-------
TABLE 3-19. SUMMARY OF RESULTS USING 1-HOUR AND
24-HOUR AVERAGES, MARCH 8 TO APRIL 3, 1979
Ii O'ERAllMt OATS
tuMMAur or « SUITS
U>1NG I-H
LOCATIUNI ICKENaACREB AFB 1979
OATE: I- t-79
LOAD
Iff
OUT
I OF OAT*
MINIMUM
*UMUN
ITO.OEv.
I ITO.OEV.
10-OAT
toi
lev
I .
10 IN
4*9. «I4. Ik9.
«2. t9. t2.
4.7|« .«!) 47.4)0
ll.2«7 1.012 9k.l«0
7.2*9 l.ktO T7.012
.7*7 .«4* 7.484
10.101 (7.040 9.SAT
US1NC
OUl
NOTEI (MEAN) IS OtflNtu »s:
1
THE MEAN tOO I OATS USING T-NUUR AVIR1GIS
DATE
IO-T1
17-79
<20-7«
ZI-79
74.
10-79
11-79
. 1-79
- 4-79
- 1-79
AVEAAtES
I or OATA
MINIMUM
MAIJMUM
MEAN
TO.OEV.
I ITD.DEV.
LOAD
V.
g.
0.
V.
u.
0.
0.
0.
0.
V.
0.
0.
0.
*5 O'tNATINC OATS
SUMMART OF «tSUl'i
USIMt <
LUCATIUN:
OAUl J-
IN
2S. 2).
II. 7*.
7.2*7
l.«67
OUT
EfF
k.k26
k.tlk *
6.717 *
6.60S 2.17k
7.6IS I
7.*39
7.011
.6JJ
.0)4 *
.»)« 77.
.2*6 12.
.461 79.
.79) 7k.
,4«e 79.
k41 79.
.9) tl.
.20 II.
7.)0«
.21)
7!?)6
?!k«u
.1*9 kk.
6.971 *
k.JJU !
.491 17.)
.*«7 IU.U
.461 79.)
1 . 16.
4 . 42.
.14* k«.S9S
.1*9 «.?«}
.61)} 77.001
.12) ».»»b
JO-OAT REMOVAL EFUUNCT
2«
IMCAN) t , E t 7k.7741
SO IN OUl
OTEI (MEAN) U OEFINtO AS:
I
THE NfAN FOB I OATS USINt t-NUUN A»t*»tES
3-24
-------
These instances were caused by periods of CEM sampling interface
failing in the case of the affected parameter, but continuing to
operate in the case of the unaffected parameter. FGD efficiency
data could not be calculated in such cases.
Unrepresentative Process Operation
During periods when the FGD system was being operated in a
manner that did not reflect normal operational process control,
data were not included in the data listings. Where available,
they are listed in Appendix A, but were not used in calculations
concerning 1-hour and 24-hour averages of FGD performance.
Failure to Obtain a Sufficient Data Base for Computation
At least two 15-minute readings per hour were necessary for
an hourly reading to be computed in the initial data listing,
and at least eighteen 1-hour averages of a parameter were needed
for data to be included into the summaries of 1-hour and 24-hour
results.
3.2.3 Process Operations Affecting SO^ Emission Rates
Inlet Emission Rates
Inlet S02 emission rates were affected primarily by the
sulfur content of the coal burned. Peabody Coal Company and
Yancy Minerals supplied the coal through the end of the test.
The data collected can be viewed as representative of a mixture
of coals from both vendors.
3-25
-------
Outlet Emission Rates
Outlet SO- rates reflect FGD system efficiency, which varied
according to the limestone feed rate. Section 4 describes the
FGD process and control practices.
3.3 DATA CAPTURE AND LOSS
Table 3-20 lists the daily hours of data capture and loss
from January 22 to April 4, 1979, and Table 3-21 summarizes
process and CEM operations. The performance of the FGD system
and CEM affected data capture and are described below.
3.3.1 FGD System Performance
Total operating data showed that FGD system availability,
reliability, utilization, and operability were all 92.8 percent;
however, 140.5 hours (8.0 percent of the total FGD system oper-
ating time) was not regarded as representative of normal process
control and was excluded from the data base.
3.3.2 CEM Performance
CEM Operability
Total data from January 22 to April 4, 1979 show that CEM
inlet operability was 94.3 percent, outlet operability was 79.7
percent and total system operability (concurrent operation of
inlet and outlet monitors) was 76.0 percent.
CEM Downtime--
A breakdown of the causes for inlet and outlet data losses
due to CEM failures is shown in Table 3-22.
3-26
-------
TABLE 3-20. DAILY DATA CAPTURE AND LOSS
(hours except as indicated)
Data
day
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Date
in
1980
1-22
1-23
1-24
1-25
1-26
1-27
1-28
1-29
1-30
1-31
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
2-10
Normal
process
operation
4
8.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23
24
24
24
Process
downtime
(abnormal
operation)
14
15.5
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
Inlet
data
capture
4
24
24
24
22
21
24
23
24
24
20
24
18
23
24
24
23
24
24
24
Outlet
data
capture
4
0
8.25
24
22
21
24
23
24
24
20
24
23
24
24
24
23
24
24
24
Efficiency
data
capture
4
0
8.25
24
22
21
24
23
24
24
20
24
18
23
24
24
23
24
24
24
02
monitor
downtime
0
0
0
0
2
0
0
1
0
0
4
0
1
0
0
0
0
0
0
0
so?
monitor
downtime
0
0
3.75
0
2
3
0
1
0
0
0
0
6
1
0
0
0
0
0
0
Sampling
interface
downtime
0
24
15.75
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
OJ
I
K)
(continued)
-------
TABLE 3-20 (continued)
Data
day
No.
18
19
20
21
22
23
Date
in
1980
2-11
2-12
2-13
2-14
2-15
2-16
2-17
2-18
2-19
2-20
2-21
2-22
2-23
2-24
2-25
2-26
2-27
2-28
2-29
3-1
3-2
Normal
process
operation
24
24
24
24
12
24
24
24
24
14
0
6
24
24
24
24
8
8
0
24
24
Process
downtime
(abnormal
operation)
0
0
0
0
12
0
0
0
0
10
24
18
0
0
0
0
16
16
24
0
0
Inlet
data
capture
24
24
24
24
12
23
10
24
24
12
0
6
12.5
5
24
17
8
8
0
21
24
Outlet
data
capture
15.5
13
9
14
12
23
10
20
21
9
0
6
12.5
5
24
17
8
8
0
21
24
Efficiency
data
capture
15.5
13
9
14
12
23
10
20
21
9
0
6
12.5
5
24
17
8
8
0
21
24
02
monitor
downtime
0
0
0
0
0
0
0
0
0
0
0
0
11.5
19
0
7
0
0
0
2
0
S02
monitor
downtime
0
0
0
0
0
1
0
0
3
3
0
0
0
0
0
0
0
0
0
3
0
Sampling
interface
downtime
0
10
15
10
0
0
14
4
0
0
0
0
0
0
0
0
0
0
0
0
0
OJ
I
N>
00
(continued)
-------
TABLE 3-20 (continued)
Data
day
No.
24
25
26
27
28
29
30
31
32
33
34
35
36
Date
in
1980
3-3
3-4
3-5
3-6
3-7
3-8
3-9
3-10
3-11
3-12
3-13
3-14
3-15
3-16
3-17
3-18
3-19
3-20
3-21
3-22
3-23
Normal
process
operation
24
24
24
24
24
24
24
24
24
14
24
24
24
24
24
24
24
24
24
24
24
Process
downtime
(abnormal
operation)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Inlet
data
capture
24
24
24
24
24
24
24
24
24
24
16
14
24
24
24
24
24
24
24
24
24
Outlet
data
capture
24
24
13
10
24
4
0
24
24
10
24
24
24
24
24
24
24
24
24
23
22
Efficiency
data
capture
24
24
13
10
24
4
0
24
24
10
16
14
24
24
24
24
24
24
24
23
22
02
monitor
downtime
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
S02
monitor
downtime
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Sampling
interface
downtime
0
0
11
14
0
20
24
0
0
14
0
0
0
0
0
0
0
0
0
0
2
U)
I
N)
(continued)
-------
TABLE 3-20 (continued)
Data
day
No.
37
38
39
40
41
42
Date
in
1980
3-24
3-25
3-26
3-27
3-28
3-29
3-30
3-31
4-1
4-2
4-3
4-4
Normal
process
operation
24
24
24
24
24
24
24
24
24
24
24
9
Process
downtime
(abnormal
operation)
0
0
0
0
0
0
0
0
0
0
0
0
Inlet
data
capture
24
24
24
24
17
16
24
24
24
24
24
9
Outlet
data
capture
19
0
15
24
17
16
14
19
24
24
22
9
Efficiency
data
capture
19
0
15
24
17
16
14
19
24
24
27
9
02
monitor
downtime
0
0
0
0
0
0
0
0
0
0
0
0
S02
monitor
downtime
0
10
0
0
7
8
0
0
0
0
2
0
Sampling
interface
downtime
0
14
9
0
0
0
10
5
0
0
0
0
u>
I
U)
o
-------
TABLE 3-21. SUMMARY OF PROCESS AND CEM OPERATIONS DURING TEST
Parameter
Hours
Total time in operating period
Total boiler operating time
Total FGD system operating time
Total time of representative FGD system operation
Total inlet data capture time
Total outlet data capture time
Total efficiency data capture time
0? monitor downtime
S0? monitor downtime
Inlet sampling interface downtime
Outlet sampling interface downtime
Simultaneous downtime of inlet and outlet sampling
interface
FGE system downtime
Boiler downtime
Total time of unrepresentative FGD system operation
1755.25
1755.25
1604.5
1604.5
1535.5
1298.25
1238.25
47.5
54.75
0
240.25
0
150.5
0
0
3-31
-------
TABLE 3-22. MAINTENANCE RECORD OF MONITOR COMPONENTS
Component
460 S02
WDG III
Recorder
Sample interface
Miscellaneous
Total
Failure
Vacuum loss
Aspirator installation
Cell windows
Balston filter
Plugging
Writing gear
Plugging
Leaking
Air supply
Power failure
Routine calibration
Data hours
9
1.5
2
4
3.5
57
173
1.5
17
6
14
Subtotal
16.5
3.5
57
174.5
37
288.5
3-32
-------
CEM Problems
The only apparently unsolvable problem that occured with CEM
operations was the recurrence of outlet probe filter pluggage.
The remedy for the problem was replacement of probe filters when
they showed signs of plugging, but this was generally an unsatis-
factory solution because pluggage frequently occurred at night,
when CEM operators were not present. Large periods of data loss
in excess of 6 hours per 24-hour day resulted. Two major factors
contributed to the high incidence of this problem:
1. High mist carryover from the FGD process through the
test period. This was evidenced by a very obvious
rainout downwind of the stack and heavy accumulations
of wet slurry on the outlet probe.
2. Oil in the probe filter blowback air supply. This was
noticed regularly during the test period, and probably
contributed to the unusually high incidence of probe
pluggage.
3.4 QUALITY ASSURANCE
A quality assurance (QA) program was performed to support
the reliability of the data between initial P/S testing and
completion of data collection. In addition to the records of
CEM operation summarized in Subsection 3.3, manual methods tests
for system relative accuracy and CEM moisture values.
3.4.1 System Relative Accuracy Tests
System relative accuracy tests were performed at the comple-
tion of the test period. The results of the QA system relative
accuracy tests are presented in Tables 3-23 to 3-25.
3-33
-------
TABLE 3-23. RELATIVE ACCURACY OF INLET S02 ANALYZER
(ppm of S02)
Run
1
2
3
4
Date
3/30/79
3/30/79
3/30/79
3/30/79
Reference
method
859
741
781
734
Analyzer
ppm weta»b
803
695
840
742
Analyzer
ppm dryc
821
711
860
759
Difference
-38
-30
79
25
Mean reference method = 779 ppm
Mean difference = 9 ppm
CIg5 =86.6 ppm
Accuracy = 12.3%
Mean moisture = 2.2%.
Analyzer reading = 15 minute interval
c Analyzer, dry (analyzer, wet) x
100
100 - (mean moisture)
3-34
-------
TABLE 3-24. RELATIVE ACCURACY OF OUTLET SO- ANALYZER
(ppm of S02)
Run
1
2
3
4
Date
4/3/79
4/3/79
4/3/79
4/3/79
Reference
method
190
160
205
255
Analyzer
ppm wet3''3
169
177
183
251
Analyzer
ppm dryc
182
191
197
271
Difference
-8
31
-8
16
Mean reference method
Mean difference
Accuracy
202.5 ppm
7.8 ppm
30.5 ppm
18.9%
Mean moisture = 2.2%.
Analyzer reading = 15 minute interval.
Analyzer, dry = (analyzer, wet) x
100
100 = (mean moisture)
3-35
-------
TABLE 3-25. RELATIVE ACCURACY OF 0~ ANALYZER
(percentge of CO
Test
1
2
3
4
5
6
Date
4/3/79
4/3/79
4/3/79
4/3/79
4/3/79
4/3/79
Method 3
% dry
15.9
15.3
15.5
12.7
16.4
15.0
Analyzer
ppm weta»b
15.2
15.3
15.7
13.8
16.3
15.3
Analyzer
ppm dryC
15.5
15.6
16.0
14.1
16.6
15.6
Difference
-0.4
-0.3
-0.5
-1.4
0.2
-0.6
Mean difference = -0.5%
CI95 = 0.57%
Accuracy = 1.07%
Mean moisture = 2.2%.
Analyzer reading = 15 minute averages.
c Analyzer, dry = (analyzer, wet) x
100
3-36
-------
3.4.2 CEM Sample Moisture Determination
The CEM moisture values used in calculations were determined
from manual tests and checked to ensure that they did not exceed
the lowest dewpoint before analysis in the 02 and SO- monitors.
The values are presented in Tables 3-26 and 3-27.
3-37
-------
TABLE 3-26: INLET MOISTURE TESTS USING
REFERENCE METHOD 4
(percentage of moisture)
Date
2/4/79
2/4/79
2/4/79
2/10/79
3/22/79
3/30/79
Test 1
2.7
2.9
2.7
3.6
2.8
2.4
Test 2
3.8
3.1
3.4
3.6
1.8
2.5
Test 3
3.9
3.1
3.6
3.4
1.1
1.6
Average
3.5
3.0
3.2
3.5
1.9
2.2
TABLE 3-27. OUTLET MOISTURE TESTS USING
REFERENCE METHOD 4
(percentage of moisture)
Date
1/31/79
2/1/79
2/10/79
3/21/79
4/5/79
Test 1
7.8
9.9
7.9
4.2
3.4
Test 2
8.6
8.4
9.8
9.3
2.7
Test 3
10.8
8.7
10.9
7.7
2.5
Average
9.1
9.0
9.5
7.1
2.9
3-38
-------
SECTION 4
PROCESS DESCRIPTION
4.1 PHYSICAL PLANT
Table 4-1 lists process information.
4.1.1 Boiler System
The boiler system consists of six industrial-size boilers
designed to supply high-temperature water for building and water
heating at the base. The five older boilers are rated at 30 x
6 6
10 Btu/h, and the newer boiler is rated at 60 x 10 Btu/h. The
boilers are stoker fired, with coal spread on under-air-flow per-
forated grates and burned at a typical ash bed depth of 3 to 5
inches. Grates are mechanically rotated in all but the oldest
operating boiler to remove ash to the pneumatic disposal system.
Ash must be removed manually from the grate of the oldest unit in
operation.
4.1.2 FGD System
The FGD system consists of a mechanical collector, Swedish
Bahco scrubber tower, lime storage and handling system, clarifier
(thickener), booster fan, sludge disposal pond, and associated
duct work, pumps, and controls.
Untreated flue gas from the individual boilers enters a
common header equipped with a bypass stack and is fed through a
mechanical collector where primary particulate removal takes
4-1
-------
TABLE 4-1. PROCESS INFORMATION FOR RICKENBACKER AIR FORCE BASE
Installation name
Installation location
Fuel characteristics
Total rating
Number of separate F6D units
Number of boilers
Source capacity
Control system vendor
Control process
Type of FGD system
Startup date
Control system status
SOp removal efficiencies
Particulate removal efficiency
Water makeup
Sludge or byproduct disposal
Rickenbacker Air Force Base (Rickenbacker
Air National Guard Base)
Columbus, Ohio
Coal (3.6% sulfur)
55,000 scfm
1
6
210 x 106 Btu/h
Research-Cottrel1/Bahco
Limestone or lime scrubbing
Retrofit
March 1976
Operational
90%+ design with lime operation; lower
with limestone operation
98% design
Open loop
Unstabilized CaS03/S04 sludge to lined
pond
4-2
-------
place. The mechanical collector has a design removal efficiency
of 70 percent and was installed primarily to reduce wear on the
booster fan, which is located immediately downstream. Figure 4-1
is a series of photographs of the FGD system. The fan introduces
the partially cleaned flue gas into the scrubbing tower where S0«
removal takes place.
The scrubber is a vertical tower consisting of two inverted
venturi scrubbing stages. Untreated gas is introduced into the
first stage, where it is diverted downward to impinge on the
liquid slurry surface of the mill. The gas then rises through
the first stage venturi, where it intimately mixes with the slurry
droplets now entrained in it. The partially scrubbed gas is then
diverted downward onto the liquid slurry surface in the second
stage pan, and the process is repeated. The treated gas is then
directed upward into a cyclonic mist eliminator where entrained
slurry droplets are removed, and then emitted through a stub
stack to the atmosphere.
The reagent for the scrubbing system is normally a fine mesh
limestone although pebble lime slurry was utilized as reagent for
initial testing conducted by Research Cottrell. The limestone is
mixed with water and added directly to the slurry in the dissolv-
ing tank.
The spent scrubbing solution is discharged to the thickener
where waste solids settle out. Thickener overflow is returned
to the mixing tank. Underflow from the thickener is discharged
to a 5-acre Hypalon-lined disposal pond located approximately
4-3
-------
r
UPPER LEFT: CENTRAL HEAT PLANT
LOWER LEFT: MECHANICAL COLLECTOR AND FORCED-DRAFT FAN
UPPER RIGHT: REAR VIEW OF R-C/BAHCO FGD UNIT
LOWER RIGHT: FGD CONTROL PANEL
Figure 4-1. Photographs of central heat plant and FGD system at
Rickenbacker Air Force Base.
4-4
-------
400 feet from the FGD system. Figure 4-2 is a flow diagram of
the Research-Cottrell (R-R)/Bahco scrubbing system.
4.2 BACKGROUND INFORMATION
4.2.1 Boiler System
Seven stoker-fired boilers, each rated at 31 x 10 Btu/h
capacity were originally installed between 1954 and 1956. In
June 1977, a new stoker-fired boiler rated at 60 x 10 Btu/h came
into service to replace two of the older units, which have now
been demolished.
4.2.2 FGD System
The FGD system was retrofitted to the boiler system and was
placed in service in March 1976. It was manufactured by A.B.
Bahco Ventilation of Enkoping, Sweden, and installed by Research-
Cottrell. Following initial testing using lime as a scrubbing
reagent, it has operated mainly on cheaper, less reactive lime-
stone, because such operation was sufficient to meet local re-
quirements for SO removal.
4.3 PROCESS CONTROL DURING TEST
4.3.1 Boiler System
During the test the boiler system was operated in normal
fashion. Generally, three to five boilers were sufficient to
meet heat demand during the period, with the remainder on standby
status.
Coal for firing was loaded through underground transfer
chutes from the reserve coal pile or coal delivery trucks.
4-5
-------
REAGENT
SYSTEM
MODULE
THICKENER
SLUDGE
TO POND
REAGENT
FEEDER
AND SLAKER
LIME OR
LIMESTONE
TRUCK
UNLOADING
STATION
OVERFLOW
TO LIME
DISSOLVING
TANK
MIST ELIMINATOR
2ND STAGE
MECHANICAL
COLLECTOR
FLUE GAS
FROM HEAT
PLANT
TO FLY ASH
DISPOSAL
2ND
LIME STAGE PUMP
DISSOLVING
TANK
MILL
PUMP
Figure 4-2. R-C/Bahco scrubbing system flow diagram.
-------
The coal was transferred to silos, before loading to the gravity
hoppers at the boiler stokers.
4.3.2 FGD System
During the test period, the limestone feed rate from storage
to the slaker and adjustment of pressure drop across scrubber
stages were the only significant controls having an effect on SO
removal efficiency.
4-7
-------
SECTION 5
CONTINUOUS EMISSION MONITORING SYSTEM DESCRIPTION
The CEM consisted of an S0_ monitoring system permanently
installed at the plant with an 02 monitor temporarily installed
for the purpose of the test. Additional changes made to the
existing system included repositioning the inlet and outlet
probes to ensure sampling from centroid cross sectional areas of
the ducts, installation of recorders with greater data resolution
than existing equipment, and installation of a calibration gas
delivery system. Figure 5-1 shows sampling locations in regards
to FGD process, and Figure 5-2 is a simplified schematic of the
CEM. This section describes the CEM components.
5.1 SAMPLING INTERFACE
The monitoring system utilized a DuPont 460 instrument sys-
tem to provide the extractive sample from both sampling loca-
tions. Sample gas was pulled through a stainless steel mesh
filter screen inside the duct through a heated probe equipped
with a blowback system, and into a heated teflon sample line.
Figure 5-3 is a wiring schematic of probe blowback system and
Figure 5-4 is a series of photographs showing sample probes after
repositioning. The samples were then drawn to the monitor,
which was located in the FGD systemcontrol room at ground level.
5-1
-------
STACK
MIST ELIMINATOR
OUTLET PROBE
nm\
BYPASS
MAKEUP
STACK
MECHANICAL
COLLECTOR
FLUE GAS
FROM HEAT
PLANT
ANALYZERS
CALIBRATION TANKS
Figure 5-1. Sampling locations after modifications.
5-2
-------
G
5t
n
_, SAMPLE cm ,_
| 1
J L
uv
IMP
If
FLCWIETEP,
1
o?
ANALT2E"
A
SW'.E LINE B
SAMPLE FLOb
8LEED AID
| ZERO AIR
| CONT AIR
Figure 5-2. Flow diagram of Dupont 460 S02 analyzer with
Thermox WDG III 02 analyzer.
5-3
-------
BLOWBACK
ACTIVATOR
OUTLET
UU 1 LL. 1
SAMPLE
LINE
(NO. 2)
115 V.
(TB14-3)
GROUND]
(TB14-1)
SAMPLE SELECT
NO. 1 (TB12-1)
£
INLET
SAMPLE
LINE
(NO. 1)
P
RELAY
tC 1 1
t _ _ . 1 1
M
MXI
\Jfcj
L.* THREE-WAY
-_L VALVE
- <-*iV
L-rA
SOLENOIDS D
VALVE (NOj C
100 PSIG A
BLOWBACK
0 ACTIVATOR
-cl~l
T. *tl I
M.^1
WfJ
^A THREE-WAY
___^ J_ VALVE
i TA
SOLENOID *T*
VALVE ]_
^NC' 100 PSIG
SWITCH
OUTLET
SAMPLING
PROBE
(NO. 2)
= DEACTIVATE
= COMMON
= ACTIVATE
INLET
SAMPLING
PROBE
(NO. 1)
Figure 5-3. Wiring schematic for blowback assembly.
5-4
-------
UPPER LEFT: EXTERNAL VIEW OF INLET PROBE (INSULATED)
LOWER LEFT: INTERNAL VIEW OF INLET PROBE
UPPER RIGHT: OUTLET PROBE SHELTER
LOWER RIGHT: INTERNAL VIEW OF OUTLET PROBE
Figure 5-4 Photographs of probe placement after modification.
5-5
-------
The differentiation between sampling the two different sample gas
streams was controlled automatically on a 10-minute cycle by the
DuPont unit. A sidestream sample for the oxygen monitor was
taken from the unit in a flow fashion parallel to the SO- anal-
ysis cell. The sample dewpoint was controlled by temperature-
constant mist knockout traps upstream from S02 and 02 analysis.
The dewpoint of SO- samples were held at a maximum of approxi-
mately 120°F and 5 in. Hg vacuum; O- sample dewpoints were held
at a maximum of 68°F and 5 in. Hg vacuum.
5.2 S02 MONITOR
The SO- monitor was a DuPont 460 analyzer, which measures
SO- by ultraviolet spectrophotometry. This is accomplished by
drawing a sample into a windowed cell, passing ultraviolet light
through the sample, and measuring the photometric output obtained
in a wavelength specific to SO- absorption. Inlet and outlet
samples are differentiated by electronic track and hold circuits
that are actuated by the timing mechanism that controls the
sample flow. An automatic zeroing system operated on the sample
cycle, correcting for fluctuations and drift every 10 minutes.
5.3 02 MONITOR
The 0- monitor was a Thermox WDG III analyzer, which mea-
sures 02 by electrochemical means across a heated zirconium oxide
cell. Sample gas flow was provided by the DuPont 460 unit. The
inlet and outlet sample streams were differentiated by the oc-
currence of a purge function in the 10-minute cycle, which showed
as an off-scale spike on the recorder chart.
5-6
-------
5.4 RECORDERS
Leeds and Northrup Speedomax recorders were used to collect
the data for the SO- and 02 monitors. A dual-point recorder was
used for the S02 data; a single-point recorder, for the 0- data.
The recorders were located in the FGD system control room with
the analyzers. Time-marked charts were used to simplify data
reduction.
5.5 CALIBRATION SYSTEM
A calibration system was used that included certified cali-
bration gas cylinders and a valving system to facilitate intro-
duction of gases to the CEM sampling interface. Zero, midscale
(50% scale), and span (90% scale) gas concentrations were pro-
vided for the ranges used in analysis (0 to 500 ppm S02, 0 to
5000 ppm S0_, and 0 to 25% O«).
5-7
-------
SECTION 6
PROCEDURES AND CALCULATIONS
6.1 CONTINUOUS S02 DATA COMPUTATIONS
Sulfur dioxide data computation was performed with a Hewlett-
Packard 3000 computer system. Raw data were loaded into the
program, and complete listing of emission rates and scrubber
efficiencies were printed out for the entire test period.
6.1.1 Activities Before Computer Run
Keypunch Card Preparation
Raw data were reduced and transcribed onto load sheets for
keypunching onto computer cards. Additional cards were prepared
to identify the data listings by location and date and to pro-
vide comments explaining cause and duration of data loss.
Comment cards were prepared by reference to CEM operator's
logs and strip charts. Raw data load sheets, containing 15-
minute listings of S02 and 02 data and moisture, calibration
data, and boiler information were prepared in the following
manner:
1. The S02 and 02 data were determined by processing raw
strip charts through the use of a data digitizing
device, which converted recorder deflections to digi-
tal values. The operation was manually performed,
with readings for inlet and outlet S02 and 02 being
obtained and transcribed on a 15-minute basis.
6-1
-------
2. Moisture determinations for each parameter were en-
tered on the basis of availability of test data.
Separate determinations were entered for inlet and
outlet S02 and 02. Separate determinations were also
made for S02 and 02 analysis, because the 02 monitor
operated with an ambient temperature sample line,
which tended to remove some moisture.
3. Changes in monitor calibration caused by 24-hour drift
were compensated for by entering span gas readings for
each parameter on a 6-hour basis. These readings were
interpolated from calibration information.
4. Boiler heat rates were taken from plant operating
records, which contained summarized heat production
rates in terms of 106 Btu/h. These were calculated by
plant personnel as a determination from total boiler
pressure and temperature differentials. The values
were transcribed onto the load sheets on an hourly
basis.
Other Computer Entries
Calibration entries and boiler heat units were entered into
the program before data runs to differentiate the computation
from runs of other data using different values. Calibration
entries needed were assays of the span gases used to obtain the
readings keypunched with the data. The boiler heat unit entry
signalled the proper heading for the listing of heat rates to be
106 Btu/h.
6.1.2 Computation and Listing of Data
Data computation was performed once the cards were loaded
into the program, and listings were produced. Separate listings
were produced for 15-minute S02 and 02 readings; 1-hour average
inlet emission rate (Ein), outlet emission rate (Eout), and
removal efficiency (Eff); and 24-hour average Ein, Eout, and
Eff. Listings also included total averages for 1-hour and
24-hour Ein, Eout, and Eff.
6-2
-------
15 Minute Listings
Complete 15-minute listings were prepared from the informa-
tion loaded on the cards. These listings presented the follow-
ing information:
1. Heading, identifying the source and date on each page
of listings.
2. Raw CEM data, corrected for calibration, but on a wet
basis, presented on a 15-minute basis.
3. Moisture data for each gas stream in percent H20,
presented on a 15-minute basis.
4. Corrected CEM data, calculated by multiplying raw data
by the quantity 100/(100-M), where M equals the mois-
ture percent.
5. Average Ein, Eout, and Eff, calculated on an hourly
basis from average corrected S02 and 02 data. The
following equaitons were used:
Ib S02/106 Btu = (ppm S02 d) (9820)(1.64 x 10~7 ) x
(20.95)
(20.95 - % 02dry
where 9820 = bituminous coal factor for dscf/106
Btu, utilizing excess air factor
1.64 x 10~7 = conversion of ppm S02 to Ib S02/dscf
20.95
(20.95 - % 02dry)
= excess air factor
~ff _ Ein - Eout , ,_ , Ox
Eff = =rj x 100 (Eq. 6-2)
Two data points per hour were needed for a calculation
to be performed. Equation 6-1 was used to calculate
Ein and Eout, and Equation 6-2 was used to calculate
Eff.
6. Boiler information, printed in 106 Btu/h on an hourly
average basis.
6-3
-------
7. Comments, printed as entered in the appropriate loca-
tions to identify data loss periods.
8. Data loss periods, signified by repetition of previous
listed number, or with the printing of ### symbols.
1-Hour and 24-Hour Listings and Averages
Hourly averages of Ein, Eout, and Eff and boiler heat rates
were obtained from calculations performed during computation of
15-minute listings. These were compiled to form hourly and
daily listings of data on a 1-hour and 24-hour averaging basis.
Each listing was summarized in a brief statistical format that
listed the data quantity base, minimum and maximum values, mean,
and standard deviation for each parameter. Total test averages
were grouped into time periods determined by a 30 day limitation
on data averaging. The individual listing and averaging pro-
cedures are described below:
1. Hourly listings were compiled for each 24-hour calen-
dar day with statistical determinations performed for
each parameter that had an occurrence of 75 percent or
greater (eighteen 1-hour averages per 24-hour day).
For each parameter that met the 75 percent data cap-
ture condition, the hourly and daily averages were
stored for future computation.
2. The total hourly averages from periods of 75 percent
data per day were run through statistical determina-
tions for each parameter. These computations were
performed for the groupings determined by the 30-day
data computation limitation. For determination of
30-day data, data days were included that listed 18 or
more hours of data capture for any parameter (exclud-
ing heat rates), even if FGD efficiency was not deter-
mined during a particular day.
3. The 24-hour listings and averages were performed for
the 30-day data groupings described above. All data
representing 18 or more hours of data capture per day
of Ein, Eout, or Eff were listed. Statistical deter-
minations were performed on the 30-day data groupings
independently and presented following each listing.
6-4
-------
6.2 PERFORMANCE SPECIFICATION TESTING
The P/S test procedures and calculations were in accordance
with guidelines specified by Performance Specifications 2 and 3
in the Federal Register, Vol. 44, No. 197, October 10, 1979.
Manual Methods 3 and 6 were performed to complete system rela-
tive accuracy tests. In addition to the procedures outlined
below pertaining to the performance of these tests, procedures
were needed to ascertain CEM outputs correctly. The procedures
and calculations employed for determining CEM outputs in the
field are outlined in Section 6.5.
6.2.1 Calibration Gas Certification
All S02 and 02 calibration gases were traceable to NBS
standards. The procedures for establishing traceability are
outlined below.
Sulfur Dioxide Calibration Gas Certification--
The S02 calibration gases were supplied with certificates
of analysis from the vendors establishing that the gases were
analyzed by an acceptable instrument technique using calibration
with NBS standards.
Oxygen Calibration Gas Certification
The 02 midrange (12%) was analyzed by ORSAT (EPA Method 3)
and found to have a value within 5 percent of the vendor's tag
value. The tag value was thus certified as acceptable. Ambient
air was used as an 02 span value calibration gas and needed no
certification testing to establish its oxygen concentration.
6-5
-------
6.2.2 Conditioning Period
The conditioning period was noted as beginning once the
complete CEM, as described in Section 5, was determined to be
fully operational. After 168 hours of continuous operation
without modification or maintenance except as specified as
routine and/or necessary by the CEM analyzer manufacturers, the
period was deemed successfully completed.
6.2.3 Operational Test Period
Because of the extensive nature of the P/S testing (involv-
ing two complete sets of tests) and the short period of data
acquistion (spanning less than 2 months), no distinct period of
168 hours was set aside, and the entire period of data acquisi-
tion was involved in operation testing. The QA testing was in
providing continuity between initial and final P/S testing. The
P/S tests procedures followed during this period are outlined
below.
Calibration Error--
Both operational ranges of the S02 monitor and the single
operational range of the 02 monitor were involved in this test.
Calibration values of midrange and span gases were used as
determined in Section 6.2.2. The individual checks were per-
formed by running zero, midrange, and span gases in random order
through the monitors until five complete sets (15 data points)
for each operating range were obtained. Figure 6-1 presents a
sample data sheet and the equations used to determine calibra-
tion error.
6-6
-------
Run
no.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
IS
CVMbratlon gas
concentration,
ppm
A
NNSurcncnt tjrttew
reading,
ppm
B
Arithmetic Mean *
Confidence Interval
Calibration Error
Arithmetic
difference*,
ppm
A-B
Mid
High
Arithmetic Mean (AM) =
95% Confidence
Interval (CIg5)
Calibration Error
|AM|
RV
where
"0.975
x = arithmetic difference, ppm
n = number of data points
RV = calibration gas concentration, ppm
t value as shown below
na
2
3
4
5
6
t0.975
12.706
4.303
3.182
2.776
2.571
na
7
8
9
10
11
t0.975
2.447
2.365
2.306
2.262
2.228
na
12
13
14
15
16
10.975
2.201
2.179
2.160
2.145
2.131
Values are already corrected for n-1
degrees of freedom; use n equal to
the number of individual values.
Figure 6-1. Sample data sheet and equations for the determination of
calibration error.
6-7
-------
System Response Time
Both S02 operating ranges and the single 02 operating range
were checked for response time. The procedure entailed the
alternating introduction of zero and span gases into the system
and the recording of elapsed time between introduction and a
stable reading. During the tests, gases were introduced to the
sampling interface at the probe mountings, so that the response
time included any lag caused by the sample line length. Gas
flow rates during these tests were consistent with normal
sampling procedures. Three sets of zero-to-span and span-to-
zero checks were performed for each parameter. Response from
either span or zero calibration gas to flue gas was not used
because of minute-to-minute variability of flue gas readings,
leading to inconsistent results. Figure 6-2 presents a sample
data sheet and the equations used to determine system response
time.
2-Hour Zero and Calibration Drift--
Both S02 operating ranges and the single 02 operating range
were tested to determine 2-hour drift. The strategy was to
introduce consecutively zero and span gas at 2-hour intervals
until 15 sets of data were obtained. Figure 6-3 presents a
sample data sheet and the equations used.
24-Hour Zero and Calibration Drift
Both S02 operating ranges and the single 02 operating range
were tested to determine 24-hour drift. Initial readings were
6-8
-------
Date
Nigh-level
ppm
Test Run
1
2
3
Average
Upscale,
m1n
A
Downscale,
mfn
B
System Response Time (slower of A and B).
mln.
Average
Zx_
n
IA-B
(Slower of A and B) x 10° - 15%; otherwise retesting is required.
where
x = individual response, minutes
n = number of test runs (3)
Figure 6-2. Sample data sheet and equations for determination of
system response time.
6-9
-------
Dttl
let
1
2
10
11
12
13
14
IS
tet*
T1
Begin
End
Zero Ug
In1t. Fin.
A
T
Arithmetic Mean
lonfldence Interval
Zero Drift
Zero
drift
t-t-A
Ml-levtl
Kdg
n1t.
D
F1n.
E
Span
drift
F-E-0
Callbritton
Caltb.
drift
OF-C
drift
Arithmetic Mean (AM) = .
95% Confidence
Interval (Clg5)
Zero or Calibration
Drift (S02 monitor)
Zero or Calibration
Drift (62 monitor)
n
Zero RV
Calibration Rv
g .
0.25
|AM| + Cl
95
RV
x 100
(|AM| + C195) x 0.25
individual drift, %
number of data points (15)
total scale, % (100)
calibration gas assay multi-
plied by 100 and divided by
the range, ppm
t value as shown below
conversion of % scale to % 0,
nd
2
3
4
5
6
t09?5
12.706
4.303
3.182
2.776
2.571
n"
7
8
9
10
11
10.975
2.447
2.365
2.306
2.262
2.228
na
12
13
14
15
16
^.975
2.201
2.179
2.160
2.145
2.131
Values are already corrected for n-1
degrees of freedom; use n equal to
the number of Individual values.
Figure 6-3. Sample data sheet and equations for determination of
2-hour zero and calibration drift.
6-10
-------
obtained for each 24-hour period by calibrating each instrument
and recording the zero and span readings after calibration.
Final readings were obtained by recording the precalibration
zero and span readings on the following day. A complete set of
data for 24-hour drift determination consisted of seven consecu-
tive 24-hour drift determinations. Figure 6-4 presents a sample
data sheet and the equations used.
System Relative Accuracy--
System relative accuracy tests consisted of comparing CEM
and reference method determined parts per million SO and 02
concentrations.
The CEM determinations were obtained by utilizing inte-
grated averages of monitor output. Reference method deter-
minations were obtained using Methods 6 and 3 for S02 and 02.
Moisture determinations were performed to enable comparison of
CEM and reference method results on a dry basis. Guidelines
provided by Performance Specification 2 in the Federal Register,
Vol. 44, No. 197, October 10, 1979, were followed.
1. Reference Method 6 samples were collected in an inte-
grated sampling train from a probe situated in the
same cross-sectional centroidal area (<5% stack dia-
meter) as the CEM probe tip. Reference Method 3 bag
samples were collected from the same sampling point.
2. Nine conccurrent Reference Method 3 and 6 tests were
performed to complete each set of system relative
accuracy data. At any given sampling site (inlet or
outlet of FGD system), no more than one test per hour
was allowed. The tests were performed when the CEM
was in the normal data collecting mode, without inter-
ference from 2-hour drift, calibration error, response
6-11
-------
D*t<
set
no.
1
Z
3
4
5
6
7
Date
T1m
Begin
"
»
End
Zen
Inlt.
A
Rdq
Fin.
B
Arithmetic Mean
Confidence Interval
Zero drift
Zero
drift
C'B-A
Hi-level
ltd?
Inlt. Fin.
0
L
Spin
drift
F-E-D
Calibration
drift
Callb.
drift
G-F-j
Arithmetic Mean (AM) =
95% Confidence
Interval (CI
g5
Zero or Calibration
Drift (S02 monitor)
Zero or Calibration
Drift (02 monitor)
|AM| + CI
95
RV
x 100
where
(|AM| + CI95) x 0.25
x = individual drift, %
n = number of data points (7)
Zero RV = total scale, % (100)
Calibration RV = calibration gas assay multi-
plied by 100 and divided by
the range, ppm
t0 g75 = t value as shown below
0.25 * conversion of % scale to % 0?
n"
2
3
4
5
6
^.975
12.706
4.303
3.182
2.776
2.571
na
7
8
9
10
11
t0.975
2.447
2.365
2.306
2.262
2.228
na
12
13
14
15
16
t0.975
2.201
2.179
2.160
2.145
2.131
Values are already corrected for n-1
degrees of freedom; use n equal to
the number of individual values.
Figure 6-4. Sample data sheet and equations for determination of
24-hour zero and calibration drift.
6-12
-------
time, or 24-hour calibration tests. Samples were
synchronized with CEM 10-minute sampling cycles to
allow three separate CEM measurements to be averaged
for each test.
3 . The CEM data were determined from recorded strip
charts in terms of S02 and 02 concentration on a wet
basis. Three readings of each were averaged for each
test. Reference moisture data were used (after
correction for CEM dewpoint) to convert CEM S02 and 02
readings to a dry basis. Emission rates in terms of
Ib S02/106 Btu were then determined by Equation 6-1.
The CEM and reference method data and calculated
emission rates were recorded, and correlations were
determined on data sheets. Figure 6-5 presents a
sample data sheet and the equations used to determine
system relative accuracy.
6.3 DETERMINATION OF FACTORS ACCOUNTING FOR DATA CAPTURE AND
LOSS PERIODS
6.3.1 FGD Determinations
Operability, reliability, availability, and utilization
represent different facets of FGD system operations, including
excursions, in terms of percentages. The calculations used to
determine them are presented below:
i r>r^v--,K-; n -i-i-rr - hours FGD operated ,nn
1. Operability - hours boiler operated x 10°
2. Reliability = hou^called "^tf operate * 10°
3. Availability = hours FGD^apable^of .operation x ,
4. Utilisation = x 100
For data capture, only normal operations were considered,
and FGD excursions were excluded. Operability as determined by
this limitation is calculated as follows:
Normal Operability = Operability - [ (h °ns> x 100]
6-13
-------
Run
no.
1
2
3
4
S
6
7
8
9
10
11
12
Date and
tine
Average
so2
_»<
M IfHff
ppm
Confidence Interval
Accuracy
°?
«H|M
S02
RM
M hiff
ass/GCV
RM - reference method result; M - monitoring system result; and
mass/GVC - mass per gross caloric value, lb/10& Btu.
Average (A)
95% Confidence
Interval
(CIg5)
. 0.975
Accuracy
RV
x 100
where
"0.975
x = individual result
n = number of data points
RV = average of reference method results
t value as shown below
na
2
3
4
5
6
^.975
12.706
4.303
3.182
2.776
2.571
na
7
8
9
10
11
'0.975
2.447
2.365
2.306
2.262
2.228
na
12
13
14
15
16
V975
2.201
2.179
2.160
2.145
2.131
Values are already corrected for n-1
degrees of freedom; use n equal to
the number of individual values.
Figure 6-5. Sample data sheet and equations for determination of
system relative accuracy.
6-14
-------
6.3.2 GEM Operability Determinations
Inlet operability represents the capability of the CEM
inlet sampling system to gather data. The determination in-
cludes data capture during periods of excursions and is calcu-
lated as follows:
OEM inlet oparability = {£?^ %££$* . 100
Outlet operability represents the capability of the CEM
outlet sampling system to gather data. The determination does
not consider FGD operation during excursions and is calculated
as follows:
PFM nutlet - (hours of outlet data) -, nn
operability ~ (FGD hours - hours of excursions x 10°
6.4 QUALITY ASSURANCE
The QA procedures were designed to provide the most consis-
tency with P/S procedures that was practicable. The system
relative accuracy tests were performed in the same manner as in
P/S testing.
Moisture determinations were performed in the same manner
as during P/S testing and, because of the wet gas CEM analysis
system, provided a vital data parameter for final data listings.
The QA tests are described below.
6.4.1 System Relative Accuracy Tests
The system relative accuracy tests were performed by
virtually the same test procedures outlined in Subsection 6.2.3.
6-15
-------
6.4.2 Moisture Determinations
Manual Method 6 test moisture data gathered during P/S and
QA testing provided the base for moisture determinations.
Providing accurate values for use in correcting CEM data re-
quired assaying the mositure at the point of analysis; thus,
removal of moisture between extraction from stack and analysis
had to be accounted for. This was done according to the fol-
lowing equations:
percent moisture = lowest of A or B (Eq. 6-3)
where A = stack moisture, percent
B = dewpoint moisture, percent
percent dewpoint moisture = partial pressure of H20 a+t 10Q
^ v pressure of system
(Eq. 6-4)
where t = lowest temperature of interface
before analysis point
pressure of
system = 25 in. Hg
Equations 6-3 and 6-4 had to be applied to each monitor as well
as to each gas stream, because the monitor configuration
resulted in different lowest-point temperatures in the 02 and
S02 sampling interfaces. In all cases the lowest calculated
moisture value was reported. The lowest temperature of the 02
monitor interface was room temperature (68°F) because unheated
lines were used to transfer sample gas to the 02 monitor. The
lowest temperature of the S02 monitor interface was measured on
6-16
-------
a daily basis at the mist knockout traps provided with the
DuPont 460 system and generally exceeded 100°F. System pressure
was assumed to be 25 in. Hg for determining partial pressure of
moisture, based on 5 in. Hg vacuum and 30 in. Hg average atmo-
spheric pressure.
6.5 DETERMINATION OF CEM OUTPUT IN THE FIELD
The values used to convert raw data to final output read-
ings in terms of emission rates had to be determined in the
field to provide data for performance specificaiton and QA. It
was important that the field values be accurately determined and
reflect the values transcribed for the final listings (Subsec-
tion 6.1) in order that field test data reflect the quality of
the final data listings. The procedures used for reducing CEM
data in the field are outlined below:
6.5.1 Reading of Raw Strip Charts
Scale deflection percentages were read from strip charts
and used without conversion to parts per million of S02 or
percentages of 02 for system response and drift tests. For
calibration error and system relative accuracy tests, conversion
of scale deflections to parts per million of S02 and percentages
of 02 was necessary. The scale deflections (averages of three
points for system relative accuracy) were multiplied by the
appropriate span gas assay and divided by the last previous span
gas reading to make this conversion, as indicated by the
following equation:
6-17
-------
ppm S02 or % 02 = reading, % of scale x (Eq. 6-5)
assay of span gas
span gas reading, % of scale
6.5.2 Determination of Dry Concentrations
Dry S02 and 02 concentrations had to be determined to
correlate GEM and manual methods data during system relative
accuracy tests. This was accomplished by multiplying raw data
values by the factor 100/(100 - M), where M is the appropriate
moisture content. The M value for inlet S02 and 02, were deter-
mined as discussed in Subsection 6.4.2.
6-18
-------
APPENDIX
1-HOUR DATA LISTINGS, AND
DATA FREQUENCY DISTRIBUTIONS
-------
OA1LT SUMMARY OP RESULTS
LOCATIONI RICKENBACKER APB
OATCI i-22-79
TIN!
Itt
200
LOAD
Iff
IN
OUT
400
9*0
400
700
00
900
1000
HOO
1200
ISOO
1400
1300
1*00
1700
1000
1*00
2000
aioo
MOO
ilOO
f»M
*
**
**U9
*
l*f»
9999
17
71
0
9999
9999
9999
9 999999
9 999999
9 999999
9 999999
9 999999
9 999999
9 999999
7.811
6. 019
0.407
99*999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
3.
13.
7.011
B.40?
* 999999
9 999999
9 999999
999999
999999
999999
999999
999999
999999,
999999
S.9S9
3.740
3.*SO
999999:
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999
999999 :
3.
13.
3.»IO
3.«39
999999
999999
999999
99999
99999
99999
99999
99999
99999
99999
49.6
93.2
9*87
99»»*
99999
99999
99999
99999
99999
99999
99999
99999
99999
99999
99999
99999
99999
3.
13.
49.97*
9*. 720
999999
999999
999999
I Of BAT*
MINIMUM
MAXIMUM
MIAN
STO.OCtf.
OTD.OIV.
24-HOUR RIMOVAU CUCIINCT UBIN0
t
«NfAN* , I I .0001
t IN PUT
NOTt» 4MCANI It OCPINCO AM
I
TMfi MSAN POR 8 OAT8 U8INO 7=MOU» AVERAGES
-------
OAILT SUMMARY OF RESULTS
LOCATION! RICKENBACKER AM 1*79
OATEI 1-23-79
LOAD
TINI
0
190
100
300
400
900
400
700
00
900
1000
1100
1100
1300
1*00
1900
1*00
1700
1AOO
1900
200*
2100
am
2100
AVEM8I8
I Of DATA
MINIMUM
MAXIMUM
MIAN
TD.OEV.
I 8TD.OIV.
24-HOUR REMOVAL EFICIENCY USIN0
1
fNCAMI 1,1 I .OOOS
1 IN OUT
Iff
OUT
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
i«
too
0
0
0
0
I
000000
*»«
00»«*0
0*0000
«*«*
«*««»*
******
0*0000
000000
0*0000
000000
*««»»
******
000000
000000
000000
7.344
«M»M
4.977
7.47*
7.39*
4.920
7.237
7,090
7.
19.
4.910
7.474
00010
000000
1 000000
000000
000000
0*0000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
0.
0.
000000
.000
000000
000000
000000
00000
00*00
0**0*
*****
*****
*****
*****
*****
*«*
' *****
*****
*****
*****
»»»*
«*«
*****
00***
**
0****
««*
0000*
00000
0*000
00000
0.
0.
000000
.000
0000*0
******
»*«*
NOTCI IMEANI It DCriNEO All
X
THE MEAN FOR X OAV8 USIN8 V-HOUR AVERA6ES
-------
DAILY SUMMARY OP RESULTS
LOCATION! RICKENBACKER API 1*79
DATE! 1-14-79
TINE
tOAO
IN
OUT
EPP
200
sot
400
900
*00
700
00
900
1000
1100
1200
1500
1400
tsoo
UOO
1700
iaoo
1*00
2190
1
'
1
01
01
01
r.o2t
r.iti
.3*1
.11*
.044
.203
.»*2
.272
.443
.642
,"!
.320
10000
10000
1*000
10000
.520
.324
.291
.237
.2*7
.3**
.03*
.tM
00000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000-
000000.
000000
000000
2.90*
2.799
2.499
2.714
2,729
2.*»r
1.947
2.6A2
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
43.9
47.3
49.0
44.4
4S.4
SO. 2
»1.3
47.9
am
AVIRAtM
f OP DATA
MINIMUM
MAXIMUM
MEAN
TD.DIVk
t STD.DEV.
14-HOU* MMOVAL EPICICNCT U0IN6
1
«MEAN| E , E I 0000001
1 IN OUT
24
100
0
0
0
0
0001
20.
03.
5.059
0.642
6.201
1.04S
» 16.643
0.
1.
1.947
2.909
000000
000000
000000
0.
33.
4S.05T
61.510
000000
000000
000000
NOTE* tMEANI IS DEPINEO A$l
X
TMI< MEAN POR X DAYS U0IN8 Y-MOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFi l*T9
DATE! 1-25-79
LOAD
IN
TIMI
0
100
2*0
100
00
soo
600
700
SOO
900
1000
tioo
1200
1SOO
1400
1SOO
1*00
1TOO
1SOO
1900
2000
2100
2200
2100
AVERA8E*
I Of DATA
MINIMUM
MAXIMUM
MEAN
STD.OfV.
I STD.DEV.
24-HOUR REMOVAL EFICIENCY USIN0
1
IMSANI ' E , I I 4S.012I
1 IN OUT
EFF
OUT
24
too
0
0
0
0
5.227
5.091
.2*3
.299
.750
.19*
.291
.243
.374
.52*
.677
.*ss
.557
.3*9
.435
.5*0
.454
.47*
.515
.528
.594
.641
.742
.**4
24. 2
100. 10
5.0*1
5.750
5.4*7
.7**
.73*
.41*
.2*5
.51S
.373
.42S
.305
.549
.3**
.500
.27*
.592
.29S
.393
.*42
.95*
.000
.119
.040
.027
«123
.204
.041
.
.
.2*5
.592
.04!
.IS* .392
»»»* 3.451 1S.S02
47.1
4*. 3
54.
57.
5*.
54.
54.
5*.
52.
57.
54.
42.
15.
10.
17.
52.
45.
41.
43.
44.
45.
45.
42.
4*.
24.
100.
35.3**
57.2*1
48.002
6.558
13.*40
NOTEI tMCANl IS DEFINED ASt
X
THE MEAN FOR X DAYS U8IN8 Y-MOUR AVERA6E8
-------
DAILY SUMMARY OF RI8ULTS
LOCATIONI RICKENIACKE* AFI 1970
OATCI 1-24-79
TIMt LOAD I I IFF
IN OUT
i.
too
aoo
300
400
500
00
700
00
900
1000
1100
iaoo
1300
1400
1500
1400
1700
1*00
1900
t, *«
i aioo
4^ aaoo
asoo
0 AVfRAtlt, »
» OF OAtA 100
MINIMUM 0
MAXIMUM 0
MAN 0
TOkOlV. 0
0
0
.47a
.445
.441
.420
.535
.493
.44*
.470
.77*
.049
0000 0
0000 0
.025
.59
.935
.7*5
.741
.10
.725
.92*
.04
.720
!
.430
.005
51
.73*
.77*
.710
.507
.520
.470
.40*
.407
00*0%
70
.905-
.29
.705
.755
.775
.455
.434
.11
.700;
.557
22. . aa.
oa, oa.
5,440 2,455
7.0*3 3.0*5
.273 2.490
.595 .155
ff OTO.DCVk 00000 9.479 5,737.
45.
49.
51.
50.
51.
54.
53.
54.
54.
57.
0000
0000
59.
57,
59.
40.
59.
59.
43.
42.
40.
59.
59.
"
aa.
92.
45.400
43.49*
54.434
4.441
.230
14-NOUfl REMOVAL EFICIENCT USINO
1
ONEANI t , f I S4,0»7I ,
t IN OUT
NOTIt «MtANI IS OEFINCO Atl
1
TNfi MIAN FOR I DAT! UOINS Y-MOUR AVERA6ES
-------
DAILY SUMMARY OF RESULT8
LOCATIONI RICKEN0ACKER AF8 197*
OATH 1-27-79
LOAD
IN
TINE
0
190
aoe
300
400
900
400
700
00 *
too
1000
110*
1200
1300
|AOO
1500
1*00
1700
1600
WO
200i
210t
2200
am
AVCRA8E8
S OP DATA
MINIMUM
MAXIMUM
MIAN
8TO.DEV.
* STD.OEV.
24-HOUR RIMOVAL EFICIENCY U8IN6
1
INEANI E , I I 71.0S6S
t IN OUT
IFF
OUT
0
0
24
too
0
0
0
0
.988
.901
.938
.923
.243
.082
.855
14
.148
.987
.945
.951
.443
.834
.574
.153
.072
.097
.480
.312
.224
.275
.443
.325
.217
.933
,030
.319
****** MM**
****** MMM
****** MMM
.514 2.124
.5*2 2.040
.7*4 1.945
.535 2.070
.493 1.796
.441 1.615
.400 1.671
21. 21.
a. .
5.400 1.224
7.2*3 2.574
4.485 1.877
.498 .371
MM* 10. 75k 19.649
43.
48.
TO.
49.
T*.
81.
82.
81.
79.
81.
48.
72.
49.
44.
MM*
MM*
MM*
41.5
42.5
44.1
42.4
47.3
64.8
45.4
21.
88.
61.470
82.138
70.587
4.991
9.904
NOTE I IMEAN1 18 DEFINED AS!
X
THE NEAN FOR X DAYS U8IN6 Y-HOUR AVERAGES
-------
DAILt SUMMARY OP RESULTS
LOCATIONS RICKENSACKER AFi
OATCt 1-20-79
TIM
100
200
100
400
500
*00
700
000
900
1000
1100
1200
1100
1400
1500
1*00
1700
1000
1900
2000
1100'
2200
MOO
0 AVttAMS
( OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OtV.
I STO.MV.
LOAD
IN
OUT
EFF
.2*8 1
.271
.200
.12*
.300
.414
.972
3*3
.1*4
.0*1
.853
.051
.004
.901
.334
.353 i
.53* .
.3*0 i
.410 i
,404 i
.320 <
.370 i
,445 i
.144 I
1,713
,*2S
,*2*
.*!
.554
,535
.**5
,*s«
,»S7
750
,*i5
.091
.041
.77*
.0*0
1,312
t.41*
1,37*
t,4«4
I.S71
1.330
1.334
1,211
1.300
*7.
**.
*.
*o.
71.
71.
74.
73.
74,
70.
*7.
**.
**.
**.
70.
*I.
*3.
*2.
*l.
5*.
*3.
*3.
*5.7
*3.7
14. 24. 24. 24.
100. 100. 100. 100.
0. 5.12* 1,515 59.0*0
0. *.S72 2,571 74.732
0. fc.OU 1.950 *7.5*5
0. .475 .347 4.210
»»»»» 7.0*5 1F»70* *.23l
24-HOUR REMOVAL EFICIENCT USINO
I
IMIANt E « E I *7.4S4I
I IN OUT
NOTE! 1MANI IS DEFINED ASS
B
TMB MEAN FOR K DAYS USIN6 V»HOUR AVERAGES
-------
OAILT SUMMARY OF RESULTS
LOCATIONI RICKENBACKCR AFi 19T9
DATEI 1*19-79
LOAD
IN
TIM
t
199
299
199
499
999
499
TO*
90
999
1999
1199
1299
1199
1499
1999
U99
1799
1999
1999
1999
t!99
2299
1199
-AVIUMIt
f Of OAT*
MINIMUM
MAXIMUM
MIAN
TD.DIV.
I 9TD.OIV.
24-MOUR REMOVAL EFICIENCY U9IN8
1
MIAMI I , I I 49.2S4C
t IN OUT
OUT
Iff
^399
.330
.404
.394
.297
.431
.437
.919
.970
* 9
.949
.021
.991
.900
.974
.931
.923
.041
.042
.999
.999
.144
.32*
.479
.911
.4S3
.394
.274
.204
.290
.391
.242
.010
f *«
.409
.344
.999
.990
.493
.447
.271
.441
.941
.739
.949
.929
.794
42.0
40.7
40.0
43.2
44.4
45.0
44.9
44.4
45.4
49.1
f *M f
59.4
40.7
54.7
36.0
59.0
50.4
41.7
99.4
97.7
94.3
92.9
90.7
94.0
24
199
9
9
9
9
99991
21.
94.
9.999
4.437
4.201
.290
4.031
29.
94.
«. 41*
3.929
2.441
.229
9.252
23.
94.
99.79T
49.299
40.140
4,497
7.479
NOTC* iMfAMI It OIFINEO Alt
X
TNI MEAN FOR X OAT8 USIN0 V-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKER AFB 1979
OATCt 1-30-79
TIME
0
too
200
300
400
500
600
700
aoo
400
1000
1100
1200
1300
1*00
1500
1*00
1700
iaoo
1900
> 2000
I 2100
CT> 2200
2300
AVERA0E8
I OF DATA
MINIMUM
MAXIMUM
MEAN
TD.OEV.
STD.DEV.
LOAD
EFF
IN
OUT
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
.231
.1*7
.969
.906
.696
.496
.400
.110
.933
.611
.373
.490
.367
.073
.246
.344
.172
.147
.247
.300
.266
.329
.367
.350
2.968
2.904
2.775
2.672
2.573
2.469
2.322
2.656
2.860
2.704
2.862
2.846
2.619
2.745
2.559
2.639
2.535
2.591
2.346
2.664
2.476
2.543
2.596
2.439
52.4
52.9
53.
54.
54.
55.
58.
56.
51.
59.
55.
56.
56.
54.
59.
56.
58.
57.
62.
57.
60.
59.
59.
61.
24. 24, 24. 24.
100. 100. tOO. 100.
0. 5.496 2.322 51.451
0. 6.611 2.966 62.405
0. 6.158 2.642 57.050
0. .274 .172 2.950
*«« 4.448 6,516 5.171
24-HOUR REMOVAL EFICIENCY U8IN6
1
(MEANI E , E I S7.101X
1 IN OUT
NOTEI CMEANJ 19 DEFINED A8I
8
THE MEAN FOR X DAYS USIN6 V-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENSACKER AFi 1079
OATH 1-31-79
TIN!
0
100
100
100
00
900
too
700
000
000
1000
1100
laoo
isoo
1400
ISOO
1*00
1700
1000
1900
2000
2100
2100
2100
AVERAOI8
I Of DAT*
MINIMUM
MAXIMUM
MEAN
OTD.OEV.
I STO.OfV.
LOAD
Iff
IN
OUT
24
100
0
0
0
0
MMff
.239
.290
.277
US
.Ml
.194
.0*3
.204
.170
.321
.229
.143
.230
.101
.000
.391
.293
.277
.3*4
.330
.339
.304
.343
.199
.0*0
019
*77
.*o*
.433
.43*
.249
.71*
*9S
.7*9
.031
.797
.710
.931
.300
.*4*
.227
.969
.090
.734
.*03
.901
.030
.022
97.
90.
97.
97.
99.
*o.
*2.
9*.
9*.
9*.
94.
99.
9*.
90.
62.
90.
40.
99.
99.
9*.
97.
94.
92.
94.
4.
too.
9.901
*.3*4
6.220
.109
1*60*
24. 24.
100. 100.
2.249 40.709
3.227 62.902
2.606 96.007
.219 3.062
0.010 9,303
14-HOUR REMOVAL EFICIEMCV UOINB
1
(MEANI I , C I 96.063X
1 IN OUT
NOTEI (MEAN) 18 DEFINED AOf
X
THE MEAN FOR X DAY* UOINO Y-HOUR AVERA6E8
-------
OAILV SUMMARY OF RESULTS
LOCATION* RICKENBACKER APS 19T9
OATH 2- 1-79
LOAD
IN
TIM
It*
200
see
oo
900
too
TOO
00
900
1000
1100
1200
1300
1*00
1500
1*00
1700
1000
1900
3,2000
12100
--1200
2500
AVERASIS
I Of DATA
MINIMUM
MAXIMUM
MIAN
STO.OIV.
I STO.OCV.
4«MOUft REMOVAL EFICIENCY U8IN8
1
IMIANI E , E t 48.9831
1 IN OUT
Iff
OUT
01
01
01
01
1
1
<
i
.13*
.135
.150
.153
.261
.348
.020
.279
.329
.374
.336
.215
.261
.475
.494
.940
10000 01
10000 01
110000 01
10000 01
1.879 :
k.21S J
k.4S6 I
t.299 :
.001
.748
.961
.200
.219
.128
.174
.345
.427
.317
.241
.177
.004
.215
.142
.434
10000
10000
10000
F0000
1.184
1.140
1.529
1.67*
51.
55.
53.
48.
48.
SO.
47.
46.
45.
48.
48.
48.
52.
50.
51.
50.
00000
00000
00000
0000
45.8
49.5
45.3
41.6
4
too
0
0
0
0
0001
20.
83.
5.879
6.940
6.298
.213
1 3.385
20.
83.
2.748
3.676
3.21S
.209
6.496
20.
83.
41.646
55.204
48,969
3.106
6.343
NOTII IMEANJ IS DEFINED AS!
X
THE MEAN FOR I DAYS USINS V-MOUR AVERABES
-------
DAILT SUMMARY OP RESULTS
LOCATION! RICKENBACKER AFB 1979
OATEI 2- 2-79
TIMI
100
200
300
400
SOO
600
700
00
900
1000
1100
1200
1300
1400
1500
1600
1700
1100
1900
2000
2100
2200
2300
AVERA0CI
t OF DATA
MINIMUM
MAXIMUM
MEAN
8TO.DEV.
I ITO.DEV.
LOAD
IN
OUT
EPF
273
.296
.390
.359
.307
.395
.252
.465
.463
.265 i
.231 i
.138
.054
.973
.039
.066
.163
.196
.249
.203
242
.337
.339
.315
.113
.149
.209
.059
.240
.653
.366
.714
.166
'.647
!.676
(.632
.759
.941
.671
.999
.760
.661
.663
.060
.902
.025
.816
.140
34.4
34.1
34.1
36.
32.
42.
30.
27.
35.
54.
53.
53.
54.
50.
55.
50.
55.
53.
54.
50.
53.
52.
55.
50.
24. 24. 24. 24.
too. 100. too. 100.
0. 9.971 2.671 27.306
0. 6.465 4.714 55.781
0. 6.253 3.377 46.117
0. .132 .666 9.S91
«»» 2.114 19.7S5 21.446
24-MOUR REMOVAL EFICIENCV U8IN6
1
IMEANI E , E I 4S.997S
1 IN OUT
NOTE I IMEANI IS DEFINED ASt
X
TME MEAN FOR X DAYS U8IN6 Y-HOUR AVERAGES
-------
DAILT SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFi 1979
OATCI 2- 5-79
TIMI
100
too
900
400
500
too
TOO
SOO
%00
1000
1100
1200
1300
1400
1900
1600
1700
1SOO
1900
> 2000
I 2100
oo 2200
230*
0 AVIRAMS
I OP DATA
MINIMUM
MAXIMUM
MKAN
STD.OEV.
I STD.DEV.
LOAD
EFF
IN
our
.
9
0.
0.
0.
0.
0.
0.
0.
0.
0. 01
0. <
0. 01
0. 01
0. 01
0. 01
0. 01
.277
.336
.237
.271
.206
.122
.081
.234
.329
.317
.331
.211
.285
.241
.331
.345
.074
10000 0
k.7oe
10000
10000
10000
10000
10000
.927
.766
.707
.158
.816
.167
.259
.232
.316
.409
.138
.233
.881
.836
.930
.853
.934
0000
.125
.828
.415
.773
.772
.947
S3.
56.
56.
65.
54.
48.
46.
48.
47.
46.
50.
48.
54.
54.
53.
55.
51.
00000
53.4
00000
00000
00000
00000
00000
24. 18. 23. 18.
100. 75. 96. 75.
0. 6.074 2.158 46.043
0. 6.708 3.409 65,581
0. 6.278 2.931 52.474
0. .137 .289 4.753
00000 2,176 9.853 9.059
24-HOUR REMOVAL EFICIENCY USIN6
1
CNEANi E , E I 53.3081
1 IN OUT
NOTEI WEAN! IS DEFINED ASf
X
THE MEAN FOR X DATS U8IN6 V-HOUR AVERA6ES
-------
DAILT SUMMARY Of RE8UtT$
lOCATIONI RICKEN8ACKER AFi 1*?*
OATEl 2- 4-7*
LOAD
IN
TIM'
0
100
200
SOO
400
SOO
600
700
600
*0*
1000
1100
1200
1300
1400
1900
1*00
1700
isoo
1*00
2000
2100
2200
2300
* AVERAtIO
I Of DATA
MINIMUM
MAXIMUM
MIAN
TO.OIV.
I 8TO.DCV.
24-MOUR REMOVAL EUCIENCY U8IN6
I
iMfANI t t I I 47.71*»
I IN OUT
OUT
4
160
0
*
*
0
01
a:
*<
i
4
<
)«
.062
.137
.161
.206
.430
.3*6
.377
.42*
.300
.377
.141
.067
.07*
.300
.2*9
.473
.464
.630
.633
.667
.660
.847
.766
1. *
b. 10(
k.07* :
b.060
k.3»* :
.249
1.630 <
.022
.191
.126
.33*
.362
.391
.236
.309
.33*
.283
.160
.226
.281
.236
.221
.164
.307
.103
.6*6
.693
.719
.694
.696
.627
1.
).
1.022
1.719
1.344
.206
k.210
0
46.
4*.
49.
49.
47.
4*.
, 46.
48.
47.
90.
47.
46.
46.
48.
4*.
. 46.
92.
44.
44.
44.
46.
46.
46,
3.
*6.
44.292
92.143
47.937
I .*27
4.093
NOTII INtANJ It DEFINED A6*
I
TME MEAN tOH I DAYS U8IN8 V-HOUR AVERA0E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER APS 1*79
DATE! 2- 5-79
I
ID
TIMt
t
tot
208
300
00
SO*
*00
700
00
900
toot
not
1200
not
1400
1900
1*00
1700
1*00
1900
2000
2100
2200
2300
0 AVERAGES
S OP DATA
MINIMUM
MAXIMUM
MEAN
STO.OEV.
S STO.OIV.
LOAD
IN
OUT
Iff
24
180
0
0
0
0
00000
.091
.820
.637
.754
.851
.941
.962
.174
.410
.73*
.915
.141
.646
.970
.*58
.710
.666
.5*1
.362
.5*5
.994
.556
.518
.446
.»T9
.339
.299
.373
.4*1
.493
.739
.004
.120
.474
.930
.836
.973
.099
.1*6
.299
.291
.414
.303
.2*9
.206
.167
.236
.146
46.
91.
50.
50.
49.
49.
46.
44.
44.
42.
42.
40.
47.
55.
52.
51.
51.
48.
46.
SO.
54.
51.
50.
51.
24.
6.382
6.141
*.931
.459
24. 24.
100. 100.
3.099 40.9*7
4.838 55.53*
3.5*0 48.812
.464 3.753
13.*03 7.669
24-HOUR REMOVAL EFICIENCV U8IN6
1
(MEANI ' E * E I 46.6321
1 IN OUT
NOTEI IMBAN) IS DEFINED ASl
I
THE MEAN FOR I DAYS U8IN6 t-HOUH AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENSACKER AFI |0»9
OATEt 2- *-79
LOAO I E EFF
TIN*
100
too
300
1 400
900
too
700
SOO
400
1000
1100
1200
1300
1400
1900
UOO
1700
1SOO
t»00
too*
2100
2100
asot
AVlRAtU
OF oaf*
MINIMUM
MAXIMUM
NtAN
TD.OI₯.
1 STO.MV.
24-HOUR REMOVAL EFICIENCY USINS
1
MIAMI t t I I 94.0101
1 IN OUT
IN
*
*
*
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
' 0
1
1
1
Jl
ISO
o
1
g
1
.9*1
.914
.092
.137
.42*
.*92
,*99
,4S9
.922
,661
.312
3S9
,2S*
,2*4
.303
.3*1
.092
.007
.379
.7SJ
.910
.11*
.491
7.*9S
as.
100,
*.007
7.*9*
*.790
.90*
99999 7*49*
OUT
3.219
3.992
3.729
3.91*
3.S99
4.247
3.1*3
3.379
3.007
i. 600
2.731
3. 020
3.619
3.1*9
2.669
2.S4*
2.731
2.729
2.70*
3.044
2.707;
2.717
2.01*
2,799
24.
100.
2.*00.
4.247
3.121
.470
19.071
91.
4S.
47.
49.
40.
44.
92.
94.
9*.
*2.
96.
92.
42.
49.
97.
99.
94.
94.
97.
99.
60.
61.
*2.
*4.
24.
100.
42.900
*4.021
94.000
6,017
11.142
NOTII IMfAN) It OfPINCD ASf
X
TMI MEAN FOR X DAYS USINS t-MOU* AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION: RICKENBACKER AFB 1979
OATEl 2" 7-79
TIME
0
too
ZOO
300
400
500
600
700
600
900
1000
1100
1200
1300
1400
1900
1600
1700
1800
1900
> 2000
I 2100
M 2200
0 2300
AVERAGES
X OF DATA
MINIMUM
MAXIMUM
MEAN
STD.OEV.
1 STO.DEV.
LOAD
IN
OUT
aa-HOUR REMOVAL EFICIENCT USING
1
IMEAN) E , E I 57.327X
1 IN OUT
EFF
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0. »
0.
0.
0.
0.
o.
0.
0.
0.
0.
0.
.007
.620
.042
.176
.499
.420
.629
.662
.910
.332
.300
.023
.783
MM
.473
.551
.574
.351
.134
.967
.972
.921
.006
.732
2.576
2.649
2.666
2.662
2.632
2.999
2.671
2.943
3.065
2.915
2.950
2.340
2.719
MMM
2.346
2.312
2.601
2.765
2.759
2.666
2.635
2.765
2.506
2.329
57.4
54.5
52.5
53.3
56.4
53.3
59.7
57.2
55.6
60.2
59.6
61.1
59.9
MM*
63.6
64.7
60.4
56.5
55.0
51.6
52.5
53.0
56.3
59.4
24. 23. 23. 23.
100. 96. 96. 96.
0. 5.732 2.312 51.631
0. 7.332 3.065 64.712
0. 6.372 2.719 57.221
0. .451 .227 3.662
MM* 7.078 6.364 6.434
NOTE! (MEAN! 13 DEFINED AS:
X
THE MEAN FOR X DATS USING Y-HOUR AVERAGES
-------
OAILT SUMMARY OF RESULTS
LOCATION! RICKEN1ACKCR API Iff*
OATIt 2- ?
TIM*
0
ISO
to*
soo
400
SOO
too
700
00
«00
1000
, 1100
1200
1300
1400
1SOO
1*00
1700
ISOO
1*00
2000
2100
2200-
JIM
AVERAMt
« OF MM
MINIMUM
MAXIMUM
MIAN
STO.DEVt
X ITO.NV.
LOAD
IN
OUT
IFF
14
100
' 0
0
0
99999
.5ft*
.5*3
.501
.020
.ftOS
ft04
.715
.710
.ftOS
.421
.414
.444
.02ft
.Oft*
.321
.!*
.154
,054
.04*
.43*
.731
.257
.27*
.3*4
.3*4
.Oft ft
.127
34ft
.511
.4*ft
.ft**
,»2ft
.41«
.054
Olft
.147
.32*
.413 <
.257
.1*1
2*
.ft72
.350
.3ft
»05
.ft37
.700
.711
37.0
43.1
ftl.
3*.
55.
55.
52.
34.
Sft.
41.
44.
42^
4.
43.
4S«
4S.
54.
55.
ftl.
33.
57.
57.
57.
57.
14, 24. ' J24.
100. 100. 100.
5.41* 2.0** 42.201
ft.751 3.413 ftS.OS*
5.*1* , 2.740 S3.ft30
.37* .371 - ft.1*7
ft.412 13.324 11.337
a««MOIM REMOVAL EFICIENCV OSIN0
1
(MAN) I , t I 53.M2I,
I IN OUT
NOTEI MIAN) IS DEFINED Alt
X
TMEl NEAN FOR I DAYS USIN0 T-HOUR AVERA8ES
-------
DAILY SUMMARY OF REtULTt
LOCATION! RICKENIACKER AM 1«T»
ATCt a- »-?»
Tint
lot
aoo
sot
400
' stt
400
700
ttt
ttt
toot
not
1100
not
uoo
isoo
uoo
1700
1000
1000
> 1000
I ilOt
£ aaoo
aiot
AVlRAMt
I OF DATA
MINIMUM
MAXIMUM
MEAN
TD.OtV.
I OTO.DCV.
LOAD
IFF
OUT
,
' 1
<
.»TT
.«as
.str
>7t
.22t
.100
»3
.207
,S«7
.335
,3«t
.341 :
.353
.Stt
,M7
,«o»
.35t
.040
.322
.452
.533
.447
t.940
k,*02
.477'
.405
.740
.473
.414
,774>
500
.034.
,00« ;
.tts
.tltt
.ttt
,t23
.774
.541 v
.370-
.14*
.115
.5144
427 >:
.57* .
,77t
.5*0
.OSS
57.
St.
54.
57.
St.
54.
50.
55.
52.
54.
54.
55.
93.
57.
42.
43.
44.
45.
40.
5*.
40.
so.
40.
ss.
at 24. 24. at.
100 ttt. 100. }00.
0 4,040 2.119 40.273
0 4.040 I,500 44.317
0 4.410 a.711 57.744
t .222 .201' 4.042
«« 1.454 It.700 7.030
at-MOUH HfMOVAL tFICICNCV UtINt
I
IMCAN) t , C t S7,74SI
t IN OUT
NOTII IMIANI It DEFINED At*
B
?NE' MEAN FOR I OAVt UtINt V-NOUH AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKER API 1*T9
DATEI 2-IO«79
LOAD
IN
TINt
100
00
100
400
500
too
TOO
000
900
1000
tioo
laoo
isoo
1400
1500
1*00
1700
1000
IfOO
2000
2100
2200
2100
0 AVERAGES
I OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OCV.
I STO.OIV.
MOUll RIMOVAL EFICIENCY UOIN6
I
MIAMI ' E * E I S1.202X
1 IN OUT
EFF
OUT
24
too
0
0
0
0
.147
.303
.244
.279
.33*
.037
.762
.567
.6*2
,*39
.001
.474
.320
.4**
.1*0
.094
.724
.722
.900
.107
.295
.435
.402
.199
24. 2
too. to
5.722
7.017
4.342
.22*
.104
.341
.224
.2*1
.234
.215
.333
.45*
.*07
.014
.400
.932
.033
.015
.723
.*53
.744
.3*5
.404
.505
.429
.447
.441
.
.
.3*5
.014
.095
.354 .*90
«»« 5.2*0 21,000
47.
SO.
4*.
40.
40.
54.
52.
49.
40.
; 29.
2*.
40.
53.
53.
51.
S3.
S3.
S2.
*o.
*1.
so.
*2.
»1.
60.
24.
too.
26.270
*2.252
51.3*4
0.731
I*. 999
NOTII IMEAN1 IS DEFINED AOI
X
THE MEAN FOR I DAYS USIN6 Y-HOUR AVERAGES
-------
DAILY SUMMARY OP RESULTS
LOCATION* RICKENSACKIR AFO
OATH a-U-7*
LOAD
IN
TXM
It*
tot
300
«tt
900
*«
Ttt
tot
0*0
Ittt
MOO
not
I SOt
1400
1900
140*
1TOO
1*00
1000
> aooo
I atOO
K "'
M 1100
AVIRAMS
I OF DATA
MINIMUM
MAXIMUM
MCAN
TO.DIV.
I STD.OIV.
a*-MOU* REMOVAL EFICIENCT U8IN6
1
IMAM t » t I 000***X
I IN OUT
OUT
.*!
.*SS
.14*
.«!«
.70S
.670
.SS3
.«07
.745
.70
.*!*
.*«*
.64*
.7*7
.««»
,«47
.*7»
.77*
.7*4
.a*
.770
.**4
*ai
.**s
«i
01
01
01
01
01
01
90
.1*4
.2*1
.»*
.045
.17*
.197
.189
.140
.907
.*71
.*oa
.494
.944
.**a
.7sa
1.730
»0000.
10000-
10000
10000
»0000-:
10000
10*00.
9*.
*s.
64.
*1.
*4.
*1.
*1.
*4.
9«.
9*.
94.
94.
9*.
99.
99.
94.1
95.*
00000
00000
00000
00000
00000
00000
00000
a*
100
0
0
0
0
00001
ao.
100.
. 9.903
*.14*
9.7*1
.131
1 8. 339
IT.
Tl.
a. **s
a.rsa
000000
000000
000000
IT.
71.
93,9*a
*4.1*1
000000
000000
000000
NtTII IM1ANI IS DEFINED ASI
a
THEi NEAN FOR I DATS USINO f-MOUR AVERA8E8
-------
PAXLY OUNMAftV OP UtOULTO
LOCATION! MICKENOACKCft AF| ItTO
OATH 2-12-7*
LOAD
IN
OUT
IFF
tot
aoo
soo
«ot
300
400
TO*
00
00
1000
ttoo
1200
1100
1400
1500
1*00
1700
1*00
mo
aooo
11*0
aaoo
. -a
10
000
5.404
9.SM
5»5S1
9.520
5. Ml.
5.»9ft
5.000
5.T1*
5.152
5.455
5,74*
4.051
5.057
4.10*
4.077
ft. 04*
5.042
5.507
5.442
. 5.0*4
4.022
*.179
*.2*0
*.2I4
24.
too.
' 5.441
*,2*0
5.022
.244
4.190
1
1
1
I
1
01
I
01
01
01
01
1!
f<
1
fi
01
01
0000..
000*
0000
0000
0000::
0000 '
0000
0000-,
10000
10000 '
10000
.140
.t«o,
.055*
.107
.01*.
.415
.**
.5*5
.507
.464
.*oa
.410
.SOS;
1. '
».
I.MS
I.S40
10000.
10000
)0000
00000
00000
00000
00*00
00000
00000
00000
00*00
0*«00
00000
00000
44.
45.
50.
40.
51.
55.
52.
54.
57.
55.
5*.
*1.
41.
IS.
94.
44.*11
41.417
000000
000000
000000
AVI *
I OF OAT*
MINIMUM
MAXIMUM
MIAN
STQ.QCV.
B OTO.tlV.
24«MOUI MMOVAV IHCICNCY UOIN8
1
MOIANJ 1,1 I 000000S
1 IN OUT
N0TKI IMtAN) I* OeflNEO ASI
X
TNIi MIAN *OM I DAVO UOIN0 T-NOUR
-------
DAILT SUMMARY Of RESULTS
LOCATIONI RICKCNSACKCR AFS 19TO
OATH *-tl-79
TIN!
t
lOf
tot
so*
LOAD
Iff
IN
OUT
set
rot
tot
900
1000
not
1*09
1100
MOO
1900
1*00
1700
1000
1999
. 2000
f 1100
f-. aatt
W aitt
0 AVCJIMIS
I » 0ATA
MINIMUM
MAXIMUM
MCAN
STO.DIV.
i OTt.sfv.
ft
It
01
01
04
04
01
01
01
01
01
01
01
01
.ISO
.too
.109
.27*
.190
.*59
.77
.MO
.37*
.337
10000
(0000
10000
'0000
10000
D0000
10000
10000
V0000
10000
10000
10000
10000
10000
01
01
04
01
01
01
01
01
01
01
01
01
01
0
.11
.aat
.1*9
.091
.*so
.100
.194
.aso
.<«!
.a««
10000
10000
1*000
10000
10000
10000
10000
10000
10000
10000
10000
K0000
10000
10000
»o.»
ft). 7
ftS.t
, ft*. 7
ft). ft
fts.a
6«.*
**.!
ft4.6
*3.i
. 00000
, 00000
00000
00000
00000
00000
00000
00000
00000
00000
' 00000
00000
. 00000
r00000
at
100
0
0
0
0
10
10.
10.
4a.
*.109 a, 091 'ftO.Sftt
*.*«0 2.4*1 ft*.*7*
000000 000000 000000
000000 000000 000000
00000 000000 000000 000000
a*«MOU* RfMOVAL IFICIINCT UOIN8
I
MfANI I . I I .0001
I IN OUT
NtTII IN1ANJ IS OffINf0 ASI
X
TMC MEAN FOR K DATS USINt T-HOU* AVfRAtCS
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENIACKCR AFI 1979
DATII 2-14-79
TIM
ISO
aoo
so*
00
500
too
700
00
900
1000
1100
iaoo
1900
1400
1500
itoo
1700
1000
190*
2000
2100
UOO
aw
0 AVCRAUt
I OF DATA
MINIMUM
MAXIMUM
MIAN
sro.ocv.
I STO.OI*.
LOAD
KFF
IN
OUT
000000 01
000000 01
000000 01
000000 0<
000000 01
000000 01
000000 01
000000 01
000000 01
000000 01
000000 01
5. til
t.519
t.aia
7.255
7.371
7.128
7.SS4
6.002
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9.919
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10000
10000
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10000
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24*HOUR MCMOVAL CFICICNCV U8IN8
1
IMAM I . I I .0001
t IN OUT
NOTEI HMAN1 IS DEFINED Atl
X
TNE MIAN FOR I DATS USINO Y-MOUR AVCRA6ES
-------
DAILY SUMMARY Of RESULTS
LOCATIONI RICKENSACKER APO J«79
DATCI 2M9-79
LOAD
IN
7.410
7.109
7.211
7.100
7.21*
7.*97
7.79*
7.412
**
999999
999999
999999
999999
999999
999999
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TIM
ISO
200
100
00
500
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700
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900
1000
1100
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1400
1900
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1000
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I 1100
£ ""
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AVIRAMS
t OP DATA
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MEAN
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24-MOUR 1EMOVAL EPICIENCV USINO
1
WEANI I i E I .0001
1 IN OUT
OUT
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2.010 72.1
2.211 *9.1
1.049 79.0
2.002 71.2
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2.900 *7.1
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12.
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79.007
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NOTEI INEANI IS DEFINED ASI
I
THE MEAN POR I DATS USIN6 V-MOUR AVERABES
-------
DAILY 8UNNARV OF MltULTI
LOCATIONI RICKENIACKER AM 1*J»9
OATH 2-14-79
TIKI
10*
2*0
300
400
SO*
40*
TOO
0*
400
1000
1100
1200
1100
1400
1SOO
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1000
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it**
2200 .
2100
AVERMCI
Of DATA
NININUM
MAXIMUM
MAN
TO.DEV.
S OTO.MV.
LOAD
IN
OUT
9
.HI
401
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790
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.141
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24-NOIMI REMOVAL CriCIENCT U*IN8
I
iNtANI C » E I 44.4111
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1
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-------
l/l
TlMt
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400
500
400
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90
900
1000
1100
1200
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1400
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1000
1*00
2000
2100
MOO
2100
0 AVCtAMS
W DATA
MINIMUM
MAXIMUM
MEAN
STO.OIV.
STDkOEV.
DAILY SUMMARY Of RESULTS
LOCATIONS RICKENBACKER Art 1*7*
DATEI 2*17»7*
LOAO E i Err
;
i
1
i
i
i
i
'
IN
.121
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1.211
1.542
1.501
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000000
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24 24. 10. 10.
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0 4.054 .5*1 77.217
0 7.«47 1.5*2 *0.fc*7
0 4.071 000000 000000
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24*MOUR REMOVAL C'lCICNCY UOIN0
1
IMAM! 1,1 I 0000001
1 IN OUT
NOTI« IMANI IS Of PINED AS!
B
THE MIAN FOR I DATS USING Y-MOUR AVERA6E8
-------
DAILY SUMMARY Of RESULTS
LOCATION! RICKENBACKER AFB i»T9
DATE! 2-18-79
TIMI
0
100
ZOO
300
400
500
600
700
00
400
1000
tlOO
1200
IJOO
1400
1900
1*00
1700
1SOO
1900
2000
2100
2200
23*0
AVERA8ES
S OF DATA
MINIMUM
MAXIMUM
MEAN
TO.OEV.
I 8TO.OEV.
LOAD
EFF
IN
OUT
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
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3.835 15.331
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76.767
68.508
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7.450
24-HOUR REMOVAL EFICIENCV USIN6
1
INEAN1 E , E I *8.771I
1 IN OUT
NOTEI IMEANJ IS DEFINED ASl
X
THE MEAN FOR X DAYS USIN6 T-MOUR AVERAKE8
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKINIACKER APS 19T9
OATCI 2-19-79
TIM
t
ISO
280
380
«oe
500
400
700
sot
900
1000
1100
1200
1100
1*00
1500
1400
1700
1SOO
1900
2000
> 2100
M 220S
cr. 2SOO
LOAD
IFF
IN
OUT
0
0
1
1
1
t
.550
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.945
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1.431
10000
90000
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.59*
.527
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.573
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.596
.545
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53.6
44.4
46.8
49.4
50.4
44.1
44.4
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00000
00000
00000
79.1
78.
74.
75.
78.
79.
78.
77.
78.
. 78.
78.
77.
77.
0. AVIRAMS
I OF DATA
MINIMUM
MAXIMUM
MIAN
TO.OIV.
X TO.OCV.
4 22. 21. 21.
ItO 92. SS. SS.
0 6.4*8 1.465 46.0S7
S 7.539 1.645 79.741
0 6.938 2.279 66.769
0 .279 .942 14.612
0 4.022 4I.S41 21.SOS
24-HOUR REMOVAL IFICICNCY USIN8
I
(MAN) 1,1 I »7.149I
1 IN OUT
NOTE I IMAN) IS OIFINIO ASS
X
TNE MIAN FOR I OATS USIN0 Y-MOUR AVERA0CS
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENIACKER AF* 19T9
DATE I 2-20-79
TIKI
0
1*0
200
SOO
400
SOO
too
700
aoo
900
1000
1100
1200
uoo
1400
1900
UOO
1700
1*00
1900
2000
2100
2200
2100
AVERA9E*
I OF DATA
MINIMUM
MAXIMUM
MIAN
9TD.OEV.
X STD.OIV.
LOAD
24
1*0
0
0
0
0
0*f0*
IN
6.*9*
6.705
6.629
6.77*
7.269
7. 395
7.544
7.6*6
000000
7.310
7.1*2
6.2*9
6.2*9
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
12.
90.
6.2*9
7.6*6
000000
OUT
1.66*
1.644
2.043
1.979
2.003
2.034
2.051
2.142
000000
000000
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5.042
000000
000000
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Iff
75.*
72.2
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72.5
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9. 9.
9*. 3*.
1.66* 19.499
5.062 75.024
0*0000
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24*HOUR REMOVAL EriCICNCY U9IN6
1
INIAN1 f , E I .0001
I IN OUT
NOTEI CNEANJ I* DEFINED ASt
X
THE NEAN FOR X DAYS USIN6 V-MOUR AVERAGE*
-------
BAILT »UNMAftV OP RESULT*
LOCATIONS ftlCKeNBACKC* AM |*Vf
OATtl l-li-79
TIN!
9
199
tOO
399
LOAO
Iff
IN
OUT
SO*
»00
700
Of
90*
.1900
110*
laoo
1300
1MO
1900
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1700
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1999
>I009
I 2100
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S Of DATA
MINIMUM
MAXIMUM
MCAN
STD.OKV.
S TO.DfV*
0
'
\-
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0
0
*
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000000
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0.
0.
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0****
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1
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1 IN OUT
NO Til (MIAN! If OfPINED Aft
X
THK WAN rOII I OATS U»IN0 V»HOUR AVIRA6E*
-------
DAILY SUMMARY OP RESULTS
LOCATIONS RICKENBACKER AM 19?9
DATE! 2-22-79
TIN!
0
100
200
300
«00
900
600
700
soo
900
1000
1100
1200
I3oo
1400
1300
uoo
1700
ISOO
1900
2000
2100
2200
2100
* AVERAMt
S Of DATA
MINIMUM
MAXIMUM
MIAN
STO.OIV.
S STD.vCV.
LOAD
Iff
24
ISO
0
0
0
0
00000
IN
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
OUT
**
00000
000000
000000
00000
00000
000000
000000
000000
00000
00000
5.317
S.3S9
5.500
5.546
5.731
9.399
000000
000000
000000
000000
000000
000000
1.023
2.212
2.449
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2.24S
2.0S6
00000
6. 6.
29. 29.
9.117 1.S2S
9.731 2.449
000000 000000
000000 000000
000000 000000
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65.7
50.9
56.2
62.4
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24«MOU* REMOVAL E'ICIENCV USINC
1
INIANJ E , E t .0001
1 IN OUT
NOTEI IMIAN1 It DEFINED ASI
X
TNI MEAN FOR X DAYS USING V-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKER AFB 19T9
OATEI 2*23*79
Tine
too
aee
300
400
soo
400
700
00
900
1000
ttoo
1200
1300
1400
1500
1600
1700
1000
1000
> 2000
2100
2200
LOAD
Iff
IN
OUT
00
2100
0
0
0
0
01
01
01
1
01
01
01
01
01
01
01
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.394
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10000
10000
10000
10000
10000
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10000
10000
10000
10000
»0000
10000
2.345
2.310
2.230
2.277
2.220
000000
000000
000000
000000
000000
2.341
2.115
2.0*0
1.095
1.420
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1.254
1.035
000000
000000
000000
000000
000000
000000
50.9
57.5
SO. 5
57.0
50.0
00000
0000
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00000
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59.3
59.6
61.1
64.5
75.1
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64.5
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0 AVERABEB
B Of DATA
MINIMUM
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MEAN
STO.OEV.
I tTO.DIV.
24 13. 13. 13.
100 54. 54. 54.
0 5.170 .900 57.534
0 5.755 2.345 01.550
0 000000 000000 000000
0 000000 000000 000000
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14-MOUR REMOVAL EFICIENCV US INS
1
t , E i .ooox
I IN OUT
MOTII INfANI IS DEFINED A8I
8
TME MEAN FOR X DATS USING T-HOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKCNOACKER AFI 1979
DATEI 2-24-79
LOAD
IN
TIMf
1*0
200
100
400
900
MO
700
00
400
1000
itoo
1200
1300
1«00
1SOO
1*00
1700
1000
1900
2000
2100
2200
2100
AVCRAUr
I OF DATA
MINIMUM
MAXIMUM
MIAN
TO.DtV.
X OTO.OEV.
24-HOUR REMOVAL EFICIENCV U8IN6
I
(MEAN) E . C I ,000»
1 IN OUT
EFF
OUT
24
100
0
0
0
0
0000
00*000
000000
000000
000000
000000
000000
000000
000000
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*
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5.421
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5.540
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5.421
6.100
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0 000000
000000
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000000
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000000
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000000
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000000
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000000
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000000
2.441
2.440
2.542
2.304
2.444
9.
21.
2.304
2.942
000000
000000
000000
00000
00000
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55.0
55.1
50.9
57. 0
56.4
5.
21.
54.969
50.066
000000
000000
000000
NOTEI tMBANI 18 DEFINED A8I
X
THE MEAN FOR I DAYS U8INO Y-MOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKER AFB 1979
DATII 2-25*79
TIN!
LOAD
EFF
IN
OUT
0.
0.
0.
o.
p
Q
o!
0.
0.
0.
Q
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0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
.251
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.«22
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,t54
24. 24. 24,
100. 100. 100.
0. 4.445 1.996
0. 7.002 I. 401
0. 5.629 2.541
0. .985 .364
0000 10.1*7 14.321
55.
56.
56.
60.
56.
57.
59.
53.
51.
57.
59.
61.
67.
59.
55.
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46.
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47.
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46.7
44.5
24.
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44.520
67.102
54.656
5.553
10.161
206
100
400
SOO
600
700
SOO
too
1000
1100
1200
1100
1400
1500
1600
1700
1600
1900
> 2000
I 2100
^ 22*0
^ 21*0
AVERA6EO
« OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OIV.
I STD.OEV.
24-HOUR REMOVAL EFICIENCY USIN6
t
MIAMI E , E t 54.7651
I IN OUT
NOTEI (MEANJ IS DEFINED ASt
X
MEAN FOR X DAYS USIN6 Y-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFS 1»T9
OATEl 2-26-79
TIME
0
100
100
soo
400
SOO
too
700
00
900
1000
1100
1200
1100
1MO
1900
1600
1700
1SOO
1900
1000
2100
MOO
1300
AVIRA8ES
t OF DATA
MINIMUM
MAXIMUM
MfAN
TD.OCV.
I STD.OEV.
LOAD
Iff
IN
OUT
0
0
0
0
0
0
0
0
0
0
0
0
0
I
1
01
t
I
1
1
01
0<
1
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<
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.596
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0*0*
.560
.290
.110
.550
.435
10000
r.247
10000
1.570
1.020
1.475
1.621
10000
10000
10000
10000
1.019
0
01
1
01
01
0i
01
01
.959
.262
.7J7
.090
.050
.970
0000
.926
.430
.437
.592
.039
1*000
1.313
1000*
1.606
.971
.036
.925
10000.
(0000-
1000*.
1000*
.527
47.9
41.7
45.9
43.9
45.5
42.1
0*000
47.4
45.5
52.3
53.3
*9.7
0****
01.9
0*000
64.9
0.7
04.7
0.0
0*000
0*«»«
*****
*»«»
9.1
24 17. 17. 17.
100 71. 71. 71.
0 3.435 .527 41,736
0 7.247 3.430 69.061
0 000*0* ****** ******
0 «*«** *»*«* ******
00000 000000 000000 0*****
14-HOUR REMOVAL, EFICIENCV USIN6
1
IMEAN) E , E t .0001
1 IN OUT
NOTII tMEAN) IS DEFINED ASl
X
THE MEAN FOR X OATS USIN6 T-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENIACKER AM 1979
OATCt 2-27-79
TIHC
It*
too
500
00
soo
too
700
00
900
1000
1100
1200
1300
1*00
1900
UOO
1700
1000
1900
ooo
LOAD
Iff
IN
OUT
5.0k»
9.178
5.*40
4.*44
5.24*
9.004
4.93*
5.4*2
4.9*5
ttoseeg
000000
000000
000000
000000
000000
000000
000000
000000
000000
»»»*»»
n»nn*n
»»»»»»
»»»»»»
*»*»»*
at
»t
m
ti
tt
91
It
»t
ft
01
01
01
I
01
0<
.125
.*21
.65*
.417
.**2
.389
.340
.499
1.124
90000
10000
10000
110000
10000.
10000
90000
90000
90000
90000
90000
90000
90000
10000
10000
77.8
*«.T
*7.1
*9.0
*8.3
72.2
72.8
72.*
57.4
00008
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
C1500
* AVERAOJ8
*. Of DATA
MINIMUM
MAXIMUM
MEAN
TO.DIV.
I STO.OKV*
24-MOUR RCNOVAL EFICICNCT USINO
I
(MIAMI C f E I .0001
1 IN OUT
14
100
0
0
0
0
0*001
9.
36.
4.*44
5.640
000000
000000
9 000000
9.
38.
1.125
2.124
000000
000000
000000
9.
36.
57.392
77.601
000000
000000
000000
MOTH IMEANI 18 DEFINED A8I
X
THE MEAN FOR X DAV8 U8IN6 T-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AFB |»T9
OATEI 2-28-79
LOAD
IN
TIME
190
100
ItO
400
900
600
700
00
too
1000
1100
1200
1100
1400
1400
1*00
1700
1800
1*00
2000
2100
2*00
2300
9. AVCRA6EB
I OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OEV.
I STD.DEV.
24-MOUR REMOVAL EFICIENCV USIN6
1
MEAN] 1,1 I .0001
1 IN OUT
EFF
OUT
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
24
100
0
0
0
0
00001
000*00
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
5.050
S.073
4.9*5
5.102
4.979
5.129
5.102
4.90*
a.
S3.
4.9*5
9.125
000000
000000
I 000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
2.322
2.173
2.134
2.029
2.126
2.044
1.903
1.192
0.
33.
1.852
2.322
000000
000000
000000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
54.0
57.2
57.0
60.2
57.3
60.1
62.7
62.9
8.
33.
54.020
62.862
000000
000000
000000
NOTEI IMEANI IS DEFINED ASf
X
THEi MEAN FOR X DAYS USIN6 V-HOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKEN8ACKER AFB 19T9
DATE! 3- 1-79
TIN!
100
280
soo
400
SOO
600
700
00
too
1000
1100
1200
1300
1400
1900
1400
1700
1000
1*00
2000
>2100
^2200
H2SOO
0 AVERAOCS
I Of OAtA
MINIMUM
MAIIMUM
MIAN
STD.OIV.
I STD.DtV.
LOAD
IN
our
EFF
JB
J
.019
.127
.07*
.160
.l««
.041
.014
.105
000000 0
000000 a
5.045
5.049
000000
.SOS
.862
.488
.521
.472
.440
.577
.601
.728
.931
.951
.238
.056
.980
.972
.011
.998
.118
.141
Ml
0000
.081
.919
.042
.940
.026
.477
.849
.921
.996
.051
.902
.034
.050
.911
5S.4
59.9
61.0
61.8
61.2
60.4
57.8
57.1
000*
00000
59.2
62.0
00000
64.8
65.4
, *«.0
66.5
64.9
63.S
63.2
64.6
64.5
65.4
67.9
24 21. 22. 21.
100 88. 92. 88.
0 5.014 1.849 55.403
0 5.951 2.238 67.850
0 5.379 2.016 62.391
0 .318 .090 3.267
00000 5.908 4.492 5.237
24-HOUR RCNOVAL EFICIENCV USIN8
1
(MIAMI E , E I 62.9291
1 IN OUT
NOTE! IMCANI IS DEFINED ASl
X
THE MEAN FOR I DAYS USIN6 Y-MOUU AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFB 19t9
OATEI . 3- 2-79
TIM
1*0
aao
loo
400
900
too
TOO
SOS
900
1000
1100
1200
1500
1400
1900
1600
1700
1SOO
1900
2000
2100
2200
2100
AvetAMt
I Of »AT»
MINIMUM
MAXIMUM
MIAN
STS.OtV.
X STO«OIV.
LOAD
IN
OUT
EFF
24
188
0
0
. 8
0
iff*
.701 t
.611 4
.732 i
.647 1
,493 j
.491 1
.532
.557 i
.627 i
.667
655
.425
.560
.579
.564
.619
.676
.949
.919
.076
.058
.969
.027
.941
1.077
1,099
t.064
I. 065
1.145
1.106
t.100
1.112
1.100
.951
.121
.969
.991
.441
.141
.417
.419
.281
.389
.189
.444
.491
.918
.669
61.
63.
64.
63.
60.
60.
. 62.
61.
62.
65.
62.
63.
Tl.
»4.
75.
. 74.
T4.
. TO.
76.
v 77.
76.
75.
74.
72.
4, 24. 24.
ISO. 100. tOO.
9.429 1.281 60.190
6.076 2.186 78.468
9.712 1.768 .68.907
.199 .111 6.497
1.47* 18.816 9,428
24*HOUR REMOVAL EFICIENCV USINO
t
tMANi E » E t 69.094X
1 IN OUT
MOTEI IMEAN) IS DEFINED ASf
X
TME MEAN FOR X DAYS USINO T-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKCR AFB 1979
DATES 3- 3*79
LOAD
IN
TIME
0
too
200
300
«00
900
too
700
600
900
1000
1100
1200
1300
1«00
1900
1600
1700
iaoo
1900
», 2000
₯ 2100
N> 2200
to 1300
* AVERA6I8
I OP DATA
MINIMUM
MAXIMUM
MEAN
STO.DEV.
I 8TD.DEV.
i4*MOUR REMOVAL EFICIENCY USINS
1
INEANI E , E I 72.1631
1 IN OUT
OUT
Iff
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
24. 2<
100. 10(
0.
0. (
0. (
0.
«
.015
.029
.040
.066
.119
.145
.902
.015
.050
.696
.687
.079
.060
.362
.370
.366
.561
.346
.237
.194
.352
.376
.379
.242
1. 2'
). 10(
1.667
k.961 <
k.172
.166
1.047 <
.663
.727
.645
.716
.582
.624
.652
.651
.621
.650
.636
.640
.665
.727
.646
.701
.006
.615
.761
.646
.651
.770
.806
.754
1.
).
1.562
f.006
1.717
.096
J.709
72.0
71.4
72.6
71.7
74.1
73.6
72.0
72.9
73.2
72.0
72.2
73.0
72.9
72.9
74.1
73.3
69.9
71.4
71.4
70.2
70.9
72.2
71.7
71.9
24.
100.
69.478
74.149
72.191
1.127
1.961
NOTEI IMEANJ 18 DEFINED ASS
X
TME MEAN FOR X DAYS US1N6 Y-HOUR AVERA6ES
-------
OAILT SUMMARY OF RESULTS
LOCATION! RICKENSACKER AF6 19?9
OATCt I* 4-79
LOAD
IN
TIM
0
190
200
300
00
SOO
600
TOO
SOO
900
1000
1100
1200
1300
1400
1500
1*00
1TOO
1SOO
1900
2000
2100
2200
2100
0 AVERACIS
S Of DATA
MINIMUM
MAXIMUM
MIAN
STO.OCV.
S STD.OIV.
24-HOUR REMOVAL EFICIENCY USINS
1
(MEAN) E , E I *9.479S
1 IN OUT
OUT
EFF
24
too
0
0
0
0
.047
.2S1
.2S1
.314
.5S4
.29*
.259
.45S
.321
.419
.2S4
.341
.OSS
.927
.745
.724
.049
.145
.941
.990
.034
.072
.919
.999
24.
too.
5.724
*.S84
*.m
.227
99999 9.702
.743
.700
.814
.910
.654
.020
.029
.900
.95S
.690
.7*7
.*37
.422
.4*3
.52*
.535
.677
.0*1
2.249
2.122
2.033
2.0*1
2.2SS
2.230
24.
100.
1.422
2.2S5
1.ST3
.247
13.1*1
71.
72.
TO.
*9.
71.
*T.
*7.
9.
*9.
, TO.
71.
74.
7*.
75.
73.
73.
72.
**.
*2.
64.
**.
*4.
*t.
*2.
24.
too.
61.698
7*.52*
69.454
4.15*
5.964
NOTE! CMEAN1 IS DEFINED ASl
X
THE MEAN FOR X DATS USINS T-MOUR AVERA6CS
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENSACKER AF§ >979
OATEI 3- 5*79
TIM
1*0
too
.990
40*
SO*
400
TOO
00
900
1000
1100
1200
1X00
1400
1SOO
1*00
1700
1*09
ItOO
> "00
I 1100
N> MOO
w -ISO*
9. AVtffAMt
Of »ATA
MINIMUM
MAXIMUM
NfAN
*TO,OEV.
s *TS.OEV.
LOAD
EFF
IN
OUT
t
01
0<
1
. 04
II
01
01
0<
9t
01
. 01
.M?
.14*
.««7
.17*
*M2
.054
91
.065
.907
.007
.630
.067
.734
1000*
10000
10000
10000
10000
10000
10000
(0000
10000
10000
10000
i
01
01
01
01
01
01
01
01
01
01
01
u*o»
.126
.119
.07»
.MO
.014
.242
.336
.426
.297
.14fr
.«79
.059
10000
10000
10000
I0000<
10000
P0000,
10000
»0000
10000
10000
(0000
62.9
69.4
61.4
66. S
66.9
69.6
. *1.T
60.1
99.9
61.0
*7.7
69.7
64.1
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
24 13. 13. r 13.
100 . 94. 94. 94.
0 9.734 1.990 99.4*9
0 6.639 2.426 67.722
0 . 000000 000000 000000
0 000000 000000 000000
000 000000 000000 000000
24-MOIM REMOVAL EFICICNCV UtINB
1
IMEAMI ' E f I t .0001
1 IN OUT
NOTEI IMSANI It DEFINED Aft
X
THE MEAN FOR I DATS USIN6 V*HOUR AVERA8ES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER Aft I9T9
OATH 3- 4-79
LOAD
IN
TINt
0
ItO
100
100
00
500
too
TOO
000
900
1000
itoo
1X00
1SOO
1400
1500
uoo
ITOO
1000
1900
2000
2100
2200
2100
0 AVERAtIS
I OF OAfA
MINIMUM
MAIIMUM
MIAN
OTO.OfV.
I ITO.OIV.
24-HOUR RfMOVAL IPICIENCY USIN6
I
IMCAMI » 1 I ,0001
I IN OUT
OUT
Iff
24
100
0
0
0
0
0000
000000
000000
**»»
000000
0****0
000000
«*
000*00
0*0000
*»»»»»
»*»»»»
»*»*»»
»»*»»»
»»»»
k.042
*.137
».32»
*.220
*.090
4.0»9
4.020
».2U
9.0*1
5.T90
10.
42.
S.T90
4.32*
MM«»
0HM
0 000000
000000
0*0000
000000
000000
000000
0000«0
000000
000000
000000
000000
000000
000000
000000
000000
.072
.991
.902
.011
.717
.704
.054
.801
.077
1*92*
10.
42.
1.717
2.072
000000
000000
000000
00000
00000
0«0«0
00000
00*00
0*0«0
00000
0*0*0
00«*0
00000
000*0
00*0*
00*00
00000
45.7
07.5
. *».'
70.5
, T1.5
70.7
49.2
*9.7
40.0
64.7
10.
42.
45.702
71.404
000000
000000
000»»0
NiTtl (MIAN! It OEUNCD AOI
R
TMC MEAN FOR I OATS USIN6 T»MOUR AVERA6ES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENIACKER AFB I»T9
OATEl 3- 7«79
TIM
100
100
300
400
900
600
700
000
900
1000
1100
1200
1300
1400
1500
1600
1700
1000
1900
> 2000
I 2100
" 2200
** 2SOO
0 AVERAtft
I OF OATA
MINIMUM
MAXIMUM
MIAN
OTO.OEV.
I OTD.OCV.
1.0*9
EFF
IN
OUT
0
.
.04$
.410
.000
.900
.011
.20*
.««
.006
.3«3
,«l
.091
***
.901
.11*
.326
.096
.22S
.322
.203
.133
.324
.349
.256
.131
1.049
1.092
1.907
1.977
2.001
2.060
2.040
2.131
2.000
1.967
1.965/
000000
2.320
2.333
2.173
2.040
1.002
1.669
1.769
1.022
1.609
1.069
1,604
1*199
60.9
60.0
«6.
66.
65.
67.
65.
64.
67.
66.
67.
0000
61.
61.
65.
65.
69.
73.
71.
70.
73.
69.
74.
00.
10 n. 23. 23.
100 96. 96. 96.
0 5.069 1*199 61.210
0 6.349 2.333 00.503
0 6.112 1.036 60.205
0 .167 .247 4.204
00000 2.725 12.730 6.274
HOUR REMOVAL EFICIENCY UOINO
1
IMANI 1,1 I 60.3301
1 IN OUT
NOTCI CMCANI 18 DEFINED ASt
K
THE MEAN FOR X OATS U8IN6 Y-HOUR AVCRA8ES
-------
IS OPERATING DATS
SUMMARY Of RESULTS
USIN6 t-NOUR AVERA6IS
LOCATION! RICKENiACKER APS IW
DATE I 1-22-7*
LOAD I E fFF
IN OUT ,
AVERASES 7IS. 4»t. 9M. «!.
I OP DATA ISO. «*. S3. «2.
MINIMUM 0. 4.441 I.t4f X4.27Q
MAXIMUM . S.4«< 9.014 SS.k*l
MEAN 0. k.a«0 2.971 9S.7S3
STD.OEV. t. .999 .449 9.9T9
* SfO.OfV. 0. «.92« 29.442 14.979
14*OAV MNOVAk IPICIINCT USIN9
t
HMANI I , C t 94.S4IB
SO IN OUT
T :
NOTEI IMfANI It DEFINED ASI
I .
TNI MAN FOR I DATS US INS V-MOUt AVERA6E8
-------
SO OPERATING DATS '.
SUMMARY OF RESULTS
U8IM6 14-HOUR AVERA8E8
LOCATION! NICKENSACKCR AFB |«?t
DATEI t-aa-79
ATI
-84-79
-a§-79
»a*-79
27*79
«2*-79
-29*79
-10-79
- 1-79
LOAD
IN
OUT
err
NJ
Ul
4-79
9»79
*»79
»U»?«
f
. *
IS
Vj*
.2*1 000000.
.4*7
.273
.4*9
.01*
.201
.198
.228
.298
.293
.278
.399
.931
.790
.372
.91*
.419
342
.781 0
.822 0
.911
.873 0
.**3
.93*
.25
.379
.712
.172
.138
.112
.841
.98
.877
.998
.4*3
.*42
.*8*
.213
.377
.931
.344
.9*0
.121
.719
.740
.711
.099
0000
0000
.499
0000
.0*1
.279
.943
.01*
.7*8
.717
.873
.93*
so. a*.
97. 84.
9.379 1.717
*.93S 3.9*0
*.24t 2.9*3
.41* .940
00000 *.*73 at.OOS
0000.
4*.
9*.
70.
*7.
*o.
. *7.
> 9*.
49.
4*.
52.
47.
48.
4.
97.
93.
' 97.
91.
0000
,000
*4.
000
**.
: **.
,. 94.
*2.
**.
72.
*9.
**.
a*.
84.
4*. 117
72.191
98.8*4
8.200
13.930
3- 1*79
) 4-79
lr- 7*79
0 AVKMASES
X OF DATA
MINIMUM
MAXIMUM
MfAN
STO.OIV.
X STOtOEV.
S**OAV IEMOVAC EriCICNCT U8IH8
a*
CM!AMI t . K I 38.9871
IS IN OUT
NOTII IMIAN1 IS oeriNCO ASI
X
THE MEAN FOR I OATS USIN8 T-HOUR AVERA8E8
-------
ME0UCNCV DISTRIBUTION
LOCATIONI RICKENBACKER AFB 1919
STARTING DATE! 1-22-79
PARAMETER! 1-HOUR EIN, LB/MMBTU
PARAMETER RANBE
OCCURRENCE
FREQUENCY PERCENTABE
HISTOGRAM
4*400
4.910
9.420
9.910
ft.440
f.4ftO
S.460
.990
4.910
9.420
9.930
ft.440
ft.990
7.460
7.970
0.460
0.990
9.900
7.
74.
I7S.
BEVOND NIN/MAX RANBE
TOTAL POPULATION
*«.
29.
10.
X.
0.
2.
629.
I.
9.
21.
19.
17.
6.
S.
1.
0.
0.
**
***
(I
****
*
CUMULATIVE OISTRIIUTION
LOCATIONI RICKENIACKER MB 19T9
OATH 1*22-79
MRANETERI 1-HOUR EIN, L9/NNITU
MRANtTIR RANBE
OCCURRENCE
PREOUENCV PERCENTA6E
NI8T06RAM
.400
,400
.400
.400
.400
.400
.400
.400
.400
.400
4.910
9.420
9.9X0
ft. 440
ft. 990
7.4ftO
7.970
6.460
6.990
9.900
BEYOND MIN/MAX RAN6E
TOTAL POPULATION
r.
61.
294.
961.
729.
769.
614.
624.
627.
B27.
a.
629.
1.
10.
SI.
70.
B7.
99.
96.
99.
100.
100.
***
«**»
A*******************************************
*******«******
A******»«
A***********************************************
*****<>*******
A************************************************
-------
FREQUENCY DISTRIBUTION
LOCATIONS RICKENSACKER AFB
STARTING DATEl 1-22-79
PARAMETER! 1-HOUR LOG EIN
1979
PARAMETER RANGE
OCCURRENCE
PREOUENCV PERCENTAGE
440
.474
.70S
.741
.77*
SIS
S44
S7S
.918
.944
.474
.70S
.74*
.77*
.10
.044
.878
.911
.944
.988
BEYOND NIN/MAX RANGE
TOTAL POPULATION
1.
24.
85.
157.
314.
145.
44.
24.
4.
0.
s.
8*9.
0.
3,
10.
19.
38.
17.
8.
3.
1.
0.
HISTOGRAM
*
***
>
NJ
CUMULATIVE DISTRIBUTION
LOCATIONI RICNENBACKER APB 1919
OATEI l-M-79
PARANCTERt 1-MOUR L00 EIN
PARAMETER RANSf
OCCURRENCE
PREOUENCT PERCENTAGE
.448
.448
.440
.440
.440
.440
.440
.440
.440
.440
.478
.70*
.742
.77*
.810
.844
.878
.912
.944
.980
BEYOND MIN/NAX RANGE
TOTAL POPULATION
3.
29.
114.
271.
585.
730.
794.
820.
826.
826.
3.
829.
8.
3.
14.
33.
71.
88.
96.
99.
100.
100.
HISTOGRAM
**
*****
******»***
****»**»
************
»». .»*«*
***»«**«***»***
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENRACKER AFi
TARTIN0 OATH 1-22-79
PARAMETER! 1-HOUR BOUT, LO/NMTU
PARAMETER RANOB
.400
1.010
2.200
2.790
1.220
S.MO
4,1*0
4.410
.070
1.140
1.010
a.aoo
2.790
1.220
1.4«0
4.410
9.100
OCCURRENCE
PREOUENCT PERCENTA8E
EVONO NIN/MAI RAN8E
TOTAL POPULATION
I*.
«.
107.
2tl.
151.
0.
IS.
r.
o.
9.
779.
1.
X.
u.
4.
IT.
JO.
10.
a.
t.
HIST06RAN
**
»**
***«**
*
**
.OUMULBTIVC OISTRItUTION
tOCATlMM RICKCMACKKR AFI ttt«
tATtl !-<?«
1-HOUR IOUT* Li/HMiTU
MRAMtff
OCCURRENCE
FKEMINCT PER6ENTA6E
.400 <
.400
.400
.400
.400
.400
.400
.400
.400
.400
- .070
1.140
1.010
2.200
2.790
1.220
l.MO
4.UO
4.fcJO
9.100
a*.
)*.
sir.
»TP.
KTONO NIN/MAX RAN8E
TOTAL POPULATION
W.
rro.
9.
77S.
1.
3.
19.
ft.
»7.
M.
HiaTOSRAM
*
*****
*******
************
*******************
*»*************** ******
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER APB 1»M
8TARTIN6 DATE! 1-22-7*
PARAMETER! 1-HOUR LOG EOUT
PARAMETER RAN0K
»,400
OCCURRENCE
PREOUENCV PERCENTA6E
HI8T06RAN
,0*7
..044
ist
.at*
.377
..4M
-,0»T
.044
.155
.a**
.JIT
.4M
ITONO NIN/NAI RAN0E
TtTAL POPULATION
0.
».
2.
4.
21.
»5.
222.
2Tk.
111.
0.
IT.
TT5.
0.
I.
0.
1.
s.
12.
a*.
3*.
IT.
0.
***
CUMULATIVE DISTRIBUTION
LOCATION! RICKENBACKER APB
OATEI 1-22-7*
PARAMETER! 1-HOUR LOO EOUT
PARAMETER' RANOE
OCCURRENCE
PMEOUENCY PERCENTA8E
.40*
.400
.400
.400
.400
.400
.400
.400
- -.0*7
.044
.155
.2**
.377
.488
.SM
.710
0.
*.
*.
12.
94.
BETOND NIN/MAK RANSE
TOTAL POPULATION
351.
427.
756.
756.
17.
775.
0.
1.
1.
2.
4.
17.
45.
81.
MI8T08RAN
*
**
ft*
**<»
.ft******************
-------
PREOUENCV DISTRIBUTION
LOCATION! RICKENBACKER API 1»T9
TARTIN8 OATEl 1-22-7*
PARAMETER! I-HOUR I EFFICIENCY
PARAMETER IIANtE
OCCURRENCE
FREQUENCY PERCENTA6E
ai.ee*
sa.ooe
19.000
ft. 000
91.000
ftO.OOO
Oit.OOO
»4.000
1.000
4.000
12.000
19.000
4ft. 000
91.000
ftO.OOO
ftf.OOO
74.000
1.000
M.eoo
99.000
EYONO NIN/NAI RAMIE
TOTAL POPULATION
4.
9.
42.
119.
217.
Ift9.
121.
49.
12.
0.
0.
Tft*.
, 1.
1.
9.
1*.
a*.
22.
,1*.
ft.
, a.
o.
H1IT06RAM
*
*
***
CUMULATIVE DISTRIBUTION v
r . 'l
LtCATIONt RICKEN*ACKER AM 1*79
OATEl i-aa-T9
PARAMETERI 1-HOUR « EPPICIINCV
RARAKtTIR RANK
OCCURRENCE-
PRfMIENCT PCRCENTA6E
at. oo*
as.ooo
as.oQ*
as.ooe
as. oo*
as. oeo
25.00*
as. oo*
as. ooo
29.000
la.ooo
19.000
44.000
91.000
ftO.OOO
ftT.OOO
74.000
1.000
.000
99.000
EVONO MIN/MAK RAN8E
TOTAL POPULATION
4.
11.
99.
190.
407.
97ft,
699.
740.
7ftO.
7ftO.
*.
7ft«.
1.
a.
7.
as.
91.
79.
91.
97.
99.
99.
HISTOBRAM
*
*
*
***** *****»*******
»*
******«*
A************************************************
-------
FREQUENCY DISTRIBUTION
LOCATIONI RICKENtACKER AF» 1*74
4TARTIN8 OATEt 1-22-74
FARANETERI 1-HOUR LOB(I EFFICIENCY)
RftftANf HR> RANK
.49*
.91*
.974
.kit
.4*4
OCCURRENCE
FREQUENCY FERCENTA6E
NIST06RAM
1.91*
1.974
1.***
1.744
1.444
1.4*4 -
.40*
fVONO MIN/MAI RANtE
TtTAk< FOFULATION
1.
*.
U.
*«.
us.
*at.
ITS.
»«.
0.
II.
Tfc*.
0.
II.
:21.
JO.
II.
o!
**
*****
*
K)
00.
OU4MJLATIVE OI«TRI»UTION
LOCATION! RICNENQACKER AF» |ff«
ATEl 1*22-74
MRANfftRI 1-HOUR L0«(* EFfSCIENCV)
RMAWft*) IIANM
OCCURRENCE
FREQUENCY FERQINTA8E NIST06RAN
.444
.404--*
.404
.404
.400
1.444
.91*
.974
,*32
.MO
.744
.40*
.422
.440
IfQUO NIN/MAX RANCE
f«TAt FOFULATION
S.
it.
23.
117.
282.
910.
tat.
797.
797,
11.
7*4.
1.
1.
S.
19.
'17.
*
***
***«****
t «*
*»»»»*
-------
PftEBUfNCY DISTRIBUTION
LOCATION! RICKENBACKER AF8 1979
BTARTIN6 DATCt 1-22-79
PARAMETER! 1-HOUR IOO-I EFFICIENCY
PAMANfTit. RAN6I
OCCURRENCE
FREQUENCY PERCENTA6E
MIBT06RAM
I*. 000
at.tBB
tf ,000
IS. 000
19.000
45.000
91.000
9*. 000
43.000
49.000
21.000
27.000
33.000
39.000
49.000
SI. 000
ST. 000
43.000
40.000
7S.OOO
20.
S8.
111.
CTONO NIN/NAI RANBC
ftTAL POPULATION
1B2.
133.
94.
13.
T.
0.
13.
74B.
3.
17.
12.
2.
1.
0.
****
**
*«****
**'
*
CUMULATIVE OIBTRIBUTION
LOCATIONI RICKCNBACKER AfB
DAT!I t-22-T«
MRAHfrtRI 1-MOUR It0*f
OCCURRENCE
FRIBUENCT riRCfNTABE
It. 000
I*. 000
IS. 000
IS. 000
IS. 000
is. ooo
IS. 000
is. ooo
is. ooo
iS.OBO
21.000
27.000
33.000
39.000
4S.OOO
SI. 000
ST. 000
43.000
49.000
TS.OOO
IVOND MIN/NAX RAN8E
TSTAL POPULATION
20.
72.
1B3.
324.
SOO.
441.
TSS.
T4B.
TSS.
TSS.
13.
T4B.
3.
9.
24.
42.
46.
B3.
94.
97.
9».
96.
HIBT06RAM
**
****
****** **)i«**«**
*******
*****»* *
******»«
-------
PRIQUENCT DI8TRIOUTION
LOCATION! RICKEN0ACKER APi if?»
TARTIN0, OATEI l-«»«7»
PARAMETER! 1-HOUR L00(100*1 EFFICIENCY)
PARANMTIR RANK
OCCURRENCE
FREQUENCY PERCINTA6E
HI0T00RAM
..700
..0
..f40
1.0*0
I.JOO
I.S40
i.*»0
t.rfto
.010
.M0
.0*0
.100
.100
CO
.4*0
.700
.too
0.
0.
7.
1.
I*.
*.
194.
SIS.
CVONO NIN/NAX MAN0E
ItTAL
0.
760.
10
«l
as
o
.**
CUMULATIVE DISTRIBUTION
It, LOCATIONI RICKEN0ACKER API |«M
l DATE! l-M-7*
" PARANfffERl 1-MOUR L00(100*| EFFICIENCY)
OCCURRENCE
FNCOUCNCr FERCENTA6E
HI0T06RAN
.700
.700
.700
.700
.700
.700
.700
.700
.700
.700
.010
.'40
.0**
.100
.300
.410
.540
.660
.700
00
0.
0.
7.
0.
a«.
70.
**6.
IfVONO MIN/NAK RANBE
TtTAi. POPULATION
754.
754.
14.
760.
0.
0.
t.
I.
1.
70.
«0.
te.
*
******
.*********«**
*..*.*..**.*»************
.***«**...**********.*******
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFS 1979
BTARTIN6 DATEI 1-22-79
PARAMETER! 24-HOUR EIN* LB/MMBTU
PARAMETER RANGE
OCCURRENCE
FREQUENCY PERCENTAGE
4.400 -
4.910 -
5.420 -
.9.930 -
ft. 440 -
ft. 950
r.4fto -
T.970 -
B.4SO -
.990 -
4.910
5.420
5.930
ft. 440
ft. 950
7.460
7.970
B.4SO
ft. 990
9.500
EVONO MIN/NAI RANGE
TOTAL POPULATION
0.
I.
ft.
I*.
7.
0.
0.
0.
0.
0.
0.
so.
0.
3.
20.
53.
23.
0.
0.
0.
0.
0.
HISTOGRAM
**
*****
******
CUMULATIVE DISTRIBUTION
LOCATIONS RICKENBACKER AFB t«T9
DATEI 1-22-79
PARAMETERI 24-HOUR EIN, LB/MMBTU
PARAMETER RAN0E
OCCURRENCE
FREQUENCY PERCENTAGE
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
4.910
5.420
5.9SO
ft. 440
ft. 950
7.440
7.970
ft. 400
B.990
9.500
BIVONO NIN/MAX RANGE
TOTAL POPULATION
0.
I.
7.
21.
30.
so.
30.
30.
30.
50,
0.
30.
0.
3.
23.
77.
100.
100.
100.
100.
100.
100.
HISTOGRAM
****
****************»***
a*
A*************************************************
*********************
*******************
I**********************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! NICKENMCKER
STARTING DATII l-Z2-7«
PARAMETER! J4-HOUN LOS EIN
PANANCTIR MANSE
.74
.70*
.748
.77fc
.10
.44
OCCURRENCE
FREQUENCY PERCENTA8C
HUT09RAM
.74
70S
.74*
.77*
44
.TO
.946
IVONO MIN/HAX MANSE
TOTAL POPULATION
2
9
I*
7
0
0
8
0
0
10
7
17
I
ai
o
e
o
* '
****«
****
>
O
CUNULATIVK OUTMIBUTION
LOCATIONI RICKEMACREM AFS t«?f
ATE! l-tt-TV
PAMANETtMl 14-HOUR LOO EIN
OCCURRENCE
FRfOUENCT PCRCENTA8C
PARAMCTI* MAN0f
.440 .74 0.
40 ,70t 0.
.440 .74< I,
40 - .TTk 7.
40 ~ .«to as.
.40 .044 S«.
*4o ,»r» so.
.40 ,«I2 SO.
40 ,Mfc SO.
40 .« SO.
ETONO NIN/NAX RANBE 0,
TOTAL POPULATION SO.
HI8TOBRAM
0.
0.
7.
ai.
77.
100.
too.
too.
too.
too.
*
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
STARTING OATEl 1-22-79
PARAMETERI 24-HOUR EOUT, LB/MMBTU
PARAMETER RANGE
.400
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
-
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
5.100
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
BEYOND MIN/MAX RAN6E
TOTAL POPULATION
0.
0.
2.
7.
9.
5.
3.
0.
0.
0.
0.
26.
0.
0.
8.
27.
35.
19.
12.
0.
0.
0.
***
*****
**
**
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER AFt 1979
OATEl 1-22-79
PARAMETER» 24-HOUR EOUT, LB/MMBTU
PARAMETER RANSE
OCCURRENCE
FREQUENCY PERCENTAGE HISTOGRAM
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
V
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
5.100
BEYOND MIN/MAX RANGE
TOTAL POPULATION
0.
0.
t.
9.
18.
23.
26.
26.
26.
26.
0.
26.
0.
0.
8.
35.
69.
88.
100.
100.
100.
too.
**
A*******************************************
**«*»
«**»»»»*
-------
FREQUENCY DISTRIBUTION
LOCATIONS RICKENBACKER AFB 1*7*
TARTIN6 OATEI 1-22-7*
PARAMETERS 24-HOUR 106 BOUT
PMANfTBR RANtl
-,2M
OCCURRENCE
FREQUENCY PERCINU6E
HUT06RAH
.ITS)
.044
..155
,tkk
.S77
5**
.OkT
.044
.159
2k*
.STT
.«
.5**
.710
EVONO NIN/NAK RAN8E
TOTAL POPULATION
S
0
2*
27
42
II
0
*
*
****
**»**
I
CUMULATIVE OISTRIIUTION
LOCATIONS RICKENSACKER API 1*»*
DATES 1*12-7*
PARAMCfER* 24-HOUR LOO BOUT
PARAMCTtSli RANW
«»40*
40*
OCCURRENCE .
FREQUENCY PERCINTABE
HIST06RAM
«40*
40*
.044
.15*
.177
.5**
.71*
EVONO MIN/MAK RANGE
TITAL POPULATION
0
0
0
2
*
20
2*
2k
0
2k
15.
7T.
1*0.
100.
*
***
-------
MCQUEMCV DISTRIBUTION
LOCATION! RICKENBACKER AM
TARTIN8 OATft 1-22*79
PARAMETER! 24-HOUR I EFFICIENCY
PARAMETER RAN8E
11.090
11.000
S9.000
4*. 000
9S.OOO
«0. 000
tt.ooo
94.000
1.000
ft.ooo
K.OOO
10.000
4*. 000
53.000
*0.000
47.000
74.000
Ot.OOO
.000
03.000
OCCURRENCE
FREQUENCY PERCENTA0E
9.
0.
«.
ar.
si.
ts.
27.
0.
0.
0.
MTONO KIN/MAX RAN8I 0
TOTAL POPULATION I*
HIST00RAM
*
*
**
CUMULATIVE DISTRIBUTION
LOCATION! RICNENOACKER
ATEI 1-22-70
PARAMETER* <4«HOUR I EFFICIENCY
OCCURRENCE
PERCENTA6E
0.
0.
0.
27.
90.
71.
100.
too.
too.
100.
HUT08RAN
.000 «- It. 000
S.OOO *-10.000
1.000
S.OOO
19.000
S.OOO
9.000
9.000
.000
9.000
44.000
99.000
40.000
47.000
74.000
01.000
.000
09.000
MTONO MIN/MAI RAN6C
ttTAk POPULATION
0.
0.
0.
7,
19.
10.
4.
4.
14.
4.
0.
4.
****
**********
*****»****
a**********
-------
FREQUENCY DISTRIBUTION
LOCATION* RICNENBACKER AM
8TARTIN6 DATE! 1-22-78
PARAMETER! 14-HOUR L08(I EFFICIENCY)
PARAMETER RAN8E
.408
.898
.91*
*43a .
.MB
.748
,80*
.8*4
.Bit
.498
.918
.974
1*90
.748
.80*
.8*4
.921
.988
OCCURRENCE
FREQUENCY PERCENTA8E
0.
0.
CfONO NIN/MAI RANSE
TOTAL POPULATION
IT.
».
8.
8.
HiaTOBRAM
***
**
*****
*'
CO
NJ
CUMULATIVE OISTRIOUTION ;
LOCATION! RICKENBACKER AFB |«T«
ATEI l-M-r»
MRAMETERI 14-MOUH LOO^I
RANBti
.488
.488
.498
.408
.488
.400
.408
.408
.400
.408
»
-
.498
.SI*
74
.»U
.8*0
.748
.808
.8*4
.*II
.980
IVONO NIN/NAX RANOE
TOTAL POPULATION
10.
17.
2*.
I*.
2*.
0.
2*.
OCCURRENCE
PERCENTABE
8.
8.
0.
8.
SB^
100*
100.
100.
NI8T06RAN
*
*****
** ****»*****
***************
..t********«****** *********
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB l»T9
BTARTIN6 DATEl 1-22-79
PARAMETER! 24-HOUR 100-1 EFFICIENCY
PARAMETER RANK
OCCURRENCE
FREQUENCY PERCENTAGE
19.000
11.000
tt.OOO
33.000
J9.000
49.000
91.000
ST. 000
41.000
49.099
21.000
17.000
13.000
39.000
49.000
91.000
9T.OOO
13.000
49.000
79.000
IYONO DIN/MAX RAN6E
TOTAL POPULATION
0
0
7
3
*
9
9
0
0
0
0
24
0.
0.
27.
12.
23.
19.
1«.
0.
0.
0.
HI3T06RAM
****
******
*****
*
******
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER AFB 1«T9
OATEl 1-22-79
PARAMCTERt 24-HOUR 100-R EFFICIENCY
ARANCTIR RAN8C
OCCURRENCE
FREQUENCY FERCENTA8E
HISTOCRAM
19.000
19.000
19.000
19.000
19.000
19.000
19.000
19.000
19.000
19.000
21.000
27.000
33.000
39.000
49.000
91.000
97.000
43.000
49.000
79.000
CTONO KIN/MAX RANBE
TOTAL POPULATION
0.
0.
7.
10.
14.
21.
24.
24.
24.
24.
0.
24.
0.
0.
27.
SB.
42.
Bl.
100.
100.
100.
too.
A
A****************
A******************************
A************************** *
A*********************************************
A***********************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB t«7«
STARTINO OATEl 1-22-79
PARAMETER! 24-HOUR L06UOO-I EFFICIENCY)
PARAMETER RANBt
.199
.BtO
**0
.0*0
.IB*
.!
.420
.540
.»»
TBO
.B2B
.M*
.Oft*
.1*0
.50*
.420
.540
.ftft*
.TBO
.to*
OCCURRENCE
FREQUENCY PERCENTA6E
0.
«.
0.
«.
0.
0.
XI.
55.
JS.
0.
HIST06RAM
BEVONO MIN/MAX RAN6E 0
TBTAL POPULATION 2*
*«***
CO
00
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER APB lt»«
BATEI I-it-?*
MRANffERI 14-NOUR L00(IO««|
MRANf ft» KANOf
OCCURRENCE
MIOUENCT FERCINTA6E
HHT06RAN
TBB
.?**
.700
.7*0
,700
,7tO
.700
.7*0
.700
.70*
J
1
.**
«4B
1.0*0
I. IB*
.1*0
.420
.540
.4*0
.7*0
.«**
BEVONO NIN/NAI RANBE
TOTAL POPULATION
17
2ft
2ft
0
2ft
11.
*S.
100.
too.
ft******
*****
****»***********
***********»**
-------
DAILY SUMMARY Of RESULTS
LOCATIONI RICKENBACKCR APB 1979
DATE! 3- S-79
TIM
190
too
100
00
900
*00
700
00
900
1000
1100
1200
1100
1400
1500
UOO
1700
UOO
1*00
1000
210* >
22*0
not
§ AVERAGES
I OP OATA
MINIMUM
MAXIMUM
MCAN
TO.OEV.
I STO.DIV.
LOAD
Iff
IN
OUT
0
0
a*
100
0
0
0
0
*****
.2*1
.127
.313
.319
.2*3
.123
.19*
.130
.297
.99*
.28S
.360
.199
.210
.803
.940
.329
.904
.719
.979
.sso
.74S
.209
.289
1.091
l.UO
1.090
.**!
******
******
******
******
******
******
******
******
******
******
******
******.
******
******
******\
******<
******
******
******
******
82. ft
81.1
82.7
84.3
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
24. 4. «.
100. 17. 17.
ft.123 .9*1 SI.071
7.32* l.UO S4.31S
ft.62* ******. ******
.414 ****** ******
ft.299 ****** ******
-HOUR REMOVAL EFICIENCV USIN6
1
INIANI E » C I ******\
\ IN OUT
NOTEI (MEAN! U DEFINED AS!
I
THE MEAN FOR I DAYS USIN0 Y-HOUR AVCRA6E8
-------
OAIIT 3UMNART OP RESULTS
LOCATIONI RICKEN8ACKER Aft IV*
OATEI J- »»79
TIMt.
too
too
300
00
900
MO
700
00
too
1000
1100
UOO
1100
1400
1900
UOO
1700
UOO
1MO
H> 1000
7 ttoo
w aaoo
*> tioo
8. AVBRAMt
t Of DATA
MINIMUM
MAXIMUM
MEAN
STO.OiV.
9 ST9.0EV.
LOAD
IN
a«
too
0
0
0
0
88888
4.
7.054
OUT
888808
.42
.1
.449
000000
000008
.79
.047
.147
.017
.37
.948
800008
000000
.415
.483
.732
.9*0
.447
.737
.sa
.043
000000,
000000
000000
000000
000000
000008
000000
000000
000008
000000
000008
888888
a*. o.
100. o.
4.934 808808,
7.100 .000
6.81* 888808
.210 000088
1.207 000008
Iff
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00008
00000
00000
00000
0.
0.
800000
.000
000000
000000
000000
24-MOUR RINOVAC CfICIENCY U8IN0
1
(MIAMI Iff ( 088800X
1 IN OUT
MOTfl CMIANI 18 OCflNCD Alt
X
TMt MEAN fOR X OATS U8IN6 T-NOUR AVCRA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AFS 1979
DATE! 1-10-79
TIME
0
100
too
300
400
500
600
700
00
900
1000
1100
1100
1100
1400
1500
UOO
1700
1800
1900
2000
not
2200
aioo
AVERAOE*
I Of DATA
MINIMUM
MAXIMUM
MIAN
TO.OIV.
s STO.OEV.
LOAD
EFF
IN
OUT
0.
0.
0.
0.
0. «
015
.075
.949
.901
.881
.895
.844
.994
.890
.084
*«*
.994
.558
.188
.5*8
.482
.226
.117
.512
.12*
.162
.125
.449
.195
******
******
******
******
******
***»**.
******
*«««
******
»«**«.
«*****.
*«««
»»»»»».
»*»»*».
***»»»
»»»*»»
2.152
2.298
2.299
2.027
1.910
1.912
2.111
2.154
*****
*****
*****
*»»»«
*****
*****
*****
*****
*****
**««
*****
*****
«««
*****
*****
*****
*2.2
61.6
69.4
66.9
69.0
69.8
67. 1
66.1
25. 24.
104. 100.
6.12*
7.512
6.717
.169
5.495
0.
0.
0.
0.
*****
8.
11.
1.910
2. 152
******
««*«
*«*
8.
11.
62.226
69.776
******
«»**
«***
14-HOUR REMOVAL EFICIENCV U8IN0
1
CMEAN1 E » E I ****«!
1 IN OUT
MOTEI IMEANI IS DEFINED ASt
X
THE MEAN FOR X DAYS USINS Y-MOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKCR AFi IfTO
DATEI 3-11-7*
TIM
too
aoo
sot
400
800
400
700
00
«00
1000
1100
1200
ilOO
1400
IfOO
1400
1700
1000
1*00
> 2000
I 1100
m MOO
W MOt
AVlRAtCS
I OF DATA
MINIMUM
MAIIMUM
MtAN
STO.OIV.
I. STD.0IV.
LOAD
IFF
IN
OUT
24
too
' 0
0
0
0
MM
.401
.344
.49*
.491
.932
.412
.402
.419
.39*
.937
.*43
.00
.419
.247
.441
.742
.434
.344
.471
.972
.344
.340
.173
.129
.127
.211
.204
.141
.224
.192
.101
.144
.124
.144
.407
.344
.22*
.240
.430
.424
.499
.070
.07S
.104:
.121
.71*
.73*
.919
44.
49.
49.
44.
49.
44.
47.
49.
44,
44.
49.
49.
49.
7*.
44.
41.
43.
47.
47.
44.
44.
72.
71.
44.7
24.
100.
4.129
11.247
4.649
1.000
14.990
24. 24.
100.. 100.
1.719. 41.07S
2.424. 79.7*4
2.174 47.113
.204
9,342
3.413
9.344
24-MOUR REMOVAL IFICIINCV USING
1
MIAMI I , I I 47.4901
t IN OUT
MOTH IMtANl IS DEFINED All
a
TMt; MEAN FOR X DAYS USIN8 V-HOUR AVERA0E8
-------
DAILY SUMMARY Of RESULTS
LOCATIONS RICKENIACKER Art
OATEI 3-12-71
TIM
s
too
200
100
400
900
too
TOO
00
100
1000
1100
taoo
isoo
1400
1500
uot
ITOO
ISOO
IMS
2000
atos
2200
23os
0> AVERASIS
t OF DATA
MINIMUM
MAXIMUM
MIAN
STD.OKV.
i STO.DEV.
LOAD
IFF
IN
OUT
01
01
01
.171
.217
.273
.2S2
.410
.351
SSI
.12*
.800
.«7|
.714
.534
.7*7
.40S
10000
10000
10000
.153
.717
.372
.151
2SS
.450
.70S
2,013
1.012
1.541
000000'
000000
000000
000000
000000
000000
000000
000000
000000:
000000
000000.
000000.
000000.
000000'
.41
.120
2.117
.It*
.4S2
.24
2.4SO
71.1
70.0
75.0
00K00
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
73.
71.
71.
75.
73.
71.7
71.S
as at. 10. 10.
1SS SS. 42. 42.
S 5.714 1.541 41.151
0 S.71S 2.4SO 75.021
4.S74 000000 000000
0 .713 000000 000000
00000 IS.144 000000 000000
24-HOUR REMOVAL EFICIINCV USIN6
1
IMEAN1 1,1 I 000000S
I IN OUT
NOTE! IMEAN1 IS DEFINED ASI
X
THE MEAN FOR I OAVS USIN8 Y-HOUR AVERAGES
-------
DAILT SUMMARY OP RESULTS
IOCATIONI RICKENSACKER AM 1979
OATH 3-13-79
TIME
0
10*
800
300
400
soo
too
700
00
900
1000
1100
1*00
1300
1400
1500
1*00
1700
1000
1900
> 2000
I 1100
to 2200
<* 8300
AVKRAMS
X OF DATA
MINIMUM
MAXIMUM
MIAN
TD.DtV.
I STO.DCV.
LOAD
Iff
IN
OUT
. :
1
1
1
1
01
01
04
01
01
04
01
01
.a* i
.401 1
.046 1
.790 i
,193 i
.951
.600
.450 i
.til 1
.391 I
.79* 1
r.5«o
r.564
r.sot
r.o« i
r.33i j
10000
F0000
»0000
10000
>0000
10000
10000
10000
1.795
I. Sit
1,915
1.307
t.ooo
t.OOi
1.679
1.04*
1.774
L.*2*
1.3SS
.0*4.
,»5*
.779
1.743
1.915
.90
.010
.019
.711
,*77
.550
.494
.411
74.1
7*.
7Z.
70.
72.
74.
74.
72.
74.
74.
79.
«.
91.
09.
75.
73.
00000
00000
00000
00000
00000
00000
00000
00000
84 1*. 84. 1*.
100 47. 100. 47.
0 4.391 .45* 70.2*0
0 7.751 2,307 91.344
0 000000 1.433 000000
0 000000 .394 000000
00000 000000 84.141 000000
84-N0UR RIMOVAL EFICIINCT USIN8
1
CMCAN1 E « C I 0000001
I IN OUT
MOTH (MAN! II OIPINCO ASI
I
TNI MEAN FOR I DATS USING V-MOUR AVCRA6CS
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AM 1979
DATE! 3-14-79
TIM
0
100
100
100
00
soo
too
7 tO
00
900
1000
1100
1200
1300
1400
1500
1600
1700
UOO
1900
2000
2100
2200
2300
LOAD
IFF
IN
OUT
01
91
01
01
01
01
01
01
01
01
. '
1
1
1
1
1
1
'0ft |
10000 I
10000 1
10000 I
10000 I
10000
10000
10000
10000 0
10000 0
.401
.2J7
.246
.92*
.417
.409
.771
r.oio
r.049
r.032
M42
r.o«4
f.035
k.02«
.423
.445
1.951
1.919
1.097
.057
.901
.097
0000.
0000.
.921
.034
.142
.060
»963
.9*0
.766
.14*
.301
.230
.155
.145
.213
.2*3
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
70.
»7.
46.
40.
*«.
*9.
73.
*4.
»7.
*e.
49.
*9.
40.
**.
I OF DATA
MINIMUM
MAXIMUM
MEAN
TO.OIV.
» TD.OIV.
24 14. 22. 14.
100 St. 92. SO.
0 6.237 1.423 65.971
0 7.142 2.301 73.924
0 000000 2.035 000000
0 000000 .164 000000
0000 000000 0.054 000000
24-HOUR REMOVAL EFICIENCY USIN6
1
IMEAN1 E , E I 000000X
I IN OUT
NOTEI IMEAN1 19 DEFINED AS!
X
THE MEAN FOR X DAYS USINS Y-HOUR AVERABES
-------
DAILY SUMMARY OF RESULTS
kOCATIONI RICKENBACKER AFB
OATEt 3-15-79
LOAD
IN
TIME
t
too
200
300
oo
500
too
700
00
900
1000
1100
1200
1300
1400
1SOO
1400
1700
iftoo
1900
1000
1100
2200
J 1300
0 AVCRAtfS
S Of DATA
MINIMUM
MAXIMUM
MEAN
STO.OKV.
I STO.OIV,
24-MOUR REMOVAL EFICIENCY USIN6
1
MIAMI E , E I 78.993X
1 IN OUT
Iff
OUT
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
24
too
0
0
0
0
.760 2.266
.679 2.21*
.531 2.246
.881
.624
.617
.676
.740
.895
.915
.710
.686
.564
.601
.302
.13ft
.093
.103
111
.161
.174
.230
.184
.125
.075
.944
.517
.556 .56?
.837 .628
.078 .622
.250 .554
.682 .588
.589 .550
.463 .642
.506 .576
.071 .512
24. 24.
too. 100.
6.3*2 .512
9.071 2.26ft
7. 304 1.534
.S69 .767
0*000 11.893 49.999
66.
66.
65.
68.
68.
68.
68.
67.
66.
67.
67.
68.
68.
70.
76.
92.
92.
92.
93.
93.
93.
92.
93.
94.
24.
100.
65.615
94.359
77.696
12.254
15.772
NOTII IMCANI 18 DEFINED A8I
X
THE MEAN FOR X DAYS USIN6 Y-HOUR AVERAOES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFS 1979
OATEI 3-16-79
TINE
0
100
200
300
00
900
too
TOO
SOO
900
1000
1100
1X00
1300
1400
1500
1*00
1TOO
1*00
1900
1000
2100
(200
230*
, AVERASES
S Of DATA
MINIMUM
MAXIMUM
MEAN
STO.OEV.
I STO.OEV.
LOAD
Iff
IN
OUT
.169 .46S
.24T .484
.547 .449
.499 .462
.717 .463
10.009 .413
11.037 .426
10.829 .429
1
1
1
.459 .611
.036
.856
.190
.052
.921
.096
.462
.304
.225
.OSS
.683
.944
M26
F.651
f,7S5
.84*
.696
.726
.763
.756
.629
.747
.943
52
.730
.749
.70*
.722
.»75
.S3*
94.7
94.
95.
94.
95.
95.
9*.
96.
93.
77.
75.
76.
74.
74.
74.
76.
73.
74.
75.
74.
75.
75.
76.
76.
24. 24. 24. 24.
100. 100. 100. 100.
0. 6.656 .411 73.J97
0. 11.017 1.941 96.140
0. 6.213 1.26* 82.856
0. 1.3TO .646 9.761
«« 16.665 50.2S4 11.605
24-HOUR REMOVAL EFICIENCY U8IN6
1
IMEAN1 E , E I S4.34S1
1 IN OUT
NOTEI (MEAN) IS DEFINED ASt
X
THE MEAN FOR X DATS USINB Y-HOUR AVERAGES
-------
DAILY IUNNARV Of REIULTI
LOCATIONI RICKENBACKER AFB 1979
8ATCI 3M7-79
TXMC
190
aoo
so*
400
500
400
7oo
oe
900
1000
1100
1*00
1300
1400
1800
1400
1700
1000
1900
LOAD
Iff
IN
OUT
,.
a«
100
0
0
0
0
7.3JJ a.OlS
7.707 a. 219
.211 2.241
.242 2. 005
.243
.200
7.M4
7.940
7.000
7.321
7.401
7.294
7.179
7.500
7.313
7.314
7.422
7.951
7.505
7.437
7.459
7.542
7.439
. 7.777
.715,
.454
.344
.472
.22
.743
.547.
.401
.517.
.353
.373
.415
.343
.US
.249
.155
.200
.340
.447
.409
24. 24.
100. 100.
7.179 1.159
.243 2.841
7.445 1.541
.332 .317
99999 «,M9 aO.117
72.
70.
72.
74.
79.
2.
2.
01.
74.
75.
79.
70.
70.
2.
01.
00.
01.
OS.
03.
04.
03.
02.
00.
00.
24.
100.
70.944
05.101
79.447
3.922
4.924
atOO
W atOO
oo HOt
f AVIRAM*
t OP DATA
MINIMUM
MAXIMUM
MIAN
TD.OEV.
x 0TO.DO.
I4-NOUR REMOVAL CPICICNCY U8IN0
1
HMANI I . I 70.4SSI
1 IN OUT
NtTII INtANI II 01 f I WO Alt
X
TNI MEAN FOR X OAVI UIING Y-MOUR AVERAGE!
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENBACKER AFi 1979
OATEI 3-l»-79
TIM
LOAD
IN-
CUT
EFF
0
100
200
soo
400
900
too
700
00
900
1000
1100
1100
1SOO
1400
1900
1*00
1700
1*00
1*00
2000
2100
2200
2X00
f AVERAUt . 14
S 'OF DATA 100
MINIMUM 0
MAXIMUM 0
MIAN 0
STO.DIV. 0
.**' I. 937
.131
.044
.194
.390
.914
.93*
.02*
.042
7.994
7.0*9
7.992
T.*»4
7.34ft
.*03
.30
.992
.93
.477
7.199
7.797
7.223
7.*00
.*92
.7*0
.71
.71
29
.94
.791
.721
.99
.702
.30
.11
99
.71*
.Ml
.40
.977
,*09
.092
.01*
.0
.9*
T.»*7 2.034
14. 24.
100. 100.
*.477 I.9B7
.914 2.092
7.73* 1.793
.4*0 .137
i TO.DEV. «« 9.04X T.**2
0.
79.
77.
77.
77.
7«.
7*.
7».
7«.
7k.
7«.
75.
7*.
74.
7*.
7«.
79.
77.
79.
71.
74.
74.
79.
74.1
24.
100.
71.33*
0.497
7*. 797
2.144
2.794
24-HOUR REMOVAL IFICIENCV UtINS
I
INEANI E , E t 7».«29S
1 IN OUT
NOTII IMfANI ! DEFINED All
X
THE MEAN FOR I DAY* USIN6 Y-MOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFD It79
DATES 3-19*79
TIM
0
tot
lot
ito
40t
900
600
700
00
tot
ItOO
1100
1200
1300
l«0t
1900
uoo
ITOO
1000
ItOO
> 2000
I 2100
LOAD
IN
EPF
OUT
2«
100
0
0
0
0
7.791
T.tO«
7.9k9
7.1T7
7.479
7.249
7.2SS
7.110
7.3S4
7.S9S
7.299
7. SOS
7.t83
7.«91
7.»77
7.S24
7.409
7.4k7
7.S97
7.923
7.810
7.973
7.641
7.407
.Til
.629
.927
.994
.641
.927
.420
.366
.486
.818
.472
.897
.742
.806
.633
.471
.416
.941
.393
.387
.491
.414
.399
.402
24. 24.
100. 100.
7.130 1.1*6
7.904 1.497
7.924 1.944
.222 .191
»« 2.990 t.TJl
77.
79.
79.
77.
78.
78.
SO.
80.
79.
79.
79.
74.
77.
76.
78.
81.
81.
79.
81.
81.
80.
81.
81.
82.
24.
100.
74.999
82.044
79.417
2.060
2.993
not
0 AVfRAMt
I OP DATA
MINIMUM
MAXIMUM
MEAN
TO.DEV.
I »T0«DIV.
24-MOUR REMOVAL EPICIINCV USIN8
1
IMANI I»C I Tt.430»
t IN OUT
NOTII WiANl IS DEFINED ASl
H
THE MEAN FOR X DATS USIN8 Y-MOUR AVERAGES
-------
DAILY SUMMARY OP RESULTS
LOCATION! RICKINIACKIR API 19?9
DATE I 3-20-79
TIN*
100
200
SOO
400
SOO
*00
700
00
900
1000
1100
1200
1300
1400
1SOO
1400
1700
1*00
I »00
2000 ,
2100
2200
lit*
AVIRAM*
t OF DATA
MINIMUM
MAXIMUM
MCAN
TO.DIV.
« m.Btv.
LOAD
IFF
IN
OUT
O.ltl
7.915
7.047
0.105
7.980
7.000
7.401
7.030
7.901
7.707
6.290
7.079
7.344
6. 231
7.755
6. 330
a. 420
0. 094
7.7*1
4.095
7.930
7,514
7.7*8
7.7*1
.520
.521
.4*7
.451
.592
.**3
.54*
.570
.67*
.659
.124
.100
.474
.471
.55*
.*97 .
.102
.Oil
.***
.737
.477
.537
.5*9
.475
ai.
ao.
ai.
82.
ao.
70.
79.
79.
78.
7a.
74.
70.
79.
02.
79.
79.
74.
77.
7a.
ao.
01.
79.
79.
01.
24 14. 24. 24.
too too. too. too.
0 7.079 1.451 70.32*
0 .095 2.102 02.130
0 7.92* l.*51 79.139
0 .371 .210 2.749
*««« 4.642 12.730 3.474
24-HOUR REMOVAL CFICIENCY USIN0
I
IMANI t , C I 79.1*ai
I IN OUT
NOTEI INCAMI II DEFINED All
X
TNI' MEAN FOR I DAYS UaiNB V-HOUR AVERACCa
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AFB 1*79
DATE! S-21-79
TINC
t
100
too
300
400
SOO
too
700
00
900
1000
1100
laoo
1300
1400
1500
1*00
1700
1000
1*00
> 1000
I 1100
£ *!
0 HOt
LOAD
EFF
IN
OUT
<4
too
0
0
0
7.941
7.410
7.917
.670
.091
.544
.637
.174
.067
.65*
.930
.965
.464
7.654
7.662
7.691
7.606
7.603
7.936
6.025
.667
7.926
7.630
7.617
.515
.650
.604
.663
.777
.601
.639
.671
.746
.927
.723
.523
.369
.242
.221
.207
.096
.161
.149
.196
.151
.313
.333
.531
14. 24.
100. 100.
7.410 1.099
.667 1.927
7.656 1.493
.253 .276
00*00 3.220 I*. 604
61.0
77.
77.
76.
77.
76.
76.
77.
76.
75.
76.
60.
61.
64.
64.
64.
85.
65.
65.
65.
64.
63.
62.
60.
24.
100.
75.47
6.71
0.97
3.60
4.45
I Or DATA
MINIMUM
MAXIMUM
MIAN
TO.DIV.
I STO.OEV.
14-HOUR REMOVAL EFICIENCY USINC
1
IMANJ f . E I SI.0021
I IN OUT
NtTII [MIAN) IS DEFINED ASI
8
TNI MEAN FOR X DAYS U8IN6 V-HOUR AVERA6ES
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AFB 1*79
OATEI 3-22-79
LOAD
IN
TIME
0
100
200
100
00
300
600
700
SOS
900
1000
1100
1200
1100
1400
1800
UOO
1700
1SOS
1900
200S
1100
2100
2)00
AVIRAMS
t Of DATA
MINIMUM
MAXIMUM
MEAN
STO.OIV.
I STD.DCV.
4-HOUR REMOVAL EFICIENCT USIN6
1
CNEAN1 E » E I 61.3861
1 IN OUT
Iff
OUT
'
1
1
1
.109
.136
.273
.297
.311
r.S24
r.437
r.334
.396
.371 0
.037
.112
.410
.399
.607
.263
.29S
.208
.993
.007
.OSS
.217
.041
r«769
.408
.324
.3*7
.204
.271
.297
.300
.348
.232
»f«
.639
.402
.141
.214
.342
.366
.389
.373
.488
.692
.833
.398
.489
.981
60.
61.
61.
62.
62.
62.
62.
61.
63.
*««»
76.
60.
64.
63.
62.
63.
63.
60.
61.
79.
76.
60.
61.
79.7
24
ISO
s
0
0
0
I
«.
100.
7.037
S.29S
7.626
.413
9 9.446
as.
96.
1.141
1.839
1.420
.173
12.199
23.
96.
76.427
64.999
61.409
2.047
2.314
MOTH IMIANI IS DEFINED ASl
X
TME MEAN FOR X DATS U8IN6 Y-HOUR AVERAGES
-------
DAILY SUMMARY OP RESULTS
LOCATIONI RICKEN8ACKER AFB l»T9
DATE! 3-23-79
TIMC
tee
eo
soo
«oo
soo
600
700
oo
900
1000
1100
1200
1900
1400
1900
1*00
1700
uoo
1900
LOAD
Iff
IN
OUT
I 2100
^ 2200
M 2BSO
AVERAGES
I Of DATA
MINIMUM
MAXIMUM
MEAN
TO.OfV.
I STO.OEV.
;
r.764
.015
.90*
.24
.986
.182
.022
.953
.040
.980
.500
.993
.112
.531
.432
,410
.153
.518
.204
.901
.3*0
.600
.789
r.iso
1.700
1.588
1.533
1.517
1.510
1.625
1.825
2.009
1.897
«*»«*
******
2.251
2.409
2.263
2.105
2.207
2.173
2.035
2.051
1.754
1.825
1.679
1.834
2.191
78.1
80.2
80.6
80.6
81.1
80.1
77.2
74.7
76.4
*****
»«
67.8
66.1
69.9
71.7
70.2
73.3
72.9
71.5
74.6
75.2
77.9
73.0
69.3
14 24. 22. 22.
180 100. 92. 92.
0 6.789 1.510 66.125
0 8.980 2.409 81.102
0 7.680 1.908 74.666
0 .530 .276 4.486
*««»» 6.901 14.439 6.008
HOUR REMOVAL EFICIENCV USING
t
INEANI E , I I 75.1501
t IN OUT
NOTEI CMEAN] It DEFINED A8t
8
TNE MEAN FOR X DAV8 U8IN8 VHOUR AVERAGES
-------
DAILY SUMMARY Of RESULTS
LOCATION! RICKENIACKER AFi 19»9
OATEt 1-24-79
TIM'
LOAD
200
IfO
400
SOO
ftoo
790
00
MO
1000
1100
1*00
lioo
1400
I SOO
1*00
1700
1000
1*00
toot
tioo
2100
SOS
*. AVERAMt
I Of DATA
MINIMUM
MAXIMUM
MEAN
TO.OEV.
I STO.OEV.
100
0
IN
.101
.47
.IIS
.204
.23S
.0*7
*I7
.571
OUT
.047
.*99
.790
.90
.71*
.719
.99*
.9*9
.492
.909
.*90
.19
.*71
.*91
.*71
.711
.29
.7*0
.012
EFF
71.
79.
74.
74.
7*.
79.
*7.
*S.
*o.
*ol
*1.
000000
.70S
.00
.7ia
.oas
.004
.047
.199
.431
.092
.047
.4*
.**9
t»7«l 00*000
7.049 000000
24. 19. 19.
100. 79. 19.
*.*17 l.*99 .97.910
7.973 1.012 1<9.99*
7.004 2.149 »ft.990
.214 .4*0 ».*34
1,33* 19.979 9.9*2
60.
2.
97.
0000
0000
0000
24-MOUR REMOVAL EFICIENCY USIN8
1
CNEANl E , E I ft*.4*71
1 IN OUT
NOTEI CMEAN) IS DEFINED ASl
X
THE MEAN FOR I DAYS USINB Y-HOUR AVERAGES
-------
OAILT 8UNMART Of RESULTS
LOCATIONI RICKENIACKER AFi 197*
OATH S-2B-T9
TIM
t
too
ttt
300
00
SOO
too
TOO
00
900
1000
1100
1X00
1X00
1400
isoo
1*00
1700
1800
1900
LOAD
f tioo
^ MOO
N> 2100
AVCRAMI
t Of DATA
MINIMUM
MAXIMUM
MIAN
TO.DIV.
I STD.DEV.
24
100
0
0
0
0
IN
.914
.868
.778
.979
.038
.903
.719
.919
.927
.263
.897
.510
.897
.317
.472
.724
.647
.814
.730
.230
.316
.702
.681
.182
OUT
*«
******
««»*«
******
*««»*«
*«*»*
EFF
*«
*****
«**
******
******
**«*«
*«*«*»
*****
*****
*****
»«»**
*****
*****
*****
*****
*****
*****
**»»««
»**«
******
******
*»*«
*****
*****
******
*»«*
******
***
24. 0.
100. 0.
6.317 *«
8.182 .000
6.974 **««
.420 **«
6.025 *»
*****
*****
*****
*«
*****
*****
0.
0.
«*»
.000
*«*
«»««*
*«»
24-HOUR REMOVAL E'lCIENCT U8IN6
1
WEAN) E , E I *#**»
1 IN OUT
NtTEl IMIAN1 18 DEFINED ASt
X
THE MEAN FOR X DAYS U8IN8 Y-HOUR AVERA6E8
-------
OAILY SUMMARY OP RESULT*
LOCATION! RICKEMACKER AFB 1919
DATEI 3-B4-TO
TSMf
too
00
100
«00
900
4*0
700
soo
000
1000
ttoo
taoo
1300
1400
1500
1*00
1700
1000
wo
aooo
1100
MOO
aioo
AVKRAMO
or DATA
MINIMUM
MAXIMUM
MIAN
TO.OIV.
I STO.OfV.
LOAD
IN
OUT
EFF
ISO
0
0
0
0
00000
.531 000000.
.S«7 000000
.0*4 000000,
.015 000000;
.0*9 00000.
.tsa 000000
.411 000000
.509 000000,
.951 000000.
.OSS a. 174-
.SSI l.SM
.050
.735
.750
.SO*
.SSI
.««5
.100
.«*
.554
.a«7
.33S
,ai9
.111
.OM
.705
.S3a
.oai
.ao9
.500
.a««
.i*a
.195
,5«».
.954
.440
.44a
00000
00000
00000
00000
00000
00000
00000
00000
00000
*«.
6S.
45.
70.
4S.
45.
42.
tt.
43.
43.
44.
ss.
3«.
40.
40.
84. 15. 15.
tOO. 43. 43.
5,735 1,705 50.74*
7.0*4 1,5*4 70.173
4.330 000000 000000
,40a 000000 00*000
4.357 000000, 000000
a«-MtU* REMOVAL EFICIENCT USINS
1
IMIANI Kit t 000000X
I IN OUT
NOTII INIANI If DCFINKO All
I
THE WAN FOR I DAYS USINS V*HOUR AVERA6ES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFB 1979
OATEI 3-27-79
TIME
0
100
200
300
400
500
600
700
600
900
1000
1100
1200
1300
1400
1500
1600
1700
1600
1900
> 2000
I 2100
*» 2200
w 2100
AVERAGES
1 OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OEV.
I STO.OEV.
LOAD
IN
OUT
EFF
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
.090
.237
.104
.266
.069
.247
.075
.967
.655
.960
.200
.493
.230
.408
.239
.097
.116
.213
.936
.156
.357
.364
.953
.960
2.214
2.214
2.090
2.060
2.016
1.908
2.002
2.347
2.352
2.409
2.523
2.467
2.106
2.094
2.419
2.230
2.324
1.992
2.042
2.066
1.974
2.096
2.040
1.775
63.6
64.5
65.6
67.1
66.7
69.5
67.1
60.6
59.6
59.6
59.3
61.7
66.2
67.3
61.2
63.4
62.0
67.9
65.6
66.1
69.0
67.2
65.7
70.3
24. 24.
100. 100.
0. 5.655
0. 6.493
0. 6.152
0. .164
»*« 2*663
24. 24.
100. 100.
1.775 59.309
2.523 70.306
2.159 64.695
.193 3.249
6.942 5.006
26-HOUR REMOVAL EFICIENCY U8IN6
I
IMEAN1 E r E I 64.9161
1 IN OUT
NOTEI IMEANJ IS DEFINED ASl
H
THE MEAN FOR I OATS USING Y-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONS RICKENBACKER AFB 1979
OATEI 3-2S-T9
TINE
0
100
200
300
400
SOO
400
700
SOO
900
1000
ilOO
1200
1300
1400
1900
1*00
1700
1SOO
1900
2000
2100
MOO
2100
0 AVIRABES
I OF DATA
MINIMUM
MAXIMUM
MEAN
STO.OEV.
I STO.OEV.
LOAD
EFF
IN
OUT
0
0
0
0
0
0
0
04
01
01
01
0
0
0
.337
.053
.424
234
.400
.433
.168
.304
.050
.711
.796
.342
.437
.064
.692
.944
.472
10000
10000
10000
10000
110000
10000
10000
01
01
0
0
0
0
0
.740
.794
.742
.941
.027
.099
.947
.971
.949
.949
.20S
.943
.til
.080
.994
.291
.787
10000
100*0
V0000
10000
10000
10000
10000
72.5
70.3
72.6
48.4
48.3
48.0
48.4
48.7
47.8
71.0
47.3
49.1
71.1
73.4
74.4
80.9
73.2
00000
00000
00000
00000
00000
00000
00000
4 17. 17. 17.
100 71. 71. 71.
0 4.050 1.251 47.323
0 7.064 2.208 80.888
0 000000 000000 000000
0 000000 000000 000000
00000 000000 000000 000000
24-HOUR REMOVAL EFICIENCV USINS
1
IMEAN1 1,1 I .0001
1 IN OUT
NOTEI CMEANI IS DEFINED ASt
X
THE MEAN FOR I DAYS USIN6 Y-HOUR AVERA6E8
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER AFB 1979
DATE! 5-89-79
TIME
0
100
200
300
00
500
600
700
BOO
900
1000
1100
1200
1300
1400
1500
1600
1700
1BOO
1900
j, 2000
I 2100
^ 2200
*> 2300
* AVERAGES
X OF DATA
MINIMUM
MAXIMUM
MEAN
8TO.OEV.
X STO.OEV.
LOAD
EFF
IN
OUT
0. *l
0. *i
0. »«
0. *i
0. <
0. <
0. *<
0. *l
0.
0.
0.
0.
0.
0.
0.
0.
0.
o. ;
0. 1
0. 1
0.
0.
0.
0. 1
»*»«* «l
I**** *l
***** »(
1**** *l
I**** *<
)««»» *l
r**** *i
»«*** *l
.686
.445
.428
.565
.363
.412
.450
.417
i.754
r.893
r.042
r.206
r.567
r.393
r.97i
1.151 *l
'««»
)****
1****
I****
)»«**
)«*««
>«»«*
)«*
.769
.504
.298
.463
.706
.671
.495
.349
.293
.150
.216
.254
.207
.033
.955
1****
*«»*
*****
««»*
*****
»**««
««*»*
»»«*»
*****
73.5
76.7
79.8
77.7
73.2
73.9
76.8
79.0
TT.S
85.4
82.7
82.6
84.1
86.0
88.0
*****
24. 16. 15. 15.
100. 67. 63. 63.
0. 5.754 .955 73.195
0. 8.151 1.769 88.017
0. *** ****** **»«««
0. ****** ****** **««««
***** »«*»«» *»«*» **««»*
24-HOUR REMOVAL EFICIENCY USING
1
(MEAN) E , E I .OOOX
1 IN OUT
NOTEI CMEAN) IS DEFINED ASt
X
THE MEAN FOR X DAYS USING Y-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION! RICKENSACKER AFB 1979
DATE! 3-30-79
TIME
0
100
200
300
400
500
600
700
aoo
900
1000
1100
1200
1SOO
1400
1SOO
1600
1700
uoo
1900
2000
2100
2200
2300
"0 AVERA6ES
S OF DATA
MINIMUM
MAXIMUM
MEAN
STO.DCV.
I STO.OEV.
LOAD
EFF
IN
OUT
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
«.
7.092 000000
8.016 00*000
7.870 00*000
7.263 ******
7.147 ******
7.374 ******
7.768 ******
8.323 ******
8.021 ******
7.360 ******
7.765
6.742
7.031
7.790
7.456
7.181
7.961
8.049
7.596
7.720
7.500
7.681
7.990
.033
.236
.091
.035
.083
.146
.187
.244
.175
.155
.257
.337
.248
.251
.053
*****
*****
*****
*****
*****
*****
*****
*****
*****
*****
84.1
83.8
85.3
86.1
84.6
83.5
84.4
85.4
84.8
83.7
82.2
83.7
84.3
86.9
24. 24.
100. 100.
0.
0.
0.
0.
*****
6.742
8.323
7.615
.400
5.256
14.
58.
1.035
1.337
******
******
******
14.
58.
82.167
86.885
******
******
******
24-MOUR REMOVAL EFICIENCY USING
1
INEANI E . E I 011*00111
t IN OUT
NOTE! (MEAN) IS DEFINED ASl
X
THE MEAN FOR X DAYS USING Y-HOUR AVERAGES
-------
OA1LV SUMMARY OF RESULTS
LOCATION! RICKENBACKER AFB 1979
DATE! 3-31-79
TIMK
0
100
200
SOO
00
SOO
600
700
aoo
900
tooo
itoo
1200
1300
1400
1500
1600
1700
1600
1900
_ 2000
" 2100
LOAD
EFF
IN
OUT
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
7.519
7.684
7. 99J 01
7.674 *l
7. 955 !
7.693 «<
7.704 ft
7.571
7.459
7.665
7.194
7.131
7.128
7.180
7.544
7.244
7.373
7.284
7.346
7.320
7.048
7.268
7.269
7.293
.957
.927
\nn»n
>»««
»«
>*»
»«**
.133
.216
.215
.099
.276
.095
.078
.113
.164
.121
.190
.170
.152
.229
.242
.231
.347
87.3
87.9
»«
««***
»«*
***«*
*«*«
85.0
83.7
84.1
84.
82.
84.
85.
85.
83.
84.
83.
84.
84.
82.
82.
83.
81.
on 2100
0 AVERAGES
S OP DATA
MINIMUM
MAXIMUM
MEAN
TO.DEV.
I 8TO.OEV.
24-HOUR REMOVAL EFICIENCV USING
1
(MEAN] E . E I 84.4691
1 IN OUT
24.
100.
0.
0.
0.
0.
«*«
24.
100.
7.048
7.993
7.439
.260
3.489
19.
79.
.927
1.347
1.155
.102
8.812
19.
79.
81.537
87.941
84.243
1.570
1.864
NOTEI (MEAN) 18 DEFINED A8I
X
THE MEAN FOR X DATS U3IN6 V-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIONI RICKENBACKER API |979
DATE! 4- 1-79
TIMt
LOAD
IN
OUT
Iff
0
100
200
300
409
SOO
400
700
SOO
too
1000
ttoo
1200
1300
1400
1SOO
1600
1700
1SOO
1900
aooo
1100
2200
2300
0 AVERASES 24
1 OP DATA 100
MINIMUM 0
MAXIMUM 0
MEAN 0
STD.OIV. 0
.114
.758
.853
.943
.254
.484
.732
.740
.909
.107
.837
.940
.759
.859
.839
.085
.447
7.19*
7. ISO
7.036
6.774
7.192
7. 287
4,940
.584
.797
.028
.181
.239
.793
.729
.440
.439
.540
.540
.493
.572
.694
.811
.794
.998
.589
.124
.077
.048
.029
.217
.234
24. 24.
100. 100.
4.732 1.02S
7.4S4 2.239
7.011 1.S91
.223 .341
1 STD.OEV. S.17S 21.SSS
77.7
73.
70.
48.
69.
74.
74.
75.
79.
78.
77.
78.
76.
75.
73.
74.
73.
77.
84.
84.
84.
85.
83.
82.
24.
100.
68.593
85.752
77.291
4.908
6.350
24-HOUR REMOVAL EPICIENCY USIN6
1
IMEAN) E , t I 77.310*
I IN OUT
MOTH CNIAN1 IS DEFINED ASI
I
TNI MEAN FOR R DAYS USINS V-HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATION* RICKENBACKCR AF§ 1979
OATEI 4- 2-79
f
TIM!
0
IOP
aoo
100
00
900
too
700
00
900
1000
1100
1200
1SOO
MOO
1900
1600
1700
1800
1900
2000
2100
2209
210*
AVIRA6CS
t Of DATA
MINIMUM
MAXIMUM
MEAN
STO.OBV.
I STO.OEV.
LOAD
0.
0.
«*«
Iff
IN
OUT
0. 1
0. 1
0. 1
0. 1
0. 1
0. 1
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0. 1
0. 1
0. 1
0. 1
0. 1
0. 1
0. 1
o. ;
».999
'.377
'.102
'.233
'.275
'.216
.991
.898
.814
.853
.459
.077
.645
.804
.769
.018
'.198
r.837
'.360
'.367
r.793
r.882
r.732
r.soo
.480
.306
.384
.381
.376
.348
.265
.404
.690
.963
.978
.566
.411
.421
.238
.399
.395
.360
.439
.390
.528
.511
.610
.492
78.
82.
80.
80.
81.
81.
81.
79.
79.
77.
78.
77.
78.
79.
81.
80.
0.
82.
81.
81.
80.
80.
79.2
78.3
24. 24.
too. too.
0. 6.645
0. 7.882
7.236
.377
24.
24.
100.
1.238 79.199
1.692 82.649
1.447
.122
5.215 8.414
79.969
1.749
2.187
24-HOUR REMOVAL EFICIENCY U8INS
1
IMEAN1 E , E I 79.9991
1 IN OUT
NOTEI INCAN1 IS DEFINED AS!
I
THE MEAN FOR I OATS USINS Y-HOUR AVERAGES
-------
DAILY SUMMARY OP RESULTS
LOCATIONI RICKENIACKER AFi 1979
OATCt 4- 9-79
LOAD
IN
TIM
100
200
soo
400
900
too
too
00
000
1000
1100
1100
1300
1400
IfOO
UOO
1700
1000<
1*00
2000
too
2*00
lot
AVCftASES
t Or DATA
MINIMUM
MAXIMUM
MEAN
TO.OEV.
I tTD.OEV.
24-MOUR REMOVAL EFICXENCY USIN6
1
IMIAN1 E , E I 79.413S
1 IN OUT
EFF
OUT
0
0
24
100
0
0
0
0
0000
7.0M
7.0*7
7.754
7.34*
7.554
7.506
7. IS*
7.14«
7.480
0.031
7.011
: 0. MS
7.413
7.192
7.5U
7.17S
7.043
7.737
. 7.740
7.S31
0.4U
0.2*0
7.20*
*.M5
24.
too.
4.905
0.031
7.***
.500
*.S24
!.**
1.7M
1.919
2.0*3
1.721
1.474
1.0*1
1.990
2.300
**»*
00*0
1.40*
1.434
1.43A
1.430
1,495
1.333
1.550
1.350
.000
,«40
1.32ft
1.314
1.3tt
22.
*2.
.040
2.304
1.541
.341
21.046
70.7
70.3
75.3
71.9
77.2
77.7
73.9
72.1
47.9
0*«00
00*00
63.0
00.7
00.0
01.0
79.2
03.2
00.0
02.5
04.0
00.7
03.9
01.0
01.2
22.
02.
47.909
00.734
79.344
4.944
4.257
NOTII IMEAN) 10 DEFINED AO!
I
TNE MIAN FOR X DAYS UOIN6 V»HOUR AVERAGES
-------
DAILY SUMMARY OF RESULTS
LOCATIOMt RICKENSACKER AFS 1979
OATH 4- 4-79
TIMf
10*
100
aoo
«oo
500
*oo
TOO
00
900
1000
1100
1»00
1X00
1400
1SOO
1*00
iroo
1MO
1900
M0t
LOAD
Iff
IN
OUT
^ 2100
-J asoo
AVIRAUS
t Of DATA
MINIMUM
MAXIMUM
MtAN
STO.OIV.
I OTO.DCV.
0
0
00001
01
00001
00001
00001
0000*
00001
*»*(
M0*l
000*1
00001
00001
00001
00001
00001
7.00S
7.051
7.ZS5
7.S23
7.09*
7.9*0
7.957
7.4S3
7.770
t 000000
» 00000
1 000000
) 000000
1 000000
1 000000
» 000000
1 000000
1 000000
» 000000
1 000000
1 000000
1 000000
1 000000
1 000000
01
01
01
01
01
01
01
01
01
01
01
01
04
01
01
.312
.SOS
.114
.091
.99*
.SOS
.4*2
.402
.4*7
10000
10000
V0000
10000
10000
10000
10000
10000
10000
F0000
10000
10000
10000'
10000
10000
01.0
01. 5
04.*
85.5
67.4
OS. 7
01.*
01.1
01.1
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
«. «t 9. 9.
SO. SI. SO. SO.
0. 7.00S .99* 00.974
0. 7.9*0 1.4*T; 07.S09
00000 000000 000000 000000
10000 000000 000000 000000
00000 000000 000000. 000000
-HOUR HINOVAL IFICICNCT UOIN6
1
IMIAN1 1,1 I .0001
1 IN OUT
NOTII IMtANJ IS DEFINED ASI
X
TMI MEAN FOR X DAYS USIN8 Y-MOUR AVCRAgES
-------
IS OPERATIN6 OATS
SUMMARY OF RESULTS
USIN9 I-MOUR AVERAGES
LOCATIONI RICKENSACKER AF»
OATH I* S-7»
LOAD
IN
OUT
EFF
0. AVERAGES
S Or DATA
MINIMUM
MAXIMUM
MEAN
TO.OCV.
I STO.OEV.
100
0
0
0
0
0
5M.
*a. M. ka.
5.7t« .MS ST.510
11.20T 1.012 9*.140
7.2<« l.kOO 77.032
.747 .454 7.585
10.SOI IT.090 9.647
10-DAY RIMOVAL KFICIINCT U*1N«
1
IMIANI f , C I T«.02«I
10 IN OUT
MOTH (MIAN) ! OEPINCD All
X
TMI MEAN FOR I DATS UOINO V«MO
-------
as OPERATING DATS
SUMMART OF RESULTS
USIN8 HOUR AVERAGES
LOCATION! RICKENBACKER AFB 1979
OATEI 3- 8-79
DATE
LOAD
IN
OUT
^
CD
- 8-79
9-79
11-79
-ia-79
-13-79
-14.79
19-79
-14-79
-17-79
-18-79
-19-79
88-79
21-79
.424
.814
.717
.489
.874
999999
999999
7.304
s.ais
7.449
7.734
7.924
7.924
7.858
.428
.489
.004
.974
.330
.192
.419
.439
7.011
7.234
7.444
9t
9t
9t
91
9
9
9
199*9.
19999
19999
1.174
19999
1.433
1.939
.934
.284
.941
.793
.948
.491
.493
.20
.908
{.349
19999
99999
1.159
19999
.199
.991
.447
.941
99999
99999
99999
47.1
99999
99999
99999
77.7
2.9
79.4
74.8
79.4
79.1
81.0
81.4
74.7
44.4
99999
99999
44.9
99999
84. a
77.3
80.0
79.3
1-79
t-79
9 AVERAGES
S OP DATA
MINIMUM
MAXIMUM
MIAN
STO.DEV.
X STO.OEV.
JO-OAT REMOVAL EFICIENCT U8IN6
a«
(MEAN) E i E I 7».771I
SO IN OUT
a9
81
0
0
0
0
99991
as.
74.
4.i9a
8.213
7.247
.543
1 7.487
18.
98.
1.199
a. 349
1.483
.323
19.214
14.
92.
44.899
84.243
77.001
9.849
7.991
NOTEI (MEAN) 18 DEFINED ASl
X
TMC MEAN FOR X OATS USINS T-HOUR AVERAGES
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
STARTING OATEI 3- 8-79
PARAMETER! 1-HOUR EIN, LB/MMBTU
PARAMETER RANGE
4.400 - 4.910 0.
4.910 » 5.420 0.
5.420 - 5.930 8.
5.930 - 6.440 89.
6.440 - 6.950 148.
6.950 - 7.460 162.
7.460 - 7.970 142.
T.970 - 8.480 50.
.480 - 8.990 11.
.990 - 9.500 0.
CVONO MIN/MAX RANGE 11.
TOTAL POPULATION 621.
OCCURRENCE
FREQUENCY PERCENTACE
0.
0.
1.
14.
24.
26.
23.
a.
2.
0.
HISTOGRAM
*
****
*
A**********
**
CUMULATIVE DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
DATE! 3- 8-79
PARAMETER! 1-HOUR EINt LB/MMBTU
PAMNETCft RANGE
OCCURRENCE
FREOUENCY PERCENTAGE HISTOGRAM
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
4.910
5.420
5.930
6.440
6.950
7.460
7.970
8.480
8.990
9.500
BEYOND MIN/MAX RANGE
TOTAL POPULATION
0.
0.
8.
97.
245.
407.
549.
599.
610.
610.
It.
621.
0.
0.
1.
16.
39.
66.
88.
96.
98.
98.
***
*****
»********
A*******************************************
to********************************************
A***********************************************
a***********************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
STARTING OATEI 3- 6-79
PARAMETERI 1-HOUR L06 EIN
PARAMETER RAN6K
.640 -
.674 -
.706 -
.742 -
.776 -
.610
.644
.678
.912
.946 -
.674
.708
.742
.776
.610
.644
.876
.912
.946
.980
BEYOND MIN/MAX RANGE
TOTAL POPULATION
0.
0.
0.
12.
90.
149.
160.
147.
29.
0.
14.
621.
OCCURRENCE
FREQUENCY PERCENTAGE
0.
0.
0.
2.
14.
24.
29.
24.
5.
0.
HISTOGRAM
*»*
»*****
**
*****
CUMULATIVE DISTRIBUTION
LOCATIONI RICNENBACKER AFB 1979
OATEI 9- 6-79
PARAMETERI 1-HOUR L06 EIN
PARAMfTER RAN6C
.640 -
.640
.640
.640 -
.640
.640 -
.640 »
.640
.640 -
.640
.674
.708
.742
.776
.810
.644
.676
.912
.946
.980
CYONO NIN/MAX RANGE
TOTAL POPULATION
0.
0.
0.
12.
102.
251.
431.
576.
607.
607.
14.
621.
OCCURRENCE
FREQUENCY PERCENTAGE
0.
0.
0.
2.
16.
40.
69.
93.
98.
98.
HISTOGRAM
****
****»***»****
A**********************************
***************
**********************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKEN6ACKER »FB 1*79
STARTING DATEl 3- 8-79
PARAMETER! 1-HOUR EOUT, LB/MMBTU
PARAMETER RAN6E
.400
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
*
<
-
*
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
5.100
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
BEYOND NIN/MAX RANGE
TOTAL POPULATION
21.
BB.
200.
160.
34.
4.
0.
0.
0.
0.
0.
SOT.
4.
IT.
39.
32.
T.
1.
0.
0.
0.
0.
***
******
**
**
CUMULATIVE DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
OATEI 3- 8-79
PARAMETER! 1-HOUR EOUT, LB/MMBTU
PARAMETER RANGE
OCCURRENCE
FREQUENCY PERCENTAGE
.400
.400 -
.400
.400 »
.400 -
.400
.400
.400
.400 -
.400 -
.870
1.340
1.810
2.280
2.750
3.220
3.690
4.160
4.630
5.100
BEYOND MIN/MAX RANGE
TOTAL POPULATION
21.
109.
309.
469.
503.
507.
507.
507.
507.
507.
0.
507.
4.
21.
61.
100.
100.
100.
100.
100.
HISTOGRAM
***
*******
*************
************»*
A**********************************************
A************************************************
A*************************************************
*******************************
A*************************************************
-------
FREQUENCY DISTRIBUTION
LOCATIONS RICKEN8ACKER «FB 1979
STARTING OATEl 3- 6-79
PARAMETER I 1-HOUR LOG EOUT
PARAMETER RANGE
-.400 - -.269 9.
.2*9 - -.ITS 10.
-.17S -.0*7 I.
-.067 .044 23.
.044 - .153 10*.
.15% .2*4 177.
.2** - .377 154.
.37? .466 27.
,4M - .599 0.
.599 .710 0.
ETONO MIN/MAI RANGE 0.
TOTAL POPULATION 507.
OCCURRENCE
FREQUENCY PERCENTAGE HISTOGRAM
2.
2.
0.
5.
21.
35.
30.
5.
0.
0.
***
t******
*
in
o
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER AFO 1979
OATEl 3- 0-79
PARAMETERI 1-HOUR LOG EOUT
PARAMETER RANGE
.400 - -.2*9 9.
.400 - -.170 19.
.400 - -.0*7 20.
.400 .044 43.
-.400 - .155 149.
.400 .246 326.
.400 .377 460.
.400 - .466 507.
.400 .599 507.
.400 - .710 507.
IVONO NIN/MAK RANGE 0.
TOTAL POPULATION 507.
OCCURRENCE
FREQUENCY PERCENTAGE HISTOGRAM
2.
4.
4.
29.
44.
95.
100.
100.
100.
**
*
ft*
*************
A***********************************************
****************
-------
FREQUENCY DISTRIBUTION
LOCATIONS RICKENBACKER AFB
TARTIN6 DATCI 3- «-79
PARAMETERS 1-HOUR I EFFICIENCY
PARAMETER RANSE
is.ioo
12.000
19.000
44.000
S3.000
40.000
47.000
14.000
1.000
M.OO*
12.000
19.000
46.000
S3.000
40.000
47.000
74.000
1.000
.000
95.000
OCCURRENCt
FREQUENCY PERCENTAGE
NI9T06RAN
HVONO NIN/NAX RANK
TOTAL POPULATION
0.
0.
0.
0.
7.
97.
107.
177.
120.
0.
ai.
491.
0.
0.
0.
0.
1.
12.
22.
16.
24.
0.
**
****
****
******
CUMULATIVE OIITRIIUTION
LOCATIONI RICKEMACKER API 1979
PATH 1* «»?9
PARAMTERI 1-MOUR I EFFICIENCY
MRAMfTI* KAMI
OCCURRENCE
FREOUENCV PEKCENTA8E
HI9T06RAM
IB. 000
IB. 000
25.000
IB. 000
as. ooo
as. ooo
as. oo*
as. ooo
as. oio
as. ooo
ia.oo»
19.000
44.000
91.000
60,000
47.000
74.000
1,000
.000
95.000
EVONO MIN/MAX RAN6E
TOTAL POPULATION
0.
0.
0.
0.
7.
64.
171.
14*.
46*.
46*.
21.
491.
0.
0.
0.
0.
1.
11.
15.
71.
95.
95.
***
*******
***
A**********************************************
****
-------
FREQUENCY DISTRIBUTION
LOCATIONI RICKENBACKER AFB 1*79
STARTING DATEI 3- 8-79
PARAMETER! 1-HOUR LOGU EFFICIENCY)
RARAMCTER RANSE
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
.«00
.498
.51*
,V«
.»32
,*90
.74*
.604
.8*4
.922
.498
.91*
.974
.692
.490
.748
.80*
.8*4
.922
.980
IVOMO MIN/MAI RANGE
TOTAL POPULATION
0.
0.
0.
0.
0.
0.
SI.
us.
2*0.
0.
77.
491.
0.
0.
0.
0.
0.
0.
*.
29.
95.
0.
CUMULATIVE DISTRIBUTION
> LOCATIONI RICKENBACKER AFB 1979
I OATEI S- 8-79
S" PARAMETER! 1-MOUR L06(I EFFICIENCY)
PARAMCTI* RANGE
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
.498
.91*
.974
.*SI
.*90
.74*
.80*
.8*4
.922
.9*0
OCCURRENCE
FREOUENCV PERCENTAGE
HISTOGRAM
BEYOND NIN/MAX RAN0E
TOTAL POPULATION
0.
0.
0.
0.
0.
0.
SI.
194.
414.
414.
77.
491.
0.
0.
0.
0.
0.
0.
*.
SI.
84..
84.
A*************************************
A***********************************
-------
FREQUENCY DISTRIBUTION
LOCATIONI RICKENBACKER AFB 1979
STARTING OATEl 3- 6-79
FARANETERI 1-HOUR 100-S EFFICIENCY
PARAMETER RANU
OCCURRENCE
FREQUENCY PERCENTAGE
IS. 999
at. 000
af.OOO
31.000
19.000
.000
SI. 000
St. 000
41.000
49.000
at. ooo
ar. ooo
SI. 000
19.000
45.000
51.000
S7.000
41.000
49.000
75.000
Ul.
111.
90.
51.
11.
11.
ar.
».
to.
MHT06RAH
********
*******»**
**»
****
frONO NIN/MAR RAN9C
TOTAi. FOFUCATION
0.
Ml.
CUMULATIVE DISTRIBUTION
tOCATIONI RICKENIACKER AFS t«T«
OATEl 1* ?«
MRANITtRl 1'NOUR 1*0-1 EFFICIENCY
PARAMETER RAN4E
OCCURRENCE
FREQUENCY FEROENTABE
IS.OOt
15.000
15.000
15.000
15.000
15.000
15.000
15.000
is. ooo
IS. 000
ai.ooo
a?. ooo
11.000
19.000
45.000
51.000
57.000
41.000
49.000
75.000
141.
EYOND NIN/MAX RANQE
TOTAL FOFULATION
184.
415.
446.
44*.
44*.
44«.
444.
446.
41.
11.
40.
76.
69.
91.
91.
91.
91.
91.
91.
HI6TOSRAM
**»***
******
*»********
*****
************
***«**«******
I
A********************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKCR AFB 1979
STARTING DATE! 3- 6-79
PARAMETER! 1-HOUR LOGdOO-X EFFICIENCY)
PARAMETER RANGE
OCCURRENCE
FREQUENCY PERCENTAGE
.700 -
.620 -
.940
.060 »
.160
.300
.420
.540 -
.660 -
.760 -
.620
.940
.060
.160
.300
.420
.540
.660
.760
.900
BEYOND MIN/MAX RANGE
TOTAL POPULATION
6.
6.
3.
23.
131.
151.
125.
39.
0.
0.
5.
I.
2.
1.
5.
27.
31.
25.
6,
0.
0.
HISTOGRAM
A***********
***
A
-------
FREQUENCY DISTRIBUTION
LOCATION* RICKCNBACKER AFB 19?9
STARTIN8 OATEl 3- d-79
FARAMETERI 24*HOUR EIN, LB/MMBTU
MIAMCTE* RANGE
OCCURRENCE
FREQUENCY PERCENTAGE
4.400
.tie
.420
.930
.440
.950
.460
.970
0
,990
4.910
5.429
9.930
ft. 440
ft.«90
7.4*0
7.970
«.4$0
.990
9.500
IVONO NINVNAI RAN«E
TtTAL P0FULATION
0
I
5
ft
9
1
0
0
0
il
0
0
0
9
98
tft
19
4
0
0
HISTOGRAM
*
*
*»****»
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENSACKER APS i«ff
DATEI > S-79
PARAMETER I 24-HOUR UN* LB/NMBTU
MiANITf HANOI
OCCURRENCE
FREOUENCT FERCENTACE
HISTOGRAM
400
.400
.400
.400
.400
.400
.400
.400
.400
.400
4.910
5.420
5.930
ft. 440
ft. 950
7.440
7.970
S.4BO
S.990
9.500
BEYOND NIN/MAX RAN6E
TOTAL FOFULATION
0.
0.
o.
2.
7,
U.
22.
23.
23.
23.
0.
23.
0.
0.
0.
9.
30.
57.
9ft.
100.
100.
100.
******
»»**
********
»***»*»
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFO 1979
STARTING OATEl 1- 6-T«
FARAMETERI 14-HOUR L06 EIN
PARAMETER RAN8E
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
.640
.70S
.610
.644
.676
.9U
.946
.674
.706
.748
.776
.610
.644
.676
.946
.960
EVONO MIN/NAI RANBE
TOTAL POPULATION
at
tfc
35
4
0
**
****
***
*
I
Ul
W
CUMULATIVE tlSTRItUTION
LOCATIONI RICRENSACKER APO
OATEl » S-?t
PARAMETERI HOUR LOC EIN
PARAHtTER HANCC
OCCURRENCE
FREQUENCY FERCENTAQE
HISTOORAN
.640
.440
.444
.440
.440
.446
.440
.440
.440
.440
.474
.704
.748
.774
.610
.644
.676
.91*
.946
.960
OfVONO NIN/NAX RANSE
TOTAL FOFULATION
0.
0.
0.
0.
a.
6.
14.
aa.
as.
ai.
o.
as.
o.
o.
0.
0.
9.
is.
61.
94.
100.
too.
*****
*ik************«tt****tt***ft*«***********
**********
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB
STARTIN6 OATEI 3- 6-79
PARAMETER! 24-HOUR EOUT, LB/MMBTU
PARAMETER RAN6E
OCCURRENCE
FREQUENCY PERCENTAKE
.400 -
.B70 »
1.340 -
l.ftio -
2.200 -
2.7SO -
3.220
3.6*0 -
4.140 -
4.630 -
.B70
1.340
1.010
2.2BO
2.790
3.220
3.490
4.1*0
4.430
S.IOO
EVOND MIN/MAK RANCE
TOTAL POPULATION
0,
2.
11.
4,
1,
0.
0.
0,
0.
0,
0.
IB.
0.
II.
61.
22.
6.
0.
0.
0.
0.
0.
HISTOGRAM
**
A*****************************
*******'
*
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER AFB HT»
DATE! 3- B-T»
PARAMETER! 24-HOUR EOUT, LB/MMBTU
PARAMETER RANfE
.400
.400
.400
,400
.400
.400
.400
.400
.400
.400
.70
1.340
l.*10
2.200
2.7SO
3.220
3.*«0
4.1*0
4.430
S.IOO
OCCURRENCE
FREQUENCY PERCENTABE
HIBT06RAM
CVONO MIN/MAX RAN6E
TOTAL POPULATION
0.
2.
13.
17.
IB.
IB.
IB.
IB.
10.
U.
0.
IB.
0.
II.
72.
4.
100.
loo.
loo.
100.
100.
100.
A*********************************
A*******************************************
A*******************************************
*****************
A******************************************
A*************************************************
A************************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKEN8ACKER AFB 1979
STARTING DATE! 3- 8-79
PARAMETER! 24-HOUR LOG EOUT
PARAMETER RANGE
-.400 - -.289 0.
-.289 - -.178 9.
-.178 - -.067 0.
-.067 - .044 0.
.044 - .155 3.
.155 - .266 10.
.266 - .377 5.
.377 - .488 0.
.486 - .599 0.
.599 - .710 0.
BEYOND MIN/MAX RANGE 0.
TOTAL POPULATION IS.
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
0.
0.
0.
0.
17.
56.
28.
0.
c.
0.
A*************************
*******
I
Ul
CUMULATIVE DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
DATEl 3- S-79
PARAMETER! 24-HOUR LOG EOUT
PARAMETER RANGE
-.400 - -.269 0.
-.400 - -.178 0.
-.400 - -.067 0.
-.400 - .044 0.
-.400 - .155 3.
-.400 - .266 13.
-.400 - .377 18.
-.400 - .488 18.
-.400 - .599 18.
-.400 - .710 IS.
BEYOND MIN/MAX RANGE 0.
TOTAL POPULATION 18.
OCCURRENCE
FREQUENCY PERCENTAGE HISTOGRAM
0.
0.
0.
0.
17.
72.
100.
100.
100.
100.
******
A***********************************
A*********************************************
A*************************************************
A************************************************
a*************************************************
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
STARTING DATE! 3- 8-79
PARAMETERS 24-HOUR S EFFICIENCY
PARAMETER RANGE
25,
32,
39,
46,
53,
60,
67,
74,
Bl,
M,
,000
,000
,000
,000
,000
,000
,000
,000
,000
,000
-
.
-
-
32
39
46
53
60
67
74
81
88
95
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
OCCURRENCE
FREQUENCY PERCENTACE
BEYOND MIN/MAX RANGE
TOTAL POPULATION
0.
0.
0.
0.
0.
2.
1.
10.
3.
0.
0.
16.
0.
0.
0.
0.
0.
13.
b.
63.
19.
0.
HISTOCRAM
**
CUMULATIVE DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
DATE! 3- d-79
PARAMETER! 24-HOUR S EFFICIENCY
PARAMETER NANCE
as.ooe
25.000
25.000
25.000
25.000
25.000
25.000
25.000
25.000
25.000
92.000
39.000
46.000
53.000
60.000
67.000
74.000
61.000
.000
95.000
OCCURRENCE
FREQUENCY PERCENTACE
BEYOND MIN/MAX RAN6E
TOTAL POPULATION
0.
0.
0.
0.
0.
2.
3.
13.
16.
16.
0.
16.
0.
0.
0.
0.
0.
13.
19.
Bl.
100.
100.
HIST06RAM
**
***
A****************************************
to***********************************************
»**********
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER AFB 1979
STARTING DATE! 3- 6-79
PARAMETER! 24-HOUR LOGO EFFICIENCY)
PARAMETER RAN6E
.400
.458
.51*
.574
.632
.490
.74B
.606
.8*4
.922
.458
.516
.574
.632
.690
.748
.806
.864
.922
.980
OCCURRENCE
FREQUENCY PERCENTAGE
BEYOND MIN/MAK RANGE
TOTAL POPULATION
0.
0.
0.
0.
0.
0.
0.
3.
12.
0.
I.
U.
0.
0.
0.
0.
0.
0.
0.
19.
75.
0.
HISTOGRAM
***
I
C7I
en
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER AFB 1979
DATEI 3- 8-79
PARAMETER! 24-HOUR LOG(X EFFICIENCY)
PARAMETER RANGE
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
.458
.516
.574
.632
.690
.748
.806
.864
.922
.980
OCCURRENCE
FREQUENCY PERCENTAGE
BEYOND NIN/MAX RANGE
TOTAL POPULATION
0.
0.
0.
0.
0.
0.
0.
3.
15.
IS.
I.
16.
0.
0.
0.
0.
0.
0.
0.
19.
90.
94.
HISTOGRAM
*****
A*
-------
FREQUENCY DISTRIBUTION
LOCATION! RICKENBACKER »Fi
STARTING DATEl 3- 8-7*
PARAMETER! 24-HOUR 100-t EFFICIENCY
PARAMETER RANGE
OCCURRENCE
FREQUENCY PERCENTAGE HISTOGRAM
19.900
21.000
IT. 000
13.000
14.000
9,009
91.009
97.099
3.990
M.OOO
21.000
27.000
35.009
39.999
49.999
91.900
97.000
13.099
64.000
79.000
ETONO NIN/MAX RANGE
TOTAL POPULATION
4.
4.
1.
2.
0.
9.
9.
9.
9.
9.
9.
1*.
9*.
29.
6.
13.
0.
0.
0.
0.
0.
0.
********
*****
*
****
CUMULATIVE DISTRIBUTION
LOCATIONI RICKENBACKER APB 1474
OATEI 1- G»T4
PARAMETER! 24-MOUR 109*1 CFFICIENCV
PARAMETER RAN6E
OCCURRENCE
PRE9UENCY PERCENTAGE
HISTOGRAM
19.999
19.990
19.999
19.999
19.999
19.999
19.999
19.999
19.909
19.999
21.999
27.999
33.900
39.000
49.000
91.000
97.000
63.000
64.000
79.000
BEYOND MIN/MAX RANGE
TOTAL POPULATION
13.
14.
16.
16.
16.
16.
16.
16.
16.
0.
16.
96.
at.
as.
100.
100.
100.
100.
100.
100.
100.
*»»*****»
********
**********»«»*
-------
FREQUENCY DISTRIBUTION
LOCATIONS RICKENBACKER AFB
STARTING DATEI 3- 8-79
PARAMETER! 24-HOUR (.061100*1 EFFICIENCY)
PARAMETER RANGE
OCCURRENCE
FREQUENCY PERCENTAGE
HISTOGRAM
.70S
.20 -
.940
1.060
1.100
.300 -
.420
.940
.660
.7SS -
.S20
.940
.060
.ISO
.300
.420
.940
.660
.780
.900
BEVONO NIN/MAX RANGE
TOTAL POPULATION
0.
0.
0.
0.
«.
*.
2.
1.
0.
0.
0.
16.
0.
0.
0.
0.
as.
96.
15.
6.
0.
0.
*«»**
«*********
**«
en
CUMULATIVE OISTRIBUTION
LOCATIONI RICHENBACRER AFB !«?«
DATE! 3- S-7V
PARAMETER I C4-MOUR L08UOO-I EFFICIENCY)
PARANtTER MAN9C
OCCURRENCE
FREQUENCY PERCENTAGE
.700
.700
.700
.700
.700
.700
.700
.700
.709
.700
.20
.940
.060
.ISO
.300
.420
.540
.660
.760
,900
EVONO MIN/MAX RAN6E
TOTAL POPULATION
0.
0.
0.
0.
4.
13.
19.
16.
16.
16.
0.
16.
0.
0.
0.
0.
29.
St.
««.
100.
100.
100.
HISTOGRAM
***
***************
******************«*«
*******************
*****************
-------
UPPER LEFT: EXTERNAL VIEW OF INLET PROBE (INSULATED)
LOWER LEFT: INTERNAL VIEW OF INLET PROBE
UPPER RIGHT: OUTLET PROBE SHELTER
LOWER RIGHT: INTERNAL VIEW OF OUTLET PROBE
Figure 5-4 Photographs of probe placement after modification.
5-5
-------