of the net



weight, whichever was greater, between successive weighings, with



at least 6 hours of desiccation between weighings.  This is the



same definition as for Method 5.  Because previous data have



shown that samples containing a significant amount of sulfuric



acid may not come to a constant weight, the following alternate




procedure was used, if necessary:  at least three separate weigh-



ings were obtained, and the lowest weight achieved was reported



as the ambient weight.




     After this initial gravimetric analysis at ambient condi-



tions, probe rinse and filter fractions were subjected to the



sequence of heat treatments as outlined in the analytical matrix



(Table 3-2).  The samples were heated in an oven at the specified



temperature for either 6 or 24 hours as indicated.  Each sample



fraction was cooled and desiccated for 24 hours after removal



from the oven and weighed to the nearest 0.1 mg.



     Prior to advancing to the next step of an analytical se-



quence, a heat treatment was repeated at the same time and tem-



perature condition until a stable weight was obtained.  For the



purpose of this study a stable weight was defined as a difference



of no more than 5.0 mg or 10 percent of the net sample weight,



whichever was greater, between successive treatments at the same



conditions.  The number of treatments required to achieve a



stable weight was recorded for each sample fraction.  A maximum



of three treatments was performed at the same conditions.
                             D-12
-------
Water-Soluble  Sulfate Determination

     Each  sample  fraction plus blanks were handled  and  analyzed

as  follows:

     0     Filter  - The filter was cut into small pieces and
           placed  in a 125-ml Erlenmeyer  flask with  a  standard
           type joint equipped with an air condenser.  The  con-
           tents of the shipping container were rinsed into the
           flask.  About 50 ml of distilled water was  added and
           the  contents gently refluxed for 6 to 8 hours.   The
           solution was then cooled and diluted with water  to
           exactly 250 ml in a volumetric flask.  This solution
           was  reserved for total soluble sulfate analysis, which
           is described below.

     0     Probe Rinse - The probe wash was poured into  a 250 ml
           volumetric flask.  The sample bottle was  rinsed  with
           distilled water and the rinsings were added to the
           flask.  The solution was then diluted to  the  mark with
           distilled water (or, if greater than 250  ml,  the volume
           was measured).  This solution was reserved  for total
           soluble sulfate analysis, which is described  below.

Total Soluble  Sulfate—

     A 15-ml aliquot* was drawn from the settled samples (filter

and rinse) into separate sample containers with a clean, dry

pipet (only solution was transferred—no solid; if  necessary, a

portion of the sample was centrifuged).   The sulfate  ion (S0.=)

concentration in each aliquot was determined by ion chromato-

graphy (1C).  A syringe was used to inject 1 ml of  the  aliquot

into the 100-yl sample loop of the 1C flushing the  loop with the

sample.   The conductivity response of the sample was  compared

with the calibration curve to obtain SO ~ concentration in

mg/liter.  Dilutions were prepared and reanalyzed if  the initial
*
 The pipet is not rinsed.  This deviation from normal procedures
 is necessary because the volume removed from the volumetric
 flask is required in the calculations.
                              D-13
-------
response was out of the linear calibration range (i.e., greater

than 15 mg/liter).   Blank filter and water samples were prepared

and analyzed in the same manner as the actual samples.

Mass Determination—

     Filter and Rinse Solution Preparation - The remaining con-
     tents of each volumetric flask (235 ml) were poured into
     separate tared 250-ml beakers, and the flask was rinsed with
     distilled water to transfer all particulate matter.  The
     filter solution was in Beaker A and the rinse solution was
     in Beaker B.  These solutions were evaporated to approxi-
     mately 100 ml at 105°C and allowed to cool before the next
     analysis was made.

     Filter and Rinse Solution Analysis - Five drops of phenol-
     phthalein indicator were added to all the tared beakers.
     Concentrated NH.OH was then added drop by drop until the
     solution turned pink.  The samples were returned to the oven
     and evaporated to dryness at 105°C, then cooled in a desic-
     cator and weighed to a constant weight.  Results were re-
     ported to the nearest 0.1 mg.  For this method, "constant
     weight" means a difference of no more than 0.5 mg or 1
     percent of the total weight less beaker and/or filter tare,
     whichever is greater, between two consecutive weighings,
     with no less than 6 hours of desiccation time between weigh-
     ings .

Calculations—

     Nomenclature—

          FP = weight of particulate* on the filter in Beaker A,
               mg

         PRP = weight of probe rinse particulate* in Beaker B, mg

       NWSSP = weight of nonwater-soluble sulfate particulate**,
               mg

         ASf = weight of ammonium sulfate in filter sample, mg

        AS   = weight of AS in probe rinse  sample, mg

       V     = volume of solution evaporated in Beaker A  (filter)
        evaP   or Beaker B  (probe rinse), ml
  *Particulate with H2S04 converted to
  Particulate excluding water-soluble  sulfates

                              D-14
-------
        Cqo  = concentration of sulfate in filter or probe  rinse
           4   solution aliquots, ing/liter

     Equations—

       FP(mg) = gross weight Beaker A - tare weight         Eq.  I
                Beaker A - filter tare weight

      PRP(mg) = gross weight Beaker B - tare weight         Eq.  2
                Beaker B

       AS(mg) = Ccn   (mg/liter) x V  _ (ml) x llter—      Eq.  3
                 S°4               evap        1000 ml

                 i -,-ic /m<3 AS  .
               x 1.376 (—2	)
                        mg S04

Mass of Nonwater-Soluble Sulfate Particulate

     The sum of the particulate* collected on the filter  (FP) and

the particulate* collected in the probe rinse  (PRP) is equal to

the sum of nonwater-soluble sulfate particulate  (NWSSP) and

ammonium sulfate  (AS) in both samples:

          FP + PRP = NWSSP + AS, + AS                       Eq.  4
                               r     pr                      ^

     The NWSSP can be found by rearranging the equation and

substituting appropriate values determined using Equations  1, 2,

and 3.

          NWSSP = FP + PRP - AS- - AS                       Eq.  5
                               r     pr                      ^
Sulfuric Acid Mist Analysis

     The volume of the sample solution was recorded and the pH of

the sample determined.  The sample volume was diluted to  500 ml

with 80 percent IPA.   A 100 ml aliquot of this solution was

pipetted into a 250 ml Erlenmeyer flask with 2 to 3 drops of
*
 Particulate with H-SO. converted to  (NHJ-SO..
                               D-15
-------
thorin indicator and titrated to a pink end point using 0.0100 N



barium perchlorate.  If the end point color was not correct, the



sample was passed through an ion exchange column and retitrated.



A blank was titrated for each sample in the same manner.



Sulfur Dioxide Analysis



     The sample was diluted to 500 ml with deionized, distilled



water.  A 20 ml aliquot of this solution was pipetted into a 250



Erlenmeyer flask with 80 ml of 100 percent IPA and 2 to 3 drops



thorin indicator.  The solution was then titrated to a pink end



point using 0.0100 N barium perchlorate.  A blank was titrated in



the same manner.
                               D-16
-------
            APPENDIX E




CALIBRATION PROCEDURES AND  RESULTS
                E-l
-------
               CALIBRATION PROCEDURES^AND RESULTS



     All of the equipment used was calibrated according to the


procedures outlined in Maintenance, Calibration, and Operation of

Isokinetic Source-Sampling Equipment.*



NOZZLE DIAMETER


     The nozzles were calibrated by making three separate measure-

ments using different inside diameters and calculating the aver-


age.  If a deviation of more than 0.004 inches was found the

nozzle was either discarded or reamed out and remeasured.  A


micrometer was used for measuring.  These calibration data are

shown in Figures E-la through c.



PITOT TUBE CALIBRATION


     The pitot tubes used in sampling were constructed by PEDCo

Environmental and met all requirements of Method 2, Section 4.1

of the Federal Register.**  Therefore, a baseline coefficient of

0.84 was assigned to each pitot tube.  See Figures E-2 and E-3

for alignment requirements of Method 2, and Figures E-4a and b


for actual inspection data of the pitot tubes used during the

test program.
 *
  Office of Air Programs Publication No. APTD-0576.
**
  40 CFR 60, Appendix A, Reference Method 2, July 1981.


                              E-2
-------
Date
Calibrated  by
                                      > A \^I^  / — O? C1-)
r /-T -^ / ^ (,
„, I— ' 1 *-~^
lL-r } - 0 \ ($)
7^1 '/-wdi
/ B --> / ~ / / k}
/ c —j> / — / ? 0^>
D,, in.
. iS-A
. /?6"
..7T
..-?«•
» f?Z-
,/^r
-/^?
D2, in.
, /&/
d I9:T~
,/-7?
tf /^l
.f^
^(9C.
.1-^?
D3, in.
/CX "^
c c_
clg^-
.n-?
c(^
..BO
"fc"1
,1^-3
AD, in.
. 003,
, c-co
,00,
i ^— ^ C^ I
j^N f*-. 7*
t ^^ ^— * ^^
.«ot
.OC 1
. o o
D
avg
. / 2 c
. l?0
*m
.12
. / ?
• ' ^
. /Z-
where:
D. - - = nozzle diameter measured on a different diameter, in.
if 'J' Tolerance = measure within 0.001 in.
AD = maximum difference in any two measurements, in.
           Tolerance = 0.004  in.
    avg
= average  of D,, D_
                               and
                Figure E-la.  Nozzle calibration data.
                             E-3
-------
Date f//^0/6fO /t^j&rt fcV^T
/ ~
Nozzle
identification
number
3B - Z -10
3A- Z -ii
""""
D,, in.
:«
• ^c-/
.»
D2, in.
.«.o
.z^^
^ZoO
D3, in.
'.«,
.«=•
*
AD, in.
t OcD 1
»•

avg
, ^^- 1
.Z2.Z.
.z^c
where:
AD =
          nozzle  diameter measured on a different diameter,  in,
          Tolerance  =  measure within 0.001 in.

          maximum difference in any two measurements,  in.
          Tolerance  =  0.004 in.
    avg
        = average  of  D,,  D-,  and
               Figure  E-lb.   Nozzle calibration data.
                           E-4
-------
Date
                              Calibrated by (T • /4 
-------
                 TRANSVERSE
                  TUBE  AXIS
                           \
                                     FACE
                                *~ OPENING"
                                    PLANES

                                 (a)  ENDVIEW
LONGITUDINAL
 TUBE AXIS Q
       A-SIDE PLANE

	i	
                                                           NOTE:
0.48 cm < Dt  <  0.95  cm
(3/16 in.) l    (3/8  in.)
                                      T
                                                           1.05  Dt  <  P  <  1.50  Dt
                                                                PA=PB
                                 B-SIDE PLANE

                                (b)
                                  A or B
                                   (c)
  Figure  E-2.   Properly constructed Type S pitot tube, shown in:  (a) end view,
  face  opening  planes  perpendicular to transverse axis;  (b) top view; face open-
  ing planes  parallel  to longitudinal axis;  (c) side view; both legs of equal
  length  and  centerlines coincident, when viewed from both sides.  Baseline
  coefficient values of 0.84 may be assigned to pitot tubes constructed this way.
                                      E-6
-------
                        al/
            TRANSVERSE
             TUBE  AXIS
RSE  i;
"LJ/
                             (a)
LONGITUDINAL
TUBE AXIS
\ B
FLOW i

                 (c)
                                        (e)
                                    (f)
                                                                or -)
                                                           Bl  (+ or -)
Figure E-3.   Types of face-opening misalignment that  can  result from field
use or improper  construction of Type S pitot tubes.   These will not affect
Cp so long as a] and a2 <10°, BI and B2 <5°, z  <0.32  (1/8 in.) and w <0.08
cm (1/32 in.).
                                E-7
-------
Pilot Tube No.
Date
Inspector
' 1 / SJ
al
Degrees
y- *
<10°
a2
Degrees
J^°
<10°
Degrees
^ *
<5°
Degrees
j?^
<5°

Dt
Inches
. _?-^T"
0.185 £ P <0.380
P
Inches
• 9%/
-
1.05 Dt
Inches
-s'^y
-
1.50 Dt
Inches
,±r^-:s
-
V

Degrees
^ *'
-


Degrees
/*
-
P • (Y)
sin VT;
Inches
{lo^
<0.125
P . ((i)
sin vy;
Inches
,0(7
<0. 03125
.. Inches
,(.no
1. 05 Dt 
1.05 Dt 
-------
Pitot Tube No.

al
Degrees
H&
<10°
a2
Degrees
1°
<10°
Degrees
/ ^
<5°
Degrees
yc>
<5°

Dt
Inches
. 3~7~1
0.185 < Pt <0.380
P
Inches
,Q>SO
-
1.05 Dt
Inches
. S^sS"
-
1.50 Dt
Inches
.^c,^-
-

Y
Degrees
~~ 0
-
4>
Degrees
^.O°
-
P • (Y)
sin vr'
Inches
,03V?
<0.125
P • (c)
sin vv;
Inches
f^\ *5 ^_y 5r /
X ^^^ ^^ |T O 1
<0. 03125
Inches
. ^7 Co
1. 05 Df 
-------
DRY GAS METER AND ORIFICE METER



     Figure E-5 was the set-up used for the initial and post-test



calibration.  A wet test meter with a 2-cubic-feet-per-minute



capacity and + 1 percent accuracy was used.  The pump was run for



approximately 15 minutes at an orifice manometer setting of 0.5



inch of water to heat up the pump and wet the interior surface of



the wet test meter.  The information on Figure E-6  (example



calculation sheet) was gathered for the initial calibration arid



then, the ratio of accuracy of the wet test meter to the dry test




meter, and the AH@ were calculated.






POST-TEST METER CALIBRATION CHECK



     A post-test meter calibration check was made on the meter




box used during the test to check its accuracy against its last



calibration check.  This post-test calibration must be within +5



percent of  the initial calibration.  The  initial calibration was



performed as described in APTD-0576.  The post-test calibration



was performed using the  same method as the  initial  calibration.



Three  calibration  runs were made using the  average  orifice



setting obtained  during  each test run and with the  vacuum  set at



the average value  obtained during each test run.  After  running



the post-test  calibration check  all three runs were within the  +5




percent range  allowed  by the Federal  Register.*



      The  initial  and post-test meter  box  calibration  data  are




presented in  Figures E-7a  through  h.
 *40 CFR 60,  Appendix A,  Reference Method 2,  July 1981.
                              E-10
-------
                                     /'CLASS TUBE
                                    I  THERMOMETER
                                      N
                              UMBILICAL^
                                        I
     METER  BOX v^	_
      _   f
    -^PRESSURE
        CONTROL
        VALVE
                                                              U - TUBE
                                                             MANOMETER
MET TEST METER
                    Figure  E-5.  Calibration  setup.
DATE
                                       METER BOX NO.
BAROMETRIC PRESSURES.
in. Hq.
                                       DRY GAS METER NO.
Orifice
Manometer
•etting
6H
in. HjO
0.5
1.0
1.5
2.0
3.0
4.0
Ca* volume
wet te»t
•eter
V
ft3
5
5
10
10
10
10
Gas volume
dry gac
•eter
V
"3











Wet te»t Dry qa« Meter
•eter
V
•T











Inlet
'di'
•r











outlet
*dn'
•T











Average
V
•r






Ti»e
6,
•in






Y






AH*






                                                             Average.

AH

0.5
1.0
1.5
2.0
3.0
4.0

AH
lit

0.0366
0.0737
0.110
0.147
0.221
0.2»4
T
vw ph (td 4 400>
vd ""b * nri' (t- * "0)






»H*
0.0317 4B [ "w* 460) 812
Pb (t,, * 460) [ V- J






    V • Ratio of accuracy of wet te»t Meter to dry Met Meter.  Tolerance • * 0.01
  »•* • Orifice of preaaure differential that give* 0.75 etm of air at 70T and 29.92  inchea of
       Mercury, In Hj).  Tolerance • »0.15.
                     Figure E-6.   Calibration  data sheet.
                                 E-ll
-------
DATE:
CALIBRATOR:
                                    METER BOX NO. 	

                                    BAROMETRIC PRESSURE (PJ   2 %
                                                         D    r^
                                                                                     1n.  Hg
Leak Checks:

     Positive (minimum 5 in. HjO): __^___^
     Negative (within 3 in. Hg of absolute):
    *Not to exceed  0.005 cfn.
                                                       cfm*
                                                               27.0
                                                             1n. Hg
Orifice
manometer
setting
  AH
1n
 Volume
wet test
  meter
   ft
                    Volume
                   dry gas
                     meter
                      ft
       Temperatures
Wet test
 meter
  °F
   Dry gas meter
Inlet
Outlet

  To
  °F
                                         Average
                                           Td
Duration
   of
  test
    9
   min
Vacuum
setting
  1n
  Hg
                                                                                  In H20
  0.5
                              '.  -
                                 .Z2.
  1.0
                       . Yoc
                                            7JT
                                                                         f.17
  1.5
                     £. Soo
                  •7 /.  -
                            y.5-
                                                                                   2.07-
  2.0
                                             76
  3.0
                                           76
                 2*S-
                                            -71*
  4.0
                                                   £7.0
y must not deviate by more than +0.02 Y-
AHI? must  not deviate by more than 0.15  1n H20.
                                                       Average
                                                                   AHP
AH
                            )(T  + 460)
       (   Vd   )(Pb + AH/13. 6) (Tw + 460)
    ¥
                                                   (0.0317)(  AH    )

                                                   (  Pb  )(Td + 460)
                                                            (T
0.5
1.0
                  2.°,. 650
l.i
       (jo.ooo M £<). £30
                                                }(  s.f
                                                                 *U
                                                                        J=!
J.O
3.0
                  21.
4.0
                                                                            f ooo   \.
    Figure  E-7a.   Particulate sampling meter  box  initial  calibration.
                                            E-12
-------
 DATE:  /ZA/'?'2-
 BAROMETRIC  PRESSURE  (Pbflr):
 PLANT:

 PROJECT
                                 METER BOX  NO.

                           H9    PRETEST Y:  /
                                 PROJECT NO. __
                                 CALIBRATOR:
                                                              - 3
                                                              AHG»:
 Orifice
 manometer
 setting
   *
   AH
 in. H20
          Wet test
           meter
          vol ume
           ft
        Dry gas
         meter
        volume
         Vd

         ft3
Wet test
 meter
   w
Temperatures
     Dry gas  meter
 ^Inlet
  Tdi
Outle
Tdi

°F
                                                Averag
                                                  ""d
              Vacuum
              setting
**
                                                        in.  Hg
Duration
 of run

  0

 min
                                                                Y
                                             AHP
                            7Y
                                   XL
                                           la
   l-o
           /C9
                 ?y
                                                         10
t(*   3®.
                            7V
             13.?;
                                                         i©
                                            Post-test average***
     w
(    Vd    )(Phar+AH/13.6)(Tw+460)
                                       (0.0317)(  AH  )
                                                   460)
                                                         (Tw+460)(
                                                                 //.97
                               7S)
                                                3.0

  *To be the  average AH used during the test series.
 **To be the  highest vacuum used during the test series.
***Post-test  Y must be within the range, pre-test Y +0.05Y
   Post-test  AH@ must be within the range, pre-test AH@ +0.15
        Figure E-7b.  Particulate sampling meter box post-test  calibration.
                                    E-13
-------
DATE: 	

CALIBRATOR:
Leak Checks:

    Positive (minimum 5 in. HjO):
    Negative (within 3 in. Hg of absolute):
   *Not to exceed 0.001 cfm.
                                             METER BOX NO.
                                                                        - y
                                             BAROMETRIC PRESSURE (Pb)
                                                     cfm*
                                                                j2	InTHg
                                                                                  In. Hg
Orifice
manometer
setting
AH
1n H20
0.5
1.0
1.5
2.0
3.0
4.0
Volume
wet test
meter
\
ft3
,y oOO
11.00°
l3,OL>0
ft, DOt>
!$. 0° °
I^,oo0
Volume
dry gas
meter
Vd
ft3
(2. TOO
ii. y/r
tf.Ze*
il. 0**
2T.9co
z&.ttz.
n. oos
24. 7*0
9S, too
a. tio
sir. £»Y
fff. 3=>W
Temperatures
Wet test
meter
\
•F
7f. 0
T.o
7 1,0
7<.o
ir.o
It.o
~)i.O
•)t..C
7/. o
-)f 0
It. 0
7(.o
Dry gas meter
Inlet
T1
•F
Kfe
M«
£*
BB
»&
38
38
es
&7
«7
$f
61
Outlet
'To
•F
7ri
77
7^
7B
?a
78
•>7
?y
•)(,
77
74
7*"
Average
Td
•F
52. S
650
83 o
S2.£
&/.S
g/.3
Duration
Of
test
0
•tin
5T«
^3^f
;?5'/
n AC
*•%
#&]
v*Z
Vacuum
setting
in
Hg
/o.O
K.O
1.$-
10,0
(O.O
tf.G
Y must not deviate by more than +0.02 Y. Average
AH@ must not deviate by more than 0.15 in H-0.
Y
l.o fi
l.rtff
(.o&
i.c?7
t>*&
1.0-33
Abi7
AHP
In H20
i.az
\.7B
/.89
l.fo
i.ir
/.&t
;,y?
                                                                 AHI?
AH
                           )(T  + 460)
       (   Vd   }(Pb + AH/13. 6)(TW + 460)
                                                  (0.0317)(  AH    )
                                                                           460)(0
0.5
                                                                             •;SQO)
1.0
       ( .'2. 780 H 2 9. 72V
                                                           /,o
                                                                   L{   n.
1.5
2.0
                  « /7H
                                                                   Lf
4.0
               u  ^
                                                      )L
    Figure E-7c.  Particulate  sampling meter box initial calibration
                                         E-14
-------
DATE:
BAROMETRIC'PRESSURE  (PKar)= g?.??1n. Hg

PLANT:
METER BOX NO.

PRETEST Y:
PROJECT NO.
PRn.iFfT MANAGER: y f^tfA^A CALIBRATOR: V^ A*3TeS S^G^R.
Orifice
manometer
setting
*
AH
in. H20
3.o

3- o
Wet test
meter
volume
Vw
ft3
z.
V
10
Dry gas
meter
volume
Vd
ft3
^^
p6Z-(S£
$6£,'.5o
57/ £3^
57X.92&
5?! .72^
Temperatures
Met test
meter
Tw
°f
-ti.sr
7V^
7V.5
7-/-S
?yr
•W-s1
Dry qas meter
Inlet
Tdi
°F
7?
?^
^r
2s
^5
*1
Outlet
Tdi
°F
-7C/
7L
7(?
77
77
7^
Average
°F
77.^
Sb
^?r
Vacuum
setting
in. Hg
,0
(0
10
Duration
of run
min
17 7Z.

•0^
Post-test average***
Y


(tOZ,~l
/
-------
DATE:
CALIBRATOR:
             v/f&t-
                                             METER BOX NO.
                                   BAROMETRIC PRESSURE (?b)
Leak Checks:

     Positive (minimum 5 1n. HjO):         _
     Negative (within 3 in. Hg of absolute): //
    *Not to exceed 0.005 cfm.
                                           crm*
                                                  InTHg
                                                                                  1n.  Hg
Orifice
nanometer
setting

  AH

In H20
 Volume
wet  test
  meter
   ft
 Volume
dry gas
  meter

 •  Vd

   ft3
       Temperatures
Wet  test
 meter
   Dry gas meter
Inlet

 T1

 •F
*
                                  tlet
                                  To
                      Average
                        Td
Duration
  of
  test
   9
  min
Vacuum
setting
  1n
  Hg
                                                                     in H20
  0.5
                                 Si
  1.0
                                                                  /o.o
  1.5
 /o.
                             Jo.Z
                                 •53
                                                                  /o
                                                              ff1
  2.0
                       536
                                       fo.o
  3.0
                                                               ,««**
  4.0
                                . 6
                              lc.6
t must not deviate by more than +0.02 >.
AMI? must not deviate by more than" 0.15 In H.O.
                                                     Average
AH
                           )(T + 460)
      (   Vd   )(Pb + AH/13. 6)(Tw + 460)
                                       (0.0317)(  AH    )

                                       (  Pk  )(T. + 460)
                                                              riT
0.5
1.0
               H
      (-5.
             / ?
1.5
       ( /f .0  )(  ,27, /O
2.0
                                                 11*1
3.0
4.0
               M
     Figure  E-7e.   Participate  sampling meter box initial calibration.
                                       E-16
-------
DATE:
                                             METER BOX NO.
 BAROMETRIC PRESSURE (P^'.&MV In. Hg    PRETEST Y:  ,9??  AH(J»:   /

 PLANT: J^PO "Pnt^g^ /&£*SAxrrs »S^      PROJECT NO.
 PROJECT MANAGER: CS~.
                                           CALIBRATOR:  £. A^J^^S^SQ^^
  *To be the average AH used during the test series.
 **To be the highest vacuum used during the test series
***Post-test Y must be within the range, pre-test v +0 05y
   Post-test AH0 must be within the range,  pre-test AH@ +0.15
       Figure E-7f.   Particulate  sampling meter box post-Test calibration
                                      E-17
-------
DATE:
CAL I BRATOR:
                    '62-
                  ..*- A
                  METER BOX NO.        pft - g

                  BAROMETRIC PRESSURE (Pfc)   2 ?.
                                                                 1n. Hg
Leak Checks:

     Positive (minimum 5 In.  H20): ^_^__^	
     Negative (within 3 in. Hg of absolute):  £.
    *Not to exceed 0.005 cfm.
                                   cfm«
                                                                       in,  Hg
Orifice
manometer
setting
  AH
1n
           Volume
          wet test
            meter
             ft
 Volume
dry gas
  meter

   Vd

   ft3
       Temperatures
Wet test
 meter
   Dry gas meter
Inlet

 T1

 •F
*
tlet

To.
                                                   Average
                                                     Td
Duration
   of
  test
    f
   min
Vacuum
setting
  1n
  Hg
                                                                                   AHP
                                                                                  in
  0.5
                             70. 3
                                     7 y
                             70,3
                                     76
  1.0
                   802.130
                                                                   /e.O
  1.5
                            •70
                                                  77^
  2.0
                             70,3
                                           7Y
                                                  77^
                                                                   //.o
  3.0
          11, ooo
                                    SL
                                           ?y
                                           76
  4.0
          It-
                            70-3
                                           76
•y roust  not deviate by more than +0.02 Y.
AH@ must not deviate by more than 0.15 in
                                                                 Average
                                                                   AHI?
AH
                            )(T  + 460)
       (   Vd   )(Pb + AH/13. 6)(Tw + 460)
                                (0.0317)(   AH    )

                                (  Pb  )(Td + 460)
                                                                          +  460) (P
0.5
                    >. /77
                                                    ?.P3/^(  O.f)
                                                    I'i.'Wd(si?. £  )
1.0
              JL
                                                             /.C
                                                                     ( -0:', 3 ) ULQ-10
                                                                    J.
1.5
                                                                    J_
2.0
                                                       yt/^ ( 5^7.
3.0
       (II,
4.0
     Figure E-7g.    Participate  sampling  meter box  initial calibration.
                                            E-18
-------
 DATE:
BAROMETRIC PRESSURE (Pbar):

PLANT:
.  Hg
 PROJECT MANAGER :STT»gt>HASicr A
METER BOX NO.'

PRETEST Y:
PROJECT NO.

CALIBRATOR:
                        Ffc-8.
                                                                AHs,.^
7^^"
7,7/
Post-test average***
^•«iB^Ha«K«B^^
^—^••••^^••1^
Y
(fO02_
.QQ^
•09^
/,<300
=-'
AH(3
A9Z
^/9zr
A9l
A 92.
                                         (0.0317)(  AH   )
          )(Pbar* *H/13;6)(TM+460)
  *To be the average AH used during the test series.            ^
  *To be the highest vacuum used during the test series
***Post-test Y must be within the range, pre-test Y +0 05Y
   Post-test AH& must be within the range, pre-test AH@ +0.15   _c
          Figure E-7h.  Particulate sampling meter box po"st-test call
                                        E-19
-------
THERMOCOUPLES



     Thermocouples were calibrated by comparison against an



ASTM-2F thermometer at approximately 32°F, ambient temperature,



100°F, and 500°F.  The thermocouples read within 1.5 percent of



the reference thermometer throughout the entire range when ex-



pressed in degrees Rankine.  If a thermocouple did not read



within 1.5 percent, a correction formula based on a least squares



analysis of the data was utilized.  The correction formula cor-



rected the data 1.5 percent.  Each thermocouple was checked at



ambient temperature at the test site to verify the calibration.



Calibration data are presented in Figure E-8.






DIGITAL INDICATOR FOR THERMOCOUPLE READOUT



     A digital indicator was calibrated by feeding a series of




millivolt signals to the input, and comparing the indicator



reading with the reading the signal should have generated.  Error



did not exceed 0.5 percent when the temperatures were expressed



in degrees Rankine.  Calibration data are shown in Figures E-9a



and b.






DRY GAS THERMOMETERS



     The dry gas thermometers were calibrated by comparison



against an ASTM-2F thermometer at approximately 32°F, at ambient



temperature, and at approximately 110°F.  The thermometers agreed



within 5°F of the reference thermometer.  The impinger thermom-



eters failed to calibrate  after the test  series.  The greater



deviation was -10°F which  exceeded the tolerance level of -5°F.
                               E-20
-------
Date: jT//jA°
Ambient temperature:
Calibrator
Reference
point
No .
/
2.
i
•f
Thermocouple No. :
~7G ° L Li -i •*•
f \ t D.I r wn1
^?c>/
t. trie: pressure: j?
Reference
thermometer
temperature ,
°P* * *
?$

Thermocouple
temperature, Difference,
Op c * *
77 ^/9
' ^?5" ? 4 - o. 2.C
3
/o^ /° 7
,? ! ft L r
Correction factor****:
5-^y
-r./S,"
-6.-?y
Slope: 0- *<•' Vr" Intercept: 3. oO
Reference
point
1
2
?
y
Reference
thermometer
temperature,
°F
7/
3f
l&i
110
Corrected
thermocouple
temperature, Difference,
76 0-J7
f^c -/,*/
/«4 C.7/
V"7 / - C. / /
Critical test points are  32°,  100°,  and 500C.

   *Source:  1) Ice bath
             2) Ambient
             3) Furnace

  **Percent difference
      Reference terp. °F  -  thermocouple temp. °F
             (Reference terap.  °F  4  uoo°r;         x  °°l

        Each percent difference must be less than or equal to  1.5-;

 ***Reference thermometer must be ASTM.

****Correction factor must  be determined if any percent difference
    is >1.5%.
           Figure E-8.  Thermocouple calibration  data sheet.

                                E-21
-------
Date
Wl'. A
Indicator Ho. if'/Z.*/-       Operal
Test Point
No.
0
1
2
3
4
Millivolt
signal*
**




Equivalent
temperature,
°F*
?e.
3-Z..O
/ 0^-7
K/.l
/&£o
Digital Indicator
temperature reading,
•F
73.*
3^.6
_/00,l
*feoJ
Jltf.S
Difference,
%
Ml%
O.tt>%
^jn
^ // x
o,/t>?*
Percent difference must be less than or equal to 0.5%.

Percent difference:

  (Equivalent temperature °R- Digital indicator temperature reading
                              (Equivalent temperature °R)
Where *R « °F + 460°F
 *See thermocouple digital indicator calibration verification device calibra
  tion for these values.

**Th1s point 1s ambient temperature.  The device 1s off and therefore is
  supplying no signal other than ambient temperature.

              Figure E-9a.  Thermocouple digital  indicator calibration
                                      data sheet.
                                       E-22
-------
Date
            /%/ (^Indicator  Ho.
Operat
Test Point
No.
0
1
2
3
4
Millivolt
signal*
**




Equivalent
temperature,
°F*
1$
33.°
/32,a-
fclJ
/1 2-^-0
Digital Indicator
temperature reading,
•F
3-4,4
3/.fc
/oo$
4W
/(^.3
Difference,
%
d?. / ^o
0. 0% °1°
O+1^a
O- /37^
-0.0Z*-
Percent difference must be less than or equal  to 0.52.

Percent difference:

  (Equivalent temperature °R- Digital  Indicator temperature reading °R)(100?-)
                              (Equivalent temperature °R)
Where °R « °F * 460°F
 *See thermocouple digital  Indicator calibration verification device calibra-
  tion for these values.

**Th1s point 1s ambient temperature.  The device 1s off and therefore 1s
  supplying no signal  other than ambient temperature.

             Figure E-9b.   Thermocouple digital indicator calibration
                                    data sheet.
                                     2-23
-------
Calibration data are included in Figures E-lOa through d and



E-lla through d.






BALANCE




     The Mettler electronic balance was calibrated by comparison



with Class-S standard weights and agreed within 0.5 g.  Calibra-



tion data are shown in Figure E-12.






BAROMETER




     The field barometer was calibrated to within 0.1 in.Hg of an



NBS-traceable mercury-in-glass barometer before each test series.



The field barometer was checked against the mercury-in-glass



barometer after each test series to determine if it read within



0.2 in.Hg.  If it did not reading within 0.2 in.Hg, a correction



factor was determined.  Calibration data are included in Figure



E-13.






ORSAT ANALYZER



     The orsat analyzer was calibrated before each test series by



determining the percentages of carbon dioxide and oxygen in a



calibration gas containing known percentages of each.  The ana-



lyzer read within 0.5 percent of the known value for each gas.



Calibration data are shown in Figures E-14a and b.
-------
Date:
                                 Meter Box No.:
Calibrator;  13.
                               Reference:    A5T/v? -
  Inlet
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
72.G
12.~?
/^"6. 6
Dry gas
thermometer
temperature ,
•F
72
1^
1/3
Difference,
•F**
A. O
0.7
.2.0
  Outlet
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
7^.o
J?P. 7
//ySo
Dry gas
thermometer
temperature ,
•F
•7/
3o
//JZ-
Difference,
•p**
/. o
5-7
;?.tf
  •Source:   1)  Ice bath
             2)  Ambient
             3)  Water bath

 ••Difference must be less  than or equal to  +5°F.

        Figure E-lOa.  Dry gas thermometer calibration data sheet.
                                E-24
-------
Date:
                                 Meter Box No.:
                                                     £ g - V
Calibrator;  8. Ar,*.
  Inlet
                       **.
                                Reference;
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
•720
?2. 7
1 f7.&
Dry gas
thermometer
temperature ,
•F
72,
^Z
///
Difference,
•p.*
o.o
6,7
3.o
  Outlet
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
~?2.0
12.-)
1(6. o
Dry gas
thermometer
temperature ,
•F
73
T/
//f
Difference,
• p**
/.o
(.3
/.o
   •Source:  1) Ice  bath
             2) Ambient
             3) Hater bath
  ••Difference must be less than  or equal to HK5°F.


             Figure E-lOb.  Dry gas thermometer calibration  data sheet,
                                   E-25
-------
Date:
Calibrator;  8.  A'<-^s T
  Inlet
  Meter Box No.:


Reference;   Asr/* -2.
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
•72. o
72.7
/ 08.0
Dry gas
thermometer
temperature ,
•T
-?&
*
-------
Date:
                                 Meter Box  No.:
Calibrator


  Inlet
->   .'z •*
                                Reference :   A s r/* -
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
36
73
/OS
Dry gas
thermometer
temperature ,
•F
3&
?-/
/c?Sr
Difference,
•F**
2.
/
&
  Outlet
Reference
point
No.
1
2
3
Source *
2
1
3
Reference
thermometer
temperature ,
•F
3(,
73

Dry gas
thermometer
temperature ,
•F
33
7*
/<*"
Difference,
•F**
3
,
3
   •Source:  1) Ice bath
             2) Ambient
             3) Water bath

  ••Difference must be less than or  equal to +5*F.

            Figure E-lOd.  Dry gas thermometer calibration data sheet.
                                   E-27
-------
Date:
                                   Thermometer No.:
                                                              '/CK-
Ambient temperature:

Calibrator:  !?  ^^
                        'A.
F Impinger:

  Reference:
                                                         '
NO:
  A
                                                             -
Reference
point
No.
1
2
Source *
2
1
Reference
thermometer
temperature,
°F
7v^
3t-'/-
Thermometer
temperature,
°F
•7^
^'r~
Difference,
op**
-*c^
fc"-'' ^
 *Source:  1)  Ice Bath
           2)  Ambient


**Difference must be less  than +2°F at both points
           Figure E-lla.  Thermometer calibration  data sheet.
                                   E-28
-------
Date:
                                    Thermometer No. :

                                                             g><
Ambient temperature:     "?.: •'
            *""">   f
Calibrator: j .  A.*j~rr V^'f (:•-'•
'F  Impinger:

   Reference:
NOX:

Reference
point
No.
1
2


Source *

2
1

Reference
thermometer
temperature,
°F
-?yc-
•9 / <-- -


Thermometer
temperature,
op
7/c>



Difference,
op**
-^~-

-/ v-
  *Source:   1)   Ice Bath
            2)   Ambient

 **Difference must be less than +2°F at both points
           Figure  E-llb.   Thermometer  calibration  data  sheet.
                                      E-29
-------
Date:   -2	
      _   f  - - j- -
Ambient temperature:
Calibrator:   s d^
    Thermometer No.:
_°F  Impinger:
.v"  Reference:
NOX:
Reference
point
No.
1
2
Source *
2
1
Reference
thermometer
temperature,
°F
-7y^
••? • >." *•-
Thermometer
temperature,
°F
MS?
Z6cr-
Difference,
op**
?P
i o^'p
  *Source:   1)   Ice Bath
            2)   Ambient

 **Difference must be less than +2°F at both points

           Figure E-llc.   Thermometer calibration data sheet.
                                 E-30
-------
Date:
, ^ / /cy re
t temperature:
a tor: '{. AjT,—^
	 Thermometer No.t
~1L~ °F Impinger: Vt ^
"iiZTl^'^ Reference: A.V7 /i
V of C>
NO^: ^'rj
	 x — t-=-i —
^(-3P

Reference
point
No.
1
2

Source *•

2
1
Reference
thermometer
temperature,
°F
7VV
J6l>

Thermometer
temperature,
°F
69V
SU-.C'P

Difference,
op**
vS'r
1 '••'!• •
  *Source:   1)   Ice Bath
            2)   Ambient
 **Difference must be less than +2°F at both points
            Figure E-lld.  Thermometer calibration data  sheet.
                                     E-31
-------
Balance
No.
H-l*





Date
uhlfz





Calibrator
f
J.Q&M





Mass determined for
^9
:'(%>,/





Error
rO-.l





•se-g
CP(?
craZ





Error
fcU





•100"o
/OffC
IMQ.i





Error
ft?y





 Error must not exceed 0.5 grams at each point.



-f
             Figure E-12.  Balance calibration data sheet.
                                      E-32
-------
BAROMETER
NO.
^^
&)

•



PRETEST
                            -/$

                       «***
BAROMETER
READING
So. oo
REFERENCE
BAROMETER
READING
DIFFERENCE*
             0,02-
DATE
CALIBRATOR
POST-TEST
BAROMETER
READING
REFERENCE
BAROMETER
READING
DIFFERENCE**
DATE
CALIBRATOR



































 *Barometer is adjusted so that  difference  does  not exceed  0.05  in.  Hg.
**Barometer is np_t adjusted.   If difference exceed 0.10  in.  Hg,  inform project
  manager imnediately.

                     Figure E-13.  Barometer calibration log.
                                     E-33
-------
  Reference Gas:
      A6A Burdox
      Cylinder No.  112704
      Invoice No. 0382088
      Lab Ref. No.  VII:46-23
Orsat No.:
/t/.'
          Gas (circle one):  02  /C02
                                             co
Calibrator
Date
Value Det.
                                      4.5%
                                                   5.0%
                                 - — .	4
                                	 ._).
                                                    5.5%
                                          •T	
                                               J


                                                             	( —
                                                          -J—
             Figure E-14a.  Orsat calibration  data sheet -
                                         co2.
                                  E-34
-------
  Reference Gas:
                      AGA Burdox
                      Cylinder  No. 112704
                      Invoice No.  0382088
                      Lab Ref.  No. VII:46-23
Orsat No.:
              'L' /
          Gas (circle one):
                                                        CO,   CO
Calibrator
A
                Date
           /
-------
      APPENDIX F




QUALITY ASSURANCE  SUMMARY
           F-l
-------
                        QUALITY ASSURANCE






     The following summary addresses the general steps taken to



insure data quality and accuracy for any given emission test



project.






PROJECT ORGANIZATION AND RESPONSIBILITIES



     The project organization and responsibilities of the project



team are generally defined in the test plan.  Specific responsi-



bilities for this field test are shown in Appendix G, Project



Participants.






QUALITY ASSURANCE OBJECTIVE




     The primary objective of this program is to refine sampling



and analytical techniques of EPA Proposed Method 5B  (or develop a



new method) that will minimize the collection of condensible



sulfate materials in the measurement of particulate emissions



from fossil fuel-fired boilers and to evaluate method precision.



Therefore, all procedures used in the collection and analysis of



emission samples were as outlined in applicable EPA reference



methods, where applicable.  The sample methodology used for this



project (quad train - single point)  has been previously validated



specifically for research and methods development type projects.
                              F-2
-------
Test results were presented in several units to allow for their



comparison with data from other organizations wishing access to



the data summary.






DATA REDUCTION, VALIDATION, AND REPORTING



     Data reduction and reporting provide one of the greatest



potential sources of system error.  To help minimize this source



of error, PEDCo performs most test method calculations by use of



a validated computer program.  In addition, hand calculation on



standard computer cards to allow accurate input of data into the



computer by individuals unfamiliar with testing procedures.  The



data printout is then validated by comparison with the field and



analytical data sheets.  In addition, hand calculation checks



generally are made to validate the computer output.  Other data



validations are made whenever possible.






PERFORMANCE AND SYSTEM AUDITS AND FREQUENCY



     When feasible, PEDCo performs both performance and system



audits.  Three types of performance audits were performed for



this test program.  All dry gas meter systems were audited for



accuracy in the field by the use of a critical orifice.  In



addition, the analytical procedure for sulfur dioxide was audited



for accuracy by the use of audit samples supplied by EPA prior to



sample analysis.  Also, onsite calculations were used to check



the completeness and accuracy of the particulate test data.
                               F-3
-------
SPECIFIC ROUTINE PROCEDURES USED TO ASSESS DATA PRECISION,
ACCURACY, AND COMPLETENESS

     Because the precision of the standard EPA reference methods

used had previously been determined, no further attempt was made

to assess data precision.  These precision results are summarized

in "The EPA Program for the Standardization of Stationary Source

Emission Test Methodology, A Review," EPA-600/4-76-044.  Preci-

sion estimates were calculated for within-run MSB and M5B-P400

samples using standard statistical analysis procedures.  The mean

concentration and standard deviation (with N-l weightings for

sample data) were determined for each group of similar runs.  The

standard deviations were expressed as a percentage of the mean

concentration for comparison purposes (in this form the standard

deviation was called a coefficient of variance).

     Three audit procedures were used to determine accuracy.

Accuracy audit procedures used for the dry gas meter and sulfur

dioxide, analysis are the standardized written procedures used by

the EPA Quality Assurance Division program.  The procedure for

determining data completeness is the same as that for New Source

Performance Standards, as documented in the Code of Federal

Registers 40 CFR 60, Section 60.8.


INTERNAL QUALITY CONTROL CHECKS

     Several internal quality control checks are usually made for

each test.  Normally, most of these checks deal with the field

sampling analysis.  For this test series, control samples for the

sulfur dioxide analytical procedures were analyzed.  Also, filter
                              F-4
-------
 and  reagent blanks were  returned  to  the  laboratory  for  gravi-



 metric analysis.  A quality  control  check  of both the initial  and



 final weighing was thus  provided.  Results of  the control  sample



 checks are included in Section  6.  Blanks were analyzed according



 to procedures used for the M5BW and  1C analytical work.





 CORRECTIVE ACTION




     PEDCo has two methods for  corrective action.   The  first



 involves the use of control  limits,  such as audit sample results,



 control sample results,  and  calibration results.  When  any of



 these limits show that the integrity of the data is questionable



 the  procedure'is repeated, additional data are  collected, or the



 data are rejected.  The  second  method involves  the use  of red



 tags.  Whenever any piece of equipment is suspected of  producing



 unacceptable data, the entire apparatus or malfunctioning con-



 ponent is replaced and a red tag is placed on  the item.   Thar



 piece of equipment is then rejected until its  ability to perform



 its  function correctly is verified by the proper individuals.



 The use of numerous control  limits and the red  tagging  system



 reduces the amount of unacceptable data and provides a  system by



which to track and correct items and procedures that show an



unusally high occurrence of unacceptability.






PREVENTIVE MAINTENANCE PROCEDURES AND SCHEDULES




     PEDCo has  a very comprehensive preventive maintenance pro-



gram.  Many of  the major components of test equipment have pre-



test checklists.   These checklists ensure that all functions are
                           F-5
-------
checked and action is taken to repair or replace any part that



shows probability of malfunction.  The checks are made before




every field test series, however, only the control console  (meter



box) check are recorded.  Even though PEDCo's preventive mainte-



nance program and schedule are not in writing, our commitment of



three full-time experienced persons for the express purpose of



equipr.ert con:.r;r a 3 tion , preparation, calibration, and maintenance



has created a program based on experience and skill that cannot



be matched by a written guideline.






QUALITY ASSURANCE REPORTS TO MANAGEMENT




     The standard quality assurance procedures used in this test



program generated sufficient documentation to indicate the data



quality.  All evidence of the execution of the quality assurance



guidelines is reviewed by management.  In addition, during weekly



meetings of all PEDCo's EMB task managers and project managers,



all aspects of the project are discussed including the quality



assurance of each task.  No written report results from this



meeting because all interested parties are verbally apprised of



the situation during each meeting.



     Two other reports are made to managements, which are not EMB



task related.  PEDCo's emission test and laboratory groups par-



ticipants in all national audits by EPA's Quality Assurance



Division, and PEDCo's quality assurance coordinator, Tom Wagner,



makes several independent checks for management.
                              F-6
-------
            APPENDIX G




PROJECT PARTICIPANTS AND SAMPLE LOG
                G-l
-------
                 TABLE G-l.  FIELD TEST CREW AND RESPONSIBILITIES
    Name
    Title
     Field test assignment
J. Prohaska*


D. Osterhout*



M. Phillips



R. Antesberger*



P. Clarke
Project Manager


   Engineer



   Engineer



  Technician



    Engineer
Coordinate test activity; sample
train setup and disassembly

Site leader; paniculate tests at
outlet stack; meter reader, quad
train assembly and disassembly

Site leader; clean up area; setup
and recover sample trains, orsat
analysis

Setup and recover sample trains;
assist in quad train assembly and
disassembly

Particulate tests; meter reader,
quad train assembly and disassembly
 Denotes site setup crew.
                                   G-2
-------
                          TABLE G-2.   SAMPLE LOG
     Date (1982)
               Activities
    November 22-23



     November 29

November 30-December 1

     December 2
Sample site and equipment setup.   All  initial
measurements were obtained.   Sample recovery
and setup area organized.

Two test runs were performed.

Three test runs per day were performed.

Two test runs were performed.   Packed  equipment
and left site.
                                   G-3
-------
TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
1. REPORT NO. 2. 3. RECIF
EPA-450/3-83-021
4. TITLE AND SUBTITLE 5. REPO
Fvnl iiat inn of7 MrthnH ^R at a foal -firpd Boi 1 £T SPD
6. P t Rr
7. AUTHOR(S) 8. PERF
John Prohaska
9. PERFORMING ORGANIZATION NAME AND ADDRESS 10. PRO
PEDCo Environmental, Inc.
11499 Chester Road, P. U. box 4b!uu 11. CON
Cincinnati, Ohio 45246 - 0100
12. SPONSORING AGENCY NAME AND ADDRESS 13. TYP
Emission Measurement Branch
Emission Standards and Engineering Division IA.SPO
U.S. Environmental Protection Agency
Research Triangle Park, N.C. 27711 EP

'lENT'S ACCESSION NO.
RT DATE
tember 198^
ORMING ORGANIZATION CODE
ORMING ORGANIZATION REPORT NO.
GRAM ELEMENT NO.
TRACT/GRANT NO.
£ OF REPORT AND PERIOD COVERED
NSORING AGENCY CODE
A 200/04
15. SUPPLEMENTARY NOTES
16. ABSTRACT
The report describes the development and evaluation of Method 5B at a coal -fired
boiler. Different sampling and analysis techniques for measuring nonsulfuric acid
particulate were compared and evaluated. Statistical analyses of the results
comparing the precision of the different techniques are presented.
17. KEY WORDS AND DOCUMENT ANALYSIS
a. DESCRIPTORS b. IDENTIFIERS/OPEN ENDI

18. DISTRIBUTION STATEMENT 19. SECURITY CLASS (This
Unclassified
Release unlimited 20. SECURITY CLASS (TMs
Unclassified
ED TERMS c. COS ATI Field/Group

Report) 21 . NO. OF PAGES
477
page) 22. PRICE
EPA Form 2220-1 (Rev. 4-77)    PREVIOUS EDITION is OBSOLETE
-------

              United States
              Environmental Protection
              Agency
             Office of Air Quality
             Planning and Standards
             Research Triangle Park NC 27711
EPA-450/3-83-021
September 1983
              Air
vvEPA
Evaluation
of Method 5B
at a Coal-Fired
Boiler

-------
                               EPA-450/3-83-021
Evaluation of Method 5B
   at a Coal-Fired  Boiler
    U.S. ENVIRONMENTAL PROTECTION AGENCY
        Office of Air, Noise, and Radiation
     Office of Air Quality Planning and Standards
    Research Triangle Park, North Carolina 27711

            September 1983

-------
This report has been reviewed by the Emission Standards and Engineering Division of the Office of Air
Quality Planning and Standards, EPA, and approved for publication. Mention of trade names or commercial
products is not intended to constitute endorsement or recommendation for use. Copies of this report are
available through the Library Services Office (MD-35), U.S. Environmental Protection Agency, Research
Triangle Park, North Carolina 27711; or, for a fee, from the National Technical Information Services, 5285
Port Royal Road, Springfield, Virginia 22161.
                                             ll

-------
                            CONTENTS

                                                            Paqe
Figures                                                       IV
Tables                                                         v
Quality Assurance Element Finder                             vii

1.   Introduction                                            1-1

2.   Source Description                                      2-1

3.   Sampling Plan and Procedures                            3-1

     3.1  Sample location                                    3-1
     3.2  Sample methods                                     3-4
     3.3  Sample analysis                                    3-8

4.   Summary of Test Results                                 4-1

     4.1  Sample data                                        4-1
     4.2  Thermogravimetric analytical results               4-1
     4.3  Water-soluble sulfate analytical results           4-23
     4.4  Method 8 analytical results                        4-25

5.   Discussion of Results                                   5-1

6.   Quality Assurance                                       6-1

7.   References                                              7-1

Appendix A     Computer printouts and example calculations  A-l

Appendix B     Field data                                   B-l

Appendix C     Laboratory data                              C-l

Appendix D     Sampling and analytical procedures           D-l

Appendix E     Calibration procedures and results           E-l

Appendix F     Quality assurance summary                    F-l

Appendix G     Project participants and sample log          (5-1
                                111

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                             FIGURES

Number                                                      Page

 3-1      Four-Train Sampling System Showing Nozzle
            Position                                        3-2

 3-2      Pleasants No. 1 Sampling Site                     3-3

 4-1      Average Filterable Particulate Concentration
            for Similar Sample Types After Condi-
            tioning at Indicated Temperature                4-9

 4-2      Average Relative Percent Weight Loss After
            Conditioning at Indicated Temperatures -
            Ambient Weight Basis                            4-20

 6-la     Audit Report Dry Gas Meter                        6-5

 6-lb     Audit Report Dry Gas Meter                        6-6

 6-lc     Audit Report Dry Gas Meter                        6-7

 6-Id     Audit Report Dry Gas Meter                        6-8

 6-2a     Thermocouple Digital Indicator Audit Data
            Sheet                                           6-9

 6-2b     Thermocouple Digital Indicator Audit Data
            Sheet                                           6-10

 6-3a     On-Site Audit Data Sheet                          6-11

 6-3b     On-Site Audit Data Sheet                          6-12

 6-4      Isokinetic Calculations                           6-13
                               IV

-------
                             TABLES

Number                                                      Paqe
 2-1      Process Data Summary                               2-2

 3-1      Sample Matrix                                      3-5

 3-2      Analytical Matrix                                  3-9

 4-1      Summary of Sample Conditions                       4-2

 4-2      Summary of Thermogravimetric Analytical
            Results                                          4-3

 4-3      Comparison of Filterable Particulate Con-
            centration After Conditioning at Indicated
            Temperatures                                     4-6

 4-4      Statistical Data for Grouped Runs After
            Conditioning at Indicated Temperatures           4-10

 4-5      Summary of Precision Estimates After Condi-
            tioning at Indicated Temperatures                4-12

 4-6      Relative Percent Weight Loss for Filter
            Samples After Conditioning at Indicated
            Temperatures                                     4-14

 4-7      Relative Percent Weight Loss for Probe
            Rinse Samples After Conditioning at Indi-
            cated Temperatures                               4-16

 4-8      Relative Percent Weight Loss for Total
            Filterable Particulate Samples After Con-
            tioning at Indicated Temperatures                4-18

 4-9      Effects of Heat Conditioning Time on Weight
            Loss of Filter Samples                           4-21

 4-10     Additional Weight Loss After Heating to 400°C      4-24

 4-11     Summary of Nonwater-Soluble Sulfate Particu-
            late Results                                     4-25

-------
                        TABLE (continued)

Number                                                      page

 4-12     Water-Soluble Sulfate Detected in Samples
            Heat-Conditioned to 316°C                       4-27

 4-13     Summary of Back-Half Analyses                     4-29

 6-1      Field Equipment Calibration                       6-3

 6-2      Thermogravimetric Reagent Blank Analysis          6-15

 6-3      Audit Report SC»2 Analysis                         6-16

 6-4      S0_ Reagent Blank Analysis                        6-17

 6-5      Nonwater-Soluble Sulfate Particulate Reagent
            Blank Analysis                                  6-18
                                VI

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                QUALITY ASSURANCE ELEMENT FINDER
Title page

Table of contents

Project description

QA objective for measurement of data in
terms of precision, accuracy, completeness,
representativeness, and comparability

Sampling procedures

Sample custody

Calibration procedures and frequency

Analytical procedures

Data reduction, validation, and
reporting

Internal quality control checks and
frequency

Performance and system audits and
frequency

Preventive maintenance procedures and
schedules

Specific routine procedures used to
assess data precision, accuracy, and
completeness of specific measurement
parameters involved

Corrective action

Cuality assurance reports to management
                                                       Location
                                                    Section     Page
               11

      1        1-1



Appendix F    F-2

Appendix D    D-l

Appendix C    C-l

Appendix E    E-l

Appendix D    D-l


Appendix F    F-3


Appendix F    F-4


Appendix F    F-3


Appendix F    F-5




Appendix F    F-3

Appendix F    F-5

Appendix F    F-6

-------
                             SECTION  1



                           INTRODUCTION






     On June  28,  1979, the U.S. Environmental Protection Agency




 (EPA) issued  an advance notice of proposed rulemaking  to develop'



New Source Performance Standards  (NSPS) for fossil-fuel-fired



industrial steam  generators.*  Because these sources can emit



significant amounts of condensible sulfates that are not con-



trollable by  even the best emission  reduction systems, particu-



late emissions measured by Method 5, which is capable  of col-



lecting condensible matter,  could vary widely as a result of fuel




sulfur content or process changes.   EPA decided that condensible



sulfates should not be included in particulate emission standards



or measurements.  Therefore, the-test program undertaken by EPA



to support development of the NSPS had two objectives:  1) to



obtain background emission data, and 2) to evaluate sampling and



analytical parameters designed to minimize collection  of con-



densible sulfate materials from these sources.   Background emis-



sion data have been collected at several coal-fired facilities



and at one oil-fired facility using both proposed Method 5B (to



minimize collection of condensible sulfates)  and Method 5.
  44 FR 37632.
                               1-1

-------
     PEDCo Environmental, Inc., under contract to the Emission


Measurement Branch of the EPA, conducted an atmospheric emission


test program from November 29 through December 2, 1982, at the


Monongahela Power Company (Mono Power) Pleasants Station in
                                                    s

Willow Island, West Virginia.  Testing was performed in the exit


stack of Unit No. 1, a scrubbed 625-MW coal-fired utility boiler,


in an effort to determine the precision of proposed Method 5B and


to evaluate the effect of sampling and analysis parameters on the


collection of condensible sulfates.


     All samples were collected by use of a four-train  (quad)


sample system stationed at a single point in the exit stack.  A


total of 10 quad train tests were performed during the test


series.  Paired trains in the quad system consisted of similar


sample methods to allow within-run data comparisons as well as


comparisons between different sample methods.


     To enable estimation of method precision, most of the sam-


ples were collected at Method 5B sampling conditions [filter and


probe heated to 160°C (320°F)], designated as MSB.


     Other sampling parameter studies have shown generally that


1) a higher sampling temperature can minimize collection of


condensible matter, and 2) even a well designed, constructed, and


operated probe heating system can have cold spots where the gas


temperature is lower than the desired monitored probe tempera-


ture.  Consequently, several of the quad test runs were conducted


with the probe heated to 204°C (4C00F; in an effort to raise the


temperature of any cold spots in the probe to approximately 160°C



                               1-2

-------
 (320°F), the desired filter temperature.  These samples were



designated as M5B-P400.



     Probe rinse and filter sample fractions collected by Methods



5B and  5B-P400 were subjected to a series of thermogravimetric



analyses to assess sample weight loss as a function of heating



temperature between ambient conditions and 316°C  (600°F).



     In addition, several samples  (designated M5BW) were col-



lected  and analyzed by use of a modified version of Texas Air



Control Board (TACB) Method 5W.*  The method incorporates deion-



ized water as the sample recovery solvent and a series of titri-



metric  and gravimetric analyses to measure water-soluble sulfates



and subsequently derive the mass of nonwater-soluble sulfate



particulate (particulate matter that does not include any water-



soluble sulfates).  The method was modified by sampling at 160°C



 (320°F) and measuring the water-soluble sulfates by ion chroma-



tography (1C).  These tests were conducted to determine the



suitability of the method on fossil-fuel-fired steam generators,


                      1 2
since previous studies '  have confirmed the suitability of



Method  5W and the 1C analysis modification for use on fluid



catalytic cracking unit regenerators at petroleum refineries



that also can emit significant amounts of condensible sulfates.



     Ion chromatography was used to check the effectiveness of



sample heat conditioning in the elimination of condensible sul-



fates by analyzing water extracts of heat-conditioned MSB and



M5B-P400 probe rinse and filter samples.
 Texas Air Control Board - Laboratory Division.  Determination of

 Particulate in Stack Gases Containing Sulfur Dioxide.  December

 1979.

                               1-3

-------
     The filterable portion of each  sample train was  followed  by



a modified EPA Method 8 impinger train to allow analysis of



condensible sulfate  [as sulfuric acid  (H-SO.)] that passed



through the particulate filter and sulfur dioxide  (SO  ).  Flue




gas temperature, moisture content, and composition  [oxygen  (0,,)



and carbon dioxide  (CO-)] were measured in conjunction with  the



emission tests.




     Mr. If. A. Ruckle of Mono Power  provided  assistance on site,



and Mr. Gary McAlister, the EPA Task Manager, provided overall



project coordination.




     This report documents the activities and results of the test



program.  Section 2 briefly describes the process and operating



conditions during the sampling periods.  Section 3 describes the



sampling site and the sampling and analytical plan.  Section 4




presents the test results and is followed by  a discussion of



results in Section 5.  Section 6 outlines quality assurance



measures and audit results.  The appendices contain computer



output and example calculations (Appendix A), field data (Appen-



dix B) , analytical data (Appendix C)  , standard sampling and



analytical procedures (Appendix D), calibration procedures and



results (Appendix E), a quality assurance summary  (Appendix F),



and a list of project participants (Appendix G).
                              1-4

-------
                            SECTION 2



                        PROCESS OPERATION






     The source tested in this program is a 625 net MW coal-fired



utility boiler  (designated as Pleasants No. 1) operated by Mono




Power at the plant facility located near Parkersburg, West Vir-



ginia.  The unit is equipped with two parallel electrostatic



precipitators  (ESP's) with a combined total of four fields for



control of particulate matter and a flue gas desulfurization



(FGD) system for control of sulfur dioxide emissions.  Treated



flue gases are exhausted through a 244-m (800-ft) tall stack.




Typical coal burned in the boiler contains 3.5 percent sulfur.



     The FGD consists of four modules, a combination of which are



operated to treat a variable amount of flue gas.  Operators



generally control the quantity of flue gas that is scrubbed by



monitoring the stack temperature.  An increase in gas temperature



is an indication of an increase in stack SO- concentration.



     Process conditions during the sampling periods are sum-



marized in Table 2-1.  Although each quad test was not conducted



at the same boiler load, only Run 2 was conducted when the load



varied by more than ±10 percent over the sampling period.  Opera-



tion of the ESP was considered normal throughout the test program



as no malfunctions were reported.  The S02 scrubber operation was



generally consistent for the first five tests.  During the last






                               2-1

-------
                       TABLE 2-1.   PROCESS  DATA SUMMARY
Run
No.
1
2
3
4
5
6
7
8
9
10
Date
(1982)
11/29
11/29
11/30
11/30
11/30
12/1
12/1
12/1
12/2
12/2
Time,
24-h
1130-1330
1525-1725
1018-1218
1328-1528
1636-1836
941-1141
1242-1442
1545-1810
931-1131
1304-1504
Net load, MW
Range
Steady
360-500
500-575
550-575
Steady
Steady
Steady
Steady
Steady
Steady
Average
500
400b
520C
570d
575
620
620
620
620
620
Stack monitor
SO,, ppm
Range
NRa
420-460
350-450
300-450
Steady
400-450
385-525
400-450
Steady
Steady
Average
NR
440
420
410
450
425
455
425
400
375
ESP
operation
Normal
Normal
Normal
Normal
No rma 1
Normal
Normal
Normal
Normal
Normal
Scrubber
operation
Normal
Normal
Normal
Normal
e
f
f
f
g,h
g,i
 NR = Not recorded.
 Load increased over a 1-hour span  during  test.
£
 Load increased over a i-hour span  during  test.
 Load decreased, then increased  over a  1-hour span  during  test.
g
 Prior to testing,  the scrubber  bypass  was opened from  20  to  35  percent.
 Minor adjustments  being made to scrubber  throughout  the day.
^Scrubber pH meter  broken;  scrubber liquor feed  on  manual  control.
 Stack temperature  was up about  11°C (20°F)  over a  20-minute  period  durinq  the
 test.
 The scrubber liquor feed was interrupted  twice  during  the test  for  about 2
 minutes each time.   This caused the stack pressure to  go  positive and  the  stack
 velocity and temperature to increase.
                                    2-2

-------
five tests, there were periods of minor scrubber adjustments,



manual operation of liquor feed due to a malfunctioning pH meter,



and very brief interruptions of liquor feed.  None of the rela-



tively minor process variations should affect the within-run data



comparisons.
                               2-3

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                             SECTION  3




                    SAMPLING  AND ANALYTICAL  PLAN






     All samples were collected with a  four-train  (quad)  sample



system stationed at a single point in the final  exit  stack.




     This system allows four trains to  sample  simultaneously  at



essentially the same point in the stack  (see Figure 3-1).  The



sample methodology was developed and validated in previous stu-




dies.   The ability of the four trains  to sample simultaneously



at essentially the same point in the stack  reduces the effect of



spatial and temporal variations in the velocity  and particulate



profiles on the sampling results.  It also  permits a  statisti-



cally significant number of  samples to be taken  in a  short time.



Further, because two of the  four trains are identical for every



run, the within-train precision can be determined while the



relationship of the different trains is being compared.



     This four-train sample system was used to perform 10 runs,



for a total of 40 individual samples.






3.1  SAMPLE LOCATION




     Testing took place at the final exit stack,  as depicted in



Figure 3-2.   Six sample ports were located approximately 9.5 duct



diameters downstream and 25 duct diameters upstream from the



nearest flow disturbances.   Only the 25.4-cm (10-in.)  I.D. south-
                               3-1

-------
     8 cm
                         15 cm 	
                        b       NOZZTT

             4 cm
                 0.5 cm
                                      NOZZLE
                                          T
                                            .THERMOCOUPLE
            3-
             2 cm
     4 cm
2 cm
3 cm
                                               1.4 cm
                        S" TYPE PITOT TUBE
                                          1
                  4 cm
Figure 3-1.   Four-train sampling system showing nozzle position.
                           3-2

-------
               244 m
               (800 ft)
               ABOVE GRADE
to
I
U)
91 m
(300 ft)
ABOVE GRADE -
                       -58 m
                        (190 ft)
             GAS FLOW FROM
            FGD ENTERS FROM
            OPPOSITE  SIDES
                                                   TWO 25.4 cm (10 in.)
                                                   I.D.  PORTS 180° APART
                                                           SAMPLE
                                                           PORT
                                                ACCESS
                                                DOOR
                                               OUTSIDE
                                               ELEVATOR
                                                                        FOUR  16.5  cm (6.5 in.)
                                                                        I.D.  PORTS 90°  APART
                                                                                       S02 AND 02
                                                                                       MONITORS
                                                                                       180° APART
 6.1  m
(20 ft)
  I.D.
 STACK
                                                                                                      ELEVATOR
                                                                                                ACCESS  DOOR
                                                                                                     PLATFORM GRATING
                                                                                                     4.6 m (15 ft) WIDE
                                                                                     LADDER
                                                                                     ACCESS
                                                                   CROSS SECTION
                                                                    AT SAMPLING
                                                                      LOCATION
                                             Figure 3-2.   Pleasants No.  1  sampling site.

-------
west port was used in this study.  All port nipples were 31.8 cm

 (12.5 in.) long.


3.2  SAMPLE METHODS

     The four trains collected flue gas samples simultaneously

from a single point in the stack.  The nozzles of the four-train

assembly  (Figure 3-1) were positioned 66 cm (26 in.) from the

stack wall for the first test and, after removing a barrier, 81

cm (32 in.) from the stack wall for each subsequent test.  The

desired sample time was 120 minutes, and readings of stack flue

gas and sampling train data were recorded at 10-minute intervals

for each train.  A single pitot tube and thermocouple located in

the four-train nozzle arrangement was used to set isokinetic

sample rates for each train.   Sample rates were determined by use

of  programmable calculators.   Prior to sampling, the velocity and

temperature profile of the general sampling area was established

to  ensure that all four nozzles could be positioned at points of

equal velocity to minimize spatial variations in emissions.

     Table 3-1 presents the sample matrix performed during this

test series.   The particular  conditions for each train are de-

scribed briefly below:

     °    Method 5B - Designation MSB

          Filterable particulate was collected by use of a probe
          and filter assembly heated to 160°C (320°F).   Acetone
          wa? used to rinse all sample train components prior to
          the filter.
                              3-4

-------
                           TABLE  3-1.  SAMPLE MATRIX

Run
No.
1



2



3



4



5



6




Sample
Train No.
1A
IB
1C
ID
2A
2B
2C
2D
3A
3B
3C
3D
4A
4B
4C
4D
5A
5B
5C
5D
6A
6B
6C
6D
Sample method3
M5B
160°C (320°F)
X
X




X
X


X
X
X
X


X
X
X
X
X
X


M5B-P400
160°-204°C (320°-400°F)




X
X








X
X





M5BW
160°C (320°F)


X
X




X
X












X

X
(continued)
                                    3-5

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TABLE 3-1 (continued)

Run
No.
7



8



9



10




Sample
Train No.
7A
7B
7C
7D
8A
8B
8C
8D
9A
9B
9C
9D
10A
10B
IOC
10D
Sample method3
M5B
160°C (320°F)


X
X


X
X
X
X


X
X
X
X
M5B-P400
160°-204°C (320°-400°F)
X.
X








X
X




M5BW
160°C (320°F)




X
X










 MSB  -  Probe  and  filter  heated  to  160°C  (320°F).
 M5B-P400  -  Probe heated to  204°C; filter heated to 160°C.
 M5BW - Probe and filter heated  to 160°C; water rinse of nozzle, probe, and
 front  filter holder  glassware.
                                     3-6

-------
     0    Modified Method 5B - Designation M5B-P400

          Filterable particulate was collected by use of a probe
          heated to 204°C (400°F) and a filter assembly heated to
          160°C  (320°F).  Acetone was used to rinse all sample
          train components prior to the filter.

     0    Method 5BW - Designation M5BW

          Filterable particulate was collected by use of a probe
          and filter assembly heated to 160°C  (320°F).  Deion-
          ized, distilled water was used to rinse all sample
          train components prior to the filter.

     The purpose of heating the probe to 204°C while keeping the

filter at 160°C was an effort to raise the temperature of any

cold spots in the probe to 160°C, thus minimizing the quantity of

condensible sulfates collected.

     For each train, the probe and filter temperatures were set

at the predetermined level and monitored throughout each test by

the use of multiterminal digital indicators with the thermocou-

ples located in the middle of each probe and immediately behind

the Method 5 filter frits.

     The back half of each sample train represented a modified

Method 8 with five impingers.  An unheated Method 5 filter as-

sembly was inserted between  the second and third impingers to

preclude any sulfuric acid mist carryover.   The contents of each

impinger are listed below:

          Impinger                 Contents - All Runs

             1                     Empty
             2                     200 ml  80% IPA
             3                     100 ml  10% H202
             4                     100 ml  10% H202
             5                     400 grams silica gel
                              3-7

-------
     All the filters were Whatman RA 934AH.  The filters used in


the Method 5 position were heated to 300°C prior to identifica-

tion and tare weighing.


     The flue gas moisture content of each sample train was

determined gravimetrically by weighing each impinger before and


after every test.  In addition, a flue gas grab sample collected

during each test was analyzed for oxygen  (0 ), and carbon dioxide


(C02) by use of an Orsat analyzer, as described in Method 3* of

the Federal Register.



3.3  SAMPLE ANALYSIS


     Table 3-2 presents the analytical matrix followed for this

test program.


Thermogravimetric Analysis


     Initially, the filter particulate catch was placed in a

tared glass weighing dish, desiccated for 24 hours, and weighed

to a constant weight.**  The probe rinse fraction was transferred

to a tared beaker, allowed to evaporate to dryness at ambient

temperature and pressure, desiccated for 24 hours, and weighed to

a  constant weight.


     After this initial gravimetric analysis at ambient condi-

tions,  probe rinse and filter fractions were subjected to the


sequence of heat treatments outlined in Table 3-2.  The samples
 *
  40 CFR 60, Appendix A, Reference Method 3, July 1, 1981.
* *
  Criteria as specified in 40 CFR 60, Appendix A, Reference
  Method 5, July 1, 1981.
                               3-8

-------
                        TABLE 3-2.  ANALYTICAL MATRIX



Run
Mo.
1



2



3



4



5



6





Sample
Train No.
1A
IB
1C
ID
2A
2B
2C
2D
3A
3B
3C
3D
c
4B°
4CC
4D
5AC
5BC
5CC
5D
6A
6B
6C
| 6D



Sample
method
MSB
MSB
M5BW
M5BW
M5B-P400
M5B-P400
MSB
MSB
M5BW
M5BW
MSB
MSB
MSB
MSB
M5B-P400
M5B-P400
MSB
MSB
MSB
MSB
MSB
MSB
M5BW
M5BU
Thermogravimetric
conditioning3
Ambient ->-
160° -»• 232°
+ 316°C
X
X


X (24)
X
X (24)
X








X
X (24)


X
X


Ambient -»•
232° +
316°C












X

X



X
X (24)





Ambient
H. 316°C










X
X (24)

X

X










Water
soluble sulfate
determination
X
X
X
X
X
X
X
X
X
X
X
X


X

X



X
X
X
X
(continued)
                                    3-9

-------
TABLE 3-2 (continued)


Run
No.
7



8



9




10





• Sample
Train No.
?AC
7BC
7C
7D
8A
8B
8C
8D
9AC
9B
9CC
9DC
c
lOAr
10B
10C_
100


Sample
method
M5B-P400
M5B-P400
MSB
MSB
M5BW
M5BW
MSB
MSB
MSB
MSB
M5B-P400
M5B-P400

MSB
MSB
MSB
MSB
Thermogravimetric
conditioning3
Ambient -»•
160° + 232°
-». 316°C
X
X (24)
X
X (24)


X (24)
X (24)





X (24)
X


Ambient -»•
232° -»•
316°C









X (24)

X (24)



X (24)
X

Ambient
-*• 316°C








X (24)

X (24)







Water
soluble sulfate
determination



X
X
X
X
X

X





X

 Thermogravimetric conditioning of probe rinse  and  filter  fractions at  indi-
 cated temperatures after initial  desiccation and ambient  weights were  ob-
 tained.   The designation (24)  for selected  samples  indicates  a  heat  period of
 24 hours.   All  other samples were heat-conditioned  for  6  hours.

 In this  procedure, the mass of total  water  soluble  sulfates  in  the sample
 was determined  and subtracted  from the  total sample mass.

cThese samples subsequently were heated  to 400°C for two 6 hour  periods.

Note:   All  back  halves represent a modified  Method  8,  with analysis for
       sulfates  as sulfuric acid and sulfur  dioxide.
                                      3-lo

-------
were heated in an oven at the specified temperature for either 6

or 24 hours as indicated.  Each sample fraction was cooled and

desiccated for 24 hours after removal from the oven and then

weighed to the nearest 0.1 mg.

     Prior to advancing to the next step of an analytical se-

quence, a heat treatment was repeated at the same time and tem-

perature condition until a stable weight was obtained.  For this

study, a stable weight was defined as a difference of no more

than 5.0 mg or 10 percent of the net sample weight, whichever was

greater, between successive treatments at the same conditions.

The number of treatments required to achieve a stable weight was

recorded for each sample fraction up to a maximum of three treat-

ments.  The average weight of the last two treatments was re-

ported as the weight for that temperature condition.  Filter and

acetone blanks were treated in a similar manner as the actual

samples.

Water-Soluble Sulfate Analysis

Sample Preparation—

     Each sample fraction, including blanks, was handled and

analyzed as follows:

     Filter •- The filter was cut into small pieces and placed in
     a 125-ml Erlenmeyer flask with a standard taper joint
     equipped with an air condenser.  The shipping container was
     rinsed into the flask.   About 50 ml of distilled water was
     added and gently refluxed for G to 8 hours.  The solution
     was then cooled and diluted to exactly 250 ml with water in
     a volumetric flask.   This was reserved for total soluble
     sulfate analysis,  which is described below.
                              3-11

-------
     Probe Rinse - The probe wash was poured into a  250-ml volu-
     metric flask.  The sample bottle was rinsed with distilled
     water and the rinsings were added to the flask.  The solu-
     tion was then diluted to the mark with distilled water  (or,
     if greater than 250 ml, the volume was measured).  This
     solution was reserved for total soluble sulfate analysis,
     which is described below.

Total Soluble Sulfate Analysis—

     A 15-ml aliquot* was drawn from the settled samples  (filter

and rinse) into separate sample containers with a clean, dry

pipet (only solution was transferred, no solids; if necessary, a

portion of the sample was centrifuged).  The sulfate ion  (S0. = )

concentration in each aliquot was determined by ion chromato-

graphy (1C).   A syringe was used to inject 1 ml of the aliquot

into the 100-yl sample loop of the 1C,  thereby flushing the loop

with sample.   The conductivity response of the sample was

compared with the calibration curve to obtain SO = concentration

in mg/liter.   Dilutions were prepared and reanalyzed if the

initial  response was out of the linear calibration range  (i.e.,

greater  than  15 mg/liter).   Blank filter and water samples were

prepared and  analyzed in the same manner as the actual samples.

Mass Determination—

     Filter and Rinse Solution Preparation - The remaining con-
     tents of each volumetric flask (235 ml)  were poured into
     separate tared 250-ml  beakers and  the flask was rinsed with
     distilled water to transfer all particulate matter.   The
     filter solution was in Beaker A and the rinse solution was
     in  Beaker E.   This solution was evaporated to approximately
     100  ml at 105°C and allowed to cool before proceeding with
     the  next analysis.
 The pipet is not rinsed.   This is a deviation from normal pro-
 cedures,  but is necessary because the volume removed from the
 volumetric flask is required in the calculations.
                              3-12

-------
     Filter and Rinse Solution Analysis - Five drops of phenol-
     phthalein indicator were added to all the tared beakers.
     Concentrated NH.OH was then added drop by drop until the
     solution turned pink.  The samples were returned to the oven
     and evaporated to dryness at 105°C, then cooled in a desic-
     cator and weighed to a constant weight.  Results were re-
     ported to the nearest 0.1 mg.  For this method, "constant
     weight" means a difference of no more than 0.5 mg or 1
     percent of the total weight less beaker and/or filter tare,
     whichever is greater, between two consecutive weighings,
     with no less than 6 hours of desiccation time between weigh-
     ings.

Calculations--

     Nomenclature--

          FP = weight of particulate* on the filter in Beaker A,
               mg

         PRP = weight of probe rinse particulate* in Beaker B,
               mg

       NWSSP = weight of nonwater-soluble sulfate particulate**,
               mg

         ASf = weight of ammonium sulfate in filter sample, mg

        AS   = weight of AS in probe rinse sample, mg

       V     = volume of solution evaporated in Beaker A (filter)
           p   or Beaker B (probe rinse), ml

        C _  = concentration of sulfate in filter or probe rinse
           4   solution aliquots, mg/liter

     Equations—

      FP(mg)  = gross weight Beaker A - tare weight          Eq.  1
               Beaker A - filter tare weight

     PRP (rag)  = Gross weight Beaker B - tare weight          Eq.  2
               Beaker B

      AS(mg)  = Cc.  (mg/liter)  x V     (ml)  x llter—       Eq.  3
                S°4               evaP        1000 ml

               x 1.376 (mg AS -)
                        mg S04
  Particulate  with  H2S04  converted  to
  Particulate  excluding water-soluble  sulfates.

                               3-13

-------
Mass of Nonwater-Soluble Sulfate Particulate



     The sum of the particulate* collected on the filter  (FP) and



the particulate* collected in the probe rinse  (PRP) is equal to



the sum of nonwater-soluble sulfate particulate  (NWSSP) and



ammonium sulfate (AS) in both samples:





          FP + PRP = NWSSP -I- AS, + AS                       Ea   4
                               f     pr                      4*


     The NWSSP can be found by rearranging the equation and



substituting appropriate values determined using Equations 1, 2,


and 3.





          NWSSP = FP + PRP - ASf - AS                       Eq.  5



Sulfate Analysis by Ion Chromatography



     Selected within-run samples, heat-conditioned to 316°C, were



extracted with distilled water and aliquots were analyzed for



total sulfate by ion chromatography for comparison to Method 5BW


results.



Sulfuric Acid Mist Analysis



     The amount of sulfuric acid that passed through the particu-



late filter was determined by analyzing the IPA solution recov-



ered in the first two impingers and the backup filter.  The



volume of the sample solution was recorded and the pH of the



sample determined.   The sample volume was diluted to 500 ml with



80 percent IPA.  A 100-ml aliquot of this solution was pipetted
 Particulate with H2S04 converted to (NH4)2S04
                               3-14

-------
into a 250-ml Erlenmeyer flask with 2 to 3 drops of thorin indi-



cator and titrated to a pink end point using 0.0100 N barium



perchlorate.  If the end point color was not correct, the sample



was passed through an ion exchange column and retitrated.  A



blank was titrated for each sample in the same manner.



Sulfur Dioxide Analysis



     The hydrogen peroxide sample solution was diluted to 500 ml



with deionized, distilled water.  A 20-ml aliquot of this solu-



tion was pipetted into a 250-Erlenmeyer flask with 80 ml of 100



percent IPA and 2 to 3 drops thorin indicator.  The solution was



then titrated to a pink end point using 0.0100 N barium perchlo-



rate.  A blank was titrated in the same manner.
                              3-15

-------
                            SECTION 4



                     SUMMARY OF TEST RESULTS






     This section summarizes the results of the field sampling



program.  They are presented to allow both within-run and between-




run data comparisons, with emphasis on the thermogravimetric and



water-soluble sulfate test results.






4.1  SAMPLE DATA




     Table 4-1 summarizes pertinent sample data.  All tests were



conducted at a single point where the stack gas velocity profile



was relatively flat.  The actual probe and filter temperatures,




stack temperature, and moisture content represent average values



from each individual sample train.  Gas composition data  (0- and



CO-) are given in percent by volume on a dry basis.  The isoki-



netic criteria defined in Reference Method 5* were met in each




case, as indicated by the values shown in the far right-hand



column.






4.2  THERMOGRAVIMETRIC ANALYTICAL RESULTS



     Table 4-2 presents the thermogravimetric analytical results.



The filterable particulate values represent material collected in



the sample probe and on the filter for each sample type  (MSB,
 40 CFR 60, Appendix A, July 1, 1981.
                               4-1

-------
                              TABLE  4-1.   SUMMARY  OF  SAMPLE  CONDITIONS

Test
No.

l"


2


3


4


5


6


7


a


9


10

tut?
*nd t!M
(24-11)
11/29
11. 30-
13:30

11/29
15.25-
17-25

U/30
10:18-
12:18

11/30
13 28-
15:28

11/30
16:36-
18:36

12/01
9:41-
11:41

12/01
12:42-
14:42

12/01
15:45-
18:10

12/02
9:31-
11.31

12/02
13:04-
15:0*


Triln
1.0.
1A
IB
1C
10
2A
2B
2C
20
3A
38
3C
30
4A
41
4C
40
SI
58
5C
SO
6A
68
6C
60
7A

Swle'
type
MSB
M5B
MSBM
NSBU
M5B-P400
MS8-P400
MSB
MSB
MSBH
M5BH
MSB
MSB
MSB
MSB
M5B-P400
MS8-P400
MSB
MSB
MSB
MSB
MSB
MSB
MSBU
HSBH
M5B-P400
78 M5B-P400
7C ! MSB
70
8*
88
BC
80
9A
98
9C
90
IDA
108
IOC
100
MSB
MS8U
MSBU
MSB
MSB
MSB
MSB
MSB-P400
MSB-P400
MSB
MSB
MSB
MSB
Staple tevpenture, °C ("F)
Probe
Des 1 red
160 (320)
160 (320)
160 (320)
160 (320)
204 (400)
204 (400)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
204 (400)
204 (400)
16(1 (320)
160 (320)
160 (320)
160 (320)
160 (320)
16C (320)
160 (320)
160 (320)
204
204
160
160
400)
400)
320)
320)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
160 (320)
204 (400)
204 (400)
160
160
160
320)
320)
320)
160 (320)
Act
t'l
164 (327)
172 (342)
159 (319)
159 (318)
199 (390)'
174 (346)'
165 (329)
164 (327)
162 (323)
166 (330)
158 324)
157 (315)
167 (332)
157 (315)
206 (402)
206 (402)
163
163
162
160
326)
326)
324)
320)
163 (325)
158 (316)
168 (334
161 (322)
207 (404)
204 (400)
164 (327)
157 (314)
162 (324)
159 (319)
174 (346)
168 (335)
167 (332)
162 (325)
208 (407)
205 (402)
163
326)
151 (304)
168 (334)
164
327)
Filter ,
iCtuAl
161 (323)
157 (315)
159 (318)
163 (326)
168 (33S)
169 (336)
161 (322)
163 (326)
163 (325)
164 (327)
162 (324)
162 (324)
167 (332)
168 (335)
161 (322)
163 (326)
164 (328)
165 (329)
159 (319)
162 (323)
166 (331)
165 329)
1S9 (318)
158 (316)
167 (333)
167 (332)
162 (323)
160 (320)
162 (324)
163 (325)
158 (316)
159 (319)
166 (330)
166 (330)
160 (320)
161 (321)
169
168
157
336)
J3i|
315)
154 (309)
Metered
volunec
UN.' (dscf)
2.160 (76.3)
2.121 (74.9)
2.082 (73.5)
2.079 (73.4)
2.056 (72.6)
2 013 (71.1)
1.986 (70.1)
1.962 (69 3i
3.222 (113.8)
3.188 (112.6)
3.116 (110.0)
3. 158 (111.5)
3.440 (121.5)
3.398 (120.0)
3.391 (119.7)
3.454 (122.0)
3.343 (118.1)
3.332 (117.7)
3.250 (114.8)
3.250 (114.8)
3.178 (112.2)
3.172 (112.0)
3.138 (110.8)
3.210 (113.4)
3.292 (116.2)
3.276 (115.7)
3.132 (110.6)
3.262 (115.2)
3.199 (113.0)
3.159 (111.6)
3.125 (110 4)
3.251 (114.8)
3.298 (116.5)
3.261 (115.2)
3. 174 -(112.1)
3.251 (114.3)
3.326 (117 Si
3 302 (116.6)
3.243 (114.5)
3.3S2 (118 4)
Average
periture,
•C CF)

63.3 (146)


67.7 (154)


69.4 (157)


73.9 (165)


76.1 (169)


71.7 (161)


72.8 (163)


72.8 (163)


77.2 (171)


75.6 (168)


content,
1
12.25
15.79
11.47
8.61
9.70
12.11
12.20
12.32
10.93
10.39
12.21
11.97
10.28
10.45
12.87
12.43
11.19
11.06
11.67
11.67
12.46
12.85
13.32
13.02
12.13
12.87
12.76
12.16
13.68
11.96
12.43
12.64
12.18
12.57
12.54
12.89
13.22
13.06
13.37
13.30
Average
•01S-
ture, I

12.03


11.58


11.66


11.51


11.40


12.91


12.48


12.68


12.55


13.24



I C0;

12.10


11.75


12.60


12.90


11.90


12.87


12.53


12.75


12.90


12.60



1 0,

6.90


6.65


6.15


5.80


6.80


5.60


6.00


5.70


5.75


6.05

isoKinetic
s««pl 109
rite. I
102.4
102.9
94 9
95.4
100.5
105 B
101.6
98.3
98.1
97.4
98.8
98.8
97.7
95.8
98.5
98.1
97.8
98.2
97.2
97.2
100.4
99.7
100.0
100.1
99.0
100.1
96.5
99.9
101. 8
98.0
98.3
100.6
99.6
99.7
97.9
100.6
101.1
99.3
98.7
100.3
*H5B -  Probe and filter heated to  160°C.
 N5BH - Probe and filter heated to  160°C; water rinse of nozzle, probe,  and filter holder.
 N5B-P400 - Probe heated to 204°C;  filter heated to 160°C.
bAll desired filter  temperatures were 160°C.
cSample volume In dry normal  cubic  meters (dNm1) at 20°C and 760 mmHg and  in dry standard
 cubic  feet (dscf) at 68°F and 29.92 in.Hg.

''the sampling nozzles were positioned 65 cm  (26.5 in.) from the inside stack wall.   For
 subsequent run', the distance was 81 cm (32  In,).
"Ranged fro« 080* to 397'F.
'tanged fron 345* to 3S1"F.
                                                       4-2

-------
          TABLE  4-2.   SUMMARY OF THERMOGRAVIMETRIC ANALYTICAL RESULTS


Test
No.









•5



4



K







7




Train
I.D.
1A
IB =
1C3
lDa
2Ab
2Bk
2Cb
2D
3Aa
3Ba
3Cb
3D
4A
4B
4C
4D
5A.
5Bb
5Cb
5D
6A
6B
6Ca
6Da
7Ab
7BD
7C.
7Db


Sample
type
MSB
M5B
M5BW
M5BW
P400
P400
MSB
MSB
M5BW
M5BW
MSB
MSB
MSB
MSB
P400
P400
MSB
MSB
MSB
MSB
MSB
MSB
M5BW
M5BW
P400
P400
MSB
MSB
Filterable participate following conditioning at
indicated temperatures, °C (°F), mg
Ambient
Probe
21.7
75.8
mm
-
24.9
21.1
48.9
29.0

-
51.0
61.9
20.3
19.9
33.2
20.4
40.3
39.0
45.5
40.8
25.6
23.3

-
37.0
24.6
69.4
75.2
Filter
4.2
3.9
_
-
4.2
5.1
7.7
5.3

-
7.8
7.7
6.4
6.8
7.6
6.8
7.3
7.2
8.5
7.4
8.0
10.5


16C°C (320°F)
Probe
11.3
14.3

-
14.4
8.7
14.3
8.0

-
-
-
w
-
-
-
15.5
11.3
-
-
18.1
14.0

-
9.4 I 20.8
13.4 j 12.1
10.6 22.4
11.1 23.7
!
Filter
2.6
1.7

-
2.8
3.9
3.9
3.8

-
-
-
m
-
-
-
5.6
5.0
-
-
6.4
5.5

-
5.7
8.4
6.2
7.6
232°C (450°F)
Probe
6.8
9.2

-
14.9
5.4
16.3
5.6

-
-
-
7.4
-
13.3
-
12.4
13.3
11.9
12.3
15.4
10.5

-
' 17.0
12.6
17.6
23.4
Filter
2.0
1.1

-
2.4
3.3
3.1
3.5

-
-
-
4.7
-
5.3
-
4.7
4.6
5.2
4.1
5.5
5.0

-
5.0
6.7
4.8
7.0
316°C (600°F)
Probe
5.6
8.1

-
11.8
4.3
11.7
3.0

-
9.6
22.2
6.8
7.1
11.0
8.6
9.8
9.7
9.0
9.3
12.8
6.9

-
11.0
10.7
8.6
20.3
Filter
1.3
0.8

-
2.3
2.7
2.9
2.4

-
3.5
4.4
4.2
4.1
4.8
3.8
4.9
4.2
4.2
3.9
5.0
4.7

-
4.7
6.4
5.0
5.2
(continued)
                                      4-3

-------
TABLE 4-2 (continued)

Test
No.





9




10



Train
I.D.
8A*
8B?
8Cb
8DD
9Ab
9B,
Qf
b
9DD
b
10A
10Bb
IOC
10D

Sample
type
M5BW
M5BW
MSB
M5B
MSB
MSB
P400
P400

MSB
M5B
M5B
MSB
Filterable particulate following conditioning at
indicated temperatures. °C (°F), mg
Ambient
Probe
_
-
79.2
74.4
45.9
47.1
23.4
29.4

27.0
20.9
68.4
59.3
Filter
—
-
13.1
14.4
11.2
11.1
8.2
9.6

18.0
17.6
17.0
18.0
160°C (320°F;
Probe
_
_
12.3
15.4
_
-
-
-

12.0
13.4
-
-
Filter

_
6.7
4.3
—
-
_
-

13.5
14.3
_
-
232°C
Probe

_
13.5
16.6
_
18.2
_
14.3

12.1
10.4
19.5
16.8
450°F)
Filter

_
6.2
1.9

. 7.2
«.
5.8

12.7
11.9
10.6
12.6
316°C (600°F)
Probe

_
10.4
11.0
13.5
14.0
10.8
12.7

9.4
8.0
15.9
11.8
Filter


5.1
1.3
5.0
6.5
4.6
5.2

11.8
11.2
10.0
10.8
 M5BW samples  were  analyzed  for  total water  soluble  sulfates and particulate
 mass by modified Texas  Air  Board  procedure  described  in Section 3 of this
 report.

 Heated for 24 hours,  all  others heated  for  6  hours.
                                      4-4

-------
M5B-P400).  All weights  are  reported  in milligrams  (mg)  and


sample  concentrations  in milligrams per dry  normal  cubic meter

 (mg/dNm3).


     The  constant weight criteria described  in Method  5* were

achieved  during the ambient  weighing  on all  of the  Method 5B and

Method  5B-P400 samples;  however, several of  the probe  rinse


samples required up to four  separate  weighings before  the crite-

ria were  met.


     As previously noted, the samples were heat-conditioned at

each temperature for either  6 or 24 hours as indicated in the

table, and then reheated at  the same  conditions until  a  stable

weight was achieved prior to advancing to the next  temperature in

the analytical sequence.  The stable weight criteria, which was

defined as a difference  of 5.0 mg or  less between consecutive,

similar heat treatments, was achieved for all of the filters and

most of the probe rinse  samples in two treatments.  All  of the

samples met the criteria in three treatments.

     Table 4-3 presents a comparison of total filterable  particu-

late concentrations after heat conditioning at the  indicated

temperatures for the MSB and M5B-P400 samples.   For reporting

purposes,  the results of similar sample types have been grouped

together.   The average concentration and standard deviation are

given in mg/dNm3  for all samples of a similar type and tempera-

ture.   In  addition,  the number of data points at each temperature
*
 40 CFR 6C,  Appendix A,  July 1,  1981.
                               4-5

-------
TABLE 4-3.   COMPARISON OF  FILTERABLE  PARTICIPATE CONCENTRATION
        AFTER CONDITIONING AT  INDICATED TEMPERATURES3
Run No.
1A
IB
2Cb
2C
3C.
3Db
4A
4B
5A,
5Bb
5C,
5Db
6A
6B
7C.
7Db
8Cb
8Db
9Ab
9Bb
10Ab
10B,
10Cb
10D
Sample
type
M5B
MSB
MSB
MSB
MSB
M5B
M5B
M5B
M5B
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
Ambient
Total
weight,
mg
25.9
79.7
56.6
34.3
58.8
69.6
26.7
26.7
47.6
46.2
54.0
48.2
33.6
33.8
80.0
86.3
92.3
88.8
57.1
58.2
45.0
38.5
85.4
77.3
Concen-
tration,
mg/dNm3
12.0
37.6
28.5
17.5
18.9
22.0
7.8
7.9
14.2
13.9
16.6
14.8
10.6
10.7
25.5
26.5
29.5
27.3
17.3
17.8
13.5
11.7
26.3
23.1
Average 18.8
o
-------
TABLE  4-3  (continued)


Run No.
2Ab
2B
4C
4D
7Ab
7BD
9Cb
h
9DD


Sample
type
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
Average


Ambient
Total
weight,
mg
29.1
26.2
40.8
27.2
46.4
38.0
31.6
39.0
Concen-
tration,
mg/dNm3
14.2
13.0
12.0
7.9
14.1
11.6
10.0
12.0
11.8
a = 2.1
N = 8
160°C
Total
weight,
mg
17.2
12.6
_
-
26.5
20.5
_
-
Concen-
tration,
mg/dNm3
8.4
6.3
.
-
8.0
6.3
_
-
7.2
o = 1.1
N = 4
232°C
Tota
weight,
mg
17.3
8.7
18.6
-
22.0
19.3
.
20.1
Concen-
tration,
mg/dNm3
8.4
4.3
5.5

6.7
5.9

6.2
6.2
o = 1.4
N = 6
315°C
Total
weight,
mg
14.1
7.0
15.8
12.4
15.7
17.1
15.4
17.9

Concen-
tration,
mg/dNm3
6.9
3.5
4.7
3.6
4.8
5.2
4.9
5.5
4.9
a = 1.1
N = 8
Includes  both filter and probe  rinse fractions.
Heat conditioning intervals  for these samples were 24  hours; all others were 6
hours.
Standard  deviation with N-1 weighting for sample  data.
Number  of data points.
                                         4-7
-------
condition is shown.  Figure 4-1 is a graphical representation of



the average data.




     Table 4-4 presents the statistical data for each set of




grouped runs.  Each group represents two runs of the same sample



type conducted at the same time except for run Groups 5 and 10,



which represent four similar samples.  The MSB data are followed



by the M5B-P400 data.  Presented for each run group and tempera-




ture condition are the mean filterable particulate concentration,



the standard deviation with N-l weighting for sample data, and



the percent coefficient of variation (CV), which expresses the



standard deviation as a percent of the mean concentration.




     Table 4-5 summarizes the estimates of precision for Method



5B and Method 5B-P400 at each conditioning temperature.  Method



5B precision data are presented on two bases; the first includes




all available data (Runs 1 through 10), and the second includes



only data from Runs 2, 4, 7, and 9 to allow a better comparison



to within-run M5B-P400 data.  The mean filterable concentrations



were calculated by averaging the individual run data to minimize



round-off error.   The mean standard deviations were calculated by



averaging standard deviation values for each set of grouped runs



(from Table 4-4)  to minimize the effect of temporal variation in



emissions.  In this way, the mean standard deviation of the



grouped runs (a in Table 4-5)  more accurately reflects method



precision than does the standard deviation of individual run



concentrations (o in Table 4-3).  The mean coefficient of varia-



tion expresses the mean standard deviation as a percent of the






                              4-8
-------
                               3
                                                         AVERAGE  FILTERABLE PARTICULATE  CONCENTRATION,  mg/dNnT
 I
VO
                               fa
                               -s

                               1/1
                               CU
                               3
                               -a
                               rt- <
                               «< 0)
                               -0 -S
                               ro a>
                               l/i (£3
                                  ro
                               cu
fD —•
-S rt
   fD
O -S
O Cu
3 cr
Q. —•

<•+'
-"•T3
O O>
3 -S
-"• rt-
3 -J.
l£) O
   C
CU —'
rt OJ
   r*-
-j. n>
3
D. O
-.. o
O 3
CU o
rt- fD
fD 3
O- <-*•
   -s

fD r+

•a o
fD 3

Co -h
c-1- O
C -S
-S
fD
CD
                                             O
                                             o
CT>
O
                                                  ro
                                                  OJ
                                                  ro
                                             -a
                                             m
                                             •73
                                              O
                                             O
co
«_j
cr>
-------
                                 TABLE  4-4.  STATISTICAL  DATA  FOR GROUPED  RUNS AFTER
                                       CONDITIONING AT  INDICATED TEMPERATURES
I
M
O

Run
No.
1-A.B
2-Cd,D
3-C,Dd
4-A.B
5-A,Bd
C,0d
6-A.B
7-C,Dd
8-Cd,Dd
9-Ad,Bd
10-Ad B,
C°,D
2-Ad,B

4-C.D


Sample
type
MSB
MSB
M5B
MSB
MSB
MSB
MSB
MSB
MSB
MSB
M5B-
P400
M5B-
P400
Ambient
x,a
mg/dNm3
24.8
23.0
20.4
7.8
14.9
10.6
26.0
28.4
17.6
18.6
13.6

10.0

b
o,
mg/dNm3
18.1
7.8
2.2
0.1
1.2
0.1
0.7
1.6
0.4
7.1
0.8

2.9

CV,L
I
73
34
11
1
8
1
3
6
2
38
6

29

160°C (320°F)
x,
mg/dNm3
7.0
7.6
-
-
5.6f
6.9
9.4
6.1
-
8.0f
7.4

_

0,
mg/dNm3
0.8
2.3
-
-
1.0
1.1
0.4
0.0
-
0.5
1.5

.

cv,
%
11
30
-
-
18
16
4
0
-
6
20



232°C (450°F)
x,
mg/dNm3
4.5
7.2
-
3.5e
5.2
5.8
8.2
6.0
7.8e
8.1
6.4

5.5e

o,
mg/dNm3
0.6
3.7
-
-
0.2
1.2
1.5
0.4
_
1.2
2.9



cv.
1
13
51
-
_
4
21
18
7
_
15
45



316°C (600°F)
x ,
mg/dNm3
3.7
5.1
6.3
3.2
4.2
4.6
6.2
4.4
6.0
6.7
5.2

4.2


mg/dNm3
0.7
3.3
3.0 '
0.1
0.1
1.3
2.7
0.8
0.5
0.9
2.4

0.8

CV
*
19
65
48
3
2
28
44
18
8
13
46

19

-------
  TABLE 4-4  (continued)

Run
No.
7-A,Bd

9-Cd,Dd


Sample
type
M5B-
P400
M5B-
P400
Ambient
x,a
mg/dNm3
12.8

11.0

o.b
mg/dNm3
1.8

1.4

CV,C
?
14

13

160°C (320°F)
x.
mg/dNm3
7.2

.

o,
mg/dNm3
1.2



cv.
%
17



232°C (450°F)
x,
mg/dNm3
6.3

6.2e

o.
mg/dNm3
0.6



CV,
%
10



316°C (600°F)
x,
mg/dNm3
5.0

5.2

o,
mg/dNm3
0.3

0.4

CV,
%
6

8

 Mean filterable concentration.
 Within-run  standard deviation with N-l  weighting  for sample data.
 Coefficient of variance is the standard deviation expressed as a percent of the  mean  concentration.
 Samples heated for 24-hour intervals; all others heated 6 hours.
eOne sample  only.
 Two samples only.
-------
                            TABLE 4-5.   SUMMARY  OF PRECISION  ESTIMATES AFTER
                                  CONDITIONING AT INDICATED TEMPERATURES

Run
No.
1-10

2,4,
7,9

2,4
7,9


Sample
type
MSB

MSB


M5B-
P400

Ambient
x,a
mg/dNm3
18.8
Nd = 24
18.6

N = 8
11.8

N = 8
o,b
mg/dNm3
3.9
N = 10
2.2

N = 4
1.7

N = 4
CV,C
%
21
-
12

-
14

-
160°C (320°F)
x,
mg/dNm3
7.2
N = 14
8.5

N = 4
7.2

N = 4
o ,
mg/dNm3
0.9
N = 7
1.4

N = 2
1.4

N = 2
0,
%
12
-
16

-
19

-
232°C (450°F)
x,
mg/dNm3
6.4
N = 20
7.0

N = 6
6.2

N = 6
o ,
mg/dNm3
1.3
N = 7
2.6

N = 2
1.8

N = 2
TO,
%
20
-
37

-
29

-
316°C (600°F)
x,
mg/dNm3
5.1
N = 24
5.1

N = 8
4.9

N = 8
o ,
mg/dNm3
1.3
N = 10
1.6

N = 4
1.0

N = 4
rv,
%
25
_
31

-
20

-
 Mean  filterable concentration based on  individual  run values.

 Mean  standard deviation of grouped runs (-ip).
c
 Mean  coefficient of variance (percent)  calculated  using the mean standard deviation of grouped runs  and the mean
 filterable concentration based on individual run values.

 N - number of data points.
-------
mean concentration.  The number of data points included in each




calculation is shown for consideration in evaluating the preci-



sion estimates.




     Table 4-6 presents the relative percent weight loss for the



filter samples after conditioning at the indicated temperatures.



Percent weight loss was calculated in two ways; first, using the



ambient weight as the initial weight basis, and secondly, using




the weight after conditioning at 160°C (320°F) as the initial



weight basis.  The results of similar sample types have been



grouped together.  Tables 4-7 and 4-8 present similar data for



the probe rinse samples and the total filterable samples, respec-



tively.  Figure 4-2 is a graphical representation of the average



weight loss data on an ambient weight basis.  The graph points



out two characteristics of the tabulated data:  1) the most




significant weight loss occurred during heating at 160°C (320°F),



and 2) the relative percent weight loss upon subsequent heating



at temperatures higher than 160°C was similar for all samples



(note that the curves are essentially parallel between 160° and



316°C).



     Table 4-9 presents data used to evaluate the effect of heat



conditioning time on weight loss.  Raw laboratory data for each



filter sample were examined to determine the weight loss between



the first and second heat treatment at a given conditioning



temperature.  These weight losses are tabulated by sample type



and heating time.  The filter sample results appear to favor the



24-hour heating interval (note the 6-h results for Runs 6B and 7C
                               4-13
-------
                                TABLE  4-6.   RELATIVE  PERCENT  WEIGHT  LOSS  FOR  FILTER
                               SAMPLES AFTER CONDITIONING  AT  INDICATED  TEMPERATURES
Run No.
1A
IB
2Cb
2D
3C.
3Db
4A
4B
5A,
5Bb
5C.
5Db
6A
6B
7C,
7Db
8Cb
8Db
9Ab
9Bb
Sample
type
M5B
M5B
M5B
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
Net filter weights, mg
Amb.
4.2
3.9
7.7
5.3
7.8
7.7
6.4
6.8
7.3
7.2
8.5
7.4
8.0
10.5
10.6
11.1
13.1
14.4
11.2
11.1
160°C
2.6
1.7
3.9
3.8

-
5.6
5.0
6.4
5.5
6.2
7.6
6.7
4.3
-
232°C
2.0
1.1
3.1
3.5
-
4.7
4.7
4.6
5.2
4.1
5.5
5.0
4.8
7.0
6.2
1.9
7.2
316°C
1.3
0.8
2.9
2.4
3.5
4.4
4.2
4.1
4.9
4.2
4.2
3.9
5.0
4.7
5.0
6.2
5.1
1.3
5.0
6.5
Relative weight loss3, %
From ambient to:
160°C
38
56
49
28
-
-
23
31
20
48
42
32
49
70
-
232°C
52
72
60
34
-
27
36
36
39
45
31
52
55
37
53
87
35
316°C
69
79
62
55
55
43
34
40
33
42
51
47
38
55
53
44
61
91
55
41
From 160°C to:
232°C
23
35
21
8
-
_
16
8
14
9
23
8
7
56
-
316°C
50
53
26
37
_
_
12
16
22
15
19
18
24
70
-
(continued)
-------
         TABLE  4-6  (continued)
Run No.
10Ab
10B.
10Cb
100
Sample
type
M5B
MSB
M5B
M5B
M5B average
2Ab
2B
4C
4D
7A.
7Bb
9Cb
9Db
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400 average
Net filter weights,
Amb.
18.0
17.6
17.0
18.0
160°C
13.5
14.3
232°C
12.7
11.9
10.6
12.6
mg
316°C
11.8
11.2
10.0
10.8

4.2
5.1
7.6
6.8
9.4
13.4
8.2
9.6
2.8
3.9
_
5.7
8.4
-
2.4
3.3
5.3
5.0
6.7
5.8
2.3
2.7
4.8
3.8
4.7
6.4
4.6
5.2

Relative weight loss3, %
From ambient to:
160°C
25
19
38
33
24
_
39
37
-
33
232°C
29
32
38
30
44
43
35
30
47
50
40
41
316°C
34
36
41
40
50
45
47
37
44
50
52
44
46
46
From 160°C to:
232°C
6
17
18
14
15
_
12
20
:
15
316°C
13
22
28
18
31
-
18
24
:
23
I
H
Ui
                          Weight @ T,   Weight P T?
         aWeight  loss,  %	—	— x 100; where T. < T?.
         b                        Weight Q T,
         Heat  conditioning  intervals for these samples were 24 hours; others were 6 hours.
-------
                                      TABLE 4-7.  RELATIVE PERCENT WEIGHT LOSS FOR PROBE RINSE
                                        SAMPLES AFTER CONDITIONING AT INDICATED TEMPERATURES


Run No.
1A
IB
2Cb
2D
3C.
3Db
4A
4B
5A,
5Bb
5C.
5Db
6A
6B
7C.
7Db
8Cb
8Db
9Ab
9Bb

Sample
type
MSB
M5B
M5B
M5B
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB

Net probe rinse weights, mq
Amb.
21.7
75.8
48.9
29.0
51.0
61.9
20.3
19.9
40.3
39.0
45.5
40.8
25.6
23.3
69.4
75.2
79.2
74.4
45.9
47.1
160°C
11.3
14.3
14.3
8.0
_
-
_
-
15.5
11.3
_
-
18.1
14.0
22.4
23.7
12.3
15.4

-
232°C
6.8
9.2
16.3
5.6
_
-
7.4
-
12.4
13.3
11.9
12.3
15.4
10.5
17.6
23.4
13.5
16.6
_
18.2
316°C
5.6
8.1
11.7
3.0
9.6
22.2
6.8
7.1
9.8
9.7
9.0
9.3
12.8
6.9
8.6
20.3
10.4
11.0
13.5
14.0
Relative weight loss , %
From ambient to:
160°C
48
81
71
72
_
-
_
-
62
71
-
-
29
40
68
68
84
79
_
-
232°C
69
88
67
81
_
-
64
-
69
66
74
70
40
55
75
69
83
78
—
61
316°C
74
89
76
90
81
64
67
64
76
75
80
77
50
70
88
73
87
85
71
70
From 160°C to:
232°C
40
36
-14
30
_
-
_
-
20
-18
-
-
15
25
21
1
-10
-8
_
—
316°C
50
43
18
62
_
-
-
-
37
14
-
-
29
51
62
14
15
29
_
—
I
H
CTl
          (continued)
-------
TABLE 4-7 (continued)
Run No.
10Ab
10B.
10Cb
10D
Sample
type
MSB
M5B
MSB
MSB
Net probe rinse weights, mg
Amb.
27.0
20.9
68.4
59.3
160°C
12.0
13.4
232°C
12.1
10.4
19.5
16.8
316°C
9.4
8.0
15.9
11.8
M5B average
2Ab
2B
4C
4D
7A,
7Bb
9Cb
9Db
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
24.9
21.1
33.2
20.4
37.0
24.6
23.4
29.4
14.4
8.7
_
20.8
12.1
_
14.9
5.4
13.3
17.0
12.6
14.3
11.8
4.3
11.0
8.6
11.0
10.7
10.8
12.7
M5B-P400 average
Relative weight loss9, %
From ambient to:
160°C
56
36
62
42
59
_
44
51
_
49
232°C
55
50
71
72
68
40
74
60
54
49
51
55
316°C
65
62
77
80
75
53
80
67
58
70
57
54
57
62
From 160°C to:
232°C
-1
22
11
-3
38
;
18
-4
-
12
316°C
22
40
35
18
51
-
47
12
-
32
                  Weight  @  T,   Weight @ T?
 Weight loss,  % = - — - — x  100; where T.  < T«
                         Weight P 1
 Heat conditioning intervals  for  these  samples were 24 hours; others were 6 hours.
-------
                                 TABLE 4-8.   RELATIVE PERCENT WEIGHT LOSS FOR TOTAL FILTERABLE
                               PARTICIPATE SAMPLES AFTER CONDITIONING AT INDICATED TEMPERATURES
Run No.
1A
IB
2Cb
2D
3C.
3Db
4A
4B
5A.
5Bb
5C.
5Db
6A
6B
7Ch
7Db
8Cb
8Db
9Ab
9Bb
Sample
type
M5B
M5B
M5B
MSB
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
M5B
MSB
MSB
M5B
Total net weights, me
Amb.
25.9
79.7
56.6
34.3
58.8
69.6
26.7
26.7
47.6
46.2
54.0
48.2
33.6
33.8
80.0
86.3
92.3
88.8
57.1
58.2
160°C
13.9
16.0
18.2
11.8
-
_
21.1
16.3
24.5
19.5
28.6
31.3
19.0
19.7
-
232°C
8.8
10.3
19.4
9.1
_
12.1
17.1
17.9
17.1
16.4
20.9
15.5
22.4
30.4
19.7
18.5
25.4

316°C
6.9
8.9
14.6
5.4
13.1
26.6
11.0
11.2
14.7
13.9
13.2
13.2
17.8
11.6
13.6
26.5
15.5
12.3
18.5
20.5
Relative weight loss3, %
From ambient to:
160°C
46
80
68
66
-
-
56
65
27
42
64
64
79
78
-
232°C
66
87
66
73
-
55
64
61
68
66
38
54
72
65
79
79
56
316°C
73
89
74
84
78
62
59
58
69
70
76
73
47
66
83
69
83
86
68
65
From 160°C to:
232°C
37
36
-7
23
_
-
19
-10
15
21
22
3
-4
6
_
316°C
50
44
20
54
_
-
30
15
27
41
52
15
18
38
-
I
M
CO
      (continued)
-------
     TABLE 4-8 (continued)
Run No.
10Ab
10B,
10Cb
10D
Sample
type
M5B
MSB
M5B
M5B
TotaT.net weights, mg
Amb.
45.0
38.5
85.4
77.3
160°C
25.5
27.7
232°C
24.8
22.3
30.1
29.4
316°C
21.2
19.2
25.9
22.6
M5B average
2Ab
2B
4C
4D
7Ah
7Bb
9Cb
9Db
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
29.1
26.2
40.8
27.2
46.4
38.0
31.6
39.0
17.2
12.6
-
26.5
20.5
-
17.3
8.7
18.6
22.0
19.3
20.1
14.1
7.0
15.8
12.4
15.7
17.1
15.4
17.9
M5B-P400 average
Relative weight loss9, %
From ambient to:
160°C
43
28
58
41
52
-
43
46
-
46
232°C
45
42
65
62
63
41
67
54
53
49
48
52
316°C
53
50
70
71
70
52
73
61
54
66
55
51
54
58
From 160°C to:
232°C
3
19
13
-1
31
_
17
6
-
13
316°C
17
31
32
18
44
-
41
17
-
30
I
M
10
                       Weight 0 T,   Weight @ T?
      Weight loss, % = -         " - — x 100; where T, < T?.
                              Weight @ T
      Heat conditioning intervals for these samples were 24 hours; others were 6 hours.
-------
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                                                                              RELATIVE WEIGHT LOSS,  percent
-------
                TABLE 4-9.   EFFECT OF HEAT CONDITIONING TIME ON
                         WEIGHT  LOSS OF FILTER SAMPLES



Run
No.
1A
IB
2D
3C
4A
4B
5A
5C'
6A
6B
7C
10B
10D



Sample
type
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB


Heating
time per
treatment, h
6
6
6
6
6
6
6
6
6
6
6
6
6
Average
2C
3D
5B
5D
7D
8C
8D
9A
9B
10A
IOC
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
24
24
24
24
24
24
24
24
24
24
24
Average
2B
4C
40
7A
M5B-P400
M5B-P400
M5B-P400
M5B-P400
6
6
6
6
Average
Weight loss between heat treatments at
indicated temperatures , mq
160°C (320°F)
lst-2nd
Treatment
0.3
0.1
-0.2
-
-
-
0.0
-
0.3.
2.7^
1.8C
0.4
-
0.7d
-0.7e
_
0.1
-
0.4
0.1
0.1
_
_
0.4
-
0.1
0.2
_
-
0.2
0.2
232°C (450°F)
lst-2nd
Treatment
0.4
0.0
0.3
_
0.2
_
0.3
0.3
0.4
0.2
0.5
0.0
0.2
0.3
-0.2
_
-0.1
0.4
0.0,
1.0f
0.1
-
0.3
0.0
0.5
0.2
0.0
0.2
_
0.2
0.1
316°C (600°F)
lst-2nd
Treatment
0.2
0.0
0.4
0.2
0.1
0.0
0.1
0.3
0.2
0.2
-0.1
0.0
0.5
0.2
0.2
0.0
0.3
0.4
0.2
0.4
0.0
-0.1
0.2
0.0
0.3
0.2
0.3
0.3
0.3
0.2
0.3
(continued)
                                     4-21
-------
TABLE 4-9 (continued)


Run
No.
2A
7B
9C
9D


Sample
type
M5B-P400
M5B-P400
M5B-P400
M5B-P400

Heating
time per
treatment, h
24
24
24
24
Average
Weight loss between heat treatments at
indicated temperatures , mg
160°C (320°F)
lst-2nd
Treatment
O.lq
1.49
_
-
0.8
232°C (450°F)
lst-2nd
Treatment
0.1
0.2
_
0.3
0.2
316°C (600°F)
lst-2nd
Treatment
0.2
-0.1
-0.2
0.3
0.1
 Weight loss between individual  weighings  from raw lab  data  sheets.
 No additional  weight loss was observed  after a  third heat treatment.
^An additional  loss of 0.1 mg was  observed after a third  heat  treatment.
 Similar probe  rinse samples  heated  for  6  hours  had an  average weiqht  loss
 between treatments of 0.3 mg.   All  differences  were less than 0.5 mg.
 An additional  loss of 0.2 mg was  observed after a third  heat  treatment.
 TMs sample did not show any weight loss  on  first heating at  this tempera-

9An additional  loss of 1.6 mg was  observed after a  third  heat treatment.
                                    4-22
-------
at 160°C) ,  but this is tempered by the results of Run 8C at 232°C



and Run 7B at 160°C.  Data for probe rinse samples were examined



in a similar manner.  All of the probe rinse samples heated for



6-h intervals had a weight loss of less than 0.5 mg between the




first and second treatments at 160°C.  In total, these results do




not indicate a clear advantage of using a 24-h interval over a



6-h interval, in that two heat treatments at the same temperature



were required regardless of duration to assure weight stability.



     Selected samples that had been heat-conditioned to 316°C




(600°F) were heated to 400°C  (752°F) to determine if any addi-



tional weight loss would occur.  Table 4-10 presents the net



sample weights after heat conditioning and the observed weight



loss.  Very little additional weight was lost on an average



basis, although there was a high degree of variability among




individual samples.






4.3  WATER-SOLUBLE SULFATE ANALYTICAL DATA



     Table 4-11 summarizes the nonwater-soluble sulfate particu-



late  (NWSSP) results of the Method 5BW tests.  Since particulate



matter cannot be determined gravimetrically in the presence of



sulfuric acid due to the inexact amount of water retained by the



acid, the method is designed to convert the acid to a non-



hygroscopic, non-volatile product, in this case ammonium sulfate.



The acid is measured as water-soluble sulfate and converted to



ammonium sulfate.  The weight of ammonium sulfate formed is



subtracted from the total weight of ammonium sulfate and NWSSP
                              4-23
-------
       TABLE 4-10.   ADDITIONAL WEIGHT LOSS AFTER HEATING TO 400°C
Run No.
4A
4B
5B
5C
5D
7C
9A
10A
10B
10D
Sample
type
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
Average
4D
7A
7B
9C
9D
M5B-P400
M5B-P400
M5B-P400
M5B-P400
M5B-P400
Average
Net filterable particu-
late remaining after heat-
conditioning to 400°C, mg
Probe
rinse
5.0
7.7
8.7
6.8
5.8
8.5
13.9
10.0
9.8
13.0
8.9
8.8
11.4
9.5
10.9
13.2
10.8
Filter
4.0
3.8
4.0
3.5
3.8
3.9
4.4
10.6
9.8
9.8
5.8
3.7
4.2
4.9
4.3
4.8
4.4
Weight loss observed
between heating from
316°C to 400°C, mq
Probe
rinse
1.8
-0.6a
1.0
2.2
3.5
0.1
0.4
-0.6
-1.8
-1.2
0.5
-0.2
-0.4
1.2
0.1
-0.5
0.0
Filter
0.2
0.3
0.2
0.7
0.1
1.1
0.6
1.2
1.4
1.0
0.7
0.1
0.5
1.5
0.3
0.4
0.6
Negative sign  indicates  a weight gain.
                                  4-24
-------
            TABLE 4-11 .   SUMMARY OF NONWATER-SOLUBLE SULFATE
                          PARTICIPATE RESULTS3
Run
No.
1C
ID
3A
3B
6C
6D
8A
8B
Weight, mg
Filter
1.6
0.1
2.2
3.7
3.7
2.1
3.0
2.8
Probe
rinse
9.6
5.2
21.8
6.5
14.8
11.0
18.0
16.0
Total
11.2
5.3
24.0
10.2
18.5
13.1
21.0
18.8
Total
filterable
concentration,
mg/dNm3
5.4
2.5
7.4
3.2
5.9
4.1
6.6
6.0
Average = 5.1
a = 1.7
N = 8
Comparison to within-run
samples after heating to
indicated temperature
MSB
Run
No.
1A
IB
3C
3D
6A
6B
8C
8D
Filterable concen-
tration, mg/dNm3
232°C
4.1
4.9
_
-
6.6
4.9
6.3
5.7
Average = 5.4
a = 1.0
N = 6
316°C
3.2
4.2
4.2
8.4
5.6
3.7
5.0
3.8
4.8
1.7
8
NWSSP results of the Method 5BW tests using Texas  Air Board procedures
modified by the use of ion chromatography to measure sulfate concentra-
tions.
                                  4-25
-------
(particulate excluding water-soluble sulfates).  Results of

within-run Method 5B samples are presented for comparison.

     As shown in Table 4-11, the average Method 5BW results fell

between the Method 5B samples that had been heated to 232°C

(450°F) and 316°C (600°F).  Method precisions were comparable.

The fact that the filterable concentration of samples heat-condi-

tioned to 316°C was lower than the NWSSP concentration may indi-

cate that a small quantity of volatile material other than water-

soluble sulfate was eliminated by thermal conditioning.  Because

of the low absolute magnitude of these concentrations  [approxi-

mately 5 mg/dNm3  (0.002 gr/dscf)], however, the apparent differ-

ence may be considered statistically insignificant (note the

standard deviation values).

     Table 4-12 presents the results of selected Method 5B sam-

ples heat-conditioned to 316°C that were extracted with water and

analyzed for sulfate by 1C.  Shown for each sample fraction are

the net filterable particulate weights after conditioning at

316°C and the weight of sulfate  (SO.~) found in that sample.

Filter SO ~ results were adjusted for a blank weight of 0.8 mg.

The amount of SO ~ detected represents a significant portion of

the particulate remaining after heat-conditioning, especially for

the filter samples that apparently contain nothing but sulfates.

Again, because of the low absolute magnitude of sample weights,

the SO ~ results may not be as significant as they seem to be.

Because the emission source had a limestone scrubber, calcium is

the cation most likely associated with any residual water-soluble

sulfate.
                              4-26
-------
         TABLE 4-12.   WATER-SOLUBLE SULFATE DETECTED IN SAMPLES
                        HEAT-CONDITIONED TO 316°C
Run No.
1A
IB
2C
2D
3C
3D
5A
6A
6B
7D
8C
8D
98
IOC
Sample
type
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
MSB
Average
2A
2B
4C
M5B-P400
M5B-P400
M5B-P400
Average
Net filterable particu-
late remaining after heat-
conditioning to 316°C, mg
Probe
rinse
5.6
8.1
11.7
3.0
9.6
22.2
9.8
12.8
6.9
20.3
10.4
11.0
14.0
15.9
11.5
11.8
4.3
11.0
9.0
Filter
1.3
0.8
2.9
2.4
3.5
4.4
4.9
5.0
4.7
6.2
5.1
1.3
6.5
10.0
4.2
2.3
2.7
4.8
3.3
Weight of SO/
in sample, mg
Probe
rinse
4.7
3.3
3.7
1.9
4.9
8.0
4.1
4.8
2.5
7.9
3.7
4.8
5.0
6.3
4.7
2.5
1.7
3.0
2.4
Filter9
1.1
3.4
2.0
1.8
2.5
2.1
2.0
2.2
2.7
2.8
3.2
2.3
2.5
3.8
2.5
1.7
1.8
2.4
2.0
Adjusted for a blank weight  of  0.8 mg.
                                 4-27
-------
4.4  METHOD 8 ANALYTICAL RESULTS




     Table 4-13 presents the results of back-half analyses for



sulfates as H2SO4 and S02.  As expected, the H-SO. data show a



high degree of variability.  Results for Runs 4 and 7 support the




filterable particulate data relative to the effect that a higher



sampling temperature can minimize retention of sulfate in the



front half of a sample train.  The SO_ data show a high degree of



precision.
                              4-28
-------
               TABLE 4-13,  SUMMARY OF BACK-HALF ANALYSES
Test
No.
1
2
3
4
5
6
7
Train
I.D.
1A
IB
1C
ID
2A
2B
2C
2D
3A
3B
3C
3D
4A
4B
4C
4D
5A
5B
5C
5D
6A
68
6C
6D
7A
7B
7C
7D
Sample
type
MSB
MSB
M5BW
M5BW
M5B-P400
M5B-P400
MSB
MSB
M5BW
M5BW
MSB
MSB
MSB
MSB
M5B-P400
M5B-P400
MSB
MSB
MSB
MSB
MSB
MSB
M5BW
M5BW
M5B-P400
M5B-P400
MSB
MSB
HoSO/
mg
18.3
49.5
107
6.9
33.9
81.8
190
81.7
78.5
64.9
104
71.7
28.3
98.5
107
105
73.8
84.4
134
74.0
74.3
114
44.9
82.4
110
118
67.3
78.4
^mg/dNm3
8.47
23.3
51.4
3.32
16.5
40.6
95.7
41.6
24.4
20.4
33.4
22.7
8.23
29.0
31.6
30.4
22.1
25.3
41.2
22.8
23.4
35.9
14.3
25.7
33.4
36.0
21.5
24.0
S00b
mg
1910
2020
1970
1990
1870
2310
2260
2370
4090
4080
3970
4080
4350
4360
4380
4340
4540
4420
4420
4400
3950
3910
3900
4050
4230
4240
4070
4210
*" mg/dNm3
884
952
946
957
910
1150
1140
1210
1270
1280
1270
1290
1260
1280
1290
1260
1360
1330
1360
1350
1240
1230
1240
1260
1280
1290
1300
1290
(continued)
                                  4-29
-------
TABLE 4-13  (continued)
Test
Mo.

Q



Q



10


Train
I.D.
8A
8B
8C
8D
9A
9B
9C
9D
IDA
10B
IOC
10D
Sample
type
M5BW
M5BW
MSB
MSB
MSB
MSB
M5B-P400
M5B-P400
MSB
MSB
MSB
MSB
HoSO/
mg
87.7
120
58.6
62.6
87.8
101
98.8
85.6
92.0
104
75.8
58.6
'mg/dNrn3
27.4
38.0
18.8
19.3
26.6
31.0
31.1
26.3
27.7
31.5
23.4
17.5
S00b
mg
4070
330
3440
3960
4310
4270
4170
4290
4300
4210
4190
4340
t~mg/dNm3
1270
104C
1100
1220
1310
1310
1310
1320
1290
1280
1290
1290
 Sulfate analyses (as HLSOJ  per Method  8  (40  CFR  60, Appendix A  , July 1,
 1981) of IPA impinger contents, back-half filter,  and  rinse.

 SOp analysis per Method 8 of peroxide  impinger  contents and rinse.

 "Outlier.
                                   4-30
-------
                            SECTION 5
      ^


                   DISCUSSION OF TEST RESULTS





     The data support previous studies that characterize conden-



sible sulfate bias of particulate measurements at source emission



streams containing sulfur oxides. ' ' '    It is evident that



sample temperature is a parameter that significantly affects the



retention of condensible material in the front half of the stan-



dard Method 5 sample train.  In this case, condensible matter is



defined as probe rinse/filter residue that can be removed by



heating.  Sulfate species will most likely exist in sources



containing sulfur oxides.  Water-soluble sulfate can exist in



these sources in many different chemical forms.  Sulfuric acid



(HpSO.) is the most common form, but salts of ammonium, sodium,



or other cations are also possible.  Because exit gas streams



from boilers are known to contain sulfur trioxide and sulfur



dioxide, sulfuric acid is the most probable form of water-soluble



sulfate.



     Data presented in Tables 4-2 and 4-3 show the effects of



sample temperature on the measurement of particulate emissions



from this source.  As expected, the MSB samples collected at



160°C  (320°F) showed a slightly higher particulate catch in the



probe rinse than the M5B-P400 samples that were collected at a
                                5-1
-------
probe temperature of 204°C  (400°F) and a filter temperature of



160°C.  The MSB filterable particulate concentration averaged



18.8 mg/dNm3 at ambient conditions compared with the M5B-P400



average of 11.8 mg/dNm3.




     Effects of analytical temperature are shown graphically in



Figure 4-1.  The average MSB and M5B-P400 particulate concentra-



tions are essentially identical at each of the three stages of



heat conditioning from 160°C (320°F) through 316°C  (600°F).  The



MSB sample concentrations averaged 7.2, 6.4, and 5.1 mg/dNm3



after conditioning at 160°, 232°, and 316°C, respectively.




Corresponding results of the M5B-P400 runs at the three tempera-



tures were 7.2, 6.2, and 4.9 mg/dNm3.




     A closer examination of within-run samples (as presented in



Table 4-5) shows a larger difference between the two methods




until the samples were heated at 316°C.  For Runs 2, 4, 7, and 9,



the MSB sample concentrations averaged 8.5, 7.0, and 5.1 mg/dNm3



after conditioning at the three temperature stages.  Correspond-



ing results of the M5B-P400 runs at the three temperatures were



7.2, 6.2, and 4.9 mg/dNm3.  This apparent difference is probably



related more to the small number of data for comparison and to



the low absolute magnitude of results rather than to any factor



of significance.




     Weight loss data presented in Tables 4-6 through 4-8 and



Figure 4-2 show that both probe rinse and filter samples of each



method type lost significant percentages of their ambient weights



upon heating, although there was a high degree of variability
                               5-2
-------
among individual samples.  The MSB and M5B-P400 filter samples



had average weight losses of 50 and 46 percent after thermal



treatment at 316°C.  This close comparison was expected because



the sample filtration temperatures were both 160°C.  The apparent



high degree of weight loss is deceiving due to the low sample



weights; that is, a 50 percent weight loss corresponds to approx-



imately 5 mg.




     The MSB and M5B-P400 probe rinse samples had average weight



losses of 75 and 62 percent after thermal treatment at 316°C.



These percentages correspond to approximately 30 and 15 mg,



respectively.



     As shown in Figure 4-2, most of the sample weight loss



occurred during heat treatment at 160°C (320°F).  During sub-



sequent heat treatments up to a temperature of 316°C (600°F), the




MSB and M5B-P400 filter samples had an average weight loss of



only 28 and 23 percent, respectively.  Similarly, the MSB and



M5B-P400 probe rinse samples had subsequent average weight losses



of 35 and 32 percent, respectively.



     The data in Table 4-10 indicate that very little additional



weight loss occurred between heat conditioning at 316°C and



400°C; in fact, several samples showed slight weight gains.  The



small weight differences observed are probably related to the low



magnitude of net weights.




     The data in Table 4-9 show the effect of heat conditioning



time on weight loss.   Although the data suggest that in most



cases one 6-h heating interval was sufficient to remove material






                              5-3
-------
volatile at a given temperature, it may not be the case for other



emission sources or for larger sample catch weights.



     Statistical data for grouped runs in Tables 4-4 and 4-5 show



the precision estimates for Methods 5B and M5B-P400.  For a given



group of two or four runs, the within-run agreement was expected



to improve after each stage of heat treatment due to further



elimination of sulfate biases.  Generally, the observed precision



was better after heating at 160°C, and for several samples, after




heating at subsequent temperatures.  The precision worsened in



some cases, however, probably as a result of increased sample



handling or because of the low absolute magnitude of net sample



weights.



     The mean standard deviation for all 10 MSB run groups was




3.9 mg/dNm3 at ambient conditions, which corresponds to a coef-



ficient of variation  (CV) of 21 percent.  Seven of the 10 groups



had a standard deviation equal to 2.2 mg/dNm3 or less, which



corresponds to a CV of 11 percent or less.  The four M5B-P400 run



groups had a mean standard deviation of 1.7 mg/dNm3 and a corre-



sponding CV of 14 percent at ambient conditions.  The enhanced



precision of the M5B-P400 run groups at ambient conditions was



expected due to the reduced bias of condensible sulfates in the



probe rinse samples.



     The mean standard deviation for the seven MSB run groups




heated to 160°C  (320°F) was 0.9 mg/dNm3 with a corresponding CV



of 12 percent, which indicated a significant improvement over



results at ambient conditions.  For the two M5B-P400 run groups






                                5-4
-------
heated to 160°C, the mean standard deviation and CV were 1.4



mg/dNm3 and 19 percent, respectively.



     Precision data for the seven MSB run groups heated to 232°C



(450°F) included a mean standard deviation of 1.3 mg/dNm3 and



a CV of 20 percent.  For the two M5B-P400 run groups, the average



standard deviation and CV were 1.8 mg/dNm3 and 29 percent, re-



spectively.




     Precision data for the 10 MSB groups heated to 316°C (600°F)



included a mean standard deviation of 1.3 mg/dNm3 and a CV of 25



percent.  Seven of the 10 run groups had a mean standard devia-



tion of 0.6 mg/dNm3 and a corresponding CV of 13 percent.  For



the four M5B-P400 samples, the mean standard deviation and CV



were 1.0 mg/dNm3 and 20 percent, respectively.  Three of the four



M5B-P400 runs, however, had a mean standard deviation of 0.5



mg/dNm3 and a corresponding CV of 10 percent.



     All of these statistical results indicate a high degree of



precision for the majority of samples.



     Results of the eight M5BW samples and within-run MSB samples



presented in Table 4-11 show the similarity between the two



methods.  The reported nonwater-soluble sulfate particulate



(NWSSP) values represent particulate concentrations corrected for



water-soluble sulfates determined by ion chromatography (1C).



The average NWSSP concentration (5.1 mg/dNm3) is essentially



identical to the average particulate concentration of the within-



run MSB samples heated to 316°C (4.8 mg/dNm3).
                              5-5
-------
     A maximum bias of 6 percent (low) could be introduced to the



NWSSP value determined by the 1C analytical procedure if all of




the collected particulate was water-soluble.  This is because the



aliquot removed for 1C analysis is equal to 6 percent of the



sample, and the NWSSP result is not corrected for particulate in



the aliquot that is water-soluble and non-sulfate.  The actual



amount of bias is independent of the water-soluble sulfate, but



depends on the makeup of the NWSSP.  The NWSSP can consist of



nonwater-soluble particulate (NWSP) and water-soluble particulate



that is not sulfate (WSPNS).  Extreme examples of these types of



materials would be sand (NWSP)  and sodium chloride (WSPNS).  If



the NWSSP consisted of 75 percent sand and 25 percent salt, the



NWSSP results reported using the 1C procedure would be biased low



by 1.5 percent (6 percent of the WSPNS).  For most boiler exhaust




gases the amount of WSPNS in the particulate, and the resultant



bias to the reported NWSSP,  should be relatively low.



     The close agreement between the MSB and M5BW samples sug-



gests that the volatile material lost during heating at 316°C is



also water-soluble sulfate,  which for fossil-fuel-fired boilers



is most likely sulfuric acid.



     This initial conclusion is altered by the results in Table




4-12.  These results indicate that a significant portion of the



particulate remaining in samples heat-conditioned to 316°C is



water-soluble sulfate.  Any adjustment to MSB results  (at 316°C)



for residual water-soluble sulfate would make them lower than



corresponding M5BW results,  thus indicating that a portion of the




                             5-6
-------
volatile material lost during heating was not water-soluble


sulfate.  Because of the low absolute magnitude of sample weights

and the relatively large number of analyses performed to achieve

these results, the apparent differences may be insignificant.  It


should be noted that these results are consistent with a similar

study at a fluid catalytic cracking unit regenerator with respect


to the occurrence of residual sulfates in samples heat-condi-


tioned to 316°C, yet inconsistent with the possibility that a

                                                            2
portion of the volatile matter was nonwater-soluble sulfate.
                              5-7
-------
                            SECTION 6




                        QUALITY ASSURANCE






     Because the goal of testing is to produce representative



emission results, quality assurance is one of the main facets of



stack sampling.  Quality assurance guidelines provide the de-



tailed procedures and actions necessary for defining and pro-



ducing acceptable data.  Four such documents were used in this



test program to ensure the collection of acceptable data and to



provide a definition of unacceptable data.  These documents are:



1) the source-specific Test Plan prepared by PEDCo and reviewed



by Emission Measurement Branch; 2)  the EPA Quality Assurance




Handbook Volume III, EPA-600/4-77-027, 3)  the PEDCo Environmental



Emission Test Quality Assurance Plan, and 4) the PEDCo Environ-



mental Laboratory Quality Assurance Plan.   The last two, which



are PEDCo's general guideline manuals, define the company's



standard operating procedures and are followed by the emission



testing groups and the laboratory groups.




     Appendix F provides more detail on the quality assurance



procedures, such as QA objective;  data reduction; quality control



checks;  performance and system audits; preventive maintenance;



precision,  accuracy, and completeness; corrective action; and



quality assurance reports to management.
                              6-1
-------
     Relative to this specific test program, the following steps

were taken to ensure that the testing and analytical procedures

produced quality data.

     0    Calibration of all field sampling equipment.   (Appendix
          E describes calibration guidelines in more detail.)

     0    Checks on train configuration and calculations.

     0    Onsite quality assurance checks such as sampling train,
          pitot tube, and Orsat line leak checks, and quality
          assurance checks of all test equipment prior to use.

     0    Use of designated analytical equipment and sampling
          reagents.

     Table 6-1 lists the sampling equipment used for quad train

particulate and S02 testing as well as the calibration guidelines

and limits.  In addition to the pre- and post-test calibrations,

a field audit was performed on the meter boxes used for the

sampling.  PEDCo constructed critical orifices for use in this

audit.   Figures 6-la through 6-ld show audit runs for each dry

gas meter used for testing.  Figures 6-2a and 6-2b show thermo-

couple digital indicator audit runs.  Figures 6-3a and 6-3b show

thermometer and thermocouple audit data collected during pretest

equipment checks.

     Between runs, onsite preliminary calculation checks were

performed to verify isokinetic sampling rates and to compare

moisture contents and other parameters with expected values.

These checks were used to ensure that the tests were conducted

properly.  An example isokinetic calculation sheet is shown in

Figure 6-4.

     As a check on the reliability of the method used, to analyze

particulate samples, sets of filters that had been preweighed in


                              6-2
-------
                                         TABLE 6-1.   FIELD  EQUIPMENT  CALIBRATION
Equipment
Meter box











Pi tot tube

Digital In-
dicator
Thermocouple
Orsat ana-
lyzer
Train
A


B


C


D


All
All
A&B
C&D
All
All

I.D.
No.
FB-4


FB-8


FB-3


FB-5


183
401
124
125
201
141

L. Calibrated
against
Wet test meter











Geometric spec-
ifications
Millivolt signals

ASTM-2F
Standard gas

Allowable
error
Y tO.02 Y
AH 0 tO. 15
(Y tO.05 Y post-test)









See Appendix E

0.5%

1.5%
±0.5*

Actual
error
+0.005
-0.09
-0.022
+0.009
-0.07
-0.012
+0.003
-0.09
+0.002
-0.002
+0.07
+0.002
OK
OK
-0.4%
-0.2%
+ 1.0%
+0.4%

Within
allowable
1 imi ts
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Comments












Visually Inspected on site
Visually inspected on site





en
-------
TABLE 6-1 (continued)
Equipment
Implnger
thermometers



Balance
Barometer

Dry gas ther-
meter






Probe nozzle















Train
A
B
C
D

All
All

A

B

C

D

A



B



C



D



l.D.
No.
Quad 1
Quad 2
Quad 3
Quad 4

M-l
317

FB-4 Inlet
FB-4 Outlet
FB-8 Inlet
FB-8 Outlet
FB-3 Inlet
FB-3 Outlet
FB-5 Inlet
FB-5 Outlet
1-08
1-06
2-11
2-03
1-11
1-02
2-10
2-01
1-12
1-01
2-09
2-02
1-09
1-04
2-12
2-07
Calibrated
against
ASTM-2F



Type S weights
NBS traceable
barometer
ASTM-2F







Caliper















Allowable
error
±2°F



*0.5 g
±0.10 in.Hg
(0.20 post-test)
±5°F







On ±0.004 in.















Actual
error
-6DF
-4°F
-10°F
-10°F

+0.4 g
0.00
In.Hg
-3°F
+ 1°F
+2°F
-3°F
-3°F
-3°F
+4°F
-2°F
0.000
0.003
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.002
0.002
0.001
0.001
Within
a 1 1 owab 1 e
limits
No
No
No
No

X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Comments
Detected out-of-calibration
limits during field audit.
Correction noted on field data
sheets. Replaced after test
series.



























-------
                        AUDIT REPORT DRY GAS METER
DATE: 	
BAROMETRIC PRESSURE (Pbar):
ORIFICE NO.
                                           CLIENT:
ORIFICE K FACTOR:
                     S~i W £.
in. Hg   METER BOX NO.
	   PRETEST  Y: _
~V      AUDITOR:
                                                                -~3
VP
Orifice
manometer
reading
AH

in H20
2,
-------
DATE:
AUDIT REPORT DRY GAS METER
                   CLIENT:
BAROMETRIC PRESSURE (Pbar): 2%',Qfar\. Hg V
ORIFICE NO. /O \
IETER BOX NO. f^ - ^
'RETEST Y: /ijP-^7
ORIFICE K FACTOR: V-7?f k/0'^ AUDITOR: f^e^t .

Orifice
manometer
reading
AH
in H20
M/

Dry gas
meter
reading
Yvf
n3
W.occ
'Z&ZQoo
Temperatures
Ambient
Tai/Taf
£ /
6>/
Dry gas meter
Inlet Outlet
VTif Toi/Tof
op op
VI LZ
In / 1
y i u? /"
Duration
of
run
0
min
fS'tO^S^

Dry gas
meter
volume
Vm
ft3
/I, ceo
Average temperatures
Ambient
Ta
°F
(*\
Dry gas
meter
Tm
°F
ft3
fV.r /Ot 7%
V Audit
mact
Y
ft3
H.ort i.ou
Y
deviation
~/:07
mstd
(17.647)( Vm )(Pbar + AH/13.6)
(Tm + 460)

Audit Y
Vm t
act
mstd

\ct
(1203)( 0 )( K )(Pbar)
(T + 460)!^
a

Y deviation, %
(Y audit - Y pre-test)(100%)

(Y audit)

 Audit  Y  must be in  the range,  pre-test Y i.0.05 Y
                  Figure  6-1b.   Audit report dry gas meter.
                                      6-6
-------
DATE:
          //- £J-
                        AUDIT REPORT DRY GAS METER
                                           CLIENT:
BAROMETRIC PRESSURE (Pbar): ,2£0Jin.  Hg    METER  BOX  NO.   /=ff-5~"
ORIFICE NO.      //	    PRETEST Y:    O> 9S V
                                 ~*       AUDITOR:     J1°
ORIFICE  K FACTOR:
V**. = 2&" 4 +
Orifice
manometer
reading
AH
in H20
/.7J-
Dry gas
meter
reading
Vvf
ft3
74>£>o*
<7/Z,?oo
Temperatures
Ambient
Tai/Taf
°F
6t
&(
Dry gas meter
Inlet
°F
^9
6 &-
Outlet
T ./T r
or -of
°F
63
63
Duration
of
run
0
min
££*?

Dry gas
meter
volume
V
m
ft3
?.?»
Average temperatures
Ambient
a
°F
61
Dry gas
meter
m
°F
^r
Vmstd
ft3
f), 3"r
Vm t
act
ft3
?,O
Audit
Y
*,ffr
Y
deviation
/.o
\td-
(17.647)( Vm )(Pbar + AH/13.6)
(Tm + 460)
7.5T7
Audit Y
Vm
Vmstd
^.ftr
Vm t
act
(1203)( 0 )( K )(Pbar)
(T + 460)1/2
a
?,r?^
Y deviation, %
(Y audit - Y pre-test)(100cO
(Y audit)
/«>
Audit Y must be in the range,  pre-test Y ±0.05  Y
                 Figure  6-lc.  Audit report dry gas meter.
                                     6-7
-------
DATE:
AUDIT REPORT DRY GAS METER
                   CLIENT:
BAROMETRIC PRESSURE (P
ORIFICE NO. /Jr
): >#4ihn

. Hq METER BOX NO. /^^
PRETEST y:
o.wr

ORIFICE K FACTOR: */,£*} I */0~Y AUDITOR: G^M^T

Orifice
manometer
reading
AH
in H20
W

Dry gas
meter
reading
Yvf
ft3
9ffaa
/kr /o L/V
Temperatures
Ambient
Tai/Taf
°F
; £/
} 6>/
Dry gas meter
Inlet
VTif
°F
U
(/Z
Outlet
VTof
°F
S~P
n
Duration
of
run
0
min
^rfr

Dry gas
meter
vol ume
Vm
ft3
/o,W
Average temperatures
Ambient
Ta
6/f
Dry gas
meter
Tn,
°F
V V
in m
std act
ft3 ft3
/ r\ 7 ^ If} / r~ i i /) f^-7/
(jUi/—j (^t&g i ( ^ f J f&
Audit
Y
/?W
Y
deviation
01
h
-,(?o
l^L
n,t
Vmstd
(17.647)( Vm )(Pbar + AH/13.6)
(Tm + 460)

Audit Y
m act
mstd

\ct
(1203)( 0 )( K )(Pbar)
(T + 460)!^
a


Y deviation, %
(Y audit - Y pre-test)(l
00%)
(Y audit)

 Audit  Y must  be  in  the  range,  pre-test  Y ±0.05  Y
                  Figure 6-1d.  Audit report dry  gas meter.
                                     6-8
-------
                 THERMOCOUPLE DIGITAL INDICATOR

                         AUDIT DATA  SHEET
 Date
Indicator  No.
Operator
Test Point
No.
1
2
3
4
Millivolt
signal*




Equivalent
temperature,
°F*
32.0
1&JL&
^M
HM
Digital indicator
temperature reading,
°F
fr
f(fr
it%
KM
Difference,
%
O.Oo
-0,ay
•rC.lo
+ o,tf
                                                                 -0,11


Percent difference must be less than or equal  to 0.5*.


Percent difference:


  (Equivalent  temperature °R- Digital indicator temperature reading °R)(100%)
                             (Equivalent temperature  °R)
Where °R =  *F + 460°F
  These  values are to be obtained from the  calibration data sheet for the
  calibration device.


        Figure 6-2a.  Thermocouple digital  indicator audit data  sheet.
                                    6-9
-------
                 THERMOCOUPLE  DIGITAL INDICATOR

                         AUDIT  DATA SHEET
Date  /AvZ.3-PJL   Indicator No.      1
                                                  Operator   \lf
Test Point
No.
1
2
3
4
Millivolt
signal*




Equivalent
temperature,
op*
7*;I,JL
H6-/.I
//*?
Digital indicator
temperature reading,
°F
3lf
/O^f
vr^.i
tIZf.J
Difference,
X
-0.37
^ -°<3?
^ -°,JT
2. -OJ?
Percent difference must be less than or equal  to 0.5Z.


Percent difference:


  (Equivalent  temperature °R -Digital indicator temperature reading eR)(100%)
                             (Equivalent temperature  °R)
Where °R =  °F  + 460°F
  These values are to be obtained from the  calibration data sheet for the
  calibration device.
      Figure 6-2b.   Thermocouple digital  indicator audit data sheet.
                                     6-10
-------
Audit Name:
ON-SITE AUDIT DATA SHEET


             Date:  (l/fr/fr
Auditor:
Equipment
Meter box
inlet thermo.
Meter box
outlet thermo.
Impinger
thermometer
Stack
thermometer
or
Thermocouple
Orsat
analyzer
Trip
balance
Barometer
Reference
rt «-
ASTM-3F atrD
ambient temp.,, i
ASTM-3F at f$ '
ambient temo*.
ASTM-3F at &
ambient temp.-g.
ASTM-3F at
ambient temp.
ASTM-3F at
stack temp.
% Og in
ambient air
IOLM std.
weight
Corrected*
NWS value
Reference
Value
. Cl
- u
1 (,(
- w
-JA__
Ll 	


20.88


Value
Determined
^
rv
£o
n
ff
~~~?7





Deviation
+3
-i
-/
-/
-C
-V





Max. Allowable
Deviation
5°F

5°F

2°F

7°F
See table
0.7%
0.5 grams
0.20 in. Hg
Reference temp. °F
Max. deviation °F
32-140
7
141-273
9
274-406
11
407-540
13
541-673
15
674-760
17
 * Correction factor:

     NWS value (in. Hg) - [Altitude (ft)/1000(ft/in.  Hg)] + 0.74 in.  Hg**

** 0.74 in. Hg is the nominal correction factor for the reference barometer
   against which the field barometer was calibrated.

If it is not feasible to perform the audit on any piece of equipment, record
"N/A" in the space provided for the data.

              Figure 6-3a.   On-site audit data  sheet.
                                    6-11
-------
                          ON-SITE AUDIT DATA SHEET
Audit Name:
                                       Date:   //- 23-32^ Auditor:
Equipment
Meter box
inlet thermo.
Meter box
outlet thermo.
Impinger
thermometer
— _ 	 __ /V^-r*^
b t a CK VT^****
thermometeV^*'
ur
Thermocouple
Orsat
analyzer
T^p, M£77Le&
balance
Barometer
Reference
ASTM-3F at^"5
ambient temp..*
FP-*
ASTM-3F atfff~*
ambient temp.
f=9-f
ASTM-3F at <=-
ambient temp.p
•ASTM-3F at <=•
Ambient temp.p
ASTM-3F at
stack temp.
% 02 in
ambient air
IOLM std.
weight
Corrected*
NWS value
Reference
Value
i^
• 6?
^ _\
^
6Y
te
--i£~
66

20.8%
5"(TCV_
T
Value
Determined
^3 	
^r
6*
6i
&