WASTEWATER AND EFFLUENT
ANALYSIS PROGRAMS
USER MANUAL
3SB.
01
O
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
OCTOBER 1975
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WASTEWATER AND EFFLUENT
ANALYSIS PROGRAMS
USER MANUAL
Prepared By:
HAMILTON
STANDARD TECHNOLOGIES.
CONTRACT NO. 68-01-2914
OCTOBER 1975
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TABLE OF CONTENTS
1.0
2.0
3.0
4.0
Appendix A
Appendix B
Appendix C
Appendix D
Acknowledgements
Title
Introduction
Plant Tape Data File
Water Discharge Analysis
Raw Waste Analysis
Effluent Analysis
Sample Portfolio
Water Discharge Analysis Source
Listing (Compilation)
Raw Waste Analysis Source Listing
(Compilation)
Effluent Analysis Source Listing
(Compilation)
Page
1
2
12
31
112
A-l
B-l
C-l
D-l
iii/iv
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Introduction
This document is a computer program user's manual for the three plant
data analysis programs that were generated during the Machinery and
Mechanical Products Manufacturing Industries Effluent Limitation Guide-
lines Contract. This manual is designed to enable Effluent Guidelines
Division personnel to utilize these analytical programs. These pro-
grams are:
Water Discharge Analysis
Raw Waste Analysis
Effluent Analysis
Each of these analysis programs perform statistical operations on the
Machinery and Mechanical Products Industries plant data tape. The
water discharge analysis program accepts a list of water discharge
rate curves for each industrial subcategory on input cards. The
curve information consists of intercepts and slopes to relate water
discharge in liters per hour to the subcategory floor area in m2.
The three-page portfolio supplemental data contained on the plant tape
file is compared to the input and grouped according to the actual
tape data file values and the plant manufacturing processes. When the
complete data file has been analyzed, the plant groupings are printed
out with a manufacturing process frequency table.
The raw waste analysis program and the effluent analysis program are
used to analyze pollutant streams. Both of these programs utilize
the sample stream concentration data and the three-page plant port-
folio supplemental data contained on the plant tape data file. Mul-
ti-subcategory process water discharge plants are flow proportioned
based on a subcategory pollutant parameter frequency table which is
card input. This frequency table describes the characteristic pollu-
tant parameters associated with each subcategory. Both programs also
accept card input listing plant identification numbers for those
plants selected to be omitted from analysis.
For each subcategory for both raw waste and effluent analysis, the
following statistics are calculated and printed out:
1) Concentrations (mg/1): the minimum, maximum,
and average values of all pollutant parameters
are calculated. The number of plants with no
values, non-significant values, and significant
values for each pollutant parameter is also
tabulated.
2) Mass flow rate (mg/hr): the minimum, maximum
and average values of all pollutant masses are
calculated.
3) Production oriented values (mg/hr-m2) - the minimum,
maximum and average effluent values for each pol-
lutant parameter is calculated as well as a statis-
tical sampling analysis of the results.
Each of these analysis programs and the plant data tape storage for-
mat will be discussed in detail in this manual.
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1.0 Plant Tape Data File
The plant data tape is a storage file for the information encoded
from the Machinery and Mechanical Products Manufacturing Industries
plant portfolios. A sample blank plant portfolio is presented in
Appendix A.
The tape is in fixed block format with a tape density of 1600 BPI.
Each plant portfolio encompasses 1 block. The logical record length
is 11000 characters and the block size is 11000. A detailed listing
of the plant data tape storage format for all 11000 characters is
presented as Table 1. Two stream pollutant parameter matrices, CON-
CEN and PORTFO, are included in the plant data file. Table 2 presents
a detailed row definition of these stream matrices.
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Corresponding
Locations
1-4
5-8
9-28
29-43
44-45
46-66
67
68
69
Format
14
14
20A1
15A1
A2
21A1
Al
Al
Al
70
71
72-73
74-83
Al
Al
12
10A1
Function
Plant primary SIC number
Assigned plant identification number
Plant Name
City in which plant is located
State in which plant is located (postal code)
Principal products manufactured by plant
Size of plant: Code L = more than 250
employees, S = up to 250 employees
Code X if selected as exemplary from literature
search
Code X if selected as exemplary from personal
observation, with knowledge of companies re-
sulting from use of their products and from
business contacts
Code X if selected as exemplary from recom-
mendations, from state lists, regional and
federal EPA lists and from various industrial
associations
Code X if selected as exemplary based on geogra-
phical location, type of industry or random survey
EPA region in which plant is located
Plant phone number
Portfolio
Section
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Variable
Name
NSIC
ID
PLANT (20)
CITY (15)
STATE
PRODCT(21)
SIZE
XLIT
W
STORAGE
TABLE
1.0
PERS
EPAREC
SICCAT
NREGN
NPHONE(IO)
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Locations
84
85
86
,6.
87-93
94-100
101-150
151-195
196-242
Format Function
Al
Al
Al
17
Visitation code:
Y = Visited
T = Telecon survey
N = No visit, data only
C = Scheduled but cancelled
S = Suspend or other
K = Composite visit
Treatment status: code
U = Not defined
C = Non-contact cooling water only
D = No effluent (possibly dry company or
industry)
W = Sanitary wastes processed with industrial
T = No treatment
F = Has waste treatment facility
Effluent destination: code
R = River, stream, etc.
S = Sewer
U = Unknown
M = Mixed (more than 1 destination)
D = Dry, no end of pipe discharge
C = Contractor hauled away (plant effluent
only)
W = Other (deep well, leach field, etc.)
Plant floor area, ft^
17 Total number of employees
5(10Al) Raw materials used, 5 maximum
5F9.1 Amounts of raw materials used, 1000 Ib/day
Sequenced in same order as "raw materials used"
47A1 Plant personnel contacted
Corresponding
Portfolio
Section
1.0
1.0
1.0
1.0
1.0
Variable
Name
VISIT
CLASS1
CLASS2
NFEET2
NWRKRS
RAWTYP(10,5)
RAWAMT(5)
CONTCT(47)
W
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W
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G
M
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t/l
Locations
243-448
449-508
509-556
557-571
572-586
587-642
643-677
678-754
755-756
Format
103A2
4(15A1)
6(18)
15A1
15A1
718
7F5.1
77A1
12
757-762
763-852
312
Function
Production processes employed: Code X if
process is performed in plant, code XX if
process is major effluent contributor. Note:
if "other", section 2.4 is checked, it is
stored as PROCSS(IOO). If "other", section 2.6
is checked, up to 3 are allowed and they are
stored as PROCSS(lOl), PROCSS(102), PROCSS(103)
Alphanumeric titles for any "other" processes
checked as PROCSS(IOO), PROCSS(lOl), PROCSS(102),
PROCSS(103). These must follow the same se-
quence as PROCSS
Water input flow in gallons/day, in same
sequence as the portfolio
Alphanumeric title if "other" of section 4.1A
is not zero
Alphanumeric title if "other" of section 4.IB
is not zero
Corresponding
Portfolio
Section
2.1-2.6
2.4,2.6
4.1A
4.1A
4. IB
Water usage flow in gallons/day, in same sequence 4.IB
as the portfolio
Water usage percentage recycle, in same sequence
as the portfolio
Current requirements or regulations
Number of present waste treatment systems, 3
maximum
Number of processes within each present waste
treatment system; 15 maximum
3(1512) Treatment method codes to describe the present
waste treatment systems
4. IB
4.3
4.6
4.6
4.6
Variable
Name
PROCSS(103)
OTHER(15,4)
LINFLO(6)
OTHINF(15)
OTHUSF(15)
LUSFLO(7)
RECFLO(7)
REQREG(77)
NNOW(l)
NNOW(2)
through
NNOW(4)
NPRONW(15,3)
f
M
i
G
W
D
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Corresponding
Locations
853-864
865-888
889-912
913-1002
1003-1017
1018-1032
1033-1034
1035-1040
Format
314
318
318
3(30A1)
3(5A1)
3F5.1
12
312
1041-1130 3(1512)
1131-1154
1155-1178
318
318
1179-1268 3(30A1)
Functjon
Year of installation of present waste treatment
systems
Investment costs of present waste treatment
systems, $
Operating costs of present waste treatment
systems, $/year
Alphanumeric names of raw waste streams treated
by present waste treatment systems
Alphanumeric qualitative rating of performance
of present waste treatment systems
Percentage waste reductions accomplished in
present waste treatment systems
Number of treatment systems needed to eliminate
remaining plant wastes, 3 maximum
Number of processes within each treatment
system for elimination of remaining plant
wastes, 15 maximum
Treatment method codes to describe the treatment
systems needed to eliminate remaining plant
wastes
Estimated investment costs of treatment systems
needed to eliminate remaining plant wastes, $
Estimated operating costs of treatment systems
needed to eliminate remaining plant wastes,
$/year
Alphanumeric names of streams treated by systems
needed to eliminate remaining plant wastes
Portfolio
Section
4.6
4.6
4.6
4.6
4.7
4.7
5.0
5.0
5.0
5.0
5.0
Variable
Name
NYRINS(3)
NCCNW(3)
NOMCNW(3)
STRMNW(30,3)
RATENW(5,3)
WRNOW ( 3 )
NELIM(l)
NELIM(2)
through
NELIM ( 4 )
NPROEL(15,3)
NCCEL(3)
NOMCEL(3)
CO
W
C
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5.0
STRMEL(30,3)
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Locations Format Function
1269-1283 3F5.1 Percentage waste reduction to be accomplished by
treatment systems needed to eliminate remaining
plant wastes
1284-1285 12 Number of planned future treatment systems, 3
maximum
1286-1291 312 Number of treatment processes within each
planned treatment system, 15 maximum
1292-1381 3(1512) Treatment method codes to describe the planned
treatment system
Months to install planned treatment systems
Estimated investment costs of planned treat-
ment systems
Alphanumeric estimated performance of planned
treatment systems
Number of portfolio streams with concentration
data, 3 maximum
Portfolio stream identification; code: 1 = raw
waste, 2 = effluent, 3 = mixed effluent, 4 =
intermediate, 5 = untreated waste, 6 = cooling
non-contact, 7 = boiler blowdown, 8 = sanitary
sewer, 9 = mixed, 10 = storm sewer, 11 = unknown
Matching sample stream number which was taken at
same location of each respective portfolio
stream
1382-1393
1394-1417
1418-1432
1433
1434-1439
314
318
3(5A1)
11
312
1440-1442 311
1443-1448 312 Date (month, day, year) of Hamilton Standard
visitation sampling
1449 II Number of visitation samples taken, 5 maximum
Corresponding
Portfolio
Section
5.0
5.1
Variable
Name
WRELIM(3)
NFUTUR(1)
5.1
5.1
5.1
5.1
5.1
4.4
4.4
NFUTUR (2)
through
NFUTUR ( 4 )
NPROFU(15,3)
NMONTH ( 3 )
NCSTFU(3)
RATEFU (5,3)
NPORT
IPORT(3)
>
03
F
W
M
H
8
H
2J
G
H
D
LPTTS(3)
NDATE(3)
NSTRM
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Locations Format
1450-1459 512
1460-1519 5(3A4)
1520-5369 5(77E10.4)
5370-5405 3(3A4)
5406-7715 3(77E10.4)
7716 II
00 7717-7718 12
7719-7733 15A1
7734-7751 912
7752-8201 9(2512)
Function
Sample stream identification code
Note: codes identical to those defined at
locations 1434-1439
Alphanumeric sample stream location
Sample stream concentration values. Row
definition of the matrix is presented in
Table 2. Each column contains 1 complete
stream.
Alphanumeric portfolio stream location
Portfolio stream concentration values. Row
definition of the matrix is presented in
Table 2. Each column contains 1 complete
stream.
Portfolio input version. Code 1 for Machin-
ery and Mechanical Products Industries
Numeric code that corresponds to alpha-
numeric effluent destination code in loca-
tion 86 (CLASS2)
Location where in-plant processes are dis-
charged. Code: X for discharge locations
that are applicable
Number of treatment processes within each
waste treatment system (maximum of 9 sys-
tems with maximum of 25 processes in each)
Treatment method codes to identify the waste
treatment systems
Corresponding
Portfolio
Section
4.4
4.4
Waste treat-
ment descrip-
tion (supple-
mental)
Waste treat-
ment descrip-
tion (supple-
mental)
Waste treat-
ment descrip-
tion (supple-
mental)
Variable
Name
ISTRM(5)
TSLOCN(3,5)
CONCEN(77,5)
PTLOCN(3,3)
PORTFO(77,3)
NTRIP
EFDEST
XWASTE(15)
NNWT(9)
NWT(25,9)
0)
F
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a
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Locations Format
8202-8341 14F10.0
8342-8481 14P10.2
8482-8621 14F10.0
8622-8631 F10.0
8632-11000 119X,9(250X)
Function
Floor area in each subcategory,
Shifts worked in each subcategory
Process water discharged from each sub-
category, gallons/day
Total power consumed, KW hours
Corresponding
Portfolio
Section
Variable
Name
Plant data PFA(14)
(supplemental)
Plant data PSW(14)
(supplemental)
Plant data PWD(14)
(supplemental)
Plant data
(supplemental)
PWRTOT
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TABLE 2
CONCEN/PORTFO
ROW NUMBER
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
TAPE DATA FILE STREAM CONTENTS
POLLUTANT
PARAMETER
UNITS
Flow
pH - acidic
pH - alkaline
Turbidity
Temperature
Dissolved oxygen
Residual chlorine
Acidity
Alkalinity
Ammonia
5-day BOD
Color
Sulfide
Total cyanide
Cyanide amenable to chlorination
Kjeldahl nitrogen
Phenols
Conductance
Total solids
Total suspended solids
Settleable solids
Aluminum
Barium
Cadmium
Calcium
Chloride
Total chromium
Hexavalent chromium
Copper
Fluoride
Total iron
Dissolved iron
Lead
Magnesium
Manganese
Molybdenum
Oil and grease
Hardness
Chemical oxygen demand
Algicides
Total phosphates
Polychlorobiphenyis
Potassium
mgd
Jackson units
°C
mg/1
mg/1
mg/1 of CaCO3
mg/1 of CaCO3
mg/1
mg/1
chloroplatinate units
mg/1
mg/1
mg/1
mg/1
mg/1
micromhos/cm
mg/1
mg/1
ml/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1
mg/1 of CaCO3
mg/1 of COD
mg/1
mg/1
mg/1
mg/1
10
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TABLE 2 (CONCLUDED)
CONCEN/PORTFO POLLUTANT
NUMBER PARAMETER UNITS
44 Silica mg/1
45 Sodium mg/1
46 Sulfate mg/1
47 Sulfite mg/1
48 Titanium mg/1
49 Zinc mg/1
50 Arsenic mg/1
51 Boron mg/1
52 Mercury mg/1
53 Nickel mg/1
54 Nitrate mg/1
55 Nitrite mg/1
56 Selenium mg/1
57 Silver mg/1
58 Strontium mg/1
59 Beryllium mg/1
60 Chlorinated Hydrocarbons mg/1
61 Total volatile solids mg/1
62 Surfactants mg/1
63 Plasticizers mg/1
64 Antimony mg/1
65 Bromide mg/1
66 Cobalt mg/1
67 Thallium mg/1
68 Tin mg/1
69 - 77
11
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2.0 Water Discharge Analysis
The water discharge analysis program is used to determine possible
correlations between the Machinery and Mechanical Products Industries
subcategory process water discharge flow rates and manufacturing pro-
cesses. The Machinery and Mechanical Products Industries subcategor-
ies are defined in Table 3.
Subcategory 13 permits pollutant allowance for discharge emanating from
another point source category than is covered within the scope of the
MMPM contract but which can occur within the plants. Subcategory 14
permits allowance of non-process activity that can cause dilution.
It is also possible to analyze the subcategory discharge flow rates in
relation to the plant's products by utilizing a user input option, LSIC.
The plant's products are represented by the plant Standard Industrial
Classification codes.
The user inputs a list of water discharge rate curves for each subcate-
gory. The curve information consists of intercepts and slopes to re-
late subcategory water discharge in liters per hour to the subcategory
process floor area in m2. Expressed mathematically:
subcategory process water discharged (1/hr) =
intercept (1/hr) + slope (l/hr-m2) x subcategory
process floor area (m^) equation 1
The actual subcategory process water discharge flow rate contained in
the plant tape data file is then compared to the process water dis-
charge flow rate calculated by equation 1.
Only plants with SIC codes appropriate to the Machinery and Mechanical
Products contract are so analyzed. Plants with inappropriate SIC codes
are omitted from the water discharge analysis.
Since the user typically inputs several water discharge rate curves
for each subcategory, several ranges of subcategory water discharge
flow rates are defined. Manufacturing process counters (or optional
SIC counters) exist for each of these user defined ranges of subcate-
gory water discharge flow rates. Depending on the plant's actual sub-
category water discharge flow rates, these counters are indexed based
on the actual manufacturing processes performed at the plant (portfolio
sections 2.1 through 2.6).
After all plant data tape files have been analyzed, a tabulation of
the manufacturing process counters (or optional SIC counters) is
printed out. These tabulations provide an easy means of determining
whether the manufacturing processes employed or the products manufac-
tured have any effect on subcategory water discharge flow rates.
12
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TABLE 3
MACHINERY AND MECHANICAL PRODUCTS INDUSTRY
SUBCATEGORY DEFINITION
Subcategory Activity
1 Casting and Molding - Metals
2 Mechanical Material Removal
3 Material Forming
4 Physical Property Modification
5 Assembly Operations
6 Chemical-Electrochemical Processing
7 Material Coating
8 Ore Processing and Refining
9 Casting and Molding - Non Metals
10 Film Sensitizing
11 Dockside Shipbuilding Activities
12 Lead Acid Battery Manufacture
13 Electroplating
14 Non-process activity that can cause
dilution
13
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To execute the water discharge analysis source program requires less
than 128K core storage for compilation and 120K core storage for exe-
cution. A detailed source listing of the program is presented in
Appendix B.
The plant tape data file information needed to execute this program
is presented in Table 4. The required user card input for the water
discharge analysis program is discussed below. Table 5 presents the
detailed listing of these required user input cards.
The first variable on Card 1, NSBCT, defines the number of ranges
(sectors) to be defined by user input minimum and maximum slopes and
intercepts. A maximum of 30 sectors can be input for all subcatego-
ries combined. A value of 0 for NSBCT will terminate the computer
run.
The second input variable on Card 1, LSIC, "triggers" the optional
product (SIC) correlation. An input code of 0 for LSIC will correlate
only manufacturing processes, while an input code greater than 0 will
correlate on the basis of both manufacturing processes and SIC codes.
The third input variable, LALL, on the first card classifies the
visitation status of plants to be analyzed. An input code of 0 for
LALL means that only plants visited will be analyzed (i.e., those with
a VISIT code of Y or K). A value of LALL greater than 0 means that
all plants will be analyzed, regardless of the VISIT code.
The remainder of Card 1 initiates a repeatable format for sector defi-
nition input. The array ISBCT is dimensioned to 30 and accepts the
Machinery and Mechanical Products subcategory code to which the fol-
lowing input sector definition will apply. Only subcategory codes of
1 through 9 can be input to this program. The sector inputs are
stored in array TSBCT which has 4 rows and 30 columns. The inputs for
each sector are stored in a column and the row storage definition is:
row 1 - minimum slope (l/hr-m2)
row 2 - maximum slope (l/hr-m^)
row 3 - minimum intercept (1/hr)
row 4 - maximum intercept (1/hr)
Up to 3 sectors can be defined on each card. A maximum of 10 cards
is needed to completely define the maximum number of sectors allow-
able f, 30o A couplets sample input listing is presented in Figure 1.
The tape data file variables that are used in this analysis are con-
verted to metric units from the stored English unit variables. The
actual subcategory floor area is substituted into the sector value
equations to yield a range of calculated subcateaorv water discharge
flow rates. The actual subcategory water discharge rate is then com-
pared to these calculated values and the plant's proper subcategory
sector placement determined. The manufacturing process counters for
the appropriate sector are then indexed„
14
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TABLE 4
WATER DISCHARGE ANALYSIS REQUIRED TAPE INFORMATION
Tape Variable
Locations Format Function Name
1-4 14 Plant SIC code ISIC
5-8 14 Plant identification number ID
84 Al Visitation code VISIT
243-448 103A2 Production processes employed PPOCSS(103)
8202-8341 14F10.0 Subcategory floor area, ft PFA(14)
8342-8481 14F10.0 Subcategory shifts worked PSW(14)
8482-8621 14F10.0 Process water discharged from PWD(14)
each subcategory, gallons/day
15
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CTl
Card Columns
1 1-2
3
4
5
6
7-11
12- L6
17-23
24-30
31
32-36
37-41
42-48
49-55
56
57-61
62-66
67-73
74-80
Format
12
11
11
IX
11
F5.0
F5.0
F7.0
F7.0
11
F5.0
F5.0
F7.0
F7.0
11
F5.0
F5.0
F7.0
F7.0
2+
6-80
Function
Number of user-input sectors to be defined
0 = End of Job
Plant visitation classification: Code 0 =
visited plants only will be analyzed,
0 = all plants will be analyzed
Subcategory for which sector definition
follows
Minimum water discharge rate slope, 1/hr-m^*
Maximum water discharge rate slope, l/hr-m^*
Minimum water discharge rate intercept, 1 hr*
Maximum water discharge rate intercept, 1/hr*
Repeat of columns 6-30 for
second sector definition,
if reauired
Repeat of columns 6-30
for third sector definition,
if required
Identical to columns 6-80 on Card 1. Format
repeated until up to a maximum of 10 cards
are input, according to NSBCT input value.
Fortran
Variable
Name
NSBCT
Product correlation (SIC) option: Code 0 = no, LSIC
0 = yes
LALL
ISBCT(l)
TSBCT(1,1)
TSBCT(2,1)
TSBCT(3,1)
TSBCT(4,1)
ISBCT(2)
TSBCT(1,2)
TSBCT(2,2)
TSBCT(3,2)
TSBCT(4,2)
ISBCT(3)
TSBCT(1,3)
TSBCT(2,3)
TSBCT(3,3)
TSBCT(4,3)
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*NOTE: Actual values equal to minimum boundary are included. Actual values
equal to maximum boundary are not included.
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IBM
FORTRAN Coding Form
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1) '? i" ': 15 t r '3 19 20 21 11 23 24 ?5 26 27 28 2-> 30 31 32 33 34 35 36 37 38 39 -" -Jl 4? 4j « -
"Number o) forms p»r poo may va*7 shghuy
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Only those processes common to the subcategory are counted. The var-
ious manufacturing processes and their proper subcategory placement
are presented in Table 6. For example, if Subcategory 2 were being
analyzed and a plant performed milling, reaming and coining, only the
milling and reaming counters would be indexed because coining is a
Subcategory 3 manufacturing process. The manufacturing processes asso-
ciated with Subcategories 6 and 13 are lumped together in Subcategory 6.
An optional product (SIC) correlation is available and if it is used,
all appropriate SIC counters are applicable for all subcategories. No
attempt was made to determine subcategory-SIC commonality due to the
multitude of subcategory operations-products combinations.
The output from the water discharge analysis consists of a table which
presents the frequency of occurrence of the manufacturing processes
(or SIC's) within each user input defined water discharge rate sector.
Typically, two pages of output are presented for each set of counters.
A sample print-out of the water discharge analysis program is presented
in Figure 2.
18
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Subcategory
1
TABLE 6
SUBCATEGORY MANUFACTURING PROCESSES
Manufacturing Process
Molding
Casting
Peening
Blanking
Punching
Notching
Shaving
Turning
Threading
Milling
Drilling
Boring
Reaming
Honing
Tapping
Planing
Sawing
Shaping
Grinding
Electro Discharge Machining
Ultrasonic Machining
Electron Beam Machining
Laser Machining
Plasma Arc
Shredding
Polishing
Buffing
Tumbling
Forging
Rolling
Drawing
Embossing
Spinning
Coining
Sizing
Intraforming
Normalizing
Austenitizing
Quenching
Tempering
Shot Peening
Bending
High Energy Forming
Extruding
Heading
Flow Turning
Shearing
Swaging
Carborizing
Mitriding
Cleaning
Abrasive Blast
Sonic Cleaning
Riveting
Staking
Seaming
Welding
Brazing
Soldering
Bonding
Laminating
19
-------�
TABLF 6 (CONCLUDED)
Subcategory
6
Manufacturing Process
Chemical Machining
Plating
Electroplating
Immersion Plating
Etching
Electroless Plating
Anodizing
Coating
Enameling
Porcelainizing
Flame Spraying
Dipping
Galvanizing
Vacuum Coating
Overlaying
Vacuum Metalizing
Printing
Metal Coloring
Painting - Solvent
Painting - Water Base
Painting - Electrostatic
Smelting
Refining
Thermoforming
Foaming
Extrusion
Laminating
Calendering
Blow Molding
Compression Molding
Injection Molding
Low Pressure Molding
Centrifugal Molding
Slosh Molding
All
Calibration Equipment
Acceptance Testing
Air Pollution Control Equipment
Other
20
-------�
CATFGOPY*
MIN SLOPE
INTERCEPT
MAX SLOPE
INTERCEPT
# PLANTS
PPOCESS *
3FCBGING
TSHLLING
31RAWING
3FMNOSSNG
3i PINNING
3COININU
3SIZING
3SWAr,tNG
31 NTRFO0^
5' I VET ING
5 STAKING
3R END ING
5SEAMING
3H.E.FGP1
2PEFNING
3EXTRUCNG
3HEACING
3FLW TRNG
1MQLDING
1CASTING
5WFLDING
5BRAZING
5SOLOERNG
5BONDING
5LAMIATNG
8 SMELT ING
8REFINING
3SHEARING
26LANKING
2PUNCHING
2NCTCHING
2SHAVING
2TUPNING
2THPFADNG
2 MIL LING
2DRILLING
2PDPING
29EAPING
2HONING
2TAPPING
2PLANIN",
2SAWING
2SHAPING
2GPI ^DINf;
6CHFMACH
7E.O.MATH
2USGN'"lArH
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2LASKWATH
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2SHFEnONG
44NNEALMG
4NGf ivLZNG
4AUSTENTZ
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0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
9
0.0
0
0.0
0
42
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
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0
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0
0
0
0
0
0
0
0
0
0
0
0
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0
0
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0
9
0.0
.0 0.0
999.8999
.0 0.0
11
0
0
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0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
0
0
0
0
0
0
0
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0
0
•n
t-t
c
o
i
-------�
4QUENCHNG
VTE^OI-RNG
4SHOTPEFN
4CAPR'i*IZ
4NITaiDNG
4CLEAN1NG
4ABFSVBLS
4SOMCCLN
6PLATING
2PCUSHNf,
2BUFFING
2TUPB1. ING
7C OAT ING
75NAMELNG
TPORCtLNZ
7FLAMSPRV
70IPPING
7GALVANIZ
7VAC COAT
70VPLAYNG
6ELCThPLT
7VACMMTLZ
7PRINTING
6IMMRSPLT
7METLCOLP
6ETCHING
6ELESSPLT
7PAINTSLV
7PAINTHTR
7PAINTELS
6ANOOIZNG
9THRMFORM
9FOAMING
9EXTRUSN
9CMPRMOLO
9INJNMQLD
910WPMOLD
9LAMINATG
9C6LENDRG
9BLOWMOLO
9CNTRMOLO
9SLSHMOLD
OCAL EQIP
OACCPTEST
OAIRCTLEO
OOTHE".
OOTHES
OCTHE1'
OGTHEK
SIC CODE
3079
3339
3341
3351
3353
3354
3355
335o
3? 5 7
3361
3362
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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0
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0
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0
0
0
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0
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0
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38
14
1
7
20
0
11
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8
24
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9
0
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76
14
29
0
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0
0
0
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9
18
27
17
2
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1
1
1
2
2
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8
3
1
0
0
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0
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0
0
0
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0
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0
1
3
3
0
0
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1
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0
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0
0
0
1
0
0
n
0
0
0
0
0
0
0
0
0
0
0
41
13
7
7
31
2
7
2
0
4
23
0
11
0
0
78
29
36
0
0
0
0
0
0
0
0
0
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0
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9
25
41
11
2
1
20
3
0
0
0
2
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1
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1
0
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J
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
0
0
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0
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0
0
0
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0
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0
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0
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0
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0
0
0
0
0
0
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0
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0
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0
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0
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0
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2
7
2
0
0
2
0
4
3
0
0
0
0
2
0
0
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0
3
0
0
0
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0
0
0
0
0
0
0
0
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0
0
0
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0
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0
0
0
0
0
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0
0
0
0
10
7
10
13
27
5
5
5
2
3
0
2
7
13
3
1
0
11
5
0
0
0
0
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0
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0
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0
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0
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0
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0
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1
1
5
3
3
2
2
1
0
0
0
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1
2
1
0
0
2
4
0
0
0
0
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0
0
0
0
0
n
§
1-3
H
•Z
G
M
D
-------�
3369 .
33C?
3399
3411
3412
3421
3423
3425
3429
3431
3432
3433
3441
3442
3443
3444
3446
3448
3449
3451
3452
3462
3463
3465
3466
3469
3482
3483
3484
3489
3493
3494
3495
3496
3497
3498
3499
3511
3519
3523
3524
3531
3532
3533 .
3534
3535
3536
353?
3541
3542
3544
3545
3546
3547
3549
3551
3552
3553
3554
3555
355-5
( 0
f 0
i 0
0
( 0
( 0
( 0
<> 0
(: 0
0 0
0 0
0 0
(I 0
(' 0
(i n
(i 0
0 0
( 0
{'• 0
< 0
I 0
(1 0
0 0
<> 0
() 0
0 0
0 0
I! 0
(i 0
(i 0
0 0
v) 0
n o
0 0
0 0
(i 0
1) 0
1) 0
0 0
1) 0
0 0
n 0
'1 0
i) 0
i) 0
n 0
'1 0
) 0
1 0
<> 0
1 0
0 0
-------�
3561
3^62
356'i
3564
3566
3567
356S
3572
3573
3574
3576
3579
3581
3582
3585
3586
3589
3592
3599
3612
3613
3621,Ul/l/UUl.>lLrUWW 'f<
3622 0001000010 G
3623
3624
3629
3631 OOOOOZOOIO O
§
3632 onoonpooio S
3633
3634
363b
3641
3643
3644
3645
3646
3647
364fl
3651
3652
3661
3662
3671
3672
3673
3674
3fc75
367ft
3677
3678
3679
3691
3692
369^
3
-------�
3714 .
3715 A
3721
3724
3728
3731
3732
3743
3751
3761
3764
3769
3792
3795
3799
3811
3822
3823
3824
3825
3829
3832
3841
3842
3843
3651
3861
3873
3911
3914
3915
3931
3942
3944
3949
3951
3961
3991
3993
i>
. t
i)
. i
1
1
1
1
)
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)
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)
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3
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2
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3
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5
0
4
2
3
0
0
1
0
2
1
0
0
0
1
0
0
1
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
3
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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§
o
o
w
D
ON DATA PROM 470 PLANTS
-------�
3.0 Raw Waste Analysis
The raw waste analysis program performs statistical operations on all
raw waste stream pollutant parameters presented in Table 2. All raw
waste streams are considered; however, pollutant parameters with a
concentration at or below minimum detectable levels are excluded from
the analysis. The pollutant parameter minimum detectable concentra-
tions ("nil values") are presented in Table 7. All plants with a SIC
code not appropriate to the Machinery and Mechanical Products Manu-
facturing contract are automatically excluded from this raw waste
analysis.
Both a pollutant Concentration Analysis in mg/1 and a pollutant Pro-
duction Oriented Analysis in mg/hr/m^ of process floor area are calcu-
lated. These analyses are performed only on those plants which have
a complete definition of at least one subcategory. For a complete
subcategory definition to exist, there must be a non-zero value for
process floor area, shifts worked and process water discharge rate.
Plants without at least one complete subcategory definition will be
excluded from these analyses.
For plants with a single subcategory process water discharge rate,
the calculations are straightforward. All significant raw waste con-
centrations are assumed to occur within that subcategory and the pro-
duction oriented term of mg/hr/m^ is calculated directly. For multi-
subcategory process water discharge plants, the various pollutant con-
centrations are attributed to and pollutant masses are apportioned to
each subcategory by means of the subcategory process water discharge
rate and by a user input "pollutant occurrence" table. This "pollu-
tant occurrence" table indicates the existence of each of the pollu-
tant parameters listed in Table 2 within each of the subcategories.
The "pollutant occurrence" table is user input and each pollutant para-
meter listed in Table 2 is coded as a 1 or a 0 for each subcategory.
A code of 1 indicates that the pollutant parameter occurs within the
subcategory and a code of 0 means the parameter does not occur within
the subcategory.
To properly analyze the raw waste streams, the dilution effects of
non-process water flow rates (i.e., Subcategory 14 water discharge
rate) must be considered. For the raw waste analysis program it is
assumed that none of the pollutant parameters listed in Table 2 occur
within Subcategory 14. That is, the "pollutant occurrence" table for
Subcategory 14 has all pollutant parameters coded as 0. This allo-
cates all of the pollutant mass to the manufacturing subcategories
where discharge flow occurs. The present structuring of the "pollu-
tant occurrence" table for all subcategories is presented as Table 8.
31
-------�
Parameter
Minimum Levels Parameter
Minimum Levels
u>
tvj
Flow, gpd
Acidic pH
Alkaline pH
Turbidity
Temperature, °C
Dissolved oxygen
Residual chlorine
Acidity
Alkalinity
Ammonia
5-day BOD
Color
Sulfide
Cyanide, total
Cyanide, amenable to chlorination
Kjeldahl nitrogen
Phenols
Conductance
Total solids
Total suspended solids
Settleable solids
Aluminum
Barium
Cadmium
Calcium
Chloride
Chromium, total
Chromium, hexavalent
Copper
Fluoride
Iron, total
Iron, dissolved
Lead
Magnesium
.001
.001
.001
.001
.001
.001
.001
.001
.01
.1
.001
.001
.005
.005
.001
.001
.1
.1
.1
.1
.01
.01
.001
.01
.1
.001
.001
.01
.1
.001
.001
.001
.01
Manganese
Molybdenum
Oil, grease
Hardness
Chemical oxygen demand
Algicide
Total phosphates
Polychlorobiphenyls
Potassium
Silica
Sodium
Sulfate
Sulfite
Titanium
Zinc
Arsenic
Boron
Mercury
Nickel
Nitrate
Nitrite
Selenium
Silver
Strontium
Beryllium
Chlorinated hydrocarbons
Total volatile solids
Surfactants
Plasticizers
Antimony
Bromide
Cobalt
Thallium
Tin
.001
.001
.1
.1
.1
.1
.1
.1
.01
.1
.1
.1
.1
.01
.01
.001
.01
.001
.001
.1
.001
.001
.001
.01
.001
.01
.1
.1
.01
.001
.1
.001
.001
.001
o
F
F
G
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M
21 'fl i-3
H >
F 3 w
H F
< 2 M
^^ h^j
F S >J
GG
W
M
M
n
w
F
F
cn
-------�
1 =
(jj
Subcategory
Parameter
Flow
Acidic pH
Alkaline pH
Turbidity
Temperature
Dissolved oxygen
Residual chlorine
Acidity
Alkalinity
Ammonia
5-day BOD
Color
Sulfide
Cyanide, total
Cyanide, amenable
to chlorination
Kjeldahl nitrogen
Phenols
Conductance
Total solids
Total suspended solids
Settleable solids
Aluminum
Barium
Cadmium
Calcium
Chloride
Chromium, total
Chromium, hexavalent
Copper
Fluoride
Iron, total
Iron, dissolved
Lead
yes, 0
4 5
no
6
10
11
12
13
14
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
0
0
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
0
1
1
0
0
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
I
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
o
G
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3
^
5
5
S >-3
w •>
t-3 03
W f
•a w
= 00
o
t-"
f
G
>
§
o
o
G
brt
w
n
M
-------�
Parameter
Subcategory
10
11
12
13
14
Magnesium
Manganese
Molybdenum
Oil, grease
Hardness
Chemical oxygen demand
Algicide
Total phosphates
Polychlorobiphenyls
Potassium
Silica
Sodium
Sulfate
Sulfite
Titanium
Zinc
Arsenic
Boron
Mercury
Nickel
Nitrate
Nitrite
Selenium
Silver
Strontium
Beryllium
Chlorinated hydrocarbons
Total volatile solids
Surfactants
Plasticizers
Antimony
Bromide
Cobalt
Thallium
Tin
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
0
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
0
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
0
1
1
0
1
1
1
1
0
1
0
0
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
0
1
1
0
0
1
1
1
0
1
0
0
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
0
1
1
1
1
0
1
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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-------�
The statistics are calculated for each subcategory. For the Concent-
ration Analysis, the raw waste stream concentrations in each plant
are multiplied by the "pollutant occurrence" factors of each subcate-
gory where there is a process water discharge flow rate. This Con-
centration Analysis is performed for all the plants and the resulting
minimum, maximum and mean concentrations of all existing pollutant
parameters are printed out for each subcategory. A count of the total
number of streams where each parameter occurred and the number of
streams where there was no value, a "nil value", or a significant
value for each parameter are also included on the print-out for each
subcategory.
For the Production Oriented Analysis, the minimum, maximum and mean
operations are performed in units of mg/hr/m2 of process floor area.
The mass of each pollutant within each subcategory for which there
is a process water discharge rate is determined by equation 2.
(raw waste, mg/1 * "pollutant occurrence" * water discharge rate, 1/hr)
parameter parameter subcategory
subcategory
14 subcategories
* ^> ^ water discharge rate, 1/hr
_1 subcategory
14 subcategories
XI? (water discharge rate, 1/hr * "pollutant occurrence")
1 subcategory parameter
subcategory
= mass, mg/hr equation 2
parameter
subcategory
This equation accounts for the pollutant occurrence by determining the
total mass of pollutant and allocating this mass to those subcategories
in which it can occur. The allocation of pollutant mass is based on
water discharge rates from each subcategory. The final step in the
calculation is to divide the calculated subcategory pollutant mass by
the subcategory process floor area to obtain the term mg/hr/m^ of pro-
cess floor area.
The Production Oriented Analysis will also provide the pollutant dis-
tributions relative to a user input mg/hr/m2 limit. The user inputs a
flow and process floor area for all subcategories except 13 and 14 and a
concentration for each of the pollutant parameters. The analysis pro-
gram then calculates a mg/hr/m^ limit for each pollutant parameter in
each subcategory and distributes the actual plant subcategory mg/hr/n\2
about this limit.
35
-------�
The raw waste analysis program requires 128K core storage for compila-
tion and 144K core storage for execution. The source listing of this
program, written in Fortran IV, is presented in Appendix C.
The information required as input to the raw waste analysis program
from the plant tape data file is presented in Table 9. The reader is
again referred to Table 1 for the complete tape data file format. Only
stream data collected during Hamilton Standard plant visits is ana-
lyzed. The plant portfolio stream data, portfolio Section 4.4, is
not analyzed due to possible data inconsistencies and incompletions.
The user card input is described below. A detailed listing of the
card input, based on the following discussion, is presented as Table
10.
The first 14 cards of input contain the "pollutant occurrence" tables.
A single card is used for each subcategory and contains all the pol-
lutant parameter "occurrence" codes of 1 or 0 per the structure pre-
sented in Table 8. A complete set of 14 cards is required as input to
maintain the proper input card read sequence. The input card format
will read 77 "pollutant occurrence" codes. However, the program pre-
sently analyzes only the 68 parameters presented in Tables 2 and 8.
The 15th card presents the subcategory flow limits, FLIM, which are
input in units of liters per hour. Only 12 subcategories require flow
limit input as Subcategories 13 and 14 are not analyzed in this pro-
gram.
The 16th card presents the subcategory process floor area limits,
ALIM, in units of square meters. Again, input is required only for
subcategories 1 through 12.
The concentration limits, GLIM, for each of the pollutant parameters
are input on cards 17, 18 and 19. The sequence of input is that of
Tables 2 and 8. Limits will not be calculated nor stream calcula-
tions distributed for any pollutant parameter with a CLIM input of 0.
The flow limits, process floor area limits, and pollutant parameter
concentration limits are used to calculate a mg/hr/m^ limit for each
pollutant parameter for each subcategory per equation 3.
mg/hr/m^ = area limit x flow limit x concentration limit
limit subcategory subcategory parameter
parameter
subcategory
= ALIM X FLIM X CLIM ,,,,,,,,. « . „ .equation 3
36
-------�
OJ
Tape
Locations
1-4
5-8
1449
1450-1459
1520-5369
7717-7718
8202-8341
8342-8481
8482-8621
Format
14
14
II
512
5C77E10.4)
12
14F10.0
14F10.0
14F10.0
Function
Plant SIC code
Plant identification number
Number of streams in plant
data file, 5 maximum
Stream type identification
code
Stream pollutant parameter
information, maximum of 5
streams with information
stored per Table 2
Effluent destination code
Subcategory process floor
area, ft^
Subcategory shifts worked
Subcategory process water
discharged, gpd
Variable
Name
ISIC
ID
NSTRM
ISTRM(5)
CONCEN(77,5)
IFDST
PFA(14)
PSW(14)
PWD(14)
1
5!
s;
•3
en
t-3
M
>
2
f
Uf"
^S
en
H
en t-3
ru
w b
W f
o *n
G
H V£>
SI
M
0
t-3
>
'fl
w
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hrl
'n
O
i>
t-3
H
O
2
-------�
00
Cards
1-14
15
16
17-18
19
20-24
Locations
1-80
1-80
1-80
1-80
1-75
76-78
1-80
Format
14(77F1.0,3X)
12F6.0,8X
12F6.0/8X
2(26F3.0,2X)
25F3.0
F3.0
5(2014)
Function
"Parameter occurrence"
code 1 or 0
Subcategory flow limit, 1/hr,
for all subcategories except
13 and 14
Subcategory process floor area
limit, m2, for all subcatego.r-
ies except 13 and 14
Pollutant parameter
concentration limit per
Table 2 structure
Plant effluent destinations
to be considered acceptable
for analysis: code 0 = any-
where, 1 = river/stream
only, 2 = sewer only
Identification numbers of
plants that are not exemplary
and are to be omitted from
analysis, 100 maximum
Variable Name
RF(77,14)
FLIM(12)
ALIM(12)
CLIM(77)
TFDST
LIST(100,1)
s;
Cfi
M
CO
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cn
O
a
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ft)
o
o
H
2
a
(-3
•-3
to
w
f
w
-------�
The actual plant calculations of the Production Oriented Analysis
terms are then compared with the limits calculated by use of equation
3. Ranges have been set in the computer in steps of .01, .05, or .1
times the calculated limits. Counters are indexed in the ranges
appropriate to the actual plant calculations to yield a distribution
matrix which is presented in the final output.
The final 5 cards of input contain the identification numbers of non-
exemplary plants which the user wishes to exclude from analysis. The
plants to be excluded are determined by comparison of the user input
identification numbers and locations 5-8 of each plant data tape file.
All 5 cards must be input even if no plants are to be excluded and all
of the cards have been left blank. A complete raw waste analysis in-
put listing is presented in Figure 3.
Statistical operations are performed and printed out in metric units.
The conversion of the plant file data from English units to metric
units is performed immediately after the tape file read sequence.
The output from the raw waste analysis program is printed in a multi-
series format. The first series of printed output is labelled "CON-
CENTRATION ANALYSIS OF ". Stream counters and the minimum,
maximum and mean pollutant parameter raw waste concentration values
are presented for each of Subcategories 1, 2, 3, 4, 5, 6, 7, 8, 10 and
12. A complete page of print-out is also presented for all subcate-
gories grouped together. Only those pollutant parameters which have
at least one significant concentration value in the appropriate sub-
categories are presented on the tables.
The second series of output data is labelled "GUIDELINES ANALYSIS
OF " . Production Oriented Analysis with minimum, maximum
and mean values of pollutant parameter mg/hr/m^ of subcategory pro-
cess floor area are presented. Also presented in each of the sub-
category printouts are the user input limit results and the distribu-
tions with respect to the user input mg/hr/m^ limits. No stream dis-
tributions will be performed on any pollutant parameter which has a
zero input as the concentration limit (CLIM).
The guidelines analysis is presented for Subcategories 1, 2, 3, 4, 5,
6, 7, 8, 10 and 12. As in the concentration analysis, only those pol-
lutant parameters with at least one significant stream concentration
value in the appropriate Subcategories are presented on the tables.
The third series of output is labelled "WASTE CHARACTERISTICS OF "
This series of tables is a combination of the concentration and guide-
lines analysis already presented. The minimum, maximum and mean pol-
lutant parameter concentration and Production Oriented Analysis terms
39
-------�
IBM
FORTRAN Coding Form
GX28-7327-6U/M050'
Printed in U.S.A.
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-------�
are presented for Subcategories 1, 2, 3, 4, 5, 6, 7, 8, 10 and 12.
A table of minimum, maximum and mean pollutant parameter concentration
values is also printed for all subcategories combined.
The final two pages of print-out are summaries of the identification
numbers of the plants used in the analysis. The first summary is of
all plants considered in the analysis. Plants that are excluded by
the user input omissions list or plants that have no stream data or
have SIC codes not in the scope of the Machinery and Mechanical Pro-
ducts Manufacturing contract will not be present in this list.
The second summary presents a listing of all single subcategory water
discharge plants. The plant identification number is presented as a
real number. The number preceding the decimal point is the plant
identification number and the number following the decimal point is
the single subcategory which has process water discharge.
The final summaries present the streams pertinent to the analysis. A
multiple plant identification number following the type of stream head-
ing indicates that the plant had a multiple occurrence of that type of
stream. The "MXD EFFLUENT" type of stream is one in which non-process
water (Subcategory 14 discharge) is mixed with the process water.
A complete raw waste analysis print out is presented as Figure 4.
41
-------�
CONCENTRETICI ANALYSIS OF i.AU 'VAS.'F. SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 1ST SUBCATEGORY
TOTAL MINE MI. NIL SIGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
* » # \ALUF # MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGI N
RESIDUAL CHLtie- NE
SCIOITY
ALKALINITY
AMMONIA
B. 0. D. 5
COIOR
SULFITE
CYAM.'DE.TPTAL
KJFIP1HL ''JITROCEN
PHENCLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SETTLfaBL^ SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHRCMTIJM.HEXAW LENT
COPPEr*
FLUORIDE
IRON, TOTAL
IRON.riSSILVEO
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B. 'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
T ITANIUM
ZINC
flORCN
MEPCU^Y
NICKEL
NITRATE
NITPITE
STLVF^
STTNTIUM
r-c-YLL I'JM
ANT] v 1MY
C'IBALT
27
27
27
27
27
27
27
27
27
27
27
27
27
6
27
27
27
27
?7
27
27
27
27
27
27
6
6
27
6
27
27
27
27
27
27
27
27
27
6
27
27
27
27
27
27
27
27
27
27
27
27
27
77
27
27
27
27
12
19
.11
16
0
11
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10
8
0
8
0
0
8
0
8
0
8
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8
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0
0
8
0
8
0
8
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8
9
8
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5
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0
11
0
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2
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0
1
0
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5
0
0
18
0
2
2
13
0
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0
0
1.000
C .001
C .001
C.001
0.001
G.001
0.001
C.001
c.oni
C.010
C.100
0.001
C.001
0.005
0.001
C.001
C.100
0.100
C.100
0.100
0.010
0.010
0.001
0.010
C.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.010
0.001
0.001
0.100
0.001
0.001
0.010
0.001
O.OT1
0,001
15
8
16
10
27
13
1
11
15
27
25
17
15
1
19
22
27
19
23
9
27
19
16
19
25
6
6
24
4
27
19
27
19
27
19
23
19
27
5
10
19
17
19
27
15
14
27
19
9
27
17
16
14
19
1
2
1
SCO. 000
2.200
7.200
25.000
10.000
1.000
1.000
7.980
4.000
0.014
0.300
1.000
0.010
0.007
0.063
0.002
90.000
155.000
6.000
0.200
0.100
0.060
0.002
3.740
10.900
0.005
0.005
0.014
0.500
0.200
0.100
0.010
1.430
0.010
0.005
1.748
54.000
16.700
0.200
0.200
1.600
3.100
8.000
14.400
0.500
0.020
0.020
0.100
0.002
0.004
0.200
0.008
0.002
0.060
0.003
0.040
0.010
3989COO.OO
6.800
10.000
1200.000
63.000
12.000
1.000
656.600
2695.000
44.650
4800.000
330.000
3.960
0.007
26.990
65.000
7000.000
28770.000
28390.000
40.000
40.910
5.500
0.443
2000.000
2720.000
0.049
0.020
104.300
14.000
95.000
75.290
5.630
200.000
7.790
0.525
13510.000
20630.000
40000.000
5.100
50.400
71.860
32.300
1677.000
2343.000
2.000
0.500
146.400
21.300
0.005
51.300
120.000
0.633
0.210
6.920
0.003
0.080
0.010
1047122.00
4.456
8.222
576.400
23.226
5.885
1.000
151.838
476.671
3.132
378.458
65.235
0.589
0.007
5.988
4.877
1269.914
3625.362
1487.108
11.511
3.703
0.796
0.044
169.000
146.036
0.025
0.011
9.732
6.025
13.759
11.658
0.610
21.393
0.738
0.071
1046.784
1746.737
2425.770
2.100
7.630
15.155
12.182
242.373
338.769
1.167
0.091
10.848
2.010
0.003
4.573
13.141
0.133
0.019
0.966
0.003
0.060
0.010
o
1
-------�
THALLIUM 27 ?5 j o.ooi 2 o.mo o.oso 0.020
TIN 27 1C 0 0.001 9 0.029 0.063 0.051
d'Scr> ON DATA FROM S^ SINGLE SUBCATEGORY PLANTS INCLUDING 96 RAW HASTE STREAMS
BASEO ON ITATA FPOM 2*5 SI Kf.LCHULTPL SUBCATEGTRY PLANTS INCLUDING 240 RAW WASTE STREAMS
O
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O
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-------�
C ^CENT°ATH N ANUYSIS 0^ =UW
TflTAL M'lfJF
* '»
WAJTt SAMPLE STREAMS, niSCHAPGFD TO ANY WHERE FOR 2ND SUBCATEGORY
NIL NIL ?IGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
/ VAI.HF # "INIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW
OH, ACIDIC
PH, ALKALINE
TUKRIPITY
TEf-'OfATUC E
DISSOLVED DXYCff.1
"ESI DUAL C"l n.: !NE
ACIDITY
ALKALINITY
AMMLNIA
F». 0. D. r)
C-JLCP
SULFIDE
CYAMPE.T'JTAr.
CYA'-. I'JE AMN'.TC CHLI10,
KJELDAHL NITRC3EN
OHENCLS
CnwnijCTANCE
T:TAL SOLIDS
TOT. SUSP-3NDer SDS«
SETUEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALC IUM
CHLORIDE
CHROMIUM, TOTAL
CHPrM|(JM,HEXAVALEN''
COPPER
FLUORIDE
IRCN, TOTAL
I°.CN, DISSOLVED
LEAD
M4GNFS IUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHCS"H/iT ES
P.C.fl.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BOPON
MERCURY
NICKEL
NITRATE
NITPITE
SELENIUM
SILVER
STRONTIUM
37
87
B7
87
87
37
17
97
87
87
87
37
87
15
15
87
87
87
87
87
87
87
87
87
87
87
87
15
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
87
37
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87
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77
84
70
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31
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67
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83
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78
68
84
83
38
70
66
70
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54
55
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20.000
2.100
7.000
0.380
2.000
2.000
0.100
1.000
6.500
0.020
0.470
3.000
0.010
0.010
0.010
0.058
0.002
50.000
40.500
2.400
0.200
0.020
0.030
0.002
0.400
0.900
0.005
0.005
0.016
0.130
0.103
0.003
0.006
0.038
0.002
0.003
0.400
14.200
3.700
0.200
0.200
0.770
3.200
6.000
1.000
0.500
0.020
0.020
0.005
0.030
0.003
0.004
0.200
0.004
0.010
0.002
0.030
5000000.00
7.000
12.300
3800.000
65.000
12.000
4.000
26140.000
14210.000
30.000
4800.000
5000.000
24.000
0.425
0.196
145.000
19.000
30000.000
28770.000
28390.000
40.000
15.480
5.500
60.900
2000.000
3330.000
400.000
0.033
184.600
240.000
95.000
75.290
102.800
425.000
7.790
7.674
13510.000
2208.000
40000.000
91.600
63.300
1520.000
34.100
7692.000
4057.000
223.000
17.800
181.400
0.053
21.300
0.003
93.480
375.500
8.600
0.010
0.010
22.500
297691.562
4.783
9.217
339.837
22.685
7.438
2.025
1068.869
950.838
2.973
359.646
216.375
1.191
0.072
0.045
11.739
0.692
2586.905
2647.030
1223.649
5.429
1.499
0.785
2.428
77.314
159.010
18.908
0.009
4.457
8.497
8.981
6.221
2.044
21.225
0.364
0.164
668.217
313.300
3087.421
10.170
6.997
46.609
14.841
443.775
430.605
8.898
0.420
7.116
0.015
2.218
0.003
3.352
24.073
0.439
0.010
0.004
1.149
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CWLQFINA.TFD HYDPICAP 87 83 o o.oio 4 o.ioo 1.300 0.400
AMTIMONY 15 13 0 0.001 2 0.060 0.060 0.060
COBALT 87 8* 0 0.001 3 0.010 0.010 0.010
THAUIUM 87 73 0 0.001 14 0.010 0.0*0 0.017
TIN 87 68 0 0.001 19 0.020 0.184 0.098
R4S?C HN DATA F°OM 84 SINGLE SUBCATEGORY PLANTS INCLUDING 96 RAW WASTE STREAMS
BASED ON DATA FROM 245 SINGLCMULTPL SUBCATEGORY PLANTS INCLUDING 240 RAW WASTE STREAMS
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CCNCENTRATICI; ANALYSIS OF t AW tlAS'F SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 3RD SUBCATEGORY
TOTAL N'lNE 'Jll. NIL SIGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
* * » VALUE # MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW
PH, fCIDIC
PH, ALKALINE
TUPBIOITY
TEMPERATURE
DISSOLVED OXYGFN
RESIDUAL CHLORINE
ACIDITY
ALKALINITY
AMMnMI 4
6. 0. D. 5
COLOR
SULFIOE
CYANIDE, TOTAL
CYANIDE AMN.TO CHLOR
KJELOAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SETTLEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRCM1UM, TOTAL
CHRPMlUM.HEXAVftLENT
COP°ER
FLUORIDE
IRCN, TOTAL
IRON, DISSOLVED
LEAP
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATFS
P.C.B.' S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ASScNIC
POP Oh'
MERCURY
NICKEL
NITR4TE
^JIT^ITE
SELENIUM
SILVER
STRCNTIIJM
49
49
49
49
49
49
49
49
49
49
49
49
49
8
8
49
49
49
49
49
49
49
49
8
49
49
8
8
49
8
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
49
8
49
49
49
49
49
49
25
31
i!0
31
2
18
IS
21
17
1
2
18
13
0
3
13
1
2
13
1
12
1
13
0
13
4
0
0
1
1
0
13
0
13
0
13
5
14
4
1
16
13
16
13
1
13
13
2
0
14
0
0
15
16
1
0
12
0
1
0
0
0
3
28
8
2
4
0
0
7
4
1
0
4
0
0
2
24
0
0
0
0
0
0
0
2
0
0
0
0
0
0
0
1
0
1
5
15
0
1
0
0
6
10
0
48
0
6
0
2
3
47
21
1
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
0.001
0.001
0.010
24
17
29
18
47
28
3
20
30
44
47
31
29
4
4
36
44
47
36
46
13
48
36
8
36
45
3
8
46
7
49
36
49
36
49
36
43
35
44
43
18
36
32
36
48
30
26
47
1
35
2
49
32
30
1
28
36
4000.000
1.500
7.000
2.200
12.000
1.000
1.000
1.000
14.000
0.023
1.000
1.000
0.010
0.020
0.010
0.063
0.002
3.200
155.000
2.000
0.200
0.020
0.020
0.002
0.639
2.800
0.005
0.005
0.016
0.120
0.110
0.030
0.010
0.750
0.008
0.005
0.500
13.000
1.000
0.200
0.200
1.500
5.200
4.410
0.800
0.500
0.020
0.020
0.010
0.030
0.002
0.004
0.150
0.005
0.010
0.002
0.060
2520000.00
7.000
12.000
3800.000
65.000
12.000
4.000
279500.000
8000.000
134.000
3850.000
5000.000
6.400
1.800
1.800
212.000
9.000
240000.000
63090.000
11990.000
40.000
290.300
7.400
0.433
298.700
3330.000
0.417
0.030
144.900
1.760
600.000
250.000
102.800
120.000
40.000
0.525
6056.000
144800.000
19170.000
45.400
63.300
71.860
30.000
1517.000
1830.000
175.000
1.530
146.400
0.010
16.320
0.002
165.200
55.000
8.600
0.010
0.044
14.300
409488.375
4.718
8.772
472.400
24.117
5.671
2.333
14096.344
650.356
5.403
448.921
224.710
0.645
0.523
0.518
17.608
0.473
6722.312
5294.062
1034.100
8.485
13.269
0.836
0.064
34.574
154.730
0.085
0.011
8.471
0.727
29.348
14.309
2.751
16.348
1.164
0.073
599.668
5304.152
2826.503
6.455
9.867
18.219
15.387
305.670
304.493
7.967
0.107
10.766
0.010
1.509
0.002
5.797
7.080
0.582
0.010
0.005
1.186
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CHLORINATED HYDROCAP 49 47 0 0.010 2 0.600 1.000 0.800
COBALT 49 47 0 0.001 2 0.010 0.010 0.010
THALLIUM 49 45 0 0.001 4 0.010 0.040 0.020
TIN 49 34 0 0.001 15 0.025 0.184 0.083
BASED ON DATA FROM 84 SINGLE SUBCATEGORY PLANTS INCLUDING 96 RAH WASTE STREAMS
B4SED ON DATA FRO"! 245 SINGLSMULTPL SUBCATEGORY PLANTS INCLUDING 240 RAW WASTE STREAMS
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CCMCE'rRATIU ' ANALYSIS OF PAW
TOTAL
FLOW
PH, ACIDIC
PH, ALKALIME
TURBIDITY
TEM.FFRATU0 ;
DISSOLVED UXVG.-N
RESIDUAL CHLPPINF
ACIDITY
ALKALINITY
AMMCMA
B. 0. 0. i
CHIOS'.
SULFIDE
CYAMOE, TOTAL
CYANIDE AMN.Tf CHLOR
KJELD4HL NITRCJEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDFC SDS0
SETTLEABLE SOLIDS
ALUMINUM
BA^ !UM
CADMIUM
CALC IUM
CrtLi-.QIOE
CHRPMIUM, TOTAL
CHROMIUM, HEXAX ALFNT
COPfFR
FLUOPIOE
IRON, TOTAL
1RON.DISSQLVEC
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HAOCNESS
C. 0. D.
T3TAL PHOSPH/T ES
°.C.?. ' S
POTASSIUM
SILICA
SODIU"
SULFATE
SMLFITE
TITANIUM
ZINC
ARSENIC
BORCN'
MERCURY
NICKF.L
MTPATE
NITRITE
SELENIUM
SILVER
STRONTIUM
H
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
3
50
50
3
3
3
3
50
50
50
50
50
50
50
50
50
3
50
50
50
50
50
50
50
3
50
50
3
50
50
50
50
3
50
N'INE
a
28
38
11
18
3
19
17
21
8
0
0
8
6
0
46
6
0
0
6
0
5
1
6
0
6
3
C
0
0
0
0
fr
0
6
0
6
H
7
0
0
<)
6
IT.
6
0
6
h
0
0
6
0
0
7
13
1
0
5
WA«Tc SAMPLE STPFAMS, DISCHARGED TO ANY WHERE FOR 4TH SUBCATEGORY
NIL NIL
* /ALUE
f ..000
C 3.001
: ).ooi
] ).001
C 3.001
3.001
3t 3.001
U 3.001
', 3.001
• 3.010
( 3.100
: 3.001
; o.ooi
i: 3.005
i 3.005
1 3.001
' 0.001
( 0.100
( 3.100
3.100
21 3.100
3.010
i 0.010
' 0.001
li 0.010
il 0.100
i' 3.001
(• 3.001
n 0.010
! 0.100
•1 0.001
'1 0.001
1 0.001
) 0.010
) 0.001
1 0.001
. 0.100
) 0.100
. 0.100
! 0.100
2 ! 0.100
) 0.010
3 0.100
) 0.100
) 0.100
' 0.100
1 , 0.010
) 0.010
4f 0.001
) 0.010
! 0.001
3 0.001
» 0.100
» 0.001
45 0.001
I 0.001
> 0.010
SIGNF
«
22
12
32
31
47
24
3
19
35
47
50
41
37
38
2
44
46
50
44
47
19
48
44
3
44
47
3
3
3
I
50
44
50
44
50
44
47
43
49
1
19
44
39
44
50
37
33
3
3
44
1
50
39
. 33
4
2
43
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM
7200.000
2.100
7.000
1.500
13.000
4.000
2.000
1.400
39.800
0.012
0.400
1.000
0.010
0.010
0.010
0.077
0.004
230.000
151.000
0.400
0.200
0.020
0.030
0.003
0.260
0.900
0.005
0.005
0.129
3.200
0.077
0.030
0.012
0.560
0.009
0.005
0.400
14.200
1.000
0.600
0.200
3.000
2.800
8.000
1.000
0.500
0.020
0.120
0.010
0.030
0.010
0.004
0.200
0.005
0.010
0.003
0.020
MAXIMUM
5000000.00
7.000
12.000
3800.000
87.000
12.000
4.000
2880.000
15900.000
47.400
2216.000
5000.000
6.400
900.000
0.010
54.400
9.000
32800.000
12280.000
11990.000
40.000
22.860
9.520
0.012
584.100
3330.000
0.013
0.005
0.952
3.200
422.200
80.000
102.800
78.180
2.080
7.674
13510.000
1780.000
18070.000
0.600
100.000
5613.000
32.300
10790.000
4057.000
963.000
1.470
1.754
0.010
16.320
0.010
17.740
444.400
8.600
0.010
0.003
18.260
MEAN
511219.625
4.347
9.003
349.148
23.826
6.979
2.667
375.412
1367.551
3.630
322.439
196.756
0.565
67.186
0.010
7.293
0.390
2689.780
2016.146
715.887
6.353
2.129
0.987
0.006
56.344
245.842
0.008
0.005
0.434
3.200
14.502
5.945
2.768
14.705
0.224
0.292
681.392
298.628
2356.958
0.600
12.842
189.820
16.372
674.203
482.165
33.784
0.139
1.182
0.0 10
1.487
0.010
1.261
37.350
0.759
0.010
0.003
1.409
DATE: 08/25/75
I
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COBALT 50 47 1 0.001 3 0.010 0.010 0.010
THALLIUM 50 41 3 0.001 9 0.010 0.040 0.020
TIN 50 41 0 0.001 9 0.020 0.184 0.072
BASin ON I^ATA FROf S4 SINGLE SUBCATEGCWY PLANTS INCLUDING 96 RAW WASTE STREAMS
B4SJO ON OATt F»OK« 245 SINGLCHULTPL SUSCATEGCRY PLANTS INCLUDING 240 RAW WASTE STREAMS
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ANAIYSIS TF i-AW v 4S- E SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 5TH SUBCATEGORY
TOTAL NONE Nil m SIONF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
« # # V4LUE « MINIMUM MAXIMUM MEAN
DATE: 03/25/75
FLOW
PH, AC in ic
PH, ALKALINF
TURPTHITY
TEMPERATURE
DISSOLVED OXYGEN
"ESICUAL CHLOf 1 NF
ACIDITY
ALK/LINITY
f,MMQ.-|i n
3. ". 0. 5
COLOR
SULFIDE
CYANIDE, TOTAL
KJELPAHL NITROCEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SFTTLEABL; SOLIPS
ALUMINUM
BARIU"
CADMIUM
CALCIUM
CHLORIDE
CHRnMIUM, TOTAL
CHROMIUM, HEX4V/ LENT
COPPER
FLUORIDE
IRON, TOTAL
IRON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
c. n. D.
THT4L PHCSPHAT' S
o.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
NIT'-IT =
SILVf-
STRCMTIUM
CHLIJt INATfO KY IR.OCAP
COBAL r
63
63
63
63
ft?
63
63
63
63
63
63
63
63
4
63
63
63
63
63
63
63
63
63
63
63
4
4
63
63
63
63
63
63
63
63
63
63
63
63
63
63
03
63
63
63
63
63
*3
63
ft?
63
63
63
63
63
63
63
36
<-7
fl
( 1
2
2?
24
?7
15
1
1
16
11
0
11
1
1
11
2
j.i
0
10
0
1.0
5
0
0
0
0
0
1.0
0
1.0
0
10
2
11
1
1
14
9
14
J.'O
1
10
9
1
1
10
2
0
10
17
0
1C
54
62
0
0
0
7
0
3
33
3
4
3
1
1
10
2
1
5
0
0
3
31
0
0
15
0
0
0
0
4
3
0
0
0
0
0
0
2
0
1
2
25
1
0
0
1
11
1J
0
61
0
45
0
4
B
27
0
0
0
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.001
0.001
0.100
0.100
C.100
C.100
C.010
C.010
C.001
C.010
C.100
C.001
C.001
C.010
C.100
C.001
C.001
C.001
C.010
C.001
C.001
C.100
C.100
C.100
C.100
(.100
C.010
C.100
C.100
C.100
C.100
C.010
C.010
C .001
C .010
C .001
C .001
C-.100
( .001
C .001
C .010
I'. 010
('.001
27
16
42
34
61
38
6
28
44
59
61
46
42
2
51
57
62
52
58
21
63
53
48
53
58
4
4
59
60
63
53
63
53
63
53
59
52
61
60
24
53
49
53
61
42
44
62
1
53
16
63
49
38
36
53
9
1
6700.000
1.800
7.000
2.200
2.000
1.000
0.100
1.000
1.000
0.020
1.000
2.000
0.010
0.048
0.063
0.004
130.000
165.000
6.300
0.200
0.030
0.030
0.002
0.208
0.900
0.005
0.005
0.013
0.110
0.070
0.030
0.007
0.750
0.003
0.005
0.400
14.200
11.600
0.250
0.200
1.600
2.000
10.590
1.000
0.500
0.020
0.020
0.005
0.030
0.002
0.004
0.200
0.010
0.002
0.030
0.100
0.010
5000000.00
7.000
11.500
3800.000
63.000
12.000
2.000
26140.000
7633.000
249.000
4800.000
850.000
4.800
0.192
260.000
30.000
17000.000
28770.000
28390.000
40.000
40.910
5.500
60.900
472.800
3330.000
0.026
0.007
184.600
325.000
95.450
77.500
102.800
200.000
3.760
0.525
13510.000
3300.000
40000.000
62.400
104.400
1520.000
47.400
2364.000
4360.000
367.000
17.800
33.930
0.005
16.980
0.055
93.480
375.500
5.480
0.052
6.100
0.200
0.010
463416.625
4.519
8.690
378.956
22.907
6.255
0.6B3
1121.882
767.057
7.500
396.941
104.543
0.345
0.120
12.936
0.884
1844.693
2578.067
1060.836
6.295
2.025
0.766
1.335
49.829
146.165
0.015
0.005
3.546
14.788
9.609
7.580
3.330
18.567
0.361
0.058
720.063
316.823
2435.886
8.011
15.553
50.303
15.343
346.074
486.173
10.524
0.548
2.886
0.005
1.887
0.012
2.293
25.227
0.319
0.005
0.823
0.111
0.010
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THALLIUM. 63 53 0 0.001 10 0.010 0.040 0.019
TIN 63 52 0 0.001 11 0.016 0.150 0.065
BASED ON DATA F30M 84 SINGLE SUBCATEGORY °LANTS INCLUDING 96 RAM WASTE STREAMS
RASFD ON DATA FROM 245 SINGLEMULTPL SUBCATEGORY PLANTS INCLUDING 240 RAW WASTE STREAMS
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COKCENTPATin : ANALYSIS OF SAW rfflSTE SAMPLE STREAMSt DISCHARGED TO ANY WHEKE FOR 6TH SUBCATEGORY
TOTAL NONE NIL NIL SIGNF SIGNIFICANT VALUES BASED DM ALL SIGNIFICANT READINGS
DATE: 08/25/75
FLOW
"H, ACIDIC
t>H, ALKALINE
TURBIDITY
TEMPERATLRF
OISSOLVEO OXYGEN
ACICITY
ALKALINITY
AMMONIA
8. 0. 0. •>
COLOC
SULFIDE
CYANIDEiTOTAL
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TCTAL SOLIDS
TOT. SUSPENDED sos.
SETTLLA6LE SOLIDS
ALUMINUM
SARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM,TOTAL
CHRGMIUM.HEXAVALENT
COPPER
FLUORIDE
IRONfTOTAL
IRON, DISSOLVED
LEAD
MAGNFSIUM
MANGAMESE
MOLYBDENUM
OILt GREASE
HARCNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSFNIC
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SELENIUM
SILVFP
STRPMTIUM
ANTIMONY
CORA L T
ft
26
26
26
26
26
26
26
26
26
26
26
26
16
26
26
26
26
26
26
26
26
16
26
26
26
26
26
26
26
26
16
26
26
26
26
26
26
16
26
26
26
26
26
26
26
16
26
26
16
16
26
26
26
16
26
16
26
*
6
4
25
19
3
20
15
15
0
1
15
14
0
14
0
0
14
0
14
0
14
0
14
1
1
1
1
0
0
14
0
14
0
14
1
14
0
0
16
14
14
14
0
14
14
3
0
15
0
1
15
14
0
0
14
15
23
*
0
1
C
0
0
1
0
7
3
C
1
2
12
0
4
0
0
5
9
0
0
2
0
0
0
0
0
9
0
0
0
0
1
0
1
0
J
4
8
0
1
0
0
C)
r
c
2'j
0
I'.-
C)
C'
4
2'-
i.
(
0
C
VALUE
J .000
II. 001
0.001
(1.001
0.001
0.001
0.001
0.001
o.oio
0.100
0.001
o.ooi
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
0.001
0.001
0.010
).001
0.001
#
20
21
1
7
23
5
11
4
23
25
10
10
4
12
22
26
12
23
3
26
12
14
12
25
25
25
25
17
26
12
16
12
25
12
24
12
25
12
2
12
11
12
26
12
12
13
1
11
1
15
11
8
. 1
. 11
12
1
3
MINIMUM
38.300
0.900
7.400
1.200
10.000
4.000
7.Q80
21.000
0.045
0.300
1.000
0.100
0.019
0.074
0.002
292.300
151.000
1.600
0.150
0.030
0.020
0.002
. 0.639
3.800
0.005
0.005
0.017
0.150
0.023
0.138
0.018
1.430
0.002
0.004
0.400
10.000
1.000
0.200
0.500
2.450
2.900
17.690
73.700
0.500
0.020
0.153
0.010
0.120
0.008
0.006
1.200
0.005
0.010
0.002
0.083
0.050
0.007
fAXIMUM
2932000.00
6.900
7.400
500.000
65.000
12.000
279500.000
788.000
31.250
690.000
1000.000
1.200
0.200
895.000
1.850
240000.000
54210.000
16560.000
18.000
65.450
1.900
0.029
108.800
708.000
119.100
89.600
155.400
7.400
600.000
26.590
2.000
72.700
5.250
0.210
1730.000
20630.000
6040.000
17.500
2.800
18.000
28.100
527.300
24960.000
175.000
3.400
164.300
0.010
1.800
0.008
84.520
27.700
0.680
0.010
0.010
3.240
0.050
0.010
MEAN
504683.937
3.698
7.400
112.029
20.883
7.500
26158.613
232.620
3.765
65.028
140.100
0.414
0.105
78.815
6.235
14946.133
5531.848
837.169
7.883
3.321
0.261
0.011
31.159
90.008
11.475
3.809
22.908
1.572
30.420
4.705
0.241
12.517
0.370
0.038
97.000
3063.058
419.051
6.175
1.650
5.832
11.327
120.916
3885.279
15.583
0.510
29.842
0.010
0.416
0.008
7.235
10.655
0.230
0.010
0.005
0.645
0.050
0.009
1
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THALLIUM. 26 24 0 0.101 2 C.010 O.fHO 0.010
TIN 26 \n 0 0.001 16 0.016 0.100 0.062
BASED 'OH DATA FROM '34 SINGLE SUBCATEGORY PLANTS INCLUDING 96 RAW WASTE STREAMS :
BASED ON DATA FROM 245 SINGLtPULTDL SUBCATEGCRY PLANTS INCLUDING 240 RAW WASTE STREAMS
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I ANALYSIS OF "AW dASTE SAMPL*1 STREAMS, DISCHARGED TO ANY WHERE FOR 7TH SUBCATEGORY
TOTAL rONi MIL NIL SIGN? SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
# # » VALUE H MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLCW
PH, ACIDIC
°H, ALKALI ME
TURRI'MTY
TpwPt.;ATI.Ioj-
DISSriVEO C)XYGrN
RESIDUAL CHLORINE
ACIOITY
ALKALINITY
AMMONIA
S. 0. D. 5
COLOR
SULFIDE
CYANIDE, T1TAL
CYANIDE AMN.TO CHLO"
KJELOAHL NlfnGEN
PHFf'OLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SETTL?ABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLOPIDE
CHROMIUM, TOTAL
CHROMIUM, HE XAVALFNT
COPPER
FLUORIDE
IPCN, TOTAL
IRON, DISSOLVED
LEAD
MAGNES IUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. C. D.
TOTAL PHOSPHATES
P.C.B. 'S
POTASSIUM
SILICA
SODIM")
SULFATE
SULFITE
TITANIUM
ZINC
A=SENIC
BORON
MERCURY
NICKEL
NI TRATE
NITRITE
SILVER
STR3NTIHM
CHLORINATED HVDROCAR
87
•)7
87
87
87
87
87
87
87
37
87
87
87
9
9
87
87
87
87
87
87
87
37
87
87
87
87
B7
87
87
87
87
87
87
87
87
87
87
37
87
87
87
87
87
87
87
87
87
87
87
37
9
87
87
•57
87
87
55
61
40
36
4
22
22
28
17
3
3
16
11
2
7
11
3
3
12
5
12
3
11
3
11
14
4
6
1
'6
3
11
3
11
3
11
4
12
5
2
15
10
16
11
4
11
1C
5
4
12
5
2
11
21
3
11
7f,
0
0
0
3
0
8
61
11
5
5
0
4
12
2
0
3
9
0
0
5
45
0
0
2?
0
1
0
0
5
1
0
0
0
(j
0
0
1
0
1
3
31
\
(I
0
1
20
H>
0
8?
?
61
n
fi
7
4'r
1
0
J .000
( .001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
D.001
0.010
0.010
32
26
47
48
S3
57
4
48
65
79
84
67
64
5
2
73
75
84
75
77
30
84
76
62
76
72
83
81
81
83
84
76
84
76
84
76
82
75
81
82
41
76
71
76
82
56
61
82
1
73
21
7
70
59
40
75
11
20.000
1.500
7.000
0.300
9.000
1.000
0.100
1.000
2.000
0.030
0.400
2.000
0.010
0.010
0.640
0.059
0.004
50.000
35.000
0.200
0.200
0.020
0.030
0.002
0.208
0.900
0.005
0.005
0.011
0.130
0.103
0.003
0.006
0.750
0.002
0.005
0.500
14.200
3.700
C.200
0.200
0.770
4.400
6.000
0.800
0.500
0.020
0.020
0.005
0.050
0.002
0.007
0.150
0.006
0.002
0.030
0.100
5000000.00
7.000
11.300
3800.000
63.000
12.000
11.000
2880.000
8000.000
249.000
4800.000
6000.000
24.000
1.570
1.460
260.000
30.000
17000.000
63090.000
28390.000
40.000
290.300
7.400
60.900
472.800
3330.000
400.000
36.400
1060.000
110.000
422.200
367.700
102.800
425.000
40.000
7.674
13510.000
144800.000
40000.000
62.400
224.800
1520.000
36.900
2364.000
4360.000.
367.000
17.800
86.540
0.005
21.300
0.055
0.950
288.900
5.480
0.100
14.300
71.000
512159.062
4.591
8.895
395.599
23.269
7.000
3.S25
154.535
747.209
12.938
295.501
209.179
1.272
1.036
1.050
21.519
1.511
1883.631
2917.954
917.812
10.503
5.580
0.782
2.043
SO. 598
152.649
20.042
1.543
21.106
6.883
21.595
17.942
1.721
24.612
0.893
0.165
545.189
2335,777
1836.988
9.547
18.241
40.336
14.663
327.300
430.644
12.152
0.470
4.665
0.005
2.454
0.012
0.207
18.073
0.269
0.007
0.881
6.664
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T'JT. VOLATILE SOLIDS 87 86 0 0.100 1 356.000 356.000 356.000
SURFACTANTS 87 86 0 0.100 1 4.160 4.160 4.160
ANT1MCNY 87 69 0 0.001 18 0.022 0.148 0.072
COBALT 87 86 0 0.001 1 0.003 0.003 0.003
THALLIUM 87 69 0 0.001 18 0.010 0.040 0.019
TIN 87 78 0 0.001 9 0.032 0.130 0.081
BASED ON DATA F°OM 84 SINGLE SUBCATEGORY °LANTS INCLUDING 96 RAM WASTE STREAMS
B6SFD ON DATA FROM 245 SINGLEMULTPL SU3CATEGOPY PLANTS INCLUDING 240 RAW WASTE STREAMS
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CONCENTRATE, ANALYSIS OF FAV, HASTE SAMPLE STREAMSt DISCHARGED TO ANY WHERE FOR 8TH SUBCATEGQRY
TOTAL NONf NIL NIL SIGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
# * * VALUE # MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGEN
PESIDUAL CHLORJNE
ACIDITY
ALKALINITY
AMMONIA
B. C. D. 5
COLOR
SULFIDE
CYANIDE, TOTAL
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SDS.
SETTL£ABL= SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM,TOTAL
"> CHROMIUM, HEXAVALENT
COPPER
FLUORIDE
IRCN, TOTAL
IRON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. C. D.
TOTAL PHOS°HATSS
P.C.B. 'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
BORON
MERCU°Y
NICKEL
NITRATE
NITPlTc
SILVER
STROMT IUM
BERYLLIUM
4NTIMONY
THALLIUM
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
7
11
11
11
H
11
11
11
11
11
11
11
11
7
11
11
11
11
11
11
11
11
11
7
11
11
11
11
11
11
U
11
11
11
11
11
11
11
11
11
11
11
4
5
7
5
0
6
5
4
4
0
1
4
3
1
3
0
0
3
0
3
0
3
0
3
1
0
0
0
1
1
3
0
3
0
3
0
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TIN 11 8 0 0.001 3 0.047 0.1*1 0.079
BASED ON DATA FROM 84 SINGLE SUBCATEGORY PLANTS INCLUDING 96 RAW WASTE STPEAMS
BASED ON DATA FRO* 245 SINGLGMULTPL SUBCATEGORY PLANTS INCLUDING 240 RAW WASTE STREAMS
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CONCEPTS ATI 3f< ANALYSIS rif l AH HAVE £A«°LE ST»F.AMS, DISCHARGED TC; ANY WHERE FOR 9TH SUBCATEGORY
TOTAL N'INF NIL NIL SIGMF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
# * * VALUE * MINIMUM MAXIMUM MEAN
DATE: 08/25/75
PH, ALKALINE
TEHPFRATUR=
DISSCLVED OXYGf N
ACIDITY
ALKALINITY
AMMONIA
B. 0. D. 5
SULFIDE
CYANIDE, TOTAL
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SGLIDS
TOT. SUSPENDED SDS.
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLO«IOE
CHROMIUM, TOTAL
CHROMIUM, HEXAVALENT
COPPER
IRON, TOTAL
LEAD
MAGNESIUM
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
BERYLLIUM
PLASTICIZE»S
ANTIMONY
8RCMIDE
COBALT
THALLIUM
TIN
BASED ON DATA FROM
BASED ON DATA F "OM
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
I
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
84
245
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
D
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
SINGLE
s
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.005
0.001
0.001
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.001
0.001
0.010
0.001
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
o.ooi
0.010
0.001
0.100
0.001
0.001
0.001
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
J.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
SUBCATEGORY
INGLtMULTPL
7.100
25.000
7.000
18.000
244.000
0.041
2.200
0.100
0.100
0.171
0.100
320.000
359.700
4.600
0.032
0.379
0.002
77.460
17.600
0.007
0.005
0.016
0.035
0.020
29.640
0.027
3.200
200.000
24.000
7.000
3.429
18.000
29.000
52.500
1.000
0.020
0.237
0.002
157.600
0.047
0.390
0.004
0.015
0.034
PLANTS INCLUDING
7.100
25.000
7.000
18.000
244.000
0.041
2.200
0.100
0.100
0.171
0.100
320.000
359.700
4.600
0.032
0.379
0.002
77.460
17.600
0.007
0.005
0.016
0.035
0.020
29.640
0.027
3.200
200.000
24.000
7.000
3.429
18.000
29.000
52.500
1.000
0.020
0.237
0.002
157.600
0.047
0.390
0.004
0.015
0.034
96 RAW WASTE
SUBCATEGORY PLANTS INCLUDING 240 RAW
7.100
25.000
7.000
18.000
244.000
0.041
2.200
0.100
0.100
0.171
0.100
320.000
359.700
4.600
0.032
0.379
0.002
77.460
17.600
0.007
0.005
0.016
0.035
0.020
29.640
0.027
3.200
200.000
24.000
7.000
3.429
18.000
29.000
52.500
1.000
0.020
0.237
0.002
157.600
0.047
0.390
0.004
0.015
0.034
STREAMS
WASTE STREAMS
1
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dTWENTKATUlN ANALYSIS OF RAW WAST? SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 10TH SUBCATEGORY
TOTAL M^NE ML NIL SIGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
tt H U VALUE * MINIMUM "AXIMUM MEAN
DATE: oe/25/75
FLOW
PH, ACIDIC
PH, ALKALINE
TURPIOTTY
TtMPcSATU1? E
DISSPLVEO OXYGEN
RESIDUAL CHLORINF
ACITITY
ALKALINITY
Af MuNI A
P. . f . 0 . 5
C3L"'P
SDLFIOE
CYANIDE, T1TAL
KJELCAHL "lITFOCEr
OHENCLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SFTTLEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLO'IOE
CHROMIUM, TOTAL
CHRCMIUM,HEXAVALENT
COPPES
FLUOPID?
IRON, TOTAL
IRON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. C. D.
TOTAL PHOSPHATES
P.C.B. 'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFIT5
TI TANIIJM
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SILVER
STRONTIUM
TIN
BASED ON DATA FPOM
Ifl
18
18
18
16
18
18
18
18
18
18
18
18
18
in
18
18
18
18
18
Ib
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
1«
18
18
18
11
10
1?
9
13
11
U
6
6
1
0
6
6
0
6
0
0
6
0
6
0
6
0
6
2
0
n
0
0
0
6
0
6
0
6
1
6
0
0
4
6
7
6
1
6
6
0
0
6
I
1
6
5
1
6
13
0
0
0
1
0
J
1
0
0
1
0
0
0
7
0
3
0
0
0
3
0
0
2
0
0
0
0
0
4
0
0
0
0
0
0
0
0
0
3
3
0
0
0
0
0
0
1
17
3
4
0
0
2
3
0
0
84 SINGLE
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.001
0.001
0.100
0.100
0. 100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0. 100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
0.001
0.010
0.001
7
(3
•5
9
5
7
6
12
12
16
18
12
12
11
12
15
18
12
18
9
18
12
16
12
16
18
18
18
1*
18
12
13
12
18
12
17
12
18
15
11
12
11
12
17
12
12
17
1
9
13
17
12
11
14
12
5
SUBCATEGQFY
21.250 247800.000
2.400
7.400
10.000
'4.000
5.400
0.100
1.000
71.000
0.040
0.500
5.000
0. 100
0.010
0.350
0.008
0.210
608.000
2.000
0.300
0.030
0.030
0.002
20.970
6. 100
0.005
0.005
0.013
0.200
0.154
0.549
0.008
5.210
0.023
0.010
0.668
70.000
86.200
1.200
0.300
3.760
4.800
48.000
2.300
0.500
0.025
0.020
0.002
0.050
0.002
0.005
2.500
0.090
0.002
0.050
0.024
PLANTS INCLUDING
6.800
9.400
440.000
29.000
10.200
0.100
68.000
6383.000
110.000
1260.000
1200.000
0.700
4.900
233.000
120.000
5200.000
3245.000
724.000
14.000
20.480
2.000
16.230
1893.000
169.800
0.464
0.027
0.884
2.100
12.760
4.167
2.647
17.020
0.737
0.052
2237.000
1256.000
5120.000
9.600
123.900
345. 100
28.600
533.300
1036.000
18.000
0.400
4.180
0.002
1.160
0.019
0.074
85.700
8.000
0.250
1.220
0.100
96 RAW HASTE
95172.937
5.875
8.310
95.000
27.200
7.743
0.100
20.892
650.400
16.620
389.061
145.417
0.217
1.245
52.771
19.610
936.734
1557.333
182.678
6.478
1.822
0.800
1.468
251.332
75.356
0.111
0.008
0.323
0.561
2.908
1.996
0.557
9.882
0.197
0.013
386.485
298.667
1228.633
3.413
28.136
60.568
16.318
186.668
260.970
2.958
0.060
1.428
0.002
0.406
0.008
0.025
21.808
1.347
0.050
0.472
0.055
STREAMS
H
§
8
Z
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BASED ">-i DMA FJO"i 245 S T NGLG 'ULTPL SUBCVTEGrfY PLANTS INCLUDING 240 R AW WASTE STREAMS
a
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4k.
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CONCENTRATION ANALYSIS OF RAW WASTE SAMPLE STREAMS, DISCHARGED TO ANY' WHERE FOR 12TH SU8CATEGORY
TOTAL NONE NIL NIL SIGNF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
# # * VALUE # MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITY
AMMCNIA
B. t. 0. 5
COLOR
SULFTDE
CYANIDE, TOTAL
CYANIDE AMN.TO CHLOR
KJELOAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHPOKIUM.TOTAL
CHROMIUM, HE XAVALENT
COPTER
CLUCRID£
IROf", TOTAL
I»GN, DISSOLVED
LEAD
MAGNESIUM
MANGANESF
MOLYBDENUM
OIL, GREASE
HARDNESS
c. r. D.
TOTAL PHOSPHATES
P.C.R. «S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
PPRC1N
MEPCU'Y
•MICK EL
NITRATE
NITRITE
SELENIUM
SILVER
STRONTIUM
TPT.V'ILAT! LE SDLIOS
ANTI «Cf!Y
COBALT
10
10
10
10
10
10
10
10
10
10
10
10
9
9
10
10
10
10
10
10
10
10
10
10
10
10
9
9
10
10
10
10
10
in
10
10
10
10
10
10
10
10
10
10
10
10
10
9
10
10
10
10
9
10
10
10
10
3
3
9
6
0
7
8
6
1
0
6
6
0
3
6
0
0
6
0
0
6
0
6
0
0
0
0
0
0
6
0
6
0
6
0
6
0
0
7
6
6
6
0
6
6
0
fi
0
0
6
6
0
0
6
9
4
9
0
0
0
0
0
1
1
0
0
0
0
0
5
4
0
0
0
0
3
0
0
3
0
0
0
0
0
0
0
0
0
0
0
0
2
0
0
0
1
0
0
0
0
1
1
0
0
7
0
0
2
9
3
0
0
0
0
I. 000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.010
0.001
0.001
0.100
0.001
0.001
0.001
0.010
0.100
0.301
0.001
7
7
I
4
10
^
I
4
10
10
4
4
4
2
4
10
10
4
7
10
4
7
4
10
10
10
9
9
10
4
10
4
10
4
8
4
10
10
2
4
4
4
10
3
3
10
4
2
10
4
2
1
6
4
1
6
1
80.
0.
7.
10.
13.
1.
4.
1800.
0.
0.
5.
0.
0.
0.
0.
0.
212.
000
500
600
000
000
000
000
000
025
300
000
020
007
006
233
005
000
1819.000
8.
0.
0.
0.
6.
6.
0.
0.
0.
0.
1.
3.
0.
6.
0.
0.
1.
166.
1.
0.
7.
3.
3.
40.
100.
0.
0.
0.
C.
0.
0.
4.
0.
0.
0.
0.
0.
0.
0.
000
050
030
008
350
500
013
005
025
190
719
410
229
670
015
005
000
000
000
200
500
370
200
000
000
500
020
080
260
004
003
000
004
010
002
083
150
110
007
6134000
4
7
45
74
3
4
6440
3
27
20
0
0
0
10
0
79300
3863
40
28
0
0
80
1729
1
0
2
13
96
32
.00
.900
.600
.000
.000
.000
.000
.000
.320
.000
.000
.200
.100
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.000
.800
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.000
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.500
.060
.038
.000
.000
.026
.050
.524
.000
.950
.400
9.500
175
1
0
56
500
374
4
30
12
10
284
9C28
1
0
1
0
0
0
9
0
0
0
0
0
0
0
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.160
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.000
.000
.000
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896113.
1.
7.
25.
23.
2.
4.
3467.
1.
13.
11.
0.
0.
0.
3.
0.
26771.
3295.
22.
5.
0.
0.
45.
346.
0.
0.
0.
1.
32.
14.
2.
59.
0.
0.
15.
257.
92.
1.
18.
6.
5.
111.
375
993
600
000
150
000
000
250
449
650
750
105
033
006
308
105
000
750
800
090
047
020
415
580
220
Oil
630
888
299
822
190
135
257
014
450
550
530
275
750
225
900
342
4130.008
0.
0.
0.
0.
0.
0.
6.
0.
0.
0.
0.
0.
0.
0.
833
057
573
472
005
088
175
016
010
003
373
150
328
007
1
8
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THALLIUM 10 "j 0 0.001 5 0.010 3.038 0.016
TIN 10 4 0 0.001 6 0.046 0.0'^H 0.061
BASED HN DtTA FPOM 34 SMM.e SUBCATEGT^Y PLANTS INCLUDING 96 PAW WASTE STREAMS
BtScO ON DATA F»OM 245 5! NC.L £**Ul TPL SUBCATSCOfY PLANTS INCLUDING 240 RAW WASTE STREAMS
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CbNCENJ-fATIUN ANALYSIS PF MAW WASTE SA
TOTAL NONE ML MIL
# # « VALUr
OLE STREAMS, DISCHARGED TO ANY WHFRF FOR ALL SUBCATEGORY
SIWF SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
# KIM MUM PAXIMUM MEAN
DATE: 03/25/75
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATE c
DISSOLVED QXYGFM
RESIDUAL CHLOFINE
ACIDITY
ALKALINITY
AMMOM A
». P. D. 5
C n L 0 k
SULFIDE
CYANIDE, TOTAL
CYAM0E AMN.T? CHLOR
KJFLDAhL NITROGEN
PHENOLS
r.iNCur.TANCC
T'lTAL SOLIDS
TOT. SUSPENDED SDS.
SITTLfcABLE SOLIDS
ALUMNUS
BARIUM
CADMIUM
TALC KIM
CHLORIDE
2 CHRCMIUM, TOTAL
CHKCM1U'J,HFXAVALFNT
COPPER
FLUOPIDE
IRCN, TOTAL
IPON.UISSOLVED
LEAD
MAGNESIUM
MANGANESE
lOLYftPENUI
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B.1 S
POTASSIUM
SILICA
SODIUM
SULFATF
SULF1TF
TITANIUM
ZINC
ARS'NIC
POSCN
VtPCUKY
NICKEL
NITRATE
MI TRITE
SELrNIUM
SH VF--
STRONTIUM
240
240
240
240
240
240
240
24C
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
?40
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
240
110
152
117
128
27
116
116
10?
33
6
9
82
72
h
184
72
5
6
73
7
72
5
72
4
72
24
6
8
3
7
5
73
. 4
72
4
72
11
75
9
5
80
71
79
72
8
72
71
12
7
75
a
8
76
85
(-,
'j
7?
0
1
0
5
0
17
1.14
29
24
14
3
7
28
98
33
3
29
2
0
20
102
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0
51
1
2
0
0
11
23
0
0
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0
2
0
12
0
2
23
74
1
1
0
2
32
26
1
223
6
165
0
9
28
227
97
1
1.000
0.001
0.001
0.001
0.001
0. Ofl
0.00 I
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0. 100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
o.ioo-
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
o.ooi
0.001
0.001
0.010
130
87
123
107
213
107
20
109
133
220
228
151
140
136
18
165
206
232
167
213
66
233
168
185
167
214
234
232
226
210
235
167
236
168
234
168
217
165
229
212
86
168
160
168
230
136
143
227
10
159
67
232
155
127
7
137
165
20.00C
0.390
7.000
' 0.300
2.000
I. 000
0. 100
1.000
1.000
0.012
0.300
1.000
0.010
0.006
0.006
0.053
0.002
0.210
35.000
0.200
0.150
0.020
0.020
0.002
0.208
0.900
0.005
0.005
0.011
0.110
0.023
0.003
0.006
0.038
0.002
0.003
0.400
10.000
1.000
0.200
0.200
0.770
2.000
4.410
0.800
0.500
0.020
0.020
0.002
0.030
0.002
0.003
0.150
0.004
0.010
0.002
0.020
6134000.00
7.000
12.300
3800.000
87.000
12.000
11.000
279500.000
29100.000
1370.000
4800.000
6000.000
24.000
900.000
1.800
1480.000
120.000
240000.000
63090.000
28390.000
40.000
290.300
9.520
77.750
2000.000
29370.000
400.000
89.600
1060.000
485.000
600.000
367.700
102.800
425.000
40.000
7.674
13510.000
144800.000
40000.000
91.600
224.800
5613.000
47.400
37650.000
84380.000
963.000
17.800
181.400
0.053
21.300
0.117
165.200
444.400
8.600
0.010
0.250
22.500
370567.625
4.237
8.896
241.802
23.276
6.978
1.640
3171.203
1075.068
18.428
231.107
192.446
0.776
26.130
0.261
36.628
2.529
6400.953
2923.405
791.636
9.086
4.403
0.712
1.497
70.886
287.626
11.103
1.099
11.993
9.380
20.285
11.763
1.582
18.388
0.508
0.107
389.230
1464.548
1684.720
7.499
18.296
67.006
14.116
645.512
1407.203
15.798
0.281
8.594
0.013
1.585
0.016
3.523
26.872
0.424
0.010
0.013
1.035
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157.600
0.010
0.390
0.003
0.010
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71.000
356.000
4.160
157.600
31.250
0.390
0.010
0.040
0.184
4.700
178.075
4.160
157.600
0.906
0.390
0.008
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0.072
T"ALL!!.r'
TIK
R'SFD CM MTA P90" 24b S IN'GLf.MULT°L SUBCATE^n^ V PL4NTS INCLUDING 240 °.AW HASTE STREAMS
n
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GUIDELINES ANALYSIS OF
.0
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPFRATU- E
DISSOLVED OXYGEN
RESICUAL CHLORINE
ACIDITY
ALKALINITY
AMML'NI A
B. C. 0. 5
COLOR
SULFIOE
CYANIOE.TTTAL
KJELPiHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS
SETTLEABLE SOLIDS
ALUMINUM
BARIUM
CAO«IUM
CALCIUM
CHLORIDE
CHRGMIUM.TOTAL
CHROMIUM, HEXAVALEN
COPPER
FLUOF IDE
I°CN, TOTAL
I=ON,PISS3LVED
LhAD
MAGN?S IUM
MANGANESE
MOLYBDENUM
niL. GO EASE
HARCN-SS
c. •:. n.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
srnuiM
SULFATE
SULFITE
TITANIUM
ZINC
BORON
MERCU"Y
NICKEL
NITRATE
NITRITE
SILVtR
STPC'NTI'J"
RERYLL HIM
ANTIMO'Y
CORALT
17
4
1
12
6
4
13
1
0
5
4
12
2
11
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14
9
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DISCHARGED TO ANY
.2 .4 .*
«##«##
1
I
0
0
1
0
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3
3
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1
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0
0
0
0
0
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0
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0
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FOR
LIMIT
a #
0
0
0
1
0
0
0
0
0
0
0
0
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3
4
4
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3
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3
0
IST SUBCAT,
MAX
MINIMUM
500.00000
2.20000
7.20000
25.00000
10.00000
0.31431
2.72997
12.28869
0.
0.
0.
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24701
00309
01853
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00618
01024
05249
00138
00000
27893
67927
20316
00618
01173
00014
12043
93852
00344
00344
02301
73113
04323
01606
00308
48784
00660
00017
11874
10060
58322
13764
00698
21583
19143
27216
31161
06985
00419
05460
00524
00031
00619
0.06366
0.
0.
0.
0.
0.
0.
80454
00014
05093
00018
00489
00757
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HRI/M2
MAXIMUM MEAN LIMIT
3989000.00 1047122.00
6.800 4.4562
10.000 3.2219
1200.000 576.3999
63.000 23.2259
162.792 39.6696
2.730 2.7300
2577.541 474.6792
3166.734
69.998
9130.148
330.000
7.525
0.010
138.389
95.046
7000.000
27763.828
25392.824
41.423
111.683
16.464
1.313
479.210
14197.379
1.978
1.826
78.995
2130.368
994.153
810.069
76.376
474.810
129.074
7.122
113481.625
15624.887
145477.750
30.434
46.410
276.209
271.314
4423.980
6756.305
13.566
2.917
127.417
352.924
0.172
171.269
423.186
10.488
0.304
7.622
0.000
0.032
0.008
786.6250
10.9935 93.084
814.3918 1157.262
65.2353
1.0088
0.0102 251.579
29.8885
7.9724 30.189
1269.9143
6001.7070
2107.7480 3974.945
11.6713
12.8535 22.642
3.1510
0.1761 5.032
110.9156 352.210
1149.7061 1433.999
0.5817 143.400
0.5426 83.021
8.5412 130.821
875.3745 95.600
96.1501 150.947
90.4668
6.5574 7.547
82.4072 90.568
5.6572 2.516
0.5900
5858.5977 1962.314
1497.0630
8337.5273 8478.203
15.0963 226.421
11.5616
55.0079
72.8106
594.5659
734.4097 7069.363
2.9924
0.4362
17.7754 628.947
22.8762
0.0377 402.526
8.0128 37.737
46.0618 133.337
0*9138
0.0337 7.547
1.7992 5.032
0.0002 2.516
0.0186
0.0076
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THALLIUM 0.00185 0.008 0.0047
TIN 0.01996 9.587 2.0653
bASFO QN DiTi FHOM R4 SINGLG SUBCATEG3RY PLANTS INCLUDING 96 RAW HASTE STREAMS
BASFO "M nr TA FROI' ?
-------�
C-UIOELINCi ANALYSIS OF
. 0
FLOW
Pri, ACIDIC
PH, ALKALINE
TURB10ITY
TEMPERATURE
DISSriVHD OXYGEN
RESIDUAL CHLORINE
ACIDITY
ALKALINITY
AMMONI ft
6. ''. 0. 5
CJLDR
SULFIUE
CYANIDE, TOTAL
CYANIDE AMN.TO CHL
KJELDAHL .MlTROGEN
PHENOLS
CONDUCTANCE
TOTftL SOLIDS
TOT. SUSPENDED SDS
SpTTLFAPLF SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHPCMIUM.HEXAVALEN
COPPER
FLUORIDE
IRCN, TOTAL
I y CM, DISSOLVED
LEAP
MAGh ES lU*
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B. 'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITF
TITANIUM
ZIfJC
ARSFNIC
BORON
MERCURY
NICKEL
NITRATE
NITRITF
SELLMUM
SILVe^
STRONTIUM
41
25
9
48
19
23
35
15
19
53
Ib
57
24
25
37
12
18
25
21
28
2ft
60
1
50
21
40
14
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5
t
0
9
5
12
2
6
4
7
0
1
6
9
5
9
7
7
7
8
7
2
0
10
4
I
4
W WASTE
•12 .04
» H #
6
2
1
3
9
4
6
8
6
3
0
4
4
5
3
5
3
3
4
5
7
7
0
6
4
T
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3
0
0
0
1
3
2
4
8
3
0
4
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3
3
3
3
2
2
5
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1
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3
3
0
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1
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6
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4
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3
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3
0
1
1
0
4
AMp
06
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1
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1
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1
2
3
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0
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1
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3
#
2
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0
2
1
4
1
2
2
0
0
1
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1
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1
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4
0
0
0
1
0
1
0
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it
1
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0
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0
1
0
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0
0
3
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*
3
3
0
0
2
I
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1
1
1
0
0
1
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4
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3
4
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7
6
8
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1
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6
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1
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3
DISCHARGE!; T
.2 .4
# * * *
2
0
0
1
1
3
1
2
6
1
0
0
1
5
5
4
2
2
6
4
2
3
0
0
3
0
3
5
5
0
1
6
11
0
1
4
1
0
1
6
5
5
4
7
6
5
2
7
3
0
1
3
0
3
1
3
0
0
4
5
0
3
2
1
0
2
0
3
1
4
6
5
4
2
2
0
0
0
2
0
1
0
3
0
1
2
1
0
1
5
1
0
0
2
3
0
3
2
1
1
3
2
0
0
1
1
0
2
0 AMY
. 6
» #
0
2
0
0
1
0
1
1
2
1
0
1
1
1
0
2
4
3
2
2
1
0
0
1
0
0
3
0
3
0
1
2
0
0
1
1
1
0
1
1
0
0
1
0
1
1
1
1
0
0
0
0
0
1
WHERE
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0
0
0
0
0
0
0
1
2
1
0
0
0
1
1
1
3
0
2
1
1
0
0
1
1
0
1
0
1
0
0
0
1
0
1
2
0
0
0
0
1
1
0
1
2
0
1
0
0
0
2
0
0
1
FOP
LIMIT
H #
0
4
0
0
0
2
0
1
0
1
0
0
0
2
0
1
1
1
2
0
0
0
0
0
1
0
0
3
12
0
2
14
5
8
12
5
5
0
2
6
5
10
12
9
14
19
4
5
2
0
5
10
0
14
2ND SUBCAT,
MAX
MINIMUM
20.00000
2.10000
7.00000
0.38000
2.00000
0.01824
0.01844
0.01581
0.13642
0.00053
0.00922
3.00000
0.00012
0.00349
0.00349
0.00061
0.00002
50.00000
1.29549
0.07838
0.00162
0.00016
0.00013
0.00002
0.01204
0.01138
0.00002
0.00051
0.00003
0.00100
0.00021
0.00001
0.00012
0.00436
0.00000
0.00000
0.01164
0.10135
0.05433
0.00133
0.00163
0.00312
0.00666
0.10575
0.04634
0.00101
0.00005
0.00025
0.00132
0.00047
0.00133
0.00010
0.00017
0.00017
0.00132
0.00002
0.00008
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HP1/M2
MAXIMUM MEAN LIMIT
5000000.00 297691.562
7.000 4.7833
12.300 9.2170
3800.000 339.8369
65.000 22.6852
431.428 14.6380
1.657 0.4987
455708.937 13927.6211
32651.254
174.334
Hll. 020
5000.000
4.903
0.921
0.425
972.434
35.474
30000.000
71921.000
22944.125
24.513
95.601
8.998
52.373
822.165
3872.214
525.366
0.055
294.146
4183.828
367.694
42.779
31.935
1074.598
4.461
1.907
21091.070
5785.055
14452.273
198.506
63.011
1000.169
1117.791
35004.496
4096.848
260.066
7.598
393.129
0.041
53.929
0.001
34.866
6546.238
2.968
0.041
0.098
48.762
1200.1714
4.3712
95.1314
216.3754
0.3151
0.1012
0.0758
17.0565
0.6905
2586.9045
2772.1812
608.2417
1.5773
2.1610
0.5565
1.3701
47.0492
146.9153
8.9169
0.0084
4.8850
54.6975
8.2488
2.7047
0.7632
32.5412
0.2081
0.0698
522.1130
323.4976
1228.3474
8.3929
3.8925
34.3609
30.2228
860.2908
198.8402
8.0611
0.2609
8.6760
0.0116
2.0588
0.0013
1.7646
121.0342
0.1788
0.0159
0.0060
1.3662
12.156
151.130
32.854
3.943
519.099
2.957
0.657
45.996
187.270
18.727
10.842
17.064
12.485
19.713
0.986
11.828
0.329
256.264
1107.193
29.569
923.208
82.136
52.567
4.928
17.413
0.986
0.657
H
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CHLf'IN'.'.TrC HYf err. 0.00136 0.018 0.0096
4NTIW NY 0.00606 0.006 0.0061
COBALT 0.00132 0.041 0.0157
THALLIUM 0.00004 0.209 0.0168
TIM 0.00330 0.260 0.0573
FKS50 GM DATA FRCIf 84 SINGLE SUBCflT£GOi>Y PLiMTS INCLUDING 96 RAW WASTE STREAMS
BASED ON "VTA FROM 245 S I N'US'IUL TPL SUHCATFCOSY PLANTS INCLUDING 240 PAW WASTE STREAMS
g
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r.UIDCLIM.Ti ANALYSIS '* «
FLOV.
PH, Am 1C
PH, ALKALINE
TU°^IUITY
TcMPr" AT|j: c
DISSOLVED OXYGEN
??SIDUAL CHLORINE
AC IDITY
ALKALINITY
AMMDNT A
a. c. n. 5
COLC'P
SULFIOE
CYANIDE, TTTAL
CYANIOE A«N.TO CHL
KJELOAHL NITROGEN
PHFNCLS
CONDUCTANCF
TOTAL SOLIDS
TOT. SUSPENDED SDS
SETTLEABLS SOLIDS
ALUMINUM,
BARIUM
CADMIUM
CALCIUM
CHLPRIDt
CHROMIUM, TOTAL
CHFCMIUM.MEXAVALEN
CGPPCR
FLUORIDE
IRCMtT^TAL
I RON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C . c>. D.
TOTAL PHOSPHATES
P.C.fl.'S
POTASSIUM
SILICA
SQDIU^
SULFATEj
SULFITF
TITANIUM
7. INC
ACSTNIC
HORCN
"IFPCU^Y
niCKEl
.\ITI-'AT =
MIThlTE
ScLrNl UM
S ILV-^
STFPNTT'jv
25
17
4
28
15
13
5
11
16
7
6
28
5
18
18
7
11
19
17
17
18
28
2
29
15
24
10
4
3
0
4
3
5
0
2
2
1
2
2
0
4
5
1
2
3
4
9
6
5
0
4
0
2
4
V, WASTE
02 .04
HUH
1
0
0
3
2
2
0
1
2
0
0
4
0
4
6
3
2
1
3
4
2
2
^
2
1
0
2
2
1
0
2
3
4
1
1
4
0
0
1
0
4
2
1
7
0
1
4
4
2
0
3
0
0
0
3
2
0
0
5
3
2
1
2
0
0
2
2
3
1
0
2
1
0
0
4
1
0
0
2
0
3
SAMPLE
.06 .
# # *
0
0
0
0
2
1
0
2
4
0
0
1
0
1
1
1
1
1
1
0
2
0
0
0
1
0
0
2
1
0
3
1
0
0
0
1
0
0
1
0
0
1
0
2
0
1
0
0
0
0
I
0
D
2
0
0
0
0
0
0
0
3
1
0
0
1
0
0
0
2
2
0
0
1
0
1
0
0
2
0
0
STREAMS,
03 .1
0
0
0
0
0
0
0
0
0
0
0
0
0
2
1
0
2
2
0
0
0
0
0
c
0
0
I
0
0
0
0
0
0
0
1
1
0
0
0
c
0
1
4
0
0
1
1
0
1
0
0
1
0
1
2
4
0
0
1
7
0
2
3
0
0
0
C
2
2
5
4
0
1
1
1
3
.,
0
2
3
0
1
PISCHA°GEO T0 ANY
.2 .4 .6
1
2
0
1
0
5
0
2
0
0
0
0
0
3
1
0
4
2
1
2
1
1
0
0
1
0
0
1
2
0
2
1
4
0
1
2
0
0
1
0
I
I
3
I
3
2
2
3
0
0
2
0
0
2
0
1
0
0
2
0
0
1
0
0
0
2
0
2
3
I
1
0
I
2
3
1
0
0
1
0
3
1
3
0
0
2
0
0
0
0
0
0
0
0
0
1
0
0
2
3
0
0
0
0
0
1
0
1
0
0
0
0
0
0
0
2
0
0
0
0
0
0
0
0
0
2
1
0
2
1
3
1
0
n
l
0
4
0
0
3
1
0
0
1
0
0
0
0
0
0
1
1
0
1
0
1
0
0
0
0
0
1
WHS
n
0
1
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
0
1
0
0
0
0
0
1
0
0
RE
.8
#
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
2
2
FOR 3RD SUBCAT,
LIMIT MAX
* # MINIMUM
4000.00000
1.50000
7.00000
2.20000
12.00000
0.00482
0.02806
0.14264
0
0
0
0
0
0
0
2
0
0
0
1
0
1
0
0
0
1
0
0
0
0
0
1
0
0
0
2
6
0
1
6
3
0
4
6
0
0
1
0
3
5
7
6
6
5
0
1
1
0
4
3
0
5
0.06931
0.00012
0.00542
1.00000
0.00009
0.00151
0.00075
0.00116
0.00000
3.20000
0.22270
0.00458
0.00054
0.00103
0.00024
0.00001
0.03144
0.03146
0.00000
0.00000
0.00001
0.00056
0.00012
0.00012
0.00002
0.01151
0.00009
0.00000
0.04990
0.13802
0.03707
0.00155
0.02604
0.00206
0.00530
0.02296
0.06347
0.02806
0.00051
0.00005
0.01612
0.00010
0.01811
0.00001
0.00193
0.00001
0.01612
0.00008
0.00028
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HRI/M2
MAXIMUM MEAN LIMIT
2520000.00 409488.375
7.000 4.7182
12.000 8.7724
3800.000 472.3999
65.000 24.1170
37.966 4.1717
1.087 0.5837
41210416.0 2060563.00
31921.805
534.690
1838.207
5000.000
29.489
0.244
0.244
4718.187
13.270
240000.000
7992905.00
262006.875
21.204
9650.164
10.858
0.059
224.075
104389.875
0.389
0.272
45.018
1.086
88466.000
246.230
113.055
10719.129
128.276
3.686
34462.930
1347632.00
890557.750
21.019
480.650
2653.980
2270.627
12783.340
174867.812
25802.570
2.949
1186.846
0.016
13.845
0.018
58.410
83.000
4.423
0.016
1.588
294.887
1262.3247
15.0089
145.8379
224.7097
1.4387
0.0680
0.0677
160.5037
0.4760
6722.3125
224457.437
6247.5547
2.5080
226.0658
0.7814
0.0191
28.7737
2497.8193
0.0939
0.0648
3.2027
0.3539
1811.8328
12.4798
4.1228
309.4001
3.0360
0.1950
1534.0740
39507.3984
21876.1328
2.7650
27.9134
83.5111
91.7536
633.1953
3796.8164
870.7024
0.2393
31.2310
0.0161
0.9647
0.0181
2.9573
8.5039
0.3199
0.0161
0.1136
8.6539
21.983
273.306
59.414
7.130
938.746
5.347
1.188
83.180
338.662
33.866
19.607
30.895
22.577
35.649
1.782
21.389
0.594
463.432
2002.263
53.473
1669.542
148.536
95.063
8.912
31.490
1.782
1.188
HI
H
O
G
§
*»
0
0
Hj
H
t4
O
-------�
CHlrRIN/Uf.r HYI »',C 0.06182 0.103 0.0824
COBALT 0.00098 0.016 0.0086
THALLIUM 0.00098 0.019 0.0066
TIN 0.00245 0.905 0.1121
HASED PN DATA F»?M 34 SINdL? SUBCATEGOFY PLANTS INCLUDING 96 RAW HASTE STREAMS
BiSED ON DATA F^OM 245 STNC.L6"ULTPL SU8CATEGORY PLANTS INCLUDING 240 PAW WASTE STREAMS
O
1
n
o
z
G
n
a
-------�
GUIDELINES ANALYSIS OF C.AW WASTE
.0 .02 .04
« » » 0 «
PLJW
PH, ACIDIC
PH, ALKALINE
TURBIOITY
TEMPERATURE
niSSilLVFO CXYGEN
"ESI DUAL CHLORINE
ACIDITY
ALKALINITY
AMMONIA
B. 0. D. 5
COLOR
SULFIOE
CYANIOF .TOTAL
CYANIPC AMN.TP CHL
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SDS
SETTLEABLE SOLIDS
ALUMINUM
RAP IUM
CADCIUM
CALCIUM
CHLO°IDF
CHRCMIUM, TOTAL
CH«CMIUw,HEXAVALEN
COPPER
cLUC'°inF
I"0'i,T3TAL
ITA.'iISSQLVFO
LEAC
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GRFASF.
HARDNESS
C. 0. 0.
TOTAL PHOSPHATES
P.C.P.'S
POTASSIUM
SILICA
SODIUM
SULFATF.
SULFITF
TITANIUM
ZINC
ARSENIC
B0» ON
MERCURY
NICKFL
MI TRATP
NITP ITS
SCLEMUU
SILVER
STRONTIUM
23
11
24
29
11
9
3
6
q
3
3
2
0
1"
15
2
5
12
11
1
8
3
1
29
8
2
6
ft
2
3
3
8
9
0
3
2
0
0
0
0
4
9
3
12
6
5
0
9
0
0
3
4
0
A
2
2
0
3
2
A
0
3
3
0
0
1
0
5
3
2
4
1
1
0
4
0
0
2
3
0
2
2
4
1
2
1
1
0
1
2
0
0
0
0
4
2
2
3
4
3
0
5
0
0
5
2
0
1
1
1
1
1
1
6
0
3
2
0
0
0
0
1
3
4
3
0
1
0
2
0
0
1
2
0
7
SAMPLE
.06
« # #
1
1
0
1
1
2
0
1
1
0
0
0
0
2
1
0
0
0
1
0
3
0
0
1
0
0
0
1
2
1
0
1
1
0
0
1
0
0
0
0
0
1
2
0
5
2
0
2
0
0
0
0
0
0
1
1
0
2
0
0
0
4
2
0
0
0
0
1
2
0
0
3
0
0
2
0
0
0
1
0
1
STREAMS,
08 .1
# H «
0
3
0
1
2
0
0
1
2
0
0
0
0
0
0
2
0
0
2
0
2
0
0
0
2
0
0
0
1
0
1
3
1
0
0
0
0
0
0
0
1
1
1
0
1
0
0
1
0
0
I
\
0
;>
2
2
0
1
2
3
0
1
5
0
0
0
1
2
1
3
A
1
6
0
2
0
0
0
1
0
0
DISCHARGED TO ANY
-7. .4 .6
#««##«
1
3
0
0
1
3
0
5
1
0
0
0
0
2
2
3
2
1
1
0
2
0
0
2
1
0
3
1
2
0
I
4
1
0
4
5
0
0
0
0
1
0
1
6
2
4
0
1
0
0
0
4
0
3
1
3
2
0
2
1
0
2
1
0
0
0
0
2
3
4
0
0
3
0
1
0
0
0
0
0
3
0
1
0
1
3
1
0
0
0
0
0
0
0
0
0
2
3
2
1
0
2
0
0
1
1
0
4
0
1
0
0
0
1
0
0
0
0
0
0
0
3
1
1
0
1
0
0
1
0
0
0
0
0
3
0
I
0
0
0
0
0
2
3
0
0
0
0
0
0
1
1
0
1
0
1
0
0
0
2
0
1
WHERE
.8
* #
1
1
0
0
0
1
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
2
0
2
0
0
0
0
0
0
0
1
1
0
1
0
0
0
0
1
0
0
0
LI
«
0
I
1
0
0
0
0
1
0
0
0
0
0
0
0
1
3
1
1
0
1
0
0
0
I
0
1
FOR
MIT
9
4
7
5
0
4
2
0
5
7
0
0
0
0
4
6
9
3
7
5
0
1
0
0
4
6
0
7
4TH SUBCAT,
MAX
MINIMUM
7200.00000
2.10000
7.00000
1.50000
13.00000
0. 13631
4.21312
1.33307
1.77554
0.00202
0.33968
I. 00000
0.00223
0.00408
0.02050
0.01814
0.00045
230.00000
21.75667
0.33968
0.00682
0.01697
0.00633
0.00398
0.37498
0.16968
0.00928
0.00663
0.17097
6.51863
0.02847
0.00806
0.00073
0.11927
0.00230
0.00045
0.1427t
4.24213
1.32532
1.22224
0.03030
0.17821
0.27659
5.42380
0.95219
0.04461
0.00081
0.24445
0.00040
0.00341
0.01325
0.00093
0.04435
0.00214
0.00040
0.00398
0.00341
ALL SIGNIF CONCENTPTNS 08/25/75
(MG/HRI/M2
MAXIMUM MEAN LIMIT
5000000.00 511219.625
7.000 4.3475
12.000 9.0031
3800.000 349.1479
07.000 23.8255
96.318 16.0275
28.294 13.4884
1467427.00 78177.1250
177231.062
3108.092
91714.187
5000.000
12.834
8145.746
0.020
6827.609
8.021
32800.000
1192794.00
322018.687
6114.277
2241.902
101.905
0.024
194128.312
193211.125
0.017
0.010
1.939
6.519
4706.094
891.728
2412.419
11056.648
61.143
3910.082
79485.625
19641.070
440737.562
1.222
646.728
62565.914
5502.848
471767.437
2019749.00
113623.625
15.286
2.325
0.170
6776.656
0.013
125.484
147201.125
86.619
0.170
0.006
128.632
6458.5117
83.4765
2320.1287
196.7561
1.5032
253.9511
0.0205
179.7065
0.5940
2689.7798
30367.7266
7429.7695
330.0928
49.3783
5.7557
0.0108
4474.9922
4803.8359
0.0122
0.0078
0.8011
6.5186
187.2911
34.2511
51.1375
304.6653
1.8771
89.6308
3100.0344
1524.9912
11263.1641
1.2222
57.3702
1581.5042
191.5238
14367.6484
40853.1992
3124.6790
0.9274
1.5950
0.0626
156.0193
0.0133
7.4075
3855.7563
3.3385
0.0514
0.0050
5.9301
55.
695.
151.
18.
2387.
13.
3.
211.
861.
86.
49.
78.
57.
90.
4.
54.
1.
1178.
5092.
135.
4246.
377.
241.
22.
80.
4.
3.
908
076
104
132
*3<> «,
H
599 g
§
022
545 *
290 ft
129 0
864 §
574 g
419 C
662 3
"^
533
397
511
607
184
993
008
759
766
666
085
533
022
-------�
COBALT 0.00040 0.170 0.0779
THALLIUM 0.00048 0.072 0.0276
TIN 0.00101 0.424 0.1423
EASED ON DATA FROM 84 SINGLE Sl'RCATEGOPY PLANTS INCLUDING 96 PAW HASTF STREAMS
8AS5D ON D'.TA FROM 245 SINGL E^Ul TPL SUBCATFHC-Y PLANTS INCLUDING ?40 P Aw WASTE STREAMS
-j
NJ
O
e
o
1
ra
o
-------�
GIJtrELIM.ES ANALYSIS nr
.0
u
FLOW
PH, ACIDIC
PH, ALKALINE
TUOBIOITY
TEMPFPATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITY
ALKALINITY
AMMONIA
B. C. D. 5
COLOR
SULFIDE
CYANIOE, TOTAL
KJELHAHL NITROGEN
PHENCLS
CONCUCTANCE
TOTAL SOLIDS
T3T. SUSPENDED SCS
SF.TTLbABLE SOLIDS
ALUKIMIM
BARIU"
CADMIUM
CALCIUM
CHLORIDE
CHRCM1UM, TOTAL
CHROMIUM, HEXAVALEN
COPPFR
FLUORIDE
IRCN, TOTAL
IRON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
SOPON
HEPCU°v
NICKEL
NITRATE
NITRITE
SILVE1'
STRONTIUM
CHLO°INATFC HYDROC
COBALT
23
10
2
30
11
13
29
9
7
2
3
38
13
11
13
4
7
15
12
14
14
37
16
31
13
27
6
C L1
2
2
0
r,
5
5
7
3
5
1
1
6
5
8
7
3
3
4
2
8
6
B
0
3
3
1
3
02
a
7
1
0
5
3
5
0
3
3
1
0
3
5
3
1
2
5
3
1
4
5
2
0
7
3
1
0
a
2
^
0
^
2
3
1
3
3
0
0
4
3
2
3
2
2
3
1
2
3
2
0
5
0
0
0
F
A
5
1
a
2
3
1
1
1
3
0
0
2
0
2
3
1
1
2
4
2
2
3
0
1
0
1
1
s
a
1
I
0
I
2
C
0
0
1
0
0
0
1
1
0
2
3
4
2
3
2
I
0
1
I
1
3
iMPLc STBC/SV
06 .OH
It » « #
0
3
0
1
1
2
0
0
3
0
0
0
5
5
2
0
1
0
6
4
2
3
0
1
0
3
6
3
2
0
I
1
1
0
0
1
0
0
2
1
2
0
1
1
0
2
1
0
2
0
0
1
0
2
0
0
0
0
I
0
1
1
1
0
0
0
0
2
3
0
2
0
0
1
1
1
0
1
0
0
0
0
1
0
1
0
1
0
0
0
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0
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1
1
1
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DISCHARGED TO ANY
.2 .4 -- .6
n a # # a n
0
4
0
0
4
6
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3
5
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1
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4
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2
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2
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2
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1
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1
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0
0
0
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1
0
0
0
1
0
0
0
1
0
0
0
0
3
0
1
0
0
1
0
1
0
0
0
1
0
2
0
2
0
0
2
0
1
1
1
0
0
0
1
0
0
2
0
0
2
0
1
0
0
0
1
0
0
FOR
LIMIT
0
0
0
1
1
1
0
1
0
0
0
1
0
0
0
1
1
0
0
2
1
0
0
1
0
0
1
5
15
0
1
11
7
2
14
8
0
0
1
9
6
6
18
12
13
12
5
5
0
0
4
11
0
15
5TH SUBCAT,
MAX
MINIMUM
6700.00000
1.80000
7.00000
2.20000
2.00000
0.01177
0.06306
0.08510
0.08111
0.00064
0.03607
2.00000
0.00010
0.00144
0.00201
0.00002
130.00000
1.52765
0.05315
0.00286
0.00015
0.00039
0.00001
0.01223
0.00151
0.00015
0.00015
0.00004
0.00169
0.00065
0.00017
0.00020
0.00705
0.00002
0.00001
0.00652
0.26910
0.12634
0.00103
0.00721
0.03383
0.01263
0.41601
0.15919
0.00168
0.00004
0.00003
0.00272
0.00026
0.00025
0.00026
0.00050
0.00022
0.00001
0.00013
0.00301
0.00059
ALL SIGNIF CQNCENTRTNS 08/25/75
(MG/HR)/M2
MAXIMUM MEAN LIMIT
5000000.00 463416.625
7.000 4.5194
11.500 8.6900
3800.000 378.9556
63.000 22.9065
152.854 12.9858
13.611 2.6020
2399.203 209.7430
140625.250
68.306
1876.154
850.000
42.799
0.006
71.534
2.885
17000.000
138427.125
11096.672
15.635
556.839
6.114
31.180
250.448
2572.711
0.309
0.083
17.888
551.965
72.063
54.963
37.836
200.238
1.579
2.137
20168.855
1306.687
15634.621
101.698
231.393
2011.553
966.034
38060.527
4634.961
30.571
9.666
5.991
0.003
10.345
0.122
88.892
1379.656
1.225
0.214
61.141
0.010
0.001
3723.2129
2.6814
157.2163
104.5435
1.1913
0.0036
5.5418
0.2674
1844.6934
3799.6477
474.3123
2.3447
10.1600
0.6732
0.7918
30.6765
91.9109
0.1368
0.0357
0.6906
12.4051
4.7531
3.6841
1.1511
17.2106
0.1505
0.0777
643.3647
195.3015
1187.8574
8.4980
15.9342
53.33*5
36.3894
962.6079
251.9451
2.6200
0.3209
1.1046
0.0027
1.0286
0.0248
2.6726
46.7310
0.1848
0.0146
1.5399
0.0063
0.0006
8.211
102.083
22.192
2.663
350.632
1.997
0.444
31.069
126.494
12.649
7.323
11.540
8.433
13.315
0.666
7.989
0.222
173.097
7*7.866
19.973
623.592
55.480
35.507
3.329
11.762
0.666
0.444
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GUIDELINES ANALYSIS HF
.n
a
CLOW
PH, ACIOIC
PH, ALKALINE
TUHBIOITY
TEMPERATURE
DISSOLVED OXYGEN
'CIPITY
ILKfl INI^y
AMKl''"JI A
B. 0. D. S
COL'TR
SULFIPE
CYANIDE, TTTAL
KJELDAHL NITROGEN
nHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SDS
SETTISABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHROMIUM, HEXAVALEN
COPPER
FLUORIDE
IRONtTOTAL
IRON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. 0.
TOTAL PHOSPHATES
P.C.P.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSf^UC
BORON
MERCURY
NICKEL
NIT°ATE
NITRITE
SELENIUM
SILVEH
STRONTIUM
ANTIMONY
f.OHiLT
W
7
7
3
12
4
6
7
0
4
13
21
10
0
9
3
0
4
7
8
4
1
4
1
9
0
10
0
RAW WASTE
.02 .04
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1
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1
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0
2
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3
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1
1
2
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0
0
0
0
1
1
0
Pf
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0
0
2
1
2
0
0
0
0
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0
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1
2
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0
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0
0
0
0
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0
0
0
1
3
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0
0
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0
0
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0
0
0
0
1
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0
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0
0
1
0
1
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0
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0
1
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0
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1
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0
0
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3
0
0
0
0
0
1
2
0
0
0
1
0
2
0
0
0
0
0
0
STREAMS,
08 .1
#JJ 41
0
1
0
0
2
1
0
0
1
1
0
0
0
1
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0
1
0
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.2 .4 .6
I
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2
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0
0
0
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0
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0
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0
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0
0
0
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2
0
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1
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0
1
0
0
0
0
0
0
0
0
1
1
0
0
0
0
1
2
0
0
2
1
0
0
0
0
1
0
1
0
0
0
0
0
2
1
0
0
0
0
0
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1
0
0
0
1
0
0
0
0
0
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FOR
LIMIT
0
0
0
0
0
0
0
1
1
1
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
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2
3
0
0
2
2
0
2
4
5
1
6
0
6
1
3
5
2
2
1
8
2
0
2
5
0
3
6TH SUBCAT,
MAX
y l MI ui lu
w i ni MU"
38.30000
0.90000
7.40000
1.20000
10.00000
79.79967
565.41602
179.65276
0.14974
1.13836
1.00000
1.31849
0.32560
1.02783
0.01924
292.30005
2097.70654
1.08144
9.18022
0.03757
0.52740
0.00085
124.38815
0.57487
0.00911
0.00034
0.23446
5.13294
0.23426
1.81952
0.01315
18.72632
0.00478
0.03422
0.38704
1368.78296
1.36127
0.44396
35.42708
42.55981
69.44777
313.68335
80.08380
8.55489
0.21280
0.11993
2.20695
2.30982
0.84090
0.00455
10.26587
0.05320
2.20699
0.00817
0.94104
0.65925
0.13185
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HRI/M2
MAXIMUM «»-.»i •»»*»•¥•
2932000.00
6.900
7.400
500.000
65.000
623.182
55510416.0
8384.285
2392.537
21297.070
1000.000
85.025
13.849
54775.297
65.225
240000.000
10766439.0
583855.312
555.576
12998.773
20.216
1.022
4700.270
140613.125
5099.914
766.518
9510.707
220.689
119163.687
1106.523
138.485
14438.668
321.307
4.965
29646.754
1815260.00
1199581.00
1339.821
198.392
3574.911
3058.534
62788.832
880013.750
34756.078
225.113
5071.070
2.207
55.558
0.841
6470.953
2736.666
17.714
2.207
0.612
397.212
0.659
1.545
nc An i_ in i i
504683.937
3.6976
7.4000
112.0286
20.8826
288.6655
5089626.00
4292.8242
168.4665 438.314
2706.8499 5449.316
140.1000
22.5547
5.4032 1184.634
5131.5195
8.5026 142.156
14946.1328
958675.250
41987.410218717.219
213.7161
523.6631 106.617
5.5039
0.2895 23.693
1131.7656 1658.488
7629.5430 6752.414
489.2178 675.241
43.9567 390.929
768.0918 616.010
75.3778 450.161
5103.6484 710.780
209.1436
11.3096 35.539
1706.6255 426.468
28.1483 11.846
1.5748
3247.7864 9240.145
215108.875
55049.757839922.164
332.4385 1066.171
116.9094
494.9937
665.4941
10439.1484
117635.500 33288.211
2946.8306
27.3955
1270.7881 2961.585
2.2070
16.3938
0.8409 1895.415
523.1306 177.695
670.2112 627.856
7.4170
2.2070
0.1934 35.539
56.9430 23.693
0.6592
0.6618
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GUICELINES ANALYSIS OF RAW WASTE
.0 .02 .04
# f * » #
FLOW
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITY
ALKALINITY
AMMONI A
B. 0. D. 5
COLOR
SULFIDE
CYANIDE, TTITAL
CYANIDE AMN.TQ CHI
KJELOAHL MITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SDS
SETTLEABLE SCLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHRGMIUW.MEXAVALEN
COPPER
FLUORIDE
IRON, TOTAL
I»ON, DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
c. r. D.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATF
SULFITE
TITANIUM
ZINC
ARSENIC
B "I P ° X
MERCURY
NICKEL
NITRATE
HTTP IT
STLVF 3
STRONTIUM
CHL-."IC ! MATED HYOFOC
22
19
1
37
7
12
30
5
6
37
58
49
14
14
24
5
8
20
15
18
17
40
21
4
10
34
6
6
7
2
3
9
6
7
3
7
7
2
8
7
7
5
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7
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5
12
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10
0
1
4
1
6
4
1
1
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4
13
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4
6
4
4
3
2
7
6
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3
3
0
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4
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6
4
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2
3
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4
4
5
6
2
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1
2
1
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3
6
0
3
4
3
2
2
1
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5
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0
1
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0
0
3
1
4
4
2
3
0
1
4
3
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2
1
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5
2
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3
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3
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2
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0
2
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1
0
0
2
1
0
0
4
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3
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3
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0
0
3
0
2
STREAMS,
08 .1
# * «
3
2
0
1
1
2
0
2
2
1
0
1
2
0
3
2
2
3
2
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2
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3
2
4
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6
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2
2
6
6
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9
8
5
6
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11
3
0
0
5
0
5
DISCHARGED TO ANY
.2 .4 .6
fl # H it # #
1
7
0
2
7
4
1
7
5
3
3
0
a
2
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6
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3
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MINIMUM
20.00000
1.50000
7.00000
0.30000
9.00000
0.02863
0.33955
0.05726
0.03455
0.00035
0.02865
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0.00004
0.03395
1.71929
0.00104
0.00001
50.00000
1.48445
0.04167
0.00130
0.00213
0.00037
0.00008
0.03390
0.06164
0.00018
0.00001
0.00002
0.00554
0.00065
0.00043
0.00009
0.00682
0.00014
0.00001
0.00278
0.11633
0.05382
0.00044
0.00228
0.01441
0.00538
0.27041
0.35318
0.00087
0.00003
0.00031
0.02971
0.00011
0.00081
0.04548
0.01961
0.00010
0.00002
0.00010
0.05527
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HRI/M2
MAXIMUM MEAN LIMIT
5000000.00 512159.062
7.000 4.5908
11.300 8.8953
3800.000 395.5994
63.000 23.2687
2229.829 69.7383
12.103 3.3338
27514.273 921.9856
187500.312
3081.361
15121.176
6000.000
99.002
13.750
3.922
3181.524
148.523
17000.000
36205.152
44019.758
140.673
128.159
19.369
41.573
3639.907
7597.582
1782.503
173.156
347.687
916.725
1166.813
1016.194
50.927
1290.981
99.181
73.314
58361.051
32698.078
111786.000
3943.239
483.129
2682.070
1412.225
50747.367
71333.250
2149.698
105.771
282.951
0.030
271.189
0.922
8.708
2760.025
8.059
1.698
81.522
482.523
7139.3789
85.4731 52.685
927.3428 654.997
209.1791
6.4628
4.2306 142.391
2.8207
112.1111
3.4038 17.087
1883.6309
4900.9141
1911.5161 2249.774
24.4965
8.5134 12.815
2.4306
2.2177 2.848
181.6287 199.347
425.3640 811.627
72.3013 81.163
4.3314 46.989
7.6609 74.043
36.2646 54.108
60.8808 85.434
48.6083
3.1294 4.272
91.4179 51.261
2.2800 1.424
1.2622
1282.5845 1110.648
2222.3132
5558.0469 4798.562
107.1344 128.152
45.8396
137.6049
98.7148
2446.3032
2472.1211 4001.180
85.1855
2.8249
16.9975 355.977
0.0297
14.9929
0.1277 227.825
1.4684 21.359
109.5016 75.467
0.7509
0.0648 4.272
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80.00000
0.39000
7.80000
14.00000
11.00000
1273.24561
0.19404
11.30574
1.17446
0.01441
0.08808
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0.00153
0.00504
0.04583
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0.33612
6.79023
0.00306
0.00703
0.00084
0.16164
4.45966
0.00061
0.00008
0.02765
0.00947
0.20553
0.07634
0.01465
0.09167
0.01833
0.00101
4.93272
290.29077
9.66359
0.06722
24.88206
0.09503
0.04889
2.70268
11.05212
0.00764
0.00214
0.21389
0.01833
0.00145
0.00328
0.15584
0.00061
0.00005
0.01619
0.00087
0.00122
0.00015
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HR)/M2
MAXIMUM MEAN LIMIT
600000.000 159205.687
5.900 2.6567
11.300 9.1250
1200.000 258.5999
63.000 24.1000
1273.246 1273.2456
509.298 182.7222
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0.6372
0.4346 218.773
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0.0744 26.253
43323.1797
35485.7187
5634.6602 3456.618
173.4015
39.6245 19.690
165.4091
1.7633 4.375
239.3165 306.282
4434.2930 1247.008
5.1696 124.701
0.3732 72.195
75.5558 113.762
3.7575 83.134
381.2925 131.264
127.4218
89.2967 6.563
237.9845 78.758
2.3093 2.188
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8.7725 196.896
25.1735
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101.9629 546.933
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246.5367 32.816
207.0214 115.950
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0
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240
PAW
9TH SUBCAT,
MAX
MINI MUM
7.10000
25.00000
0.90558
2.32864
31.56604
0.00530
0.28461
0.01294
0.01294
0.02212
0.01294
320.00000
46.53404
0.59510
0.00414
0.04903
0.00026
10.02093
2.27690
0.00091
0.00065
0.00207
0.00453
0.00259
3.83450
0.00349
0.41398
25.87379
3.10486
0.90558
0.44361
2.32864
3.75170
6.79188
0.12937
0.00259
0.03066
0.00026
20.38855
0.00608
0.05045
0.00052
0.00194
0.00440
STREAMS
WASTE STREAMS
ALL SIGNIF CONCENTRTNS
(MG/HRI/M2
MAXIMUM
7.100
25.000
0.906
2.329
31.566
0.005
0.285
0.013
0.013
0.022
0.013
320.000
46.534
0.595
0.004
0.049
0.000
10.021
2.277
0.001
0.001
0.002
0.005
0.003
3.834
0.003
0.414
25.874
3.105
0.906
0.444
2.329
3.752
6.792
0.129
0.003
0.031
0.000
20.389
0.006
0.050
0.001
0.002
0.004
TNS 08/25/75
MEAN LIMIT
7.1000
25.0000
0.9056
2.3286
31
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At KALI N I TV
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TOT. SUSPENDED
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ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
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COPPER
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MAGNESIUM
MANGANESE
MPLYRDENUM
OIL, GREASE
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TOTAL PHOSPHATE
P.C.B.'S
POTASSIUM
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WASTE
10THSUBCAT, ALL SIGNIF CONCENTRTNS 08/25/75
MAX (MG/HPI/M2
MINIMUM MAXIMUM MEAN LIMIT
21.25000 247800.000 95172.9375
2.40000 6.800 5.8750
7.40000 9.400 8.3100
10.00000 440.000 95.0000
24.00000 29.000 27.2000
3.23897 7.011 4.9346
0.05998 0.060 0.0600
0.59981 40.787 12.7290
42.58652
0.11866
0.29991
5.00000
0.05998
0.00600
0.29563
0.00798
0.21000
364.68457
11.25932
0.17994
0.07198
0.01799
0.00169
17.71249
26.52228
0.00300
0.00300
0.00780
0.11996
0.33204
0.32930
0.00720
4.40067
0.01500
0.00600
0.66607
57.58179
395.69458
0.83973
0.17994
2.25529
2.87909
28.79088
12.94821
0.29991
0.01799
0.10136
0.00199
0.02999
0.00120
0.00420
1.49953
0.05398
0.00180
0.02999
0.03390
STREAMS
3828.590
65.979
3040.016
1200.000
0.420
2.939
139.756
71.977
5200.000
1946.385
934.523
8.397
20.421
1.200
9.735
1135.441
101.848
0.681
0.028
2.466
2.094
7.654
2.499
1.588
10.209
0.442
0.031
1341.776
753.362
4324.652
6.756
74.316
206.995
17.155
450.456
5832.324
10.797
0.240
5.247
0.002
0.696
0.107
0.045
51.404
4.798
0.150
0.732
0.563
393.4370
10.0875
442.5334
145.4167
0.1320
0.7470
31.6596
11.7822
936.7336
980.0940
192.2484
3.8990
1.6932
0.4805
0.8837
151.1791
58.2545
0.1490
0.0118
0.3813
0.4051
2.1773
1.21.83
0.3555
6.0334
0.1574
0.0083
260.2734
180.5715
1105.2866
2.6599
16.8898
36.7694
9.7878
122.8469
483.7158
1.8152
0.0367
1.1777
0.0020
0.2631
0.0175
0.0219
14.1684
0.8081
0.0314
0.2859
0.1938
75.583
939.684
204.279
24.514
3227.612
18.385
4.086
265.991
1164.392
116.439
67.412
106.225
77.626
122.568
6.128
73.541
2.043
1593.378
6884.207
183.851
5740.246
510.698
326.847
30.642
108.268
6.128
4.086
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BASF.;) DN DATA FPO« 245 S IMC.LC MJLTPL SURCATEGOPY PLANTS INCLUDING 240 RAW WASTE STREAMS
Cs
a
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GUIDELINES AM/ LYSI •
FLOW
Pll, ACIDIC
PH, ALKALINF
TIJ9RIPITY
DISSf.LV^D OXYf.EN
TSIDUAL CHLT1 I NE
ACIDITY
AMMONIA
B. P. 0. 5
COLOR
SULFIOE
CYANIDE. T.1TAL
CYANIDE AMN.Tf CHL
KJELDAHL NITSI HEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENOcl SOS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CMLC^IDE
CHFC»IUM.TCTM
CHPOWpJM.HcXAVALEN
CQP"E°
FLUOPIDE
IRCN.TOTAL
IRON.OlSSILVFt
LFAO
MAGNES IUM
MANGANESE
KOLY?DENUM
OIL, GREASE
HARDNESS
C. 0. P.
TOTAL PHOSPHA" ES
P.C.B. 'S
PCTASb \(Jf
SILICA
SDDIUM
SJLF'TE
SULFITE
TITANIUM
ZINC
B03CN
MECCUC Y
NICKEL
NITT (Ue
NIT,, HE
SELENIUM
SILVE?
STRONTIUM
TOT. VOLATILE ' OLID
ANTIMONY
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DISCHARGED TO ANY
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ft H It H H H
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0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
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FOR
LIMIT
# *
0
0
0
0
0
1
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
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1
12THSUBCAT,
MAX
MINIMUM
80.00000
0.50000
7.60000
10.00000
13.00000
3.84485
6.06445
2306.90869
0.03518
0.42213
5.00000
0.02563
0.00173
0.00173
0.32786
0.00116
212.00000
2757.80957
1.97247
0.14068
0.07036
0.00345
8.93518
9.14415
0.01970
0.00123
0.03517
0.12328
2.41827
4.79826
0.17111
8.54838
0.02110
0.00641
3.04976
212.74825
1.51611
0.28136
9.61212
4.74198
4.85156
51.26462
140.67917
1.40711
0.02814
0.10253
0.36585
0.00099
0.00422
5.25463
0.00606
0.01407
0.00074
0.11679
0.21107
0.02712
0.00965
ALL SIGNIF CONCENTRTNS 08/25/75
IMG/HRI/M2
MAXIMUM MEAN LIMIT
6134000.00 896113.375
4.900 1.9929
7.600 7.6000
45.000 25.0000
74.000 23.1500
11.190 7.5174
6.064 6.0645
33122.273 12237.1328
28.982
167.849
20.000
1.119
0.141
0.018
23.835
1.025
79300.000
41313.324
143.231
16.071
0.336
0.123
895.196
5273.031
0.492
0.14S
3.838
18.288
206.231
201.195
106.305
419.623
1.759
0.112
71.770
2126.092
1140.610
6.714
42.213
38.717
111.900
681.133
27907.754
5.595
0.336
2.462
4.476
0.018
0.850
77.211
0.037
0.014
0.022
4.476
0.211
2.373
0.010
4.3775 72.823
35.3063 905.372
11.7500
0.3971
0.0474 196.820
0.0100
9.5744
0.2087 23.618
26771.0000
13595.4258
49.8295 3109.757
3.4733 17.714
0.1397
0.0478 3.936
259.5662 275.548
1026.2646 1121.874
0.1303 112.187
0.0229 64.951
0.6596 102.346
3.1485 74.792
46.4658 118.092
65.5408
12.5167 5.905
179.5023 70.855
0.3937 1.968
0.0442
30.5147 1535.197
835.5039
219.0761 6632.836
2.0502 177.138
25.9128
17.4107
32.7082
305.9219
8311.8437 5530.641
2.8394
0.1819
1.0459 492.050
1.6327
0.0096 314.912
0.1637 29.523
25.7000 104.315
0.0216
0.0141
0.0074 5.905
1.4994 3.936
0.2111
1.0116
0.0098
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THALLIUM 0.002*7 0.116 0.05*0
TIN 0.01159 0.299 0.1139
B4SF.D ON DATA FROM 8* SINGLE SUBCATEGDRY PLANTS INCLUDING 96 RAW WASTE STREAMS
BASED ON DATA FROM 2*5 SINGLdMULTPL SUBCAT^GOPY PLANTS INCLUDING 240 RAW WASTE STREAMS
8
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PI. RAN FTr.c
PH, ACIDIC
PH, ALKALUJE
TIT'BIC ITY
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S INF
ACIQITY
ALKALINITY
R. 0. 5. 5
CO>.C';
SJLFI'-E
CYANICt.T.l! AL
KJELD^HL N:TROGFN
CCNPUC TANCT
TTTAL SOLIDS
TOT. 5USPFNOFD SDS .
S^TTLEABLF SOLIDS
CADMI11
CALCHM
CHLO'IDE
CHROMIUM, TOTAL
CHROMIUM, H'iXAVALENT
FLUOP10E
I".nN,l OTAL
I»?JN,! ISS01.VED
LEAD
M4GNF! IUM
MANGA' ESE
MOLYB1 ENUM
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HAP.DN! SS
C. 0. 0.
T1TAL PHOSPHATES
e.C.B, 'S
P3TAS! IUM
SILK/
SODIU'
SJLFA" E
SULFT E-
T'TAN' U1
ZINC
B'IRON
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NICKEI
NITRA' E
Ml TFT f
TABLE 5- 2
CHARACTERISTICS OF RAW WASTE
SUBCATEGO"Y 1
CONCENTRATION
STREAMS
R£»YL!
MINIMUM
1G/L
2.200
7.200
•?5.ooo
10.000
l.COO
1.000
7.980
4.000
0.014
0.300
1.000
0.010
0.007
0.063
0.002
50.000
155.000
6.000
0.200
0.100
0.060
0.002
3.740
10.900
0.005
0.005
0.014
0.500
0.200
0.100
0.010
1.430
0.010
0.005
1.748
54.000
16.700
0.200
0.200
1.600
3.100
8.000
14.400
0.500
0.020
0.020
0.100
0.002
0.004
0.200
0.003
0.002
0.060
0.003
w, ixIMUM
N'G/L
6.800
10.000
1200.000
63.000
12.000
1.000
656.600
2695.000
44.650
4800.000
330.000
3.960
0.007
26.990
65.000
7000.000
28770.000
28390.000
40.000
40.910
5.500
0.443
2000.000
2720.000
0.049
C.020
104.300
14.000
95.000
75.290
5.630
200.000
7.790
0.525
13510.000
20630.000
4COOO.OOO
5.100
50.400
71.860
32.300
1677.000
2343.000
2.000
0.500
146.400
21.300
0.005
51.300
120.000
C.633
0.210
6.920
0.003
PRODUCTION ORIENTED
MEAN
MG/L
4.456
8.222
576.400
23.226
5.8R5
1.000
151.838
476.671
3.132
378.458
65.235
0.539
0.007
5.988
4.877
1269.914
3625.362
1487.108
11.511
3.703
0.796
0.044
169.000
146.036
0.025
0.011
9.732
6.025
13.759
11.658
0.610
21.393
0.738
0.071
1046.784
1746.737
2425.770
2.100
7.630
15.155
12.182
242.373
338.769
1.167
0.091
10.848
2.010
0.003
4.573
13.141
0.133
0.019
0.966
0.003'
MINIMUM
MG/HR-M2
2.20000
7.20000
25.00000
10.00000
0.31431
2.72997
12.28869
0.24701
0.00309
0.01853
1.00000
0.00618
0.01024
0.05249
0.00138
90.00000
235.27893
0.67927
1.20316
0.00618
0.01173
0.00014
3.12043
15.93852
0.00344
0.00344
0.02301
0.73113
0.04323
0.01606
0.00308
0.48784
0.00660
0.00017
0.11874
68.10060
0.58322
0.13764
0.00698
0.21583
0.19143
9.27216
39.31161
0.06985
0.00419
0.05460
0.00524
0.00031
0.00619
0.06366
0.00454
0.00014
0.05093
0.00018
MAXIMUM
MG/HR-M2
6.800
10.000
1200.000
63.000
162.792
2.730
2577.541
3166.734
69.998
9130.148
330.000
7.525
0.010
188.889
95.046
7000.000
27763.828
25392.824
41.423
111.683
16.464
1.313
479.210
14197.379
1.978
1.826
78.995
2130.368
994.153
810.069
76.376
474.810
129.074
7.122
113481.625
15624.887
145477.750
30.434
46.410
276.209
271.314
4423.980
6756.305
13.566
2.917
127.417
352.924
0.172
171.269
423.186
10.488
0.304
7.622
0.000
LEVELS
MEAN
MG/HR-M2
4.4562
8.2219
576.3999
23.2259
39.6696
2.7300
474.6792
786.6250
10.9935
814.3918
65.2353
1.0088
0.0102
29.8885
7.9724
1269.9143
6001.7070
2107.7480
11.6713
12.8535
3.1510
0.1761
110.9156
1149.7061
0.5817
0.5426
8.5412
875.3745
96.1501
90.4668
6.5574
82.4072
5.6572
0.5900
5858.5977
1497.0630
8337.5273
15.0963
11.5616
55.0079
72.8106
594.5659
734.4097
2.9924
0.4362
17.7754
22.8762
0.0377
8.0128
46.0618
0.9138
0.0337
1.7992
0.0002
c
s
(4
a
-------�
ANTIMONY 0.040 0.080 0.060 0.00489 0.032 0.0186
'COBALT 0.010 0.010 0.010 0.00757 0.008 0.0076
THALLIUM 0.010 C.030 0.020 0.00185 0.008 0.0047
TIN 0.029 0.063 0.051 0.01996 9.587 2.0653
o
G
§
*>
5 1
H
z
a
w
a
-------�
TABLE 5- 3
WASTE CHARACTERISTICS OF RAW WASTE
SUBCATEGORY 2
STREAMS
PAMAMETER
OH, ACIDIC
PH, ALKALINn
TUP Bin I TV
TEMPEPATUPE
DISSOLVED OXYGEN
°CSIDUAL CHLORINE
ACIDITY
ALKALINITY
AMMONIA
3. 0. ['. 5
COLOR
SULFIOt
.CYANIDE,TOTAL
CYANIDE AMN.TO CHL1R
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SETTLEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORinE
CHROMIUM,TOTAL
CHROMIUM,HEXAVALENT
COPPER
FLUORIDE
IRON,TOTAL
IRON,DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GKEASE
HARDNESS
C. 0. l>.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATt
SULFITE
TITANIUM
ZINC
ARSFNK
BORON
MEPCURY
MCKEl
NITRATr
NITRITr
SELENIUM
MINIMUM
MG/L
2.100
7.000
0.380
2.000
2.000
0.100
1.000
6.500
0.020
0.470
3.000
0.010
0.010
0.010
0.058
0.002
50.000
40.500
2.400
0.200
0.020
0.030
0.002
0.400
0.900
0.005
0.005
0.016
0.130
0.103
0.003
0.006
0.038
0.002
0.003
0.400
14.200
3.700
0.200
0.200
0.770
3.200
6.000
1.000
0.500
0.020
0.020
0.005
0.030
0.003
0.004 •
0.200
0.004
0.010
CONCENTRATION
MAXIMUM
MG/L
7.000
12.300
3800.000
65.000
12.000 ,
4.000
26140.000
14210.000
30.000
480C.OOO
5000.000
24.000
0.425
0.196
145.000
19.000
30000.000
28770.000
26390.000
40.000
15.480
5.500
60.900
2000.000
3330.000
400.000
0.033
184.600
240.000
95.000
75.290
102.800
425.000
7.790
7.674
13510.000
2208.000
4COOO.OOO
91.600
63.300
1520.000
34.100
7692.000
4057.000
223.000
17.800
181.400
0.053
21.300
0.003
93.480
375.500
8.600
0.010
PRODUCTION ORIENTED
MEAN
MG/L
4.783
9.217
339.837
22.685
7.438
2.025
1068.869
950.838
2.973
359.646
216.375
1.191
0.072
0.045
11.739
0.692
2586.905
2647.030
1223.649
5.429
1.499
0.785
2.428
77.314
159.010
18.908
0.009
4.457
8.497
8.981
6.221
2.044
21.225
0.364
0.164
668.217
313.300
3087.421
10.170
6.997
46.609
14.841
443.775
430.605
8.898
0.420
7.116
0.015
2.218
0.003
3.352
24.073
0.439
0.010
MINIMUM
MG/HR-M2
2.10000
7.00000
0.38000
2.00000
0.01824
0.01844
0.01581
0.13642
0.00053
0.00922
3.00000
0.00012
0.00349
0.00349
0.00061
0.00002
50.00000
1.29549
0.07838
0.00162
0.00016
0.00013
0.00002
0.01204
0.01138
0.00002
0.00051
0.00003
0.00100
0.00021
0.00001
0.00012
0.00436
0.00000
0.00000
0.01164
0.10135
0.05433
0.00133
0.00163
0.00312
0.00666
0.10575
0.04634
0.00101
0.00005
0.00025
0.00132
0.00047
0.00133
0.00010
0.00017
0.00017
0.00132
MAXIMUM
MG/HP-M2
7.000
12.300
3800.000
65.000
431.428
1.657
455708.937
32651.254
174.334
1111.020
5000.000
4.903
0.921
0.425
972.434
35.474
30000.000
71921.000
22944.125
24.513
95.601
8.998
52.373
822.165
3872.214
525.366
0.055
294.146
4183.828
367.694
42.779
31.935
1074.598
4.461
1.907
21091.070
5785.055
14452.273
198.506
63.011
1000.169
1117.791
35004.496
4096.848
260.066
7.598
393.129
0.041
53.929
0.001
34.866
6546.238
2.968
0.041
LEVELS
MEAN
MG/HR-M2
4.7833
9.2170
339.8369
22.6852
14.6380
0.4987
13927.6211
1200.1714
4.3712
95.1314
216.3754
0.3151
0.1012
0.0758
17.0565
0.6905
2586.9045
2772.1812
608.2417
1.5773
2.1610
0.5565
1.3701
47.0492
146.9153
8.9169
0.0084
4.8850
54.6975
8.2488
2.7047
0.7632
32.5412
0.2081
0.0698
522.1130
323.4976
1228.3474
8.3929
3.8925
34.3609
30.2228
860.2908
198.8402
8.0611
0.2609
8.6760
0.0116
2.0588
0.0013
1.7646
121.0342
0.1788
0.0159
o
i
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H
-------�
.SILVEP
STRONTIUM
CHLORINATED HYDROCAR
ANTIMONY
COBALT
THAUIUM
TIN
0.002
0.030
0.100
0.060
0.010
0.010
0.020
0.010
22.500
1.300
0.060
0.010
0.040
0.184
0.004
1.149
0.400
0.060
0.010
0.017
0.098
0.00002
0.00008
0.00136
0.00606
0.00132
0.00004
0.00330
0.098
48.762
0.018
0.006
041
209
0.260
0.0060
1.3662
0.0096
0.0061
0.0157
0.0168
0.0573
i
n
1
§
-------�
TABLE 5- 4
HASTE CHARACTERISTICS OF RAW HASTE
SUBCATEGORY 3
STREAMS
PARAMETER
PHP AC DIC
PH, AL :ALINE
TURBin TY
TEMPER ITURE
OISSOL 'ED CXYGEN
RESIDU .L CHLORINE
ACIDIT'
ALKALI JITY
AMHONI I
B. 0. ). 5
COLOR
SULFID:
CYANJD;, TOTAL
CYAN:D; AMIV..TO CHLOR
KJELDA-tL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TQT. SUSPENDED SDS.
SETTLEABLE SOLIDS
ALUMH JM
BARIU"
CADMILM
CALCHM
CHLORIDE
CHROMIUM, TOTAL
CHROMIUM, H'^XAVALF.NT
COPPEF
FLUORIDE
IRCN^OTAL
I
-------�
S'LVER
ST°ONTIUM
CHLORINATED HYDROCAR
COBALT
THALLIUM
TIM
0.002
0.060
0.600
0.010
0.010
0.025
14.300
1.000
0.010
C.040
0.184
0.005
1.186
0.800
0.010
0.020
0.083
0.00008
0.00028
0.06182
0.00098
0.00098
0.00245
1.588
294.887
0.103
0.016
0.019
0.905
0.1136
8.6539
0.0824
0.0086
0.0066
0.1121
n
i
M
O
-------�
TABLE 5- 5
WASTE CHARACTERISTICS OF RAW HASTE
SUBCATEGORY 4
STREAMS
PARAMETER
PH, AC'. CIC
PM, All ALIN.:
TURBID: TY
TEMPER* TUPE
DISSOL1 ED OXYGEN
=!FSirUI L CHLORINE
ACIDIT1
ALKALI! ITY
AMKONI/
8. 0. [ . 5
COLO"
SULFID!
CYANIO! .TOTAL
CYANIOI AMN.TO CHLOR
KJELDAI.L NITROGEN
PHENCL!
CQNOUC' ANCE
TOTAL : OLIOS
TIT. SI SPF.N9EO SDS.
SETTLE, BLE SOLIDS
ALUMINI'M
BARIUM
CADMIU1-
CALCIUI,
CHLORII E
CHROMIUM.TOTAL
CHROMIIIM.HEXAVALENT
COPPER
FLUORIHE
IRCN.T ITAL
IRON.D SSOLVED
LEAD
MAfiNES UM
HANGAN :SE
MOLYBD :NUM
OIL. G .FASE
HARDNE ,S
C. 0. I.
TOTAL 'HOSPHATES
P.C.B. S
POTASS :UM
SILICA
SODIUM
SULFAT i
SULMT
TITANI tf
ZINC
A3SEM :
BORON
NICKCL
NITRiT i
NITRIT:
SFI.EMI If
MINIMUM
fG/L
2.100
7.000
1.500
13.000
4.000
2.000
1.400
19.800
0.012
0.400
1.000
0.010
0.010
0.010
0.077
0.004
230.000
HI. 000
0.400
0.200
0.020
0.030
0.003
0.260
0.900
0.005
0.005
0.129
3.200
0.077
0.030
0.012
0.560
0.009
0.005
0.400
: 4.200
1.000
0.600
0.200
3.000
2.800
8.000
1.000
0.500
0.020
0.120
0.010
0.030
0.010
0.004
O.?00
0.005
0.010
CONCENTRATION
MAXIMUM
MG/L
7.000
12.000
3800.000
87.000
12.000
4.000
2880.000
15900.000
47.400
2216.000
5000.000
6.400
900.000
0.010
54.400
9.000
32800.000
12280.000
11990.000
40.000
22.860
9.520
0.012
584.100
3330.000
0.013
0.005
0.952
3.200
422.200
80.000
102.800
78.180
2.080
7.674
13510.000
1780.000
18070.000
0.600
100.000
5613.000
32.300
1C790.000
4057.000
563.000
1.470
1.754
C.010
16.320
C.010
17.740
444.400
8.600
0.010
PRODUCTION ORIENTED
MEAN
MG/L
4.347
9.003
349.148
23.826
6.979
2.667
375.412
1367.551
3.630
322.439
196.756
0.565
67.186
0.010
7.293
0.390
2689.780
2016.146
715.887
6.353
2.129
0.987
0.006
56.344
245.842
0.008
0.005
0.434
3.200
14.502
5.945
2.768
14.705
0.224
0.292
681.392
298.628
2356.958
0.600
12.842
189.820
16.372
674.203
482.165
33.784
0.139
1.182
0.010
1.487
0.010
1.261
37.350
0.759
0.010
MINIMUM
MG/HR-M2
2.10000
7.00000
1.50000
13.00000
0.13631
4.21312
1.33307
1.77554
0.00202
0.33968
1.00000
0.00223
0.00408
0.02050
0.01814
0.00045
230.00000
21.75667
0.33968
0.00682
0.01697
0.00633
0.00398
0.37498
0.16968
0.00928
0.00663
0.17097
6.51863
0.02847
0.00806
0.00073
0.11927
0.00230
0.00045
0.14276
4.24213
1.32532
1.22224
0.03030
0.17821
0.27659
5.42380
0.95219
0.04461
0.00081
0.24445
0.00040
0.00341
0.01325
0.00093
0.04435
0.00214
0.00040
MAXIMUM
MG/HR-M2
7.000
12.000
3800.000
87.000
96.318
28.294
1467427.00
177231.062
3108.092
91714.187
5000.000
12.834
8145.746
0.020
6827.609
8.021
32800.000
1192794.00
322018.687
6114.277
2241.902
101.905
0.024
194128.312
193211.125
0.017
0.010
1.939
6.519
4706.094
891.728
2412.419
11056.648
61.143
3910.082
79485.625
19641.070
440737.562
1.222
646.728
62565.914
5502.848
471767.437
2019749.00
113623.625
15.286
2.325
0.170
6776.656
0.013
125.484
147201.125
86.619
0.170
LEVELS
MEAN
MG/HR-M2
4.3475
9.0031
349.1479
23.8255
16.0275
13.4884
78177.1250
6458.5117
83.4765
2320.1287
196.7561
1.5032
253.9511
0.0205
179.7065
0.5940
2689.7798
30367.7266
7429.7695
330.0928
49.3783
5.7557
0.0108
4474.9922
4803.8359
0.0122
0.0078
0.8011
6.5186
187.2911
34.2511
51.1375
304.6653
1.8771
89.6308
3100.0344
1524.9912
11263.1641
1.2222
57.3702
1581.5042
191.5238
14367.6484
40853.1992
3124.6790
0.9274
1.5950
0.0626
156.0193
0.0133
7.4075
3855.7563
3.3385
0.0514
o
i
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i
-------�
SILVER 0.003 0.003 0.003 0.00398 0.006 0.0050
'STRONTIUM 0.020 18.260 1.409 0.00341 128.632 5.9301
COBALT 0.010 0.010 0.010 0.00040 0.170 0.0779
THALLIUM 0.010 0.040 0.020 0.00048 0.072 0.0276
TIN 0.020 0.184 0.072 0.00101 0.424 0.1423
§
n
o
-------�
TABLE 5- 6
WASTF CH4SACTEPISTICS OF RAH WASTE
SUBCATEGORY 5
STREAMS
PARAMETER
DIC
ALIN:
TY
TURE
FD OXYGEN
L CHLORINE
!ITY
.TOTAL
NITROGEN
PH, AC
PH, AL1
TUPBID
TEMPER, .
DISSOL'
RESICU
ACIDIT
ALKALII!
AMMONI,
B. 0. I'
COLOR
SULFID
CYANID
KJFLC4 IL
PHENCL ,
CCNDUC 'ANCE
TQTAl .OLIOS
TOT. S ISPENDEO SDS.
SETTLE ,BLE SOLIDS
ALUMIN )M
BARIU'M
CAOMIU I
CALCIU1
CHLOPI IE
CHROMI JH.TCTAL
CHROWI IMtHCXAVALENT
COPPFP
FLUORI )E
IRON.T )TAL
IRON, DISSOLVED
LEAD
MAC.NPS IUM
M4NGAN:SE
M3LYE1D :NUM
OIL. GtEASE
HARDNF JS
C. 0. ).
TOTAL 'HOSFHATES
P.C.P. 'S
P3TASS :UM
SILICA
SODIUM
SUI.FAT;
SULF:T ;
TITANI JM
ZINC
ARSEMI :
BORON
"".CUR I
NICKEL
NITRAT:
NITRIT-:
SILVER
STRONTIUM
MINIMUM
fG/L
1.800
7.000
2.200
2.000
1.000
0.100
1.000
1.000
0.020
1.000
2.000
0.010
0.048
0.063
0.004
ir.o.ooo
If 5.000
6.300
0.200
0.030
0.030
0.002
0.208
0.900
0.005
0.005
0.013
0.110
0.070
0.030
0.007
0.750
0.003
0.005
0.400
.4.200
i 1.600
0.250
0.200
1.600
2.000
.0.590
1.000
0.500
0.020
0.020
0.005
0.030
0.002
0.004
0.200 .
0.010
0.002
0.030
CONCENTRATION
MAXIMUM
MG/L
7.000
11.500
3600.000
63.000
12.000
2.000
26140.000
7638.000
249.000
4800.000
850.000
4.800
0.192
260.000
30.000
17000.000
26770.000
28390.000
40.000
40.910
5.500
60.900
472.800
3330.000
0.026
0.007
184.600
325.000
95.450
77.500
1C2.800
200.000
3.760
0.525
13510.000
3300.000
4COOO.OOO
62.400
1C4.400
1520.000
47.400
2364.000
4360.000
367.000
17.800
33.930
0.005
16.980
0.055
93.480
375.500
5.480
0.052
6.100
PRODUCTION ORIENTED
MEAN
MG/L
4.519
8.690
378.956
22.907
6.255
0.683
1121.882
767.057
7.500
396.941
104.543
0.345
0.120
12.936
0.884
1844.693
2578.067
1060.836
6.295
2.025
0.766
1.335
49.829
146.165
0.015
0.005
3.546
14.788
9.609
7.580
3.330
18.567
0.361
0.058
720.063
316.823
2435.886
8.011
15.553
50.303
15.343
346.074
486.173
10.524
0.548
2.886
0.005
1.887
0.012
2.293
25.227
0.319
0.005
0.823
MINIMUM
MG/HR-M2
1.80000
7.00000
2.20000
2.00000
0.01177
0.06306
0.08510
0.08111
0.00064
0.03607
2.00000
0.00010
0.00144
0.00201
0.00002
130.00000
1.52765
0.05315
0.00286
0.00015
0.00039
0.00001
0.01223
0.00151
0.00015
0.00015
0.00004
0.00169
0.00065
0.00017
0.00020
0.00705
0.00002
0.00001
0.00652
0.26910
0.12634
0.00103
0.00721
0.03383
0.01263
0.41601
0.15919
0.00168
0.00004
0.00003
0.00272
0.00026
0.00025
0.00026
0.00050
0.00022
0.00001
0.00013
MAXIMUM
MG/HR-M2
7.000
11.500
3800.000
63.000
152.854
13.611
2399.203
140625.250
68.306
1876.154
850.000
42.799
0.006
71.534
2.885
17000.000
138427.125
11096.672
15.635
556.839
6.114
31.180
250.448
2572.711
0.309
0.083
17.888
551.965
72.063
54.963
37.836
200.238
1.579
2.137
20168.855
1306.687
15634.621
101.698
231.393
2011.553
966.034
38060.527
4634.961
30.571
9.666
5.991
0.003
10.345
0.122
88.892
1379.656
1.225
0.214
61.141
LEVELS
MEAN
MG/HR-M2
4.5194
8.6900
378.9556
22.9065
12.9858
2.6020
209.7430
3723.2129
2.6814
157.2163
104.5435
1.1913
0.0036
5.5418
0.2674
1844.6934
3799.6477
474.3123
2.3447
10.1600
0.6732
0.7918
30.6765
91.9109
0.1368
0.0357
0.6906
12.4051
4.7531
3.6841
1.1511
17.2106
0.1505
0.0777
643.3647
195.3015
1187.8574
8.4980
15.9342
53.3345
36.3894
962.6079
251.9451
2.6200
0.3209
1.1046
0.0027
1.0286
0.0248
2.6726
46.7310
0.1848
0.0146
1.5399
o
a
n
o
2!
-------�
CHLORINATED HYDPCICAR o.ioo 0.200 0.111 0.00301 o.oio o.ooes
'COBALT o.oio o.oio o.oio 0.00059 o.ooi o.oooe
THALLIUM 0.010 0.040 0.019 O.OOOOZ 0.017 0.0034
TIN 0.016 0.150 0.065 0.00048 1.T82 0.2602
n
i
w
o
-------�
TABIE 5- 7
WASTE CHARACTERISTICS OF RAW WASTE
SUBCATEGORY 6
STREAMS
PARAMETER
P4, ACIDIC
PH, ALKALINI:
TiJPBIDITY
TAMPER/I TURE
DISSOLV ED OXYGEN
ACIDTTV
ALKALI ITY
. 5
.TOT.U.
NITROGEN
ANCE
OLID3
SPEN")ED SOS.
BLE 50LIOS
M
E
M, TOTAL
M.HEXAVALENT
E
TAL
SSOLVFD
UM
:SE
NUM
EASE
,S
.
'HOSPHATES
S
UP
IM
MliRCUR '
NICKEL
NI TPAT ;
NITPIT •
S3LENI IM
SILVER
STRONT .
B. 0. r
COLOR
SULFIDE
CYANIDE
KJELDA
PHENOl!
CONDUCT
TOTAL :
TOT. SI
SETTLE/
ALUMINl
BARIUM
CADMIUV
CALCIUI
CHLORI!
CHPOMIl
CHRDMIl
COPPEF
FLUORI!
IRONtTC
IRON.D
LEAD
MAGNES
MANGAN
MOLYBDi
OIL, G:
HARONE
C. 0.
THTAl
P.C.P.
POTASS
SILICA
STOIUM
SULFAT
SULFIT
TITANI
ZIMC
CONCENTRATION
MI HIMUM
M5/L
3.900
7.400
1.200
ID. 000
4.000
7.980
21.000
3.045
0.300
1. 000
0.100
3.019
0.074
0.002
292.300
151.000
1.600
0.150
0.030
0.020
0.002
0.639
3.800
0.005
0.005
0.017
0.150
0.023
0.138
0.018
1.430
0.002
0.004
0.400
10.000
1.000
0.200
0.500
2.450
2.900
17.690
',3.700
0.500
0.020
0.153
0.010
0.120
0.008
0.006
1.200
0.005 .
0.010
0.002
0.083
MAXIMUM
MG/L
6.900
7.400
500.000
65.000
12.000
27S50C.OOO
788.000
31.250
690.000
1000.000
1.200
0.200
895.000
1.850
240000.000
54210.000
16560.000
18.000
65.450
1.900
0.029
108.800
7C8.000
US. 100
89.600
155.400
7.400
600.000
26.590
2.000
72.700
5.250
0.210
1730.000
20630.000
6040.000
17.500
2.800
18.000
28.100
527.300
24960.000
175.000
3.400
164.300
0.010
1.800
0.008
84.520
27.700
C.680
C.010
0.010
3.240
MEAN
MG/L
3.698
7.400
112.029
20.883
7.500
26158.613
232.620
3.765
65.028
140.100
0.414
0.105
78.815
0.235
14946.133
5531.848
837.169
7.883
3.321
0.261
0.011
31.159
90.008
11.475
3.809
22.908
1.572
30.420
4.705
0.241
12.517
0.370
0.038
97.000
3063.058
419.051
6.175
1.650
5.832
11.327
120.916
3885.279
15.583
0.510
29.842
0.010
0.416
0.008
7.235
10.655
0.230
0.010
0.005
0.645
PRODUCTION ORIENTED LEVELS
MINIMUM
MG/HR-M2
0.90000
7.40000
1.20000
10.00000
79.79967
565.41602
179.65276
0.14974
1.13836
1.00000
1.31849
0.32560
1.02783
0.01924
292.30005
2097.70654
1.08144
9.18022
0.03757
0.52740
0.00085
124.38815
0.57487
0.00911
0.00034
0.23446
5.13294
0.23426
1.81952
0.01315
18.72632
0.00478
0.03422
0.38704
1368.78296
1.36127
0.44396
35.42708
42.55981
69.44777
313.68335
80.08380
8.55489
0.21280
0.11993
2.20695
2.30982
0.84090
0.00455
10.26587
0.05320
2.20699
0.00817
0.94104
MAXIMUM
MG/HR-M2
6.900
7.400
500.000
65.000
623.182
55510416.0
8384.285
2392.537
21297.070
1000.000
85.025
13.849
54775.297
65.225
240000.000
10766439.0
583855.312
555.576
12998.773
20.216
1.022
4700.270
140613.125
5C99.914
766.518
9510.707
220.689
119163.687
1106.523
138.485
14438.668
321.307
4.965
29646.754
1815260.00
1199581.00
1339.821
198.392
3574.911
3058.534
62788.832
880013.750
34756.078
225.113
5071.070
2.207
55.558
0.841
6470.953
2736.666
17.714
2.207
0.612
397.212
MEAN
MG/HR-M2
3.6976
7.4000
112.0286
20.8826
288.6655
5089626.00
4292.8242
168.4665
2706.8499
140.1000
22.5547
5.4032
5131.5195
8.5026
14946.1328
958675.250
41987.4102
213.7161
523.6631
5.5039
0.2895
1131.7656
7629.5430
489.2178
43.9567
768.0918
75.3778
5103.6484
209.1436
11.3096
1706.6255
28.1483
1.5748
3247.7864
215108.875
55049.7578
332.4385
116.9094
494.9937
665.4941
10439.1484
117635.500
2946.8306
27.3955
1270.7881
2.2070
16.3938
0.8409
523.1306
670.2112
7.4170
2.2070
0.1934
56.9430
*•)
H
o
n
i
-------�
ANTIMONY 0.050 0.050 0.050 0.65925 0.659 0.6592
COBALT 0.007 0.010 0.009 0.13185 1.545 0.6618
THALLIU" 0.010 0.010 0.010 0.13185 0.309 0.2203
TIN 0.016 0.100 0.062 0.00489 7.043 2.1559
n
s
-------�
TABLE 5- 8
WASTE CHARACTERISTICS OF RAW WASTE
SUBCATEGORY 7
STREAMS
PARAMETER
vo
00
PH, ACIDIC
PH, ALKALING
TURBID] TY
DISSOLVED OKYGEN
RESIDUA L CHLORINE
ACIDITI
ALKALIf ITY
AM MONK
B. 0. C . 5
COLOR
SULFIDE
CYANIDE tTOTAL
CYANIDE AMNoTO CHLOR
KJELDAI-L NIVRCIGEN
PHENOLS
CONDUCTANCE
TOTAL SOLID:;
TOT. SI SPENDED SOS.
SETTLE* BLE SOLIDS
ALUMINLM
BARIUM
CAOMIUf
CALCIU*
CHLOR ICE
CHROMIl M.TOTAL
CHROMIl M.HEKAVALENT
COPPER
FLUORIC E
IRON.TCTAL
IRONiDl SSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GBEASE
HARDNESS
C. 0. C.
TOTAL fHOSPHATES
P.C.B." S
P1TASS1UM
SILICA
SODIUM
SULFATE
SULFITE
TITANHM
ZINC
ARSENIC
B3PON
MERCURS
NICKEL
NITRATf
NITRITE
SILVER
MINIMUM
M3/L
1.500
7.000
0.300
9.000
1.000
0.100
I. 000
2.000
D.030
3.400
3.000
3.010
3.010
3.640
3.059
3.004
53.000
35.000
3.200
3.200
3.020
3.030
3.002
3.208
3.900
0.005
3.005
3.011
3.130
3.103
3.003
3.006
3.750
3.002
3.005
3.500
14.200
3.700
3.200
3.200
3.770
i.400
6.000
3.800
0.500
3.020
3.020
3.005
0.050
3.002
0.007
0.150
0.006
3.002
CONCENTRATION
MAXIMU»"
MG/L
7.000
11.300
3800.000
63.000
12.000
11.000
2880.000
8000.000
249.000
4800.000
6000.000
24.000
1.570
1.460
260.000
30.000
17000.000
63090.000
28390.000
40.000
290.300
7.400
6C.900
472.800
3330.000
400.000
36.400
1060.000
110.000
422.200
367.700
102.800
425.000
40.000
7.674
13510.000
144800.000
40000.000
62.400
224.800
1520.000
36.900
2364.000
4360.000
367.000
17.800
86.540
0.005
21.300
0.055
C.Q50
288.900
5.480
0.100
PRODUCTION ORIENTED
MEAN
MG/L
4.591
8.895
395.599
23.269
7.000
3.525
154.535
747.209
12.938
295.501
209.179
1.272
1.036
1.050
21.519
1.511
1883.631
2917.954
917.812
10.503
5.580
0.782
2.043
50.598
152.649
20.042
1.543
21.106
6.883
21.595
17.942
1.721
24.612
0.893
0.165
545.189
2335.777
1836.988
9.547
18.241
40.336
14.663
327.300
430.644
12.152
0.470
4.665
0.005
2.454
0.012
0.207
18.073
0.269
0.007
MINIMUM
MG/HP-M2
1.50000
7.00000
0.30000
9.00000
0.02863
0.33955
0.05726
0.03455
0.00035
0.02865
2.00000
0.00004
0.03395
1.71929
0.00104
0.00001
50.00000
1.48445
0.04167
0.00130
0.00213
0.00037
0,00008
0.03390
0.06164
0.00018
0.00001
0.00002
0.00554
0.00065
0.00043
0.00009
0.00682
0.00014
0.00001
0.00278
0.11633
0.05382
0.00044
0.00228
0.01441
0.00538
0.27041
0.35318
0.00087
0.00003
0.00031
0.02971
0.00011
0.00081
0.04548
0.01961
0.00010
0.00002
MAXIMUM
MG/HR-M2
7.000
11.300
3800.000
63.000
2229.829
12.103
27514.273
187500.312
3081.361
15121.176
6000.000
99.002
13.750
3.922
3181.524
148.523
17000.000
36205.152
44019.758
140.673
128.159
19.369
41.573
3639.907
7597.582
1782.503
173.156
347.687
916.725
1166.813
1016.194
50.927
1290.981
99.181
73.314
58361.051
32698.078
111786.000
3943.239
483.129
2682.070
1412.225
50747.367
71333.250
2149.698
105.771
282.951
0.030
271.189
0.922
8.708
2760.025
8. 059
1.698
LEVELS
MEAN
MG/HR-M2
4.5908
8.8953
395.5994
23.2687
69.7383
3.3338
921.9856
7139.3789
85.4731
927.3428
209.1791
6.4628
4.2306
2.8207
112.1111
3.4038
1883.6309
4900.9141
1911.5161
24.4965
8.5134
2.4306
2.2177
181.6287
425.3640
72.3013
4.3314
7.6609
36.2646
60.8808
48.6083
3.1294
91.4179
2.2800
1.2622
1282.5845
2222.3132
5558.0469
107.1344
45.8396
137.6049
98.7148
2446.3032
2472.1211
85.1855
2.8249
16.9975
0.0297
14.9929
0.12T7
1.4684
109.5016
0.7509
0.0648
Q
i
n
s
M
D
-------�
.STRONTIUM
CHLORINATFD HYOROCAR
TOT.VOLATILE SOLIDS
SURFACTANTS
ANTIMONY
COBALT
THALLIUM
TIN
0.030
0.100
356.000
4.160
0.022
0.003
0.010
0.032
14.300
71.000
356.000
4.160
0. 148
0.003
0.040
0.130
0.881
6.664
356.000
4.160
0.072
0.003
0.019
0.081
0.00010
0.05527
2419.41479
28.27180
0.00011
0.02039
0.00001
0.01182
81.522
482.523
2419.415
28.272
0.591
0.020
0.234
0.636
2.8735
44.5822
2419.4148
28.2718
0.1808
0.0204
0.0599
0.2621
n
o
W
D
-------�
TABLE 5- 9
WASTE CHARACTERISTICS OF RAW WASTE
SUBCATEGORY 8
STREAMS
o
o
PA-UMETER
PH, ACIDIC
PH, ALKALIN=
TURBiniTY
TEMPERATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITV
ALKALINITY
AMMONIA
P.. 0. [). 5
COLOR
SULFIDt
CYANIDE .TOTAL
KJELDAML NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SDS.
SETTLEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHROMIUM,HEXAVALENT
COPPER
FLUORIDE
IRON,TOTAL
IRON.DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GPEASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
S'JLFAT-
SULFIT'
TITANIUM
?INC
P.CIRQM
MEHCUPV
NICKEL
NITFATg
NITRITE
SILVER
STRONTIUM
BEPYLLIUM
COKCENTRATION
MINIMUM
MG/L
0.390
7.800
14.000
11.000
10.000
0.100
11.500
4.000
0.050
0.300
1.000
0.010
0.010
0.850.
0.002
790.000
958.000
9.300
0.300
0.080
0.030
0.008
5.400
41.400
0.009
0.005
0.015
0.200
0.109
0.100
0.020
0.108
0.006
0.007
2.800
20.000
1.000
1.300
0.200
3.000
3.100
43.480
12.000
0.500
0.020
0.060
0.100
0.003
0.028
2.600
0.004
0.003
0.060
0.003
MAXIMUM
MG/L
5.900
11.300
1200.000
63.000
10.000
4.000
6440.000
29100.000
1370.000
3CC.OOO
48.000
0.700
0.700
1480.000
0.100
179000.000
32670.000
15110.000
40.000
31.690
9.520
5.789
347.800
29370.000
0.955
0.120
38.400
1.300
592.600
119.700
22.860
175.700
7.682
0.310
1335.000
6214.000
13510.000
13.700
18.000
267.400
25.000
37650.000
84380.000
2.000
1.250
112.900
2.130
0.089
Q4.540
127.300
0.570
0.210
2.500
2.462
MEAN
MG/L
2.657
9.125
258.600
24.100
10.000
2.700
1911.100
8104.000
232.454
60.640
13.857
0.176
0.197
277.000
0.034
43323.180
7297.625
2088.136
21.075
5.333
1.966
0.807
72.643
3562.199
0.205
0.020
7.077
0.670
96.393
36.289
4.615
26.723
1.529
0.079
166.122
1468.300
1650.036
4.933
9.100
50.027
11.262
5500.922
11047.867
0.929
0.263
23.430
0.831
0.032
16.465
31.900
0.195
0.049
0.857
0.823
PRODUCTION ORIENTED
MINIMUM
MG/HR-M2
0.39000
7.80000
14.00000
11.00000
1273.24561
0.19404
11.30574
1.17446
0.01441
0.08808
1.00000
0.00153
0.00504
0.04583
0.00018
790.00000
30.83107
0.33612
6.79023
0.00306
0.00703
0.00084
0.16164
4.45966
0.00061
0.00008
0.02765
0.00947
0.20553
0.07634
0.01465
0.09167
0.01833
0.00101
4.93272
290.29077
9.66859
0.06722
24.88206
0.09503
0.04889
2.70268
11.05212
0.00764
0.00214
0.21389
0.01833
0.00145
0.00328
0.15584
0.00061
0.00005
0.01619
0.00087
MAXIMUM
MG/HR-M2
5.900
11.300
1200.000
63.000
1273.246
509.298
62265.734
88918.000
4186.176
38197.371
48.000
1.934
1.273
4522.293
0.194
179000.000
121976.937
46170.184
509.298
102.487
1212.130
9.615
830.156
25464.910
52.449
3.332
714.291
15.844
1810.751
452.002
886.172
1698.771
11.216
3.183
1553.360
4851.066
8522.078
14.553
25.465
817.068
3183.115
254649.000
257631.875
127.325
28.293
647.643
48.211
1.183
2258.704
1005.864
1.273
0.097
49.657
7.523
LEVELS
MEAN
MG/HR-M2
2.6567
9.1250
258.5999
24.1000
1273.2456
182.7222
13600.0859
26094.5937
570.2307
4123.6523
13.8571
0.6372
0.4346
719.0029
0.0744
43323.1797
35485.7187
5634.6602
173.4015
39.6245
165.4091
1.7633
239.3165
4434.2930
5.1696
0.3732
75.5558
3.7575
381.2925
127.4218
89.2967
237.9845
2.3093
0.8148
290.9019
2861.4458
2196.9751
8.7725
25.1735
227.2870
470.2441
47833.7891
43261.8203
21.6082
4.0388
101.9629
8.6645
0.5397
246.5367
207.0214
0.5043
0.0475
8.0021
2.6528
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ANTIMONY 0.040 31.250 4.656 0.00122 303.182 46.5214
'THALLIUM - o.oio 0.038 o.oi6 o.ooois 1.273 0.2103
T!N 0.047 0.141 0.079 0.04065 0.466 0.3208
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8
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TABLE 5-10
WASTE CHARACTERISTICS OF RAW HASTE
SUBCATEGORY 9
STREAMS
PA1AMETFR
PH, ALKALINI-
TEMPERATURE
DISSOLVED OXYGEN
ACIDITY
ALKAL1MTY
AMMONIA
6. 0. 0. 5
SULFIDE
CYANIDE,TOTAL
KJELDAH. NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SUIDS
TOT. SUSPENDED SOS.
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIU1,TOTAL
CHROMIUM,HEXAVALENT
COPPER
IRON.TOTAL
LEAD
MAGNESIJM
MOLYBDENUM
OIL, GR-ASE
HARDNESS -
C. 0. D,
TOTAL PHOSPHATES
POTASSIJM
SILICA
SODIUM
SULFATE
SULFITE
TITAN1U(
ZINC
BEBVLLI If
PLASTIC ,'ZERS
ANTKMON r
BROMIDE
COBALT
THALLIU I
TIN
MINIMUM
"13/L
r.ioo
25.000
7.000
n.ooo
24V. 000
).041
'.200
>.100
.100
.171
.100
32 .000
35' .700
t.600
D.032
0.379
11.002
7 '.460
1 '.600
11.007
0.005
0.016
0.035
0.020
2'). 640
0.027
: .200
200.000
2'). 000
'.000
.: .429
10.000
2«).000
5,'!. 500
:..ooo
0.020
0.237
0.002
15''. 600
C .047
(U390
C.004
C.015
C.034
CONCENTRATION
MAXIMUM
MG/L
7.100
25.000
7.000
18.000
244.000
0.041
2.200
0.100
0.100
0.171
0.100
320.000
359.700
4.600
0.032
0.379
0.002
77.460
17.600
0.007
0.005
0.016
0.035
0.020
29.640
0.027
3.200
200.000
24.000
7.000
3.429
18.000
29.000
52.500
1.000
0.020
0.237
0.002
157.600
0.047
0.390
0.004
0.015
0.034
PRODUCTION ORIENTED
HEAN
MG/L
7.100
25.000
7.000
18.000
244.000
0.041
2.200
0.100
0.100
0.171
0.100
320.000
359.700
4.600
0.032
0.379
0.002
77.460
17.600
0.007
0.005
0.016
0.035
0.020
29.640
0.027
3.200
200.000
24.000
7.000
3.429
18.000
29.000
52.500
1.000
0.020
0.237
0.002
157.600
0.047
0.390
0.004
0.015
0.034
MINIMUM
MG/HR-M2
7.10000
25.00000
0.90558
2.32864
31.56604
0.00530
0.28461
0.01294
0.01294
0.02212
0.01294
320.00000
46.53404
0.59510
0.00414
0.04903
0.00026
10.02093
2.27690
0.00091
0.00065
0.00207
0.00453
0.00259
3.83450
0.00349
0.41398
25.87379
3.10466
0.90558
0.44361
2.32864
3.75170
6.79188
0.12937
0.00259
0.03066
0.00026
20.38855
0.00608
0.05045
0.00052
0.00194
0.00440
MAXIMUM
MG/HR-M2
7.100
25.000
0.906
2.329
31.566
0.005
0.285
0.013
0.013
0.022
0.013
320.000
46.534
0.595
0.004
0.049
0.000
10.021
2.277
0.001
0.001
0.002
0.005
0.003
3.834
0.003
0.414
25.874
3.105
0.906
0.444
2.329
3.752
6.792
0.129
0.003
0.031
0.000
20.389
0.006
0.050
0.001
0.002
0.004
LEVELS
MEAN
MG/HR-M2
7.1000
25.0000
0.9056
2.3286
31.5660
0.0053
0.2846
0.0129
0.0129
0.0221
0.0129
320.0000
46.5340
0.5951
0.0041
0.0490
0.0003
10.0209
2.2769
0.0009
0.0006
0.0021
0.0045
0.0026
3.8345
0.0035
0.4140
25.8738
3.1049
0.9056
0.4436
2.3286
3.7517
6.7919
0.1294
0.0026
0.0307
0.0003
20.3885
0.0061
0.0505
0.0005
0.0019
0.0044
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TABLE 5-11
WASTE CHARACTERISTICS OF RAH WASTE
SUBCATEGCRY 10
STREAMS
PARAMETER
PH, ACIDIC
"H, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGEN
°=SIDUAL CHLORIC
ACIDITY
ALKALINITY
AMMONIA
B. 0. D. 5
COLOR
SULFIDE
CYANIDE, TOTAL
KJELDAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
S5TTLEABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM, TOTAL
CHROMIUM,HEXAVALENT
COPPER
FLUORIDE
IRON, TOTAL
I»ON,DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. n. D.
TOTAL PHOSPHATES
P.C.B.'S
POTASSIUM
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
NICKEL
NIT" ATE
NITRITE
SILVER
STRONTIUM
MINIMUM
MG/L
2.400
7. 400
10.000
24.000
5.400
0.100
1.000
71.000
0.040
0.500
5.000
0.100
0.010
0.350
0.008
0.210
608.000
2.000
0.300
0.030
0.030
0.002
20.970
6.100
0.005
0.005
0.013
0.200
0.154
0.549
0.008
5.210
0.023
0.010
0.668
70.000
86.200
1.200
0.300
3.760
4.800
48.000
2.300
0.500
0.025
0.020
0.002
0.050
0.002
0.005
2.500
0.090
0.002
0.050
CONCENTRATION
MAXIMUM
MG/L
6.800
9.400
440.000
29.000
10.200
0.100
68.000
6383.000
110.000
1260.000
1200.000
0.700
4.900
233.000
120.000
5200.000
3245.000
724.000
14.000
20.480
2.000
16.230
1893.000
169.800
0.464
0.027
0.884
2.100
12.760
4.167
2.647
17.020
0.737
0.052
2237.000
1256.000
5120.000
9.600
123.900
345.100
28.600
533.300
1036.000
18.000
0.400
4.180
0.002
1.160
0.019
0.074
85.700
8.000
0.250
1.220
MEAN
KG/L
5.875
8.310
95.000
27.200
7.743
0.100
20.892
650.400
16.620
389.061
145.417
0.217
1.245
52.771
19.610
936.734
1557.333
182.678
6.478
1.822
o.aoo
1.468
251.332
75.356
0.111
0.008
0.323
0.561
2.908
1.996
0.557
9.882
0.197
0.013
386.485
298.667
1228.633
3.413
28.136
60.568
16.318
186.668
260.970
2.958
0.060
1.428
0.002
0.406
0.008
0.025
21.808
1.347
0.050
0.472
PRODUCTION ORIENTED LEVELS
MINIMUM MAXIMUM MEAN
MG/HR-M2 MG/HR-M2 MG/HR-M2
2.40000 6.800 5.8750
7.40000 9.400 8.3100
10.00000 440.000 95.0000
24.00000 29.000 27.2000
3.23897 7.011 4.9346
0.05998 0.060 0.0600
0.59981 40.787 12.7290
42.58652 3828.590 393.4370
0.11866 65.979 10.0875
0.29991 3040.016 442.5334
5.00000 1200.000 145.4167
0.05998 0.420 0.1320
0.00600 2.939 0.7470
0.29563 139.756 31.6596
0.00798 71.977 11.7822
0.21000 5200.000 936.7336
364.68457 1946.385 980.0940
11.25932 934.523 192.2484
0.17994 8.397 3.8990
0.07198 20.421 1.6932
0.01799 1.200 0.4805
0.00169 9.735 0.8837
17.71249 1135.441 151.1791
26.52228 101.848 58.2545
0.00300 0.681 0.1490
0.00300 0.028 0.0118
0.00780 2.466 0.3813
0.11996 2.094 0.4051
0.33204 7.654 2.1773
0.32930 2.499 1.2183
0.00720 1.588 0.3555
4.40067 10.209 6.0334
0.01500 0.442 0.1574
0.00600 0.031 0.0083
0.66607 1341.776 260.2734
57.58179 753.362 180.5715
395.69458 4324.652 1105.2866
0.83973 6.756 2.6599
0.17994 74.316 16.8898
2.25529 206.995 36.7694
2.87909 17.155 9.7878
28.79088 450.456 122.8469
12.94821 5832.324 483.7158
0.29991 10.797 1.8152
0.01799 0.240 " 0.0367
0.10136 5.247 1.1777
0.00199 0.002 0.0020
0.02999 0.696 0.2631
0.00120 0.107 0.0175
0.00420 0.045 0.0219
1.49953 51.404 14.1684
0.05398 4.798 0.8081
0.00180 0.150 0.0314
0.02999 0.732 0.2859
8
-------�
TIN 0.02* 0.100 0.055 0.03390 0.563 0.1938
ALDEHIDES 0.019 1.534 0.496 0.01140 4.960 0.7670
HYOPOQUINONE 0.010 1.030 0.168 0.00600 5.798 0.7489
TH10CYANATE 1.000 5.100 1.810 0.59980 5.630 , 2.5106
THIOSUl.FATE/SULFITP 1.030 9.100 3.642 0.87000 34.903 5.7336
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-------�
TABLE 5-12
WASTE CHARACTERISTICS OF RAW WASTE
SUBCATEGGRY 12
STREAMS
PARAMETER
PH, ACIDIC
PH, ALKALINE
TURBIDITY
TEMPERATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITY
AMMONIA
B. 0. D. 5
COLOR
SULFIOE
CYANIDE,TOTAL
CYANIDE AMN.TO CHLOR
KJELOAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM,TOTAL
CHROMIUM,HEXAVALENT
COPPER
FLUORIDE
IRPN,TOTAL
IRON,DISSOLVED
LEAD
MAGNESIUM
MANGANESE
MOLYBDENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B."S
POTASSIUM'
SILICA
SODIUM
SULFATE
SULFITF
TITANIUM
ZINC
BORON
MSRCUP.Y
NICKEL
NITRATE
NITRITE
SELENIUM
SILVER
STRONTIUM
TOT.VOLATILE SOLIDS
MINIMUM
MG/L
0.500
7.600
10.000
13.000
1.000
4.000
1800.000
0.025
0.300
5.000
0.020
0.007
0.006
0.233
0.005
212.000
1819.000
3.000
0.050
0.030
0.008
6.350
6.500
0.013
0.005
0.025
0.190
1.719
3.410
0.229
6.670
0.015
0.005
1.000
166.000
1.000
0.200
7.500
3.370
3.200
40.000
100.000
0.500
0.020
0.080
0.260
0.004
0.003
4.000
0.004
0.010
0.002
0.083
0.150
COKENTRATION
MAXIMUM
MG/L
4.900
7.600
45.000
74.000
3.000
4.000
6440.000
3.820
27.000
20.000
0.200
0.100
0.007
10.000
C.800
79300.000
3863.000
40.100
28.500
0.060
0.038
80.000
1729.000
1.026
0.050
2.524
13.000
96.950
32.400
9.500
175.700
1.160
0.020
56.000
500.000
374.000
4.500
30.000
12.900
10.000
284.500
9028.000
1.000
0.120
1.027
0.750
0.006
0.354
9.700
0.029
0.010
0.008
0.540
0.150
MEAN
MG/L
1.993
7.600
25.000
23.150
2.000
4.000
3467.250
1.449
13.850
11.750
0.105
0.033
0.006
3.308
0.105
26771.000
3295.750
22.800
5.090
0.047
0.020
45.415
346.580
0.220
0.011
0.630
1.888
32.299
14.822
2.190
59.135
0.257
0.014
15.450
257.550
92.530
1.275
18.750
6.225
5.900
111.342
4130.008
0.833
0.057
0.573
0.472
0.005
0.088
6.175
0.016
0.010
0.003
0.373
0.150
PRODUCTION ORIENTED
MINIMUM MAXIMUM
MG/HR-M2 MG/HR-M2
0.50000 4.900
7.60000 7.600
10.00000 45.000
13.00000 74.000
3.84485 11.190
6.06445 6.064
2306.90869 33122.273
0.03518 28.982
0.42213 167.849
5.00000 20.000
0.02563 1.119
0.00173 0.141
0.00173 0.018
0.32786 23.835
0.00116 1.025
212.00000 79300.000
2757.80957 41313.324
1.97247 143.231
0.14068 16.071
0.07036 0.336
0.00345 0.123
8.93518 895.196
9.14415 5273.031
0.01970 0.492
0.00123 0.145
0.03517 3.838
0.12328 18.288
2.41827 206.231
4.79826 201.195
0.17111 106.305
8.54838 419.623
0.02110 1.759
0.00641 0.112
3.04976 71.770
212.74825 2126.092
1.51611 1140.610
0.28136 6.714
9.61212 42.213
4.74198 38.717
4.85156 111.900
51.26462 681.133
140.67917 27907.754
1.40711 5.595
0.02814 0.336
0.10253 2.462
0.36585 4.476
0.00099 0.018
0.00422 0.850
5.25463 77.211
0.00606 0.037
0.01407 0.014
0.00074 0.022
0.11679 4.476
0.21107 0.211
LEVELS
MEAN
MG/HR-M2
1.9929
7.6000
25.0000
23.1500
7.5174
6.0645
12237.1328
4.3775
35.3063
11.7500
0.3971
0.0474
0.0100
9.5744
0.2087
26771.0000
13595.4258
49.8295
3.4733
0.1397
0.0478
259.5662
1026.2646
0.1303
0.0229
0.6596
3.1485
46.4658
65.5408
12.5167
179.5023
0.3937
0.0442
30.5147
835.5039
219.0761
2.0502
25.9128
17.4107
32.7082
305.9219
8311.8437
2.8394
0.1819
1.0459
1.6327
0.0096
0.1637
25.7000
0.0216
0.0141
0.0074
1.4994
0.2111
8
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.ANTIMOI>Y 0.110 0.778 0.338 0.03712 3.373 1.0116
CJRALT 3.007 0.007 0.007 0.00985 0.010 0.0098
THALLUM 3.010 0.038 0.016 0.00247 . 0.116 0.0540
TIN 3.046 0.098 0.061 0.01159 ' 0.299 0.1139
-------�
TABLE 5-1
WASTE CHARACTERISTICS CF PAH WASTE
ALL SUBCATEGORYS
STREAMS
PARAMETER
PH, ACIDIC
PH, ALKALINE
TIJSBIDITY
TEMPERATURE
DISSOLVED OXYGEN
RESIDUAL CHLORINE
ACIDITY
ALKALINITY
A1MONIA
B. 0. 0. 5
COLOR
SULFIOE
CYANIDE,TOTAL
CYANIDE AMN.TO CHLOR
KJELOAHL NITROGEN
PHENOLS
CONDUCTANCE
TOTAL SOLIDS
TOT. SUSPENDED SOS.
SETTLFABLE SOLIDS
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHROMIUM,TOTAL
CHROMIUM,HEXAVALENT
COPPER
FLUORIDE
IRON,TOTAL
IRON,DISSOLVED
LEAD
MAGNESIUM
MANGANESE
VOLYBOENUM
OIL, GREASE
HARDNESS
C. 0. D.
TOTAL PHOSPHATES
P.C.B.'S
P3TASSIUM
SILICA
SODIUM
SULFATE
S'JLPITE
TITANIUM.
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
.NITRITE
MINIMUM
MG/L
0.390
7.000
0.300
2.000
1.000
0.100
1.000
1.000
0.012
0.300
1.000
0.010
0.006
0.006
0.058
0.002
0.210
35.000
0.200
0.150
0.020
0.020
0.002
0.208
0.900
0.005
0.005
0.011
0.110
0.023
0.003
0.006
0.038
0.002
0.003
0.400
10.000
1.000
0.200
0.200
0.770
2.000
4.410
0.800
0.500
0.020
0.020
0.002
0.030
0.002
0.003
0.150
0.004
0.010
CONCENTRATION
MAXIMUM
MG/L
7.000
12.300
3800.000
87.000
12.000
11.000
27?5CO.OOO
291CO.OOO
1370.000
480C.OOO
6000.000
24.000
9CC.OOO
1.800
1480.000
120.000
24COCO.OOO
63090.000
28390.000
40.000
290.300
9.520
77.750
2000.000
29370.000
4CO.OOO
89.600
1060.000
485.000
600.000
367.700
102.800
425.000
40.000
7.674
13510.000
1448CO.OOO
4COOO.OOO
91.600
224.800
5613.000
47.400
37650.000
8438C.OOO
963.000
17.800
181.400
0.053
21.300
0.117
165.200
444.400
8.600
0.010
MEAN
MG/L
4.237
8.896
241.802
23.276
6.978
1.640
3171.203
1075.068
18.428
231.107
192.446
0.776
26.130
0.261
36.628
2.529
6400.953
2923.405
791.636
9.086
4.403
0.712
1.497
70.886
287.626
11.103
1.099
11.993
9.380
20.285
11.763
1.582
13.388
0.508
0.107
389.230
1464.548
1684.720
7.499
18.296
67.006
14.116
645.512
1407.203
15.798
0.281
8.594
0.013
1.585
0.016
3.523
26.872
0.424
0.010
o
1
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o
M
O
-------�
o
-------�
245 SINGLE AND MULTIPLE SUBCATEGCRY PLANTS USED IN THIS SAMPLE STREAM ANALYSIS INCLUDE THE FOLLOWING IO#S: DATE: 08/25/75
5
109
222
339
3S1
477
611
69fl
788
948
2018
2051
2087
M
O
to
7
110
229
341
392
482
612
699
799
958
2021
2052
2088
a
111
234
342
393
489
617
700
814
961
2023
2054
2089
12
121
235
343
397
509
621
704
826
966
2025
2057
2090
14
131
241
345
398
510
623
707
833
967
2029
2061
2091
16
135
242
347
399
511
626
709
835
969
2033
2063
26
136
246
357
407
519
627
711
836
970
2035
2066
29
143
247
359
409
520
629
712
864
974
2036
2067
41
144
249
360
413
521
646
713
924
976
2037
2068
50
153
256
372
416
530
647
717
925
979
2038
2070
53
177
283
374
419
535
654
721
926
980
2039
2071
54
182
284
376
425
538
656
727
927
1218
2041
2075
58
189
286
378
427
542
658
737
928
2002
2043
2077
63
193
287
380
428
543
664
739
931
2003
2044
2078
69
194
296
382
429
548
665
740
932
2004
2045
2079
70
195
298
383
431
561
672
755
934
2005
2046
2080
78
210
301
384
437
562
678
756
940
2006
2047
2081
79
214
310
387
447
566
679
774
941
2007
2048
2083
107
217
321
388
457
579
689
780
942
2008
2049
2085
108
219
324
390
475
609
692
781
943
2009
2050
2086
•
FIGURE 4
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.84 SINCLE SIIBCATEGOPY PLANT; USED IN THIS SAMPLE ST»EAM ANALYSIS INCLUDE THE FOLLOWING ID#S DATE:
8.05 14.12 'iO.02 54.C6 3.33 79.07 109.01 110.02 195.07 321.06 359.07 374.06 392.07 419.
431.06 447.C6 4?5.01 48?.C3 5 0. 32 543.06 566.09 579.07 612.08 654.02 665.07 698.03 700.01 727.
788.02 799.C2 8;4.10 864.C7 9)7.10 943.02 958.04 966.09 967.07 969.07 976.08 979.12 980.12 2003,
2005.06 2006. C6 2008.01 2009.C3 20,3.37 2029.02 2035.06 2036.03 2037.01 2038.06 2041.06 2044.02 2046.12 2047.
2049.06 2050.C 6 20IH.06 2052.06 20! 4.32 2057.08 2063.05 2066.02 2067.03 2070.05 2071.01 2075.10 2077.10 2078.
2080.10 2083.C2 20U5.12 2086.10 2017.10 2088.10 2089.10 2090.10 2091.10
240 RAW VASTE SAMPLE STREAfSi DISCHARGED TC ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING
5 5 7 12 12 1* 16 26 41 53 63 70 78 78 79 107 108 110
135 136 144 153 182 18' 1<33 193 194 195 210 214 219 234 235 241 242 246
283 284 286 287 287 28" 296 298 310 321 339 341 341 342 343 343 345 345
372 374 376 380 382 38' 388 388 390 391 391 392 393 393 397 407 409 413
419 425 427 428 429 441 477 482 511 519 521 530 538 538 542 543 548 561
609 611 511 612 617 621 623 626 627 629 646 665 672 678 678 679 689 692
711 712 721 740 755 75< 774 780 780 788 788 799 814 826 826 836 836 836
924 925 926 926 927 931 931 932 934 940 941 941 942 958 961 969 970 970
1218 1218 2303 2003 2004 200' !005 2005 2006 2006 2008 2008 2009 2023 2023 2025 2025 2029
2033 2035 2035 2036 2036 2031 '.037 2038 2041 2041 2043 2043 2044 2044 2046 2046 2047 2047
2050 2351 2352 2054 2054 2051 >061 2061 2063 2063 2066 2066 2067 2067 2068 2068 2070 2070
2075 2C75 2377 2077 2078 207£ >079 2079 2080 2080 2083 2083 2085 2085 2086 2086 2088 2089
191 EFFLU3NT SAMPLE STREAMS, DISCHARGED TO ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING
5 5 7 12 16 26 50 53 63 70 78 79 107 108 109 111 121 135
182 189 193 194 195 214 219 222 234 235 241 246 247 283 284 '. 286 287 296
310 321 324 324 339 341 342 343 343 345 347 357 359 360 372 374 376 380
384 388 190 391 392 397 398 399 407 409 413 416 419 425 427 428 429 431
489 509 ilO 511 519 521 530 538 543 548 561 562 579 609 611 612 617 621
627 629 >46 665 672 47E 678 679 692 698 704 711 712 717 721 737 737 739
756 774 180 788 799 914 826 835 924 925 926 927 928 931 931 932 934 940
942 943 >48 958 961 96< 970 970 974 979 1218 1218 2002 2002 2007 2007 2018 2018
2025 2325 2 J33 2033 2039 203<5 J 043 2043 2045 2045 2049 2054 2054 2057 2061 2061 2067 2067
2C71 2371 2)75 2075 2077 2377 !081 2081 2085 2085 2087
08/25/75
12 429.12
01 774.08
04 2004.03
12 2048.08
10 2079.10
ID«S: 08/25/75
111 135
247 256
347 360
413 416
562 566
699 704
864 864
974 976
2029 2033
2048 2048
2071 2071
2090 2091
IO«S: 08/25/75
177 177
298 301
382 383
447 477
£23 626
740 755
941 941
2021 2021
2068 2068
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18 MXO EFFLUENT SAMPLE STREAMS, DISCHARGE TO ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING io§Ss 08/as/75
58 69 136 242 249 256 387 437 482 520 542 647 647 654 658 699 707 727
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4.0 Effluent Analysis
The effluent analysis program performs statistical operations on all
effluent stream pollutant parameters presented in Table 2. All
effluent streams are considered; however, effluent pollutant para-
meters with a concentration at or below the minimum detectable level
(Table 7) are excluded from the analysis if the corresponding raw
waste concentration is at or below the "nil value". Effluent concent-
rations at or below the "nil value" are considered in the effluent ana-
lysis if the corresponding raw waste concentration is above the "nil
value".
The effluent analysis is composed of a pollutant Concentration Analy-
sis in mg/1 and a pollutant Production Oriented Analysis in mg/hr/m^
of subcategory process floor area. The user card input for the
effluent analysis is identical to the card input for the raw waste
analysis. The general program logic governing pollutant mass alloca-
tion for multi-subcategory water discharge plants, the method of hand-
ling the dilution effects of non process water, and the calculation of
user input production oriented limits in mg/hr/m2 is also identical.
The major differences between the raw waste analysis and effluent ana-
lysis are:
the type of stream analyzed
the ranges within which the user input production
oriented limits are divided when determining the stream
distributions. The effluent analysis uses ranges of .2
times the limit as compared to .01, .05, .1 times the
limit in the raw waste analysis.
the output format. The effluent analysis calculates
minimum, maximum and mean values of pollutant mass
rate in mg/hr and prints the statistics in the "GUIDE-
LINES ANALYSIS OF...." section. The effluent analysis
program does not print out a "WASTE CHARACTERISTICS"
series of tables.
The ettluent analysis program requires 128K core storage for compila-
tion and 136K core storage for execution. The source listing of the
program,, written in FORTRAN IV, is presented in Appendix Do
The information required as input to the effluent analysis program
from the plant tape data file is identical to the tape information re-
quired for the raw waste analysis program (Table 9). The user card
input required is also identical to that required for the raw waste
analysis program (Taoie iu;. Tne reader snouia rerer to section j
for a complete input card definition,
112
-------�
The output from the effluent analysis program is a multi-series format
similar to the output of the raw waste analysis program. The first
series of output is labelled "CONCENTRATION ANALYSIS OF " and is
identical in format to the raw waste analysis printout.
The second series of output is labelled "GUIDELINES ANALYSIS OF ".
In addition to Production Oriented Analysis and stream distributions
around the user input mg/hr/m^ limits, the pollutant parameter mass
statistical terms in units of mg/hr are also presented.
The final two pages of printout summarize the identification numbers
of the plants used in the analysis. These summaries are identical in
format and meaning to the plant summaries in the raw waste analysis
program.
A complete effluent analysis printout is presented as Figure 5.
113
-------�
t-'LO' u?n
PH,AL:
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12
12
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12
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0.100
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0.100
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0.100
0.100
0.100
0.100
0.010
0.010
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0.001.
n.ioo
0.001
0.001
0.010
0.001
.0.001
0.001
O.OCl'
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1 1
8
12
5
1
3
10
12
11
10
8
I
10
8
12
10
10
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12
10
5
10
11
2
2
9
2
11
10
12
10
12
10
11
10
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10
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7
5
12
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5
12
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10
8
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7.10CC ,000
7.200
!U300
1 It . 000
3.600
1.320
0.001
57.000
0.050
'..000
0.001
0.100
0.020
0.400
0.002
34G.OOO
331.000
3.100
0.100
0.050
0.120
0.001
9.840
14.900
0.005
0.005
0.010
0.400
0.390
0.030
0.010
1.760
0.005
0.005
4.700
96.000
46.100
0.200
0.100
3.000
4.600
10.400
37.000
0.500
0.010
0.010
0.050
0.001
0.004
1.400
0.006
0.001
0.060
0.001
0.100
0.030
C.060
l'T '-^V^-, ."~5y
ZBBOOC'i.OO
10.200
70.000
33.000
10.000
l.iiO
32.r'00
329.000
56.200
137,000
85.000
34.300
0.020
9. BOO
7.317
7000.000
879^.000
67.000
0.100
t;. ^90
' 0.980
0. 100
3536.000
2640.000
0.005
0.005
0,376
1.700
4.222
3.330
0.545
40.000
0.210
0.030
33.600
6625.000
328.000
0.200
2.500
50.000
21. 000
1613.000
3540.000
376.000
0.500
1.308
1.860
0.024
0.400
43.500
0.625
0.070
5.850
o.oot
0.100
0.030
0.071
:!. ; -'.L 3!
UC12£5.0P
8.401
24.062
20.550
5.350
1.320
14.667
177.300
6.38B
47.773
22.400
4.526
0.020
4.44V
1.035
1601.66?
1910.550
24.450
0.100
1.237
0.-523
0.022
449.773
315.391
0.005
0.005
0.128
1.050
1.266
0.995
6.073
15.046
0.061
0.016
16.700
956.700
116.542
0.200
0.600
18.485
12.480
438.160
792.366
62.786
0.117
0.438
0.762
0.006
0.132
10.999
0.171
0.011
1.403
0.001
0.100
0.030
0.065
IT1
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BASED ON DATA FROM 70 SINGLE SUBCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLtMULTPL SUBCATEGORY PLANTS INCLUDING 120 FFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
M
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-------�
CONCENTRATION ANALYSIS OF fFFLL'EN'
TOTAL NONE NIL Nit SIGfiF
# # # VALUE #
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 2ND SUBCATEGORY
SIGNIFICANT VALUFS BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPD
PH, ACID
PH,ALKLN
TURBIDTY
TEMP C
D. 0.
PSIO CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYND.TTL
CYND.CHL
KJLDHL N
. PHENOLS
CONDCTNC
TTL SOLOS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
H CHRM.TTL
<* CHRM.HEX
COPPER
FLUORIDE
IRGN.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORCN
MERCU'Y
NICKEl
NITRATE
NIT'ITE
SELENIUM
SILVER
SWNT'M
50
50
50
50
50
50
50
50
50
50
50
50
50
4
4
50
50
50
50
50
50
50
50
50
50
50
50
4
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
4
50
50
50
50
50
50
20
35
16
22
5
22
20
22
13
1
2
13
14
0
2
13
I
1
12
2
13
0
12
0
12
2
0
0
0
0
3
13
0
12
0
12
1
12
7
0
11
12
13
12
0
12
12
1
0
12
0
4
13
12
0
1
12
0
0
0
2
0
1
21
7
0
0
0
1
9
0
0
0
7
1
0
3
21
0
0
12
0
0
0
0
2
1
0
0
1
1
0
0
5
0
0
1
10
0
0
0
0
11
7
I
44
0
2
0
1
1
48
19
0
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
o.oin
0.001
0.001
0.100
0.001
0.001
o.ocu
0.010
30
15
34
26
45
27
9
21
37
49
48
36
27
4
2
37
42
48
38
45
16
50
38
38
38
48
50
4
48
49
47
37
49
37
50
38
44
38
43
49
29
38
37
38
50
27
31
48
6
38
2
46
16
37
2
31
38
9555.000
3.900
7.000
0.500
7.000
0.800
0.001
0.001
0.001
0.010
0.100
1.000
0.020
0.020
0.020
0.050
0.002
0.200
70.600
0.100
0.100
0.020
0.030
0.001
1.500
1.400
0.005
0.005
0.010
0.120
0.200
0.030
0.008
0.160
0.004
0.004
0.100
30.000
7.600
0.100
0.100
1.270
2.200
20.000
7.800
0.500
0.010
0.020
0.001
0.010
0.001
0;004
O.ftOO
0.001
0.010
0.001
0.010
5000000.00
7.000
9.500
1000000.00
27.000
22.000
64.000
15700.000
10160.000
1029.000
1000000.00
650000.000
22.600
0.100
0.020
1018.000
1.000
50000.000
149700.000
170.000
16.000
117.300
2.430
0.968
824.200
15680.000
5.990
0.005
1.000
32.000
18.230
17.790
4.907
81.300
11.220
3.819
363.000
6625.000
1748.000
42.300
30.500
866.700
50.000
28970.000
2409.000
1900.000
0.500
5.380
0.056
8.300
0.003
6.000
44.400
6.530
0.010
0.172
25.000
555015.312
6.452
8.203
38483.391
18.202
6.796
9.158
924.637
535.140
26.121
20938.879
18103.527
1.004
0.040
0.020
41.319
0.112
3037.733
5172.852
21.142
2.019
3.260
0.504
0.055
86.061
469.047
0.459
0.005
0.155
3.386
2.556
2.067
0.194
16.036
0.344
0.164
26.070
488.305
173.148
2.639
4.245
37.538
14.654
1054.766
457.379
75.333
0.051
0.776
0.018
1.182
0.002
0.382
8.629
0.442
0.010
0.010
1.464
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CHIP HC . 50 48 0 0.010 2 0.100 0.300 0.200
ANTIMONY 430 0.001 1 0.060 0.060 0.060
COBALT 50 48 0 0.001 2 0.010 0.333 0.171
THALIUM 50 43 0 0.001 7 0.005 0.040 0.014
TIN 50 36 0 0.001 14 0.020 2.813 0.284
BASED ON DATA FROM 70 SINGLE SUBCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLCMULTPL SUBCATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
I
1-3
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CONCENTRATION ANALYSIS Oc EFFLIEN'
' TOTAL VIONE NFL Nil 5! Gf F
tt » ft V4LUE #
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 3RD SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATEt 08/25/75
FLCW GPO
PH, ACID
PH.ALKLN
TURBIDTY
TEMP C
D. 0.
RSir CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYND.TTL
CYNO.CHL
KJLDHL N
PHENOLS
CONDCTNC
TTLSCLDS
TSSPSLDS
STLBLSLO
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRP,TTL
CHPM.HEX
COPPER
FLUORIDE
IRON,TTL
IRCN.DSL
LEAD
MAGNES'M
MANGANES
MOLY8DMN
OIL.GP.ES
HARDNESS
C.0.0.
TTL PHOS
OCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
flORON
MERCURY
NICKEL
NITS ATE
NITS IT?
SELENIUM
SILVFC
STRONT'M
28
28
28
28
28
28
28
28
28
28
28
28
28
3
3
28
28
28
28
28
26
28
28
3
28
28
3
3
28
3
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
23
28
28
3
28
2fi
28
?8
23
28
13
23
6
16
1
12
13
16
11
0
1
10
10
0
1
10
0
2
10
2
9
1
10
0
10
0
0
0
2
0
1
11
0
10
0
10
0
10
0
0
13
10
10
10
0
10
10
0
0
10
0
0
12
11
0
0
10
0
0
0
0
0
0
11
3
0
2
0
0
-------�
CHLR HC . 28 27 0 0.010 1 0.600 0.600 0.600
THALIIJM 28 26 0 0.001 . 2 0.012 0.040 0.026
TIN 28 18 0 0.001 10 0.058 0.176 0.097
BASED ON DATA FROM 70 SINGLE SUBCATEGOPY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLSMULTPL SUBCATcGCRY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
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C
CONCENTRATION ANALYSIS OF EFFLUENT
TOTAL JONE NIL NIL SIGC F
t * # VALU? 8
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 4TH SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: oa/25/75
Q
FLCW ODD
PH, ACID
PH,ALKLN
TURBIDTY
TEMP r
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYNO.TTL
CYND.CML
KJLDHL N
PHENCLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CALCIUM
CHLORIDE
IRON.TTL
I RON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ARSENIC
BORON
NICKEL
NITRATE
NITFITE
SELENIUM
STRONT'M
COBALT
THALIUM
TIN
R&SEO
BSSED
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
34
ON O/
ON Dl
14
23
10
11
0
12
12
14
7
0
0
6
7
4
29
6
0
0
6
1
6
1
6
6
0
1
7
0
6
0
6
1
6
0
9
6
7
6
0
6
6
0
6
1
8
d
0
6
33
29
27
TA
TA
0
0
0
1
0
1
16
2
0
1
0
1
5
6
3
0
2
0
0
2
16
1
0
0
0
0
0
1
1
0
0
2
0
0
9
0
0
0
0
6
5
31
0
0
1
1
31
0
0
0
0
FiJOM
F-!OM
1.000
0.001
O.OC1
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.1CO
0.100
0.100
0.010
0.010
0.010
0.100
O.OG1
0.001
0.001
0.010
O.OC1
0.001
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.1CO
0.010
0.001
0.010
0.001
0.100
0.001
0.001
0.010
0.001
0.001
0.001
70 S1NC
20
11
?4
22
34
21
6
18
27
33
34
27
22
24
2
28
32
34
28
31
12
32
28
28
34
33
27
33
27
34
28
31
28
34
16
28
27
2R
34
22
23
3
28
33
25
25
3
28
1
5
7
:LF
173 SINGLC
16290.000
3.900
7.000
4. BOO
11.000
0.800
0.001
0.001
22.000
0.010
0.100
1.000
0.020
0.005
0.010
0.04.2
0.005
190.000
70.600
2.000
0.100
0.020
0.030
1.040
17.000
0.060
0.030
0.007
0.780
0.007
0.004
1. 000
4.000
11.400
0.100
2.220
4.600
20.000
26.900
0.500
0.020
0.010
0.010
0.004
0.600
0.001
0.010
0.010
0.010
0.010
0.020
SL'BCATEGOPY
5000000.00
7.000
9.500
100.000
27.800
12.600
6.000
1044.000
2784.000
84.500
1000.000
195.000
0.640
0.190
0.010
85.200
0.800
6000.000
4165.000
67.000
0.500
17.140
1.810
180.000
244.000
18.230
10.740
3.740
81.300
0.716
0.977
66.800
1260.000
511.300
320.000
131.300
24.000
1500.000
2265.000
54.000
0.500
0.010
8.300
0.842
94.200
6.530
0.010
3.862
0.010
0.040
0.176
PLANTS INCLUDING
673050.000
6.355
8.027
35.405
19.038
6.271
2.587
92.443
315.711
4.188
91.103
30.481
0.152
0.051
0.010
6.929
0.097
1547.147
1218.528
18.664
0.242
1.231
0.449
29.490
78.456
2.856
1.929
0.179
16.812
0.125
0.067
17.603
241.054
136.364
23.987
23.462
15.022
347.581
498.802
4.614
0.066
0.010
0.893
0.131
12.200
0.571
0.010
0.597
0.010
0.016
0.096
28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAKS
''ULTPL SU8CATEGCRY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
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CONCENTRATION ANALYSIS np tFFLUc.NT
TOTAL NONE MIL NIL SIGNF
# » # VALUE «
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 5TH SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPO
?H, AC 10
PH.ALKLN
TURBIDTY
TEMP C
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
KJLOHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GPES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
RORCN
MERCURY
NICKEL
NITRATE
MTRTE
SILVFo
STPONT'V
CHLP HC
COBALT
THAL IL!M
TIM
RASFD
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
2?
22
22
22
22
22
22
22
22
22
22
22
22
22
?2
22
22
22
22
22
ON
9
16
6
10
2
9
9
13
7
1
1
7
7
7
1
1
6
0
7
0
6
0
6
0
0
0
0
7
0
6
0
6
0
6
2
0
9
6
6
6
0
6
6
1
0
6
0
1
7
5
1
6
20
?1
20
15
r>AT/\ F-
0
0
0
2
0
0
10
1
0
1
0
1
2
0
2
0
0
0
11
0
0
5
0
0
I
0
0
0
0
0
0
0
2
0
0
1
4
0
0
0
0
6
2
1
20
0
12
0
0
1
R
0
0
0
0
0
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0. 100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
0.001
0.010
0.010
0.001
0.001
0.001
13
6
16
10
20
13
3
8
15
20
21
14
13
15
19
21
16
22
4
22
16
17
16
22
21
22
22
15
22
16
22
16
20
16
20
21
9
16
16
16
22
10
14
20
2
16
10
21
15
16
13
16
2
1
2
7
3QM 70 SINGLE
23040.000
3.900
7.200
2.000
8.000
0.001
0.001
0.001
0.001
0.010
0.100
1.000
0.020
0.042
0.005
0.200
70.600
0.100
0.100
0.020
0.040
0.001
7.680
1.400
0.010
0.120
0.165
0.100
0.010
0.730
0.004
0.004
1.000
98.000
11.500
0.100
0.100
1.880
4.600
20.000
3.600
0.500
0.020
0.020
0.001
0.010
0.001
0.004
0.600
0.001
0.001
0.010
0.100
0.010
0.010
0.020
SUBCATEGHRY
5000000.00
6.900
9.500
67.000
30.000
10.000
0.800
15700.000
2784.000
84.500
770.000
33.000
28.500
85.200
1.000
3700.000
2464.000
63.000
0.100
4.860
0.940
0.046
577.800
419.000
0.714
16.500
4.222
3.330
0.074
79.090
1.000
0.620
26.600
840.000
1748.000
6.200
30.500
50.000
50.000
756.000
1291.000
7.500
0.500
3.390
0.002
6.670
0.052
0.754
20.000
0.690
0.017
2.740
0.200
0.010
0.020
0.100
PLANTS INCLUDING
1150033.00
6.167
8.217
21.110
18.445
3.892
0.300
2099.349
349.753
6.547
67.500
14.000
2.395
12.452
0.139
1233.819
1069.906
12.059
0.100
0.489
0.422
0.010
67.369
104.918
0.093
2.195
1.123
0.853
0.033
12.891
0.096
0.061
9.330
355.375
153.750
0.914
6.533
14.208
15.535
238.692
340.108
1.550
0.061
0.500
0.002
1.641
0.011
0.109
7.295
0.213
0.004
0.646
0.150
0.010
0.015
0.064
23 EFFLUENT
i
o
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M
O
STREAMS
1 MXD EFFLUENT STREAMS
-------�
BASE.D ON IVTA F".OM 173 SINCLE ULTPL SUBCATEGOPY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
n
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-------�
CONCENTRATION ANALYSIS OF EFFLUENT
TOTAL NONE NIL NIL SI6NF
# # » VALUE *
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 6TH SU8CATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPO
PH, ACID
PH.ALKLN
TURBIDTY
TEMP C
0. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIOE
CYND.TTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSS°SLDS
STL8LSLC
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRK.TTL
CHRM.HEX
COPPER
FLUORIDE
IPON,TTL
I».UN,L>SL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNbSS
C.Q.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
NICKEL
NITRATE
NITRITE
SELCMUM
SILVE0
STSPKT'M
ANTIM irY
C3C»Lt
13
13
13
13
13
13
13
13
13
13
13
13
13
it
13
13
13
13
13
13
13
13
4
13
13
13
13
13
13
13
13
4
13
13
13
13
13
13
4
13
13
13
13
13
13
13
4
13
13
4
13
13
13
4
13
4
13
3
11
5
7
3
10
10
6
6
0
1
5
5
0
5
0
0
5
2
4
1
5
0
5
0
1
1
2
0
1
5
0
5
0
5
2
5
1
0
9
5
5
5
0
5
•j
0
0
5
0
5
5
0
0
t
3
12
0
0
0
0
0
1
2
0
0
1
0
1
2
2
0
0
0
0
1
7
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
1
0
1
0
0
0
0
0
0
0
12
0
0
0
1
12
2
0
0
0
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
J.010
0.001
0.100
0.001
0.001
0.001
0.010
n.ooi
0.001
10
2
8
6
10
2
1
7
7
12
12
7
6
2
8
13
13
8
10
2
12
8
4
8
13
12
12
11
12
12
8
4
8
13
3
11
a
11
4
3
8
8
8
13
8
8
4
1
8
4
8
7
1
2
8
1
1
250.
5.
7.
0.
11.
5.
1.
0.
12.
0.
0.
0.
0.
0.
0.
0.
600.
140.
0.
0.
0.
0.
0.
6.
18.
0.
0.
0.
0.
0.
0.
0.
1.
0.
0.
1.
30.
1.
0.
0.
3.
6.
45.
000
900
000
001
000
000
200
001
000
026
100
001
010
020
081
002
000
000
900
100
010
040
002
690
200
005
005
010
100
040
009
029
840
003
010
000
000
000
200
200
580
800
000
40.800
1.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
000
020
020
010
100
009
500
004
010
.004
100
110
010
1670000.
7.
11.
20.
29.
8.
1.
12.
183.
56.
93.
50.
0.
0.
41.
0.
17300.
7473.
106.
8.
0.
1.
0.
1219.
4546.
0.
0.
0.
12.
2.
0.
0.
72.
1.
0.
33.
3680.
374.
0.
52.
4000.
24.
2115.
1000000.
175.
0.
3.
0.
8.
0.
81.
0.
0.
0.
6.
0.
0.
00
000
300
000
400
000
200
600
000
200
000
000
160
100
850
100
000
000
400
000
410
430
007
000
000
766
140
938
000
222
291
043
900
930
270
000
000
•500
700
000
000
000
000
00
000
500
030
010
320
033
000
680
010
010
670
110
010
417836
6
8
8
16
6
1
7
71
7
22
27
0
0
6
0
.000
.450
.587
.417
.780
.500
.200
.783
.600
.618
.633
.000
.092
.060
.458
.057
3113.308
1719.925
23
4
0
0
0
358
391
0
0
0
1
0
0
0
22
0
0
10
1011
91
0
17
508
12
595
77754
24
0
1
.200
.050
.127
.334
.004
.457
.899
.148
.025
.379
.534
.578
.156
.035
.232
.187
.059
.391
.775
.574
.400
.500
.474
.875
.437
.562
.875
.142
.026
0.010
1
0
13
0
0
0
2
0
0
.330
.023
.012
.170
.010
.007
.015
.110
.010
n
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THALIUM . 13 11 0 0.001 2 0.020 0.020 0.020
TIN 13 7 0 0.001 6 0.040 0.132 0.077
BASED ON DATA FPOM 70 SINGLE SUUCATEGOP.Y PLANTS INCLUDING 28 EFFLUENT STREAMS I MXD EFFLUENT STREAHS
BASED ON DATA FROM 173 SINGLEPULTPL SUBCATEGC9Y PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAHS
-------�
CONCENTRATION ANALYSIS OF EFFLUENT
TOTAL NONE NIL NIL SIGNF
# # # VALUE *
SAMPLF STREAMS, DISCHARGED TO ANY WHERE FOR 7TH SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPO
PH, ACID
OH.ALKLN
TURBIDTY
TEMP C
0. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYND,TTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLOS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBOMN
OIL.GF.ES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
"OTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
NITRIT6
SILVER
STRONT'M
CHLP HC
TVCLSLDS
50
50
50
50
50
50
50
50
50
50
50
50
50
4
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
4
50
50
50
50
50
50
23
41
11
24
1
13
13
25
12
3
3
11
12
0
11
3
3
9
3
9
1
9
1
9
2
2
2
1
2
2
10
1
9
1
9
4
9
5
1
13
9
9
9
1
9
9
2
1
9
1
0
11
9
2
9
45
49
0
0
0
0
0
0
29
3
0
1
0
0
4
2
1
4
0
0
1
21
0
0
9
0
0
0
0
1
1
0
0
0
0
0
0
2
0
0
3
10
0
0
0
0
13
8
0
47
0
31
0
0
3
20
1
0
0
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
o.ooi
0.010
0.010
0.100
27
9
39
26
49
37
8
22
38
46
47
39
34
2
38
43
47
41
46
20
49
41
40
41
48
48
48
48
47
48
40
49
41
49
41
44
41
45
46
27
41
41
41
49
28
33
48
2
41
18
4
39
38
28
40
5
1
25440.000
6.000
7.000
0.160
8.000
0.001
0.001
0.001
0.001
0.010
0.100
0.650
0.010
0.010
0.050
0.004
0.200
163.500
0.100
0.100
0.020
0.030
0.001
1.950
1.400
0.005
0.005
0.010
0.140
0.116
0.003
0.007
0.780
0.003
0.004
1.000
20.000
5.800
0.100
0.100
2.220
2.000
21.050
3.600
0.100
0.010
0.020
0.001
0.010
0.001
0.038
1.500
0.001
0..001
0.020
0.100
1187.000
5000000.00
7.000
11.200
110.000
38.300
25.000
4.000
15700.000
617.000
96.000
1000.000
350.000
34.300
0.214
102.000
21.000
3600.000
6030.000
195.200
40.000
3.230
2.770
0.225
424.200
1137.000
5.388
1.020
8.167
44.000
6.200
6.100
0.206
206.000
1.100
15.500
273.000
1340.000
856.600
59.500
635.200
111.100
33.000
3057.000
1464.000
376.000
1.670
10.000
0.002
6.670
0.052
1.813
95.200
0.690
0.054
10.000
50.400
1187.000
726132.125
6.611
8.219
26.243
18.896
5.884
1.515
728.718
171.921
6.146
62.466
33.119
2.892
0.112
7.335
1.329
1189.621
1304.397
30.174
4.220
0.545
0.424
0.017
57.555
125.687
0.583
0.049
0.294
4.652
1.220
0.924
0.041
23.514
0.114
0.544
18.732
318.285
111.411
5.330
32.067
18.700
11.636
337.708
369.822
23.436
0.087
0.760
0.002
0.917
0.008
0.553
17.011
0.187
0.005
0.845
10.220
1187.000
g
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i
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4NTIMLNY 50 41 0 0.001 9 0.044 0.185 0.095
COBALT 50 49 0 0.001 1 0.011 0.011 0.011
THALIUM 50 41 0 0.001 9 0.005 0.045 0.019
TIN 50 41 0 0.001 9 0.047 0.167 0.091
BASFO ON D4TA FROM 70 SINGLE SUBCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS I MXD EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGL6WJLTPL SUBCATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
s
.U1
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o
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-------�
CONCENTRATION ANALYSIS OF EFFLUENT
TOTAL NONE NIL NIL SIGNF
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 8TH SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
DATE: OS/ZS/TS
FLOW GPD
PH, ACID
PH.ALKLN
TURBIDTY
TEMP C
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
8.0.0.5
COLOR
SULFIDE
CYND.TTL
KJLDHL N
PHENOLS
. CONDCTNC
TTLSOLDS
TSSPSLDS
STL8LSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRK.TTL
M CHRM.HEX
-1 COPPER
FLUORIDE
IPGN.TTL
IRON.DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL, GOES
'HARDNESS
C.0.0.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFAT?
SULFITE
TITANIUM
ZINC
BORON
MEPTUP.Y
NICKFL
NITFATE
NITRITE
SILVEP
STPGNT'M
.RE5YLL tM
ANTIMONY
THALHIM
#
e
8
8
8
8
8
a
8
8
8
8
8
8
8
8
2
8
8
8
8
8
8
8
8
8
8
8
8
2
8
8
8
8
8
8
8
8
8
2
8
8
8
8
8
8
8
8
a
8
8
8
8
8
a
8
8
R
*
3
5
4
4
0
4
4
4
3
0
0
4
3
1
3
0
0
3
1
3
0
3
0
3
0
0
1
0
0
0
3
0
3
0
3
1
3
1
0
2
3
3
3
0
3
3
0
3
1
1
3
4
0
3
2
2
2
n
a
0
0
i
0
i
0
0
0
0
0
0
0
4
0
0
0
0
0
4
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
0
0
0
4
0
0
0
0
0
0
0
0
4
0
0
0
1
0
?
0
0
VALUE
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
' 0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0. 100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.010
0.001
0.001
0.100
0.001
0.001
0.010
0.001
0.001
0.001
#
5
3
4
3
8
3
4
4
5
8
8
4
5
3
5
2
8
5
7
1
8
5
8
5
8
8
7
a
2
8
5
8
5
8
5
5
5
7
2
2
5
5
5
8
5
5
8
5
3
7
5
4
7
5
4
6
6
MINIMUM
80.000
5.600
8.300
0.080
3.000
5.000
0.001
0.001
34.000
0.010
3.000
0.001
0.080
0.020
0.190
0.004
1800.000
922.000
1.300
0.100
0.030
0.100
0.003
7.600
63.300
0.005
0.005
0.013
0.730
0.104
0.003
0.030
1.760
0.010
0.010
1.000
75.400
1.000
0.900
0.100
8.850
3.600
60.000
101.100
' 0.100
0.020
0.010
0.200
0.001
0.020
2.500
0.004
0.002
0.540
0.001
0.070
0.012
MAXIMUM
239500.000
6.900
10.200
4.000
26.000
8.500
13.000
15.500
608.000
154.000
41.500
24.000
0.190
0.100
672.000
0.100
17300.000
8799.000
494.000
0.100
0.180
1.520
0.419
3536.000
4546.000
0.017
0.008
1.000
1.300
6.380
3.750
0.320
183.800
1.930
0.160
23.800
6625.000
328.000
1.900
0.200
4000.000
21.000
2115.000
3684.000
2.000
0.500
2.280
8.320
0.052
1.125
43.500
0.625
0.070
6.670
0.006
1.419
0.068
MEAN
110508.000
6.467
8.850
2.227
17.325
6.500
3.575
8.375
175.360
22.825
10.975
14.250
0.114
0.047
143.200
0.052
6742.500
3588.200
120.457
0.100
0.099
0.480
0.066
979.099
1414.911
0.009
0.005
0.169
1.015
1.154
0.869
0.115
86.632
0.658
0.058
8.020
2202.080
106.386
1.400
0.150
822.563
8.940
1152.400
2071.512
1.020
0.118
0.742
2.072
0.019
0.193
25.640
0.394
0.014
2.634
0.003
0.415
0.033
o
i
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-------�
TIN .850 0.001 3 O.OV7 0.068 0.057
BASED ON DATA FROM 70 SINCLE SU8CATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS I MXO EFFLUENT STREAMS
BASED ON DATA FROM 173 S IM"LtMULTPL SUBCATEGORY PLANTS INCLUDING 120'EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
O
I
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-------�
CONCENTRATION ANALYSIS "F EFFLUENT
TOTAL NONE NIL NIL SIGNF
# « « VALUE *
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 10TH SUBCATEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPD
PH, ACID
PH.ALKLN
TUPBIOTY
TEMP C
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.n.D.5
COLOR
SULFIOE
CYND.TTL
KJLOHL N
PHENCLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSin
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRK.HEX
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBOMN
OIL.GRES
HARDNF.SS
C.O.D.
TTL PHOS
PCR'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITF.
TITAMUM
ZINC
BORON
MERCURY
NICKFL
NITF'ATE
MITRj-If. /
St LVt* f r
STRCNT'H
BASFD
BASED
5
5
5
5
5
5
5
5
5
•5
5
5
•5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
ON
ON
4
3
2
2
3
2
2
1
1
0
0
1
1
0
1
0
0
1
1
1
0
1
0
1
0
0
0
0
0
0
1
0
1
0
1
1
1
0
0
1
1
1
1
0
1
1
0
1
0
9
1
0
1
1
PAT/!
DATA
0
0
0
0
0
0
1
0
0
0
0
0
0
2
0
1
0
0
0
0
0
0
1
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
_. 1
0
0
*.
-------�
CCNCF.NTRATITN ANALYSIS OF E^
TOTAL
FLOW G"D
PH, ACID
PH.ALKLN
TURBIDTY
TEMP C
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYND.TTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MQLYBOMN
OIL.GPES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS'f
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
BORON
MERCUKY
NICKEL
NITPATF
NITBITF
SILVFR
STRONT'M
ANTIMONY
THALU'M
TIN
II
8
8
8
8
8
8
8
8
8
8
8
8
8
5
8
8
8
8
8
8
8
8
8
8
8
8
8
5
5
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
5
8
8
8
5
8
8
8
8
IONE
»
3
4
5
4
1
4
5
4
4
0
0
4
4
0
4
0
0
4
2
4
0
4
0
4
0
0
1
0
0
3
4
4
4
0
4
3
4
2
1
3
4
4
4
0
4
4
0
4
0
0
4
4
0
4
5
5
4
NIL
#
0
0
0
0
0
0
I
1
1
0
0
0
0
2
0
0
0
0
2
3
0
0
3
0
0
0
0
0
0
0
0
0
0
0
0
2
0
0
1
4
0
0
0
0
2
1
0
0
4
0
0
1
4
0
0
0
0
NIL
VALU?
1.003
0.001
0.001
0.301
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.003
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.010
0.100
0.001
0.001
0.001
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.010
0.001
O.OP1
0.100
0.001
0.001
0.010
0.001
0.001
0.001
SIGN?
#
5
4
3
4
7
4
2
3
3
8
8
4
4
3
4
8
8
4
4
1
8
4
5
4
8
8
7
5
5
5
4
4
4
8
4
3
4
6
6
1
4
4
4
8
2
3
8
4
1
8
4
3
1
4
3
3
4
SIGNIFICANT VALUES
MINIMUM
80.000
5.400
7.000
2.600
12.000
6.000
0.001
0.001
34.000
0.150
0.600
5.000
0.020
0.010
0.200
0.003
215.000
294.000
12.800
8.000
0.090
0.030
0.002
11.000
5.500
0.005
0.005
0.022
0.300
0.110
0.030
0.092
7.000
0.013
0.005
2.000
76.000
1.000
0.100
0.100
5.540
3.600
11.880
88.900
0.500
0.020
0.040
0.030
0.002
0.006
1.800
0.001
0.003
0.060
0.131
0.010
0.046
MAXIMUM
239500.000
7.000
9.000
20.000
26.000
9.000
2.000
7.000
1584.000
18.100
26.000
35.000
0.100
0.020
12.000
0.300
8600.000
7434.000
1062.000
8.000
1.230
0.960
0.033
773.300
202.800
0.118
0.009
0.231
14.000
1.734
4.000
0.180
183.800
0.837
0.020
5.100
1650.000
142.000
0.700
0.100
16.440
25.000
2000.000
5148.000
1.000
0.030
0.654
0.370
0.002
0.037
33.000
0.060
0.003
1.540
1.419
0.025
0.068
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 12TH SUBCATEGORY
BASED ON ALL SIGNIFICANT READINGS
MEAN
93014.000
6.225
8.133
11.900
16.286
8.000
I.000
2.367
699.333
3.854
10.050
18.250
0.080
0.016
3.617
0.057
3283.125
4074.750
464.450
8.000
0.257
0.380
0.018
393.750
77.950
0.025
0.006
0.094
3.246
0.669
1.902
0.125
59.440
0.275
0.011
3.567
685.500
62.033
0.367
0.100
11.547
11.325
537.970
1711.437
0.750
0.027
0.264
0.170
0.002
0.020
10.025
0.022
0.003
1.040
0.658
0.016
0.052
DATE: 08/25/75
o
I
n
o
n
o
-------�
BASED ON DATA FROM 70 SINGLE SU8CATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXO EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLGMULTPL SUBCATFGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
-------�
CCNCENTRATKN ANALYSIS OF EFFLUENT
TOTAL JONE NIL NIL SIGNF
« # * VALU? #
SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR ALL SUBCftTEGORY
SIGNIFICANT VALUES BASED ON ALL SIGNIFICANT READINGS
MINIMUM MAXIMUM MEAN
DATE: 08/25/75
FLOW GPD
PH, ACID
PH.ALKLN
TIJRRIDTY
TEMP C
D. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFICE
CYND.TTL
CYND.CHL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLO
ALUMINUM
BARIUM
CADMIUM
CALCIUM
,_,, CHLORIDE
w CHRM.TTL
M CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SELFNIUM
SILVER
STRONT'M
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
126
53
93
38
57
12
52
52
55
35
4
6
34
35
9
.02
33
4
6
30
9
30
2
30
1
30
4
3
7
3
2
10
31
5
30
1
30
11
30
14
3
34
30
31
30
1
30
30
3
1
30
2
6
32
32
1
3
30
0
0
0
4
0
8
51
24
2
3
2
4
13
42
13
1
13
1
0
14
74
2
0
39
0
0
0
0
18
8
0
0
1
1
0
0
10
0
1
20
38
0
0
0
0
24
14
2
117
1
85
0
1
10
120
55
2
1.000
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.010
0.100
0.001
0.001
0.005
0.005
0.001
0.001
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.100
0.001
0.001
0.013
0.100
0.001
0.001
0.00 I
0.010
0.001
0.001
0.100
0.100
0.100
0.100
0.100
0.010
0.100
0.100
0.100
0.100
0.010
0.010
0.001
0.010
0.001
0.001
0.100
0.001
0.001
0.001
0.010
73
33
38
55
114
56
23
47
89
114
118
38
78
75
11
92
109
119
96
103
22
122
96
36
96
122
123
119
135
116
116
95
1EO
95
125
96
105
96
111
103
54
"96
35
96
125
72
82
121
a
•95
39
120
93
34
5
1>8
94
80.000
3.900
7.000
0.080
3.000
0.600
0.001
0.001
4.300
0.020
0.300
0.650
0.010
0.006
0.010
0.042
0.002
0.200
70.600
0.900
0.200
0.020
0.030
0.002
1.040
1.400
0.005
0.005
0.012
0.110
0.040
0.003
0.007
0.160
0.003
0.004
1.000
4.000
1.000
0.100
0.100
1.270
1.600
10.400
3.600
0.500
0.020
0.020
0.002
0.030
0.002
0.004
0.500
O.QOl
0.010
0.002
0.020
5000000.00
7.000
11.600
10COOOO.OO
38.300
25.000
64.000
15700.000
10160.000
1029.000
1000000.00
650000.000
34.300
210.000
0.079
1018.000
21 . 000
50000.000
149700.000
1062.000
40.000
158.000
2.770
1.900
3536.000
15680.000
5.990
1.020
8.167
44.000
18.230
17.790
4.907
206.000
11.220
15.500
363.000
6625.000
1748.000
59.500
635.200
4000.000
50.000
28970.000
1000000.00
1900.000
1.670
49.310
0.056
8.320
0.126
14.970
95.200
6.530
0.010
0.172
25.000
395055.500
6.531
8.267
15407.371
18.207
7.333
5.179
423.190
346.269
16.107
8538.930
7423.992
1.334
2.903
0.021
27.692
0.655
2468.606
3104.734
46.321
5.423
3.114
0.465
0.065
147.976
329.957
0.372
0.040
0.284
3.710
1.624
1.383
0.145
22.479
0.240
0.304
21.491
518.863
143.682
3.726
26.226
70.816
13.089
684.779
8603.184
39.319
0.077
1.531
0.017
0.905
0.017
0.450
15.010
0.292
0.010
0.009
1.239
H
O
e
I
t-H
s
-------�
BEPYLL'M 126 102 16 0.001 8 0.002 0.006 0.004
CHIP HC 126 119 0 0.010 7 . 0.100 50.400 7.400
TVDLSLDS 126 124 1 0.100 1 1187.000 11R7.000 1187.000
ANTIMONY 126 99 0 0.001 27 0.010 2.500 0.242
COBALT 126 122 0 0.001 4 0.010 0.333 0.091
THALIUM 126 100 0 0.001 26 0.005 0.068 0.021
TIN 126 94 0 0.001 32 0.020 2.813 0.168
BASED ON DATA FROM 173 SINGLEMULTPL SUBCATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
M
§
n
o
•z
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-------�
GUICFLIN.FS ANOLfSIS OF AFFLUENT SAMPLE STREAMS, DISCHARGED
SIGM=ICANT VAU'ES (*G/HR) .0 .2
MINIMUM MAXIMA MEAN # H
FLOW GPD 120000.000 23800CO.OO 1171285. OC
PH.ALKLN 7.200 10.20C 8.4S1
TURBIOTY 8.300 70.00C 24.062
TEMP C 13.000 33.000 20.550
r. It. 6^>2.401 1071928.00 236635. OCO
RSIO CHL 74947. 107 74947.187 74947.187
ACIDITY 0.0')6 3430172.00 1256940. OC
ALKALNTY 10419.152 16260251.0 4836969.00
AMMONIA 9.638 265838. 25C 52738.457
B.O.D.5 578. 2«6 13399109.0 1769665. OC
COLOR 0.001 85.000 22.4CO
SULFIDE
CYND.TTL
KJLOHL N
PHENOLS
CONOCTNC
TTLSOLDS
TSSPSLOS
STLBLSLO
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPEP
FLUORIDE
IRCN.TTL
IRON, DSL
LEAD
MAGMES'M
MANGANES
MOLYBOMN
OIL.GRES
HARDNESS
C.O.D.
TTL PHOS
"CB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULF1TE
TITANIUM
ZINC
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SILVER
STRCNT'M
BERYLL'M
ANTIMONY
THALIUM
TIN
9.6-18
0.020
163.848
9.147
340.000
197395.562
665.029
9.463
9.638
11.566
0.095
34661.227
146353.500
0. 005
0.005
8. 642
1.700
37.852
18.926
2.886
169.631
0.473
0.473
794.882
89897.312
5327.598
"5fr77.496
9.4IS3
1020.098
719.178
20231.629
104564.750
192.762
0.946
0.960
40.690
0.095
4.801
I32.4HO
12.302
o.oqs
87.058
0.095
9.549
2.891
274.413
541091.250
0.02C
680674.750
115422.12!i
7000.000
42769952.0
7181922.00
5677.816
899348.250
70198.437
1577. 37K
5757967.00
4416346.00
141.937
141.93''
49959.23*.
11354. 99f
84896.750
191254.937
58419.945
2865242.00
22510.500
1790.776
2926365.00
22062352.0
11460970.0
5677.496
128631. 37?>
591439.81?
1790120.00
15157071.0
19277360.0
5931495.00
2679.82?
74407. 37!'
28652.42?
124.993
2868. 83J
2143857.00
6431.570
664.34"
419041.63T
0.09r>
9.540
2.S91
324.72;'
75002.812
0.020
117697.250
17111.766
1601.667
19500672.0
990494.687
2843.639
81703.812
19715.723
320.157
1654531. OC
1713041.00
70.971
70.971
6R30.016
5678.348
24489.441
39785.629
5385.789
701252.250
3106.419
454.062
448987.312
7386179. OC
2791752.00
5677.496
22585.379
242281.062
403551. OCO
4905544. OC
7369054. OC
967590.375
1038.679
11757.656
11432.273
36.786
851.569
333765. 75C
1454.655
95.526
50615.254
0.0?5
9.549
2.891
299.567
1
4
4
2
2
5
2
3
8
5
4
1
6
4
9
8
0
I
0
0
0
2
0
5
2
1
2
0
1
0
3
0
TO ANY WHERE FOR 1ST SUBCAT, ALL SIGNIF CONCENTRTNS 08/25/75
4 .6 .8 LIMIT MAX (MG/HR)/M2
« # K « MINIMUM MAXIMUM MEAN LIMIT
120000.000 2880000.00 1171285.00
7.20000 10.200 8.4909
8.30000 70.000 24.0625
13.00000 33.000 20.5500
0.24446 36.542 12.4127
1.76464 1.765 1.7646
0.00006 116.933 51.2002
5.58774 2672.122 594.9734
0.00618 42.564 6.9236
0.37051 456.771 106,2476
0.00100 85.000 22.4001
0
1
0
0
0
1
0
3
0
0
0
0
2
0
0
0
0
0
1
0
0
0
0
0
1
0
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
1
1
0
0
0
0
0
p
4
0
0
0
1
0
0
1
4
4
0
2
1
0
0
0.00618
0.00000
0.10498
0.00151
340.00000
72.85019
0.42609
0.00349
0.00618
0.00741
0.00003
3.18298
24.23595
0.00000
0.00000
0.00341
0.00028
0.01397
0.00698
0.00178
0.10868
0.00017
0.00017
0.29336
31.19321
1.96619
0.61112
0.00349
0.37647
0.26542
7.46662
38.59033
0.10477
0.00035
0.00062
0.01502
0.00006
0.00308
0.04889
0.00454
0.00003
0.03213
0.00006
0.00612
0.00185
0.04544
120.961
0.000
34.041
25.803
7000.000
8360.270
244.829
0.134
30.658
11.536
0.353
1287.192
603.876
0.015
0.015
1.703
1.222
2.572
31.430
1.992
470.858
0.767
0.294
114.043
3625.608
1883.434
0.611
4.385
130.835
122.423
3241.211
4309.445
1325.984
0.353
5.352
6.731
0.107
0.461
73.083
2.452
£.023
68.863
0.000
0.006
0.002
0.054
15.8034
0.0000
10.3539
3.2853
1601.6665
3017.0588
72.0814
0.0686
4.1702
2.1350
0.0713
260.7668
236.7766
0.0076
0.0076
0.3708
0.6113
1.4508
4.0563
0.2373
75.0103
0.1499
0.0561
41.3866
897.5842
326.9219
0.6111
1.0368
39.2281
33.6866
768.4561
1145.1038
205.9730
0.1093
1.1224
1.9689
0.0223
0.1367
20.6544
0.3181
0.0067
8.2027
0.0001
0.0061
0.0019
0.0496
0.126
83.021
0.503
1.258
0.126
1.258
25.158
5.032
0.503
37.737
289.315
6.289
2.516
0.025
1.258
0.126
*fl
H
o
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0
§
H
§
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-------�
BASED ON DATA FROM 70 SINGLE SU8CATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
B4SED ON DATA FROM 173 SINGLEMULTPL SUBCATEGCRY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
g
Ul
n
§
-------�
GUIDELINES
FLOW GPD
PH, AC 10
PH.ALKLN
TUPPIDTY
TEMP C
0. 0.
PSIO CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIOE
CYND.TTL
CYND.CHL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLOS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM,HEX
COPPER
FLUORIDE
IRGN.TTL
IRON, DSL
LEAD
MAGNFS'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.P.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUf
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
PORON
MERCURY
NICKEL
NITRATE
NITRITE
SELcNIU"
SILVIA
STPONT"'
ANAL 'SIS OF EFFLUENT ;Af,PLE STREAMS, CISCHARGED
SIGNIFICANT VILLAS (MG/H6. 956
4.731
9.463
8.707
0.047
3 .6.610
:,3.152
0.900
0.946
0.237
i6.775
.5.795
9.463
0.316
.7.286
0.189
0.237
2 2.964
52D4.535
7 '4.341
2.367
4.731
.8.199
1 !5.059
48 ,2.059
1 14.705
5.831
0.396
0.633
0.563
1.658
3.2°3
0.443
7.518
0.01S
0.563
0.047
5.857
340 65. -SI 7
94.425
65.359
605729. >50
85163.487
50000.000
69312B96. 3
1809736.30
6813.086
55356.329
64043.020
369.364
5060761.00
11631492.0
22346. 379
23.656
5477.370
68207.^37
44«"V53. ?50
354493.312
12 "514. '930
5388470. 30
27760.125
4782.020
1862963.00
40878'512.0
12029422.0
74692.1.25
266137. 425
1064550.00
1469079.00
24804016.0
18203DOB.O
108005. '562
2043.926
47046.605
18'.. 405
185160.000
9.1)79
55612. r>90
616374. ''50
3106L.V19
13.304
130. 372
68).30.f(7'5
2301.477
61.317
65.859
50715.621
2353.049
3037.733
7003468.00
79248.750
1280.923
2397.762
2983.699
112.112
396782. OCO
1042264.62
1059.071
14.383
463.276
7944.496
19762.434
17133.062
511.951
192121.750
1125.334
345.667
90407.562
2322880. DC
729504.000
6522.742
14740. 8S1
92983.187
106668.875
1624655.00
2264889. OC
9502.941
229.640
3163.320
62.292
11105.758
6.5E6
1777.215
48074.277
2226.361
6.936
12.060
5650.434
0
24
31
33
4
36
33
20
28
17
19
23
27
1
34
27
0
5
1
6
0
5
4
6
9
7
6
8
7
0
2
3
TO ANY WHERE FOR 2ND SUBCAT,
4 .6 .8 LIMIT MAX
# # # * MINIMUM
9555.00000
3.90000
7.00000
0.50000
7.00000
0.00086
0.00011
0.00011
0.00043
0.00053
0.01086
1.00000
2
4
2
1
0
3
6
4
3
5
4
6
2
1
4
0
2
3
2
0
0
0
2
2
5
2
1
4
2
0
1
0
0
2
1
4
0
0
1
1
0
1
1
0
0
0
0
0
0
7
1
6
0
4
3
14
4
12
12
8
10
0
5
1
0.00012
0.00886
0.00886
0.00266
0.00008
0.20000
1.38728
0.00895
0.00058
0.00092
0.00032
0.00001
0.01147
0.03244
0.00013
0.00051
0.00006
0.01063
0.00103
0.00092
0.00001
0.01211
0.00004
0.00004
0.01033
0.22949
0.45822
0.00143
0.00081
0.02869
0.00666
0.34424
0.18074
0.00057
0.00001
0.00002
0.00011
0.00046
0.00044
0.00002
0.00442
0.00000
0.00011
0.00001
0.00021
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HR)/H2
MAXIMUM MEAN LIMIT
5000000.00 555015.312
7.000 6.4520
9.500 8.2026
1000000.00 38483.3906
27.000 18.2022
32.508 3.2733
62.031 8.8548
6701.824 348.7239
1196.569 98.5984
186.378 8.9611
443062.937 9247.0937
650000.000 18103.5273
0.489
0.013
0.009
986.673
0.655
50000.000
2814.633
32.364
0.561
2.554
2.293
0.080
1786.213
486.987
0.823
0.003
1.474
7.079
7.065
7.063
0.641
193.337
0.462
0.337
23.051
1466.709
176.433
10.402
3.093
105.197
79.970
618.969
1124.156
20.114
0.215
3.188
0.025
2.847
0.001
1.995
30.586
2.253
0.001
0.026
5.386
0.0898
0.0101
0.0089
30.4373
0.0389
3037.7329
483.2761
4.8024
0.1061
0.2255
0.1988
0.0098
68.2163
57.3080
0.0762
0.0020
0.0599
0.8928
0.9560
0.4960
0.0324
9.8392
0.0508
0.0172
4.2642
131.1501
33.4473
0.5998
0.4549
6.4056
6.9416
102.7513
167.6941
1.2235
0.0180
0.3133
0.0067
0.2716
0.0009
0.1099
3.3825
0.1152
0.0007
0.0019
0.3560
0.016
10.842
0.066
0.164
0.016
0.164
3.285
0.657
0.066
4.928
37.783
0.821
0.329
0.003
0.164
"
0.016
"3
B
C
8
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n
o
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CHIP HC .
ANTIMONY
COBALT
THALIUM
TIN
47.314
11.355
18.929
1.892
30.771
BASED ON DATA
59.143
11.355
31.545
31.545
2526.172
53.228
11.355
25.237
11.913
613.321
70 SINGLE SU8CATEGOPY PLANTS INCLUDING 28 EFFLUENT
0.00407 0.012 0.0083
0.00606 0.006 0.0061
0.00353 0.004 0.0039
0.00011 0.004 0.0014
0.00630 0.060 0.0367
STREAMS 1 MXO EFFLUENT STREAMS
BASED ON DATA FROM 173 SIMGL C.MULTPL SUBCATEGOOY PLANTS INCLUDING 120 EFFLUENT
STREAMS
6 MXD EFFLUENT STREAMS
H
§
o
o
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n
H
z
G
S
-------�
GUIDELINES
AMAL'?IS OF
EFFLUc'VT SA
SIGNICIC*NT VAU ES
FLOW GPD
PH, ACID
PHiALKLN
TURBIDTY
TEMP r
0. 0.
RSIC CHI
ACIDITY
ALKALNTY
AMMONIA
B.O.P.5
COLOR
SULFIDE
CYND.TTL
CYNO.CHL
KJLOHL N
PHENOLS
CONrCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRP, HEX
COPPER
FLUORIDE
IRON.TTL
IRON.OSL
LEAD
MAGNES'M
MANGANES
MOLYPOMN
OIL.GRES
HARDNESS
Cn n
• U. \J »
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SELENIUM
SILVER
STRONT'M
MINIMUM
8510.000
6.100
7.000
2.000
13.000
1.419
0.142
0.118
18 )4.547
1.419
14.195
1.000
10.504
ifl.205
>2.473
U.l<>5
0.840
2 70.000
135 T2. 094
47.343
4.749
2.839
8.073
7.8!>4
4 31.667
807.297
11.237
11.237
1.205
589.040
14.341
9.498
1.419
105.424
1.419
0.190
99.725
5698.566
•> T- A C Q QQ
C. 1 **?• O^V
14.766
9.498
210.079
< 20 . 1 58
2731.031
7161.199
23.744
1.187
3.014
12.650
0.475
6.742
0.443
71.232
0.420
12.655
0.063
0.950
MAXI -1UN
2880000.00
7.00C
11.60C,
100. OOC
30.000
1084419.00
11362. 75C
3470142.00
11603287.0
268935.937
13555242.0
110.000
10844.195
47.194
22.473
688606.312
31808.191
6000.000
43268320.0
7265609.00
394.460
909827.875
68318. 37S
8.989
2168838.00
4467807.00
22.473
19.63!>
50541.35?
9214.105
79902.812
63021.430
59100. 6R4
1968220.00
22772.801
1409.745
2960465.00
15181871.0
1 1 "\ ?1 'n 7 n
1 i j £. L y 3 I • V
292570.750
130130. 25€
382800.000
1810980.00
153336B9.0
18174864.0
108441.93V
2711. 04P
124438. 87!'
12.650
2S170.7K
6.74?
13115.28V
2168836.00
6506.516
12.65».
672.090
10382.461
'1PLE STREAMS, DISCHARGED TO ANY WHERE FOR 3RD SUBCAT,
(MG/HR) .0 .2 .4 .6 .
MEAN # # # #
609177.312
6.540
8.351
29.0S2
19.526
80118.500
2982.188
412609.187
1472658. OC
17773.105
743339.812
29.167
2069.706
41.556 3000
22.473
56658.375
2162.022
1656.923
6683400.00
357454.687 16 3 0 2
104.571
35582.930
5669.156
8.611 3000
273833.500
421430.187
17.782 3000
14.036 3000
2780.998 20 1 0 0
4428.840 3000
7606.758 14 6 3 3
9019.332
2194.969 24 1 1 1
143430.187
910.244
254.449
167509.250 9534
1726084. OC
QTflinQAflT 11 T A 1
7 / U 1UT •OOf 11 I 1 1
19961. 6<55 20 2 1 0
27084.781
62908.109
150392.812
2270326. OC
2313372. OC
12670.734
243.096
11144.430 17 4 2 1
12.650
5120.715
6.742 1 0 00
1033. 6C3 23 0 0 2
170766.812
1484.910
12.655
43.154 17 3 1 0
2973.145
8 LIMIT MAX
# « MINIMUM
8500.00000
6.10000
7.00000
2.00000
13.00000
0.00010
0.00032
0.00032
0.05605
0.00041
0.00181
1.00000
0.00009
0 0 0.00128
0.00075
0.00154
0.00001
270.00000
0.30461
0 4 0.00398
0.00006
0.00022
0.00026
0 0 0.00026
0.03144
0.02001
0 0 0.00038
0 0 0.00038
1 4 0.00001
0 0 0.01978
0 1 0.00072
0.00052
0 1 0.00002
0.01370
0.00011
0.00000
0 6 0.00283
0.18684
1x ft rt977ft
^ U • \Jf. t f O
0 2 0.00031
0.00012
0.00181
0.00362
0.02351
0.14507
0.01022
0.00033
0 4 0.00003
0.01612
0.00007
0 0 0.00023
0 3 0.00000
0.00205
0.00000
0.01612
0 0 0.00003
0.00019
ALL SIGNIF CONCENTRTNS 08/25/75
(MG/HRI/M2
MAXIMUM
2880000.00
7.000
11.600
100.000
30.000
13.469
0.941
89.975
693.359
10.328
367.642
110.000
0.375
0.002
0.001
12.393
1.068
6000.000
4414.922
71.032
0.161
8.895
2.408
0.000
290.243
132.061
0.001
0.001
1.250
0.309
1.232
17.318
0.578
73.286
0.223
0.083
30.304
2031.703
A^n <«9 1
O J U* Pfc 1
14.046
1.272
28.218
40.407
1197.738
434.648
30.637
0.034
23.094
0.016
3.612
0.000
1.845
21.204
0.555
0.016
0.016
6.227
MEAN
609177.312
6.S400
8.3S14
29.0916
19.5259
2.1507
0.2864
19.2146
83.1073
0.8992
30.9559
29.1667
0.0923
0.0014
0.0008
1.9168
0.0751
1656.9229
535.9268
9.1933
0.0396
0.4221
0.3504
0.0003
27.4767
26.8175
0.0006
0.0005
0.1756
0.1487
0.3248
1.1840
0.0321
7.1318
0.0244
0.0154
7.2027
175.0685
c4 i A co
??• 1U 73
0.7854
0.3044
4.2539
7.0959
170.3216
133.6552
2.7118
0.0101
1.5525
0.0161
0.4030
0.0002
0.1246
4.4206
0.0951
0.0161
0.0021
0.5619
LIMIT
0.030
19.607
0.119
0.297
0.030
0.297
5.941
1.188
0.119
8.912
Afl ^9A
OO» JtO
1.485
0.594
0.006
0.297
0.030
•fl
H
o
a
g
Ul
o
i
h!
H
§
t;
w
o
-------�
HC . 851.661 851.661 851.661 0.06182 0.062 0.0618
THALIUM 15.186 - 56.780 35.983 0.00412 0.019 0.0117
TIN 8.233 754.279 217.610 0.00551 0. UO 0.0372
BASED ON DATA FROM 70 SINGLE- SURCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
BASED ON DATA FPQ«» 173 SINGLKMULTPL SUBCATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
O
§
•^
H
2
c
w
o
-------�
GUIDELINES
; ANALYSIS OF
EFFLUFNT SAMPLE STRFAMS, DISCHARGED TO ANY WHERE FOR 4TH SUBCAT,
SIGNIFICANT VALUES
FLOW GPO
PH, ACID
PHiALKLN
TURBIDTY
TEMP C
D. 0.
RSIO CHL
ACIDITY
ALKALNTY
AMMONIA
B.0.0.5
COLOR
SULFIDE
CYNDtTTL
CYNO.CHL
KJLOHL N
. PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLOS
STLBLSLD
ALUMINUM
., BARIUM
*. CALCIUM
0 CHLORIDE
IRONtTTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OILiGRES
HARDNESS
C.O.D.
PCB'S
POTASS «M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ARSENIC
BORON
NICKEL
NITRATE
NITRITE
SELENIUM
STPONT'M
COBALT
THALIUM
TIN
BASED
BASED
f INI MUM
16290.000
3.900
7.000
4.800
11.000
473.345
3.509
0.007
5<43.4f>5
1.030
94.672
1.000
2.942
0.237
53.396
11.0:-i4
1.183
190.000
37147.414
315.701
2.9
-------�
GUIDELINES
FLOW GPO
PH, ACID
PH.ALKLN
TURBIOTY
TEMP C
0. 0.
RSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
KJLDHL N
PHENOLS
CONDCTNC
TTLSCLDS
TSSPSLDS
STLBLSLO
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS 'M
SILICA
snoiui
SULFATF
SULFITE
TITANIUM
ZINC
ARSENIC
BORPN
MERCURY
NICKEL
NITRATE
NITRITE
SILVE0
STRONT'M
CHLC HC
COBALT
THALIUM
TIN
B4SED
ANALYSIS OF EFFLUENT SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOR 5TH SUBCAT,
SIGNIFICANT VALUES IMG/HRI .0 .2 .4 .6 .8 LIMIT MAX
n 1 PJ I n U™
23040.000
3.900
7.200
2.000
B.OOO
0.237
6.388
0. 142
14.984
63.876
638.760
1.000
14.200
95.703
7.100
0.200
33405.746
568.014
47.488
10.082
18.927
0.473
3633.939
2868.471
23.264
212.966
143.414
94.976
4.272
1040.972
5.918
1.420
997.249
56985.672
5623.340
57.314
47.317
1419.508
1306.432
5421.691
23232.609
142.004
4.260
8.544
14.984
4.749
0.237
5.188
283.901
0.214
0.430
4.732
47.321
4.732
4.732
9.463
ON n*TA FROM
n« A I '"itjri
5000000.00
6.900
9.500
67.000
30.000
89618.500
11987.328
235251312.
8454015.30
134726.500
5299100.00
33.000
13247. 750
237190.375
33119.250
3700.000
58252048.0
988791.437
1068.158
71396.062
20014.305
206.322
3420596.00
6278363.00
1797.539
264846.687
174787.500
137859.375
896.182
748399.250
14984.160
1498.416
794617.875
8990496.00
4839401.00
29047.156
103498.000
549660.187
5713P9.250
22583872.0
21329200.0
67436.250
449.525
9287.281
29.968
99944.312
744.449
7723.977
239701.437
17087.270
59.918
27483.020
1068.097
4.732
4.734
1363. 559
70 SINGLE
1150033. OC
6.167
8.217
21.110
18.445
26477.512
4155.469
29516080.0
1794102.00
10980.645
387514. 5t2
14.000
2523.607
44539.277
2042.371
1233.819
10133491.0
115428.875 11 4 2 2 2
740.265
5257.957
3453.230
50.542 15 2 0 0 0
438670.687
1187365.00
419.112 17 3 1 O 0
20407.613 17 2 0 1 1
13476.477 95310
12439.480
276.012 14 5 2 0 0
115921.687
984.225
280.365
122443.125 84100
2533572.00
928497.562 62430
5992.371 14 2 2 1 1
29023.734
130441.500
115416.125
2976454.00
2803668. OC
10402.512
158.931
2636.554 10 3 2 0 1
22.476
17694.449
135.419 34000
1080.682 14 3 0 1 0
54102.445
2930.729
17.224 12 1 0 0 0
6798.344
557. 7C9
. 4.732
4.733
667.852
SUBCATEGORY PLANTS INCLUDING 28 EFFLUENT
23040.0000
3.90000
7.20000
2.00000
8.00000
0.00004
0.00044
0.00001
0.00054
0.00444
0.03821
1.00000
0.00067
0.01014
0.00038
0.20000
4.05121
1 0.01045
0.00341
0.00054
0.00092
0 0.00002
0.03351
0.15438
0 0.00018
1 0.01463
4 0.00302
0.00270
1 0.00003
0.03537
0.00011
0.00014
7 0.03016
0.67018
5 0.30265
1 0.00308
0.00585
0.08377
0.01944
0.29179
0.37628
0.00168
0.00004
4 0.00007
0.00054
0.00034
3 0.00004
3 0.00005
0.01290
0.00000
0 0.00002
0.00059 .
0.00721
0.00059
0.00059
0.00117
STREAMS I
ALL SIGNIF CONCENTRTNS 08/25/75
IMG/HRI/M2
MAY T MUM UCAU ifuTT
n« A i nun
5000000.00
6.900
9.500
67.000
30.000
2.415
0.434
8526.008
162.981
4.947
41.035
33.000
1.028
4.988
0.256
3700.000
1310.596
16.549
0.034
0.435
0.789
0.014
549.537
227.541
0.045
2.472
1.354
1.068
0.070
26.852
0.543
0.054
17.024
798.912
51.265
0.706
14.266
17.921
47.554
208.703
519.341
0.951
0.029
1.141
0.001
3.622
0.026
0.422
9.662
0.233
0.003
0.711
0.010
0.001
0.001
0.049
MXO EFFLUENT
n^Mii
1150033.00
6.1667
8.2175
21.1100
18.4450
0.6479
0.1534
1074.4673
37.0059
0.3380
5.5272
14.0000
0.1422
0.7917
0.0251
1233.8188
274.9814
2.6759
0.0139
0.0754
0.1204
0.0027
39.1489
28.4317
0.0135
0.4265
0.2530
0.2021
0.0098
2.7490
0.0357
0.0073
2.9627
114.3819
16.1518
0.1541
1.9711
2.6053
5.8015
57.7035
71.6864
0.2506
0.0089
0.1415
0.0008
0.4113
0.0036
0.0574
1.9174
0.0616
0.0007
0.1473
0.0088
0.0006
0.0007
0.0253
STREAMS
t. i n * i
7.323
0.044
0.111
2.219
0.444
0.044
3.329
25.521
0.555
0.222
0.002
0.111
0.011
•fl
H
tr\
a
S
(jl
O
i
^
H
M
0.
-------�
BASED ON DA"A FPJM 173 S INGI.&M'JLI "L 5U3CATEGOPY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
M
g
s
n
i
-------�
GUIDELINES ANALYSIS OF EFFLUENT SAMPLE STPEAMSt CISCHARGED
SIGNIFICANT VUU^S (MG/HR) .0 .2
FLOW GPD
PH, ACID
PH.ALKLN
TURRIOTY
TEMP c
D. 0.
PSIT CHL
ACIDITY
ALKALNTY
AMMONIA
B. 0.0.5
COLOR
SULFIDE
CYNO.TTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIU"
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON.DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
GIL.GPES
HARDNESS
c.o.o.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BORON
NICKEL
NIT&4TE
NITRITE
SELENIUM
SILVER
STRONT'M
ANTIPCNY
COBALT
n i r, i nun
250.000
5.900
7.000
0.001
11.000
1815. 643
435.754
12.617
23966.488
184.525
2050.360
0.001
16.086
32.172
574.865
16.086
600.000
425949.875
4466.480
709.710
65.363
145.251
3.217
11839.477
52441.176
6.171
1.815
9.802
643.450
47.207
10.894
64.345
6434.496
4.826
25.419
3486.035
60645.145
7097.098
321.725
2129.129
12273.805
4393.855
435052.062
699022.625
363.129
7.263
804.312
205.033
675.622
14.478
3631.287
25.938
205.036
6.434
1261.667
1387. fl33
126.167
JTH A 1 'LI< 1
1670000.00
7.000
11.300
20.000
29.400
51875.625
435.754
506716.812
4190467.00
957227.937
522803.062
50.000
4021.563
1261.667
100933.312
4021.563
17300.000
300531200.
4278941.00
321724.937
6983.336
9272.770
201.078
36560016.0
1650782.00
13077.223
2412.937
5847.086
99680.187
40215.621
7962.691
1166.253
2513476.00
1686.220
1916.216
260597.625
147993472.
2428427.00
16086.246
369116.687
1452514.00
307553.875
12957471.0
1608624640.
603234.312
6308.332
33228.439
205.033
12064.684
1327.115
130298.562
4826.023
205.036
126.167
247326.000
1387.333
126.167
nc MIX
417836.000
6.450
8.587
8.417
16.780
26845.633
435.754
103206.125
1352869.00
83750.312
118295.500
27.000
1179.285
646.919
16670.414
787.927
3113. 3C8
41464864.0
499981.750
161217.312
1470.152
2513.690
63.351
6653134.00
549287.062
2657.547
406.039
2331.625
16821.051
9303.055
2242.966
419.567
388899.250
593.249
442.450
92916.750
20720560.0
706164.250
5329.750
124589.667
330681.875
126631.687
3876026.00
133167488.
121404.812
1475.152
10182.070
205.033
4004.723
410.948
32553.664
1396.682
205.036
. 66.301
33703.922
1387.833
126.167
ff
1
2
4
9
3
3
9
8
4
5
4
4
1
4
1
0
3
0
0
2
0
1
1
0
1
I
0
2
0
1
TO ANY WHERE FOR
4 .6 .8 LIMIT
0
3
0
0
2
2
0
0
0
0
1
0
0
0
0
0
0
0
0
1
1
0
0
0
0
1
0
0
0
0
0
1
0
0
2
1
0
1
0
1
1
0
0
0
0
1
1
0
3
2
4
2
2
0
4
3
0
1
0
0
6TH SUBCAT,
MAX
MINI MUM
250.00000
5.90000
7.00000
0.00100
11.00000
6.10732
1.46576
0.01318
80.61664
0.36113
3.95548
0.00100
0.05093
0.10185
1.12505
0.05093
600.00000
1432.77759
15.02401
1.38896
0.08555
0.42774
0.01019
37.48210
166.02132
0.02076
0.00610
0.03297
2.03707
0.15879
0.03664
0.20371
20.37070
0.01528
0.08550
10.63996
191.99393
13.88955
1.01853
2.63698
38.09103
14.77972
593.32129
1229.97876
1.22146
0.02443
0.17110
2.20695
1.31849
0.04583
4.27745
0.04256
2.20699
0.02037
1.31849
1.45034
0.13185
ALL SIGNIF CONCENTRTNS 08/25/75
( MG/HR »/M2
HAVfUllli u e • ki irutT
HA* i nun
1670000.00
7.000
11.300
20.000
29.400
85.120
1.466
156.703
40387.891
1734.599
473.619
50.000
1.702
1.318
105.479
22.070
17300.000
97769.562
910.240
68.439
32.884
51.202
0.043
16072.418
6135.430
23.697
1.945
11.443
335.297
68.S81
64.223
0.396
4681.023
9.931
4.414
472.231
31482.004
3984.662
3.955
722.389
4885.855
3310.483
102647.062
5092677.00
891.219
6.946
39.950
2.207
75.038
0.282
412.507
9.445
2.207
0.132
52.613
1.450
0.132
ncM«
417836.000
6.4500
8.5875
8.4168
16.7800
45.6135
1.4658
72.9648
6172.2578
153.2671
169.6420
27.0001
0.9024
0.7102
26.6597
2.2793
3113.3076
25181.0937
220.9950
34.9140
4.8548
9.2117
0.0320
3481.0679
1442.5596
4.7323
0.4142
4.4135
53.1798
11.6612
9.2081
0.2666
693.6689
1.6569
1.1894
154.4095
7613.3281
1056.2708
2.9902
243.0642
865.7451
515.1646
15478.4375
405493.437
166.6663
2.3596
11.3723
2.2070
13.2912
0.1874
99.2158
1.9342
2.2070
0.0761
16.1883
1.4503
0.1318
i *n * i
0.592
390.929
2.369
5.923
0.592
5.923
118.463
23.693
2.369
177.695
1362.329
29.616
11.846
5.923
0.592
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THALIUM 7.263 252.33:; 129.7S8 0.02443 0.264 0.1441
TIN 212.339 1209.30" 662.135 0.52740 2.191 1.1540
64SED OM DATA FROM 70 SINGLE SUUCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXO EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLSPULTPL SUBCATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 HXO EFFLUENT STREAMS
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GUIDELINES ANALYSIS OP EFFLUENT SAMPLE STREAMS, CISCHARGED
SIGNIFICANT VALUES IMG/HR) .0 .2
FLOW GPD
PH, ACID
PH.ALKLN
TURBIOTY
TFMP C
D. 0.
BSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.0.0.5
COLOR
SULFIDE
CYND.TTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLOS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM,TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON, DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ZINC
ARSENIC
BOFON
MERCURY
NICKEL
NITRATE
NITRITE
SILVER
STRONT'M
CHLP HC
TVOLSLQS
25440.000
6.000
7.000
0.160
8.000
0.473
0. 189
0.189
1. 104
1.893
18.926
0.650
5.677
472.494
25.151
1.136
0.200
2117.707
4.734
47.320
2.668
2.101
0.246
51.608
95.029
0.210
0.153
0.102
2.271
2.350
0.204
0.755
22.710
0.379
0.189
160.967
953.820
262.868
13.626
20.439
32.702
85.162
454.200
57.910
11.355
n.142
0.454
1.104
1.135
0.211
0.216
9.652
0.267
0.197
1.987
410.806
27342240.0
rt n /\ 1 ""ij!-|
5000000.00
7.000
11.200
110.000
38.300
520437.437
51005.719
17334288.0
10882027.0
747585.312
16559890.0
350.000
185354.375
473.125
772455.937
237867.125
3600.000
87992752.0
2211040.00
662418.875
53324.723
63806.277
887.109
9771341.00
26190512.0
94624.937
11553.395
92507.187
498379.187
91156.687
91156.687
1987.148
4300588.00
6955.324
1309.119
352285.875
30866560.0
3363074.00
376978.625
300578.562
1258435.00
539370.250
34626784.0
32350528.0
889725.125
27655.988
37849.996
2.208
6<5215.062
1561.312
8137.746
719149.875
12639.281
611.652
74171.375
1160656.00
27342240.0
lit. M |T|
726132.125
6.611
8.219
26.243
18.896
62181.023
11246.047
897914.125
1845089.00
49794.586
522869.437
33.119
15480. 6C9
472.809
46087.023
6829.375
1189.621
12466425.0
185252.375
51063.016
5383.145
4818.219
82.066
574268.875
1151420. OC
7155.191
457.276
2530.877
36852.531
11046.828
10169.035
301.267
290919.187
780.016
284.994
84386.500
3047166.00
609465.937
21640.180
25613. 3<55
121245.500
103230.750
3087197. OC
2971691. OC
79238.437
1525. 5E8
4563.191
1.656
8183.859
117.257
3S28.014
119365.750
1726.557
. 43.462
6009.137
233012.750
27342240.0
TO ANY WHERE FOR
4 .6 .8 LIMIT
7TH SUBCAT, ALL S1GNIF CONCENTRTNS 08/25/75
MAX (MG/HRI/M2
UTUfUIIU UAVfMIIU UCAtl irtlfT
25440.0000
6.00000
7.00000
0.16000
8.00000
0.00023
0.00020
0.00020
0.00594
0.00204
0.02037
0.65000
0
21
35
27
25
29
22
20
31
13
15
20
22
5
1
24
0
5
1
6
6
6
5
8
4
9
7
4
8
3
1
1
1
2
2
2
4
5
6
3
4
1
6
5
3
4
0
1
0
2
1
1
1
2
4
6
4
4
3
2
2
1
0
0
0
3
0
0
1
2
3
0
2
2
0
2
1
3
1
0
1
13
1
12
11
4
7
11
4
15
14
13
12
2
1
2
0.00823
0.03395
0.04294
0.00082
0.20000
6.24113
0.00286
0.00341
0.00407
0.00579
0.00005
0.23146
0.57931
0.00024
0.00018
0.00046
0.01019
0.00816
0.00069
0.00049
0.07565
0.00023
0.00011
0.07156
4.08926
0.16605
0.02119
0.00682
0.14667
0.14887
0.60264
0.25973
0.01704
0.00064
0.00204
0.00594
0.00034
0.00023
0.00097
0.04329
0.00072
0.00005
0.00068
0.05527
981.03174
T-IM/\ l nwn
5000000.00
7.000
11.200
110.000
38.300
91.713
12.354
93292.375
4880.547
162.237
5092.832
350.000
166.938
0.235
53.385
51.621
3600.000
14822.543
479.827
110.546
11.612
13.298
1.061
1050.803
2489. 7T9
14.890
2.507
20.075
108.155
40.883
40.883
0.971
1118.848
5.942
7.078
64.176
8487.910
792.205
184.444
147.064
273.098
241.906
7514.512
7562.016
576.923
4.615
9.769
0.012
39.634
0.112
8.573
151.421
2.549
0.133
14.147
41.644
981.032
n t Mr*
726132.125
6.6111
8.2195
26.2434
18.8959
14.3656
4.8001
4270.3008
430.2241
9.1368
147.4298
33.1192
9.3117
0.1347
8.5828
1.7043
1189.6211
2959.8916
58.8908
11.2790
1.2700
1.0787
0.0477
116.3426
304.4280
1.2936
0.1007
0.6635
9.8726
3.1944
2.9138
0.1164
60.9505
0.3333
0.3366
16.8285
785.9788
164.7575
9.1362
9.4846
34.6422
31.1644
780.5610
837.2876
35.1512
0.2332
1.2782
0.0089
2.4846
0.0120
2.3400
28.0779
0.3862
0.0128
1.6372
8.8034
981.0317
i_ i n a «
0.071
46.989
0.285
0.712
0.071
0.712
14.239
2.848
0.285
21.359
163.749
3.560
1.424
0.014
0.712
0.071
*1
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ANTIMCNt 216.567 <3.574 1036.';64 234.331 0.00628 0.131 0.0454
TIN 10.977 1957.953 365.981 0.01182 0.541 0.1942
BASED ON TATA FROM 70 SINGLE SUBCATEGOHY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXO EFFLUENT STREAMS
B«SED ON OA^A FROM 173 SING'.CMULTPL SUBCATEGCRY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
-------�
GUIDELINES ANALYSIS OF EFFLUENT SAMPLE STREAMS, DISCHARGED TO ANY WHERE FOP 8TH SUBCATt
SIGNIFICANT VALUES (MG/HP) .0 .2 .4 .6 .8 LIMIT MAX
ALL SIGNIF CONCENTRTNS
(MG/HRJ/M2
08/25/75
FLOW GPD
PH, ACID
PH.ALKLN
TURHIOTY
TEMP C
r. c.
PSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.O.D.5
COLOR
SULFIDE
CYNDtTTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLO
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON. DSL
LEAD
MAGNES'M
MANGANES
MOLYBDMN
OIL.GRES
HARDNESS
C.O.D.
TTL P^OS
PCD'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
T ITANIUM
ZINC
BORON
MERCURY
NICKtL
NITRATE
NITF ITE
SILVFR
STPONT'M
BERYLL 'V
ANTIMCNY
THALTUM
MINIMUM
80.000
5.600
8.300
0.080
3.000
39075.820
25.241
0.463
49963.945
4.542
1362.600
0.001
46.263
55.370
786.469
1.817
1800.000
4070673.00
3192.141
3954.245
18.168
55.515
1.380
106673.875
427674.687
2.271
2.271
41.483
331.566
277.516
42.108
13.853
814.227
4.626
13.879
726.720
1058317.00
25240.586
862.979
92.526
19365.656
9715.211
746220.812
559318.625
925.258
156.303
4.609
333.093
0.45R
23.046
20124.367
100.962
2.271
1276.856
0.457
45.838
13.879
MAXIMUM
239500.000
6.900
10.200
4.000
26.000
151443.500
514051.750
217558.562
24041792.0
6089536.00
1641011.00
24.000
7513.062
694.026
26572512.0
1403.604
17300.000
112825408.
12468849.0
3954.245
3356.998
21334.785
832.867
14573911.0
63109728.0
514.026
201.896
2245.767
18246.852
252280.750
148284.125
4543.172
6413784.00
47450.926
6326.789
75025.562
35588192.0
5100975.00
12632.434
3954.245
31260656.0
142352.812
69950576.0
124440064.
39542.445
790.849
32002.164
65022.160
32.702
15790.543
1356305.00
8421.621
158. 164
76316. (175
11R.617
35811.227
1818.952
MEAN
110508. OCO
6.467
8.850
2.227
17.325
103275.167
131214.625
120052.437
5263817. OC
796896. 125
288475.375
14.250
2422.439
304.288
5381913. OC
702.710
6742.500
39738448.0
2986219.00
3954.245
1561.807
7006.629
343.791
5619206.00
15982110.0
169.475
109.067
718.329
9289.207
33689.648
29912.598
1671.451
2359798. OC
13375.195
1506.578
36770. 598
15049612.0
1382625.00
6747.703
2023.385
6725132. OC
79851.187
18323520.0
33418848.0
14985. 3S8
420.872
9123.258
19061. 1S9
18.926
2854.969
409929. 187
2882.850
81.9S2
33171.148
54.9C4
10033.023
646.248
0
3
6
8
6
5
2
6
4
2
4
1
5
1
6
6
2
2
2
0
0
3
0
I
3
2
1
1
I
1
0
0
0
2
0
0
0
0
0
0
0
1
1
0
0
0
0
1
0
0
0
0
I
0
0
0
0
0
1
0
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
1
1
0
0
0
1
0
1
0
MINIMUM
80.00000
5.60000
8.30000
0.08000
3.00000
7.03594
0.00967
0.00029
31.71034
0.00288
0.53905
0.00100
0.02936
0.02943
0.36867
0.00115
1800.00000
1274.51514
2.02594
0.13823
0.00770
0.03523
0.00088
14.74697
15.06252
0.00038
0.00038
0.00138
0.21043
0.00963
0.00582
0.00770
0.51676
0.00294
0.00881
0.46122
146.30544
2.87235
0.54770
0.05872
12.29070
4.97642
397.78003
165.02539
0.19404
0.02765
0.00293
0.21140
0.00029
0.00154
12.77223
0.03867
0.00021
0.81038
0.00029
0.02909
0.00092
MAXIMUM
239500.000
6.900
10.200
4.000
26.000
58.012
17.970
67.680
840.461
212.880
57.367
24.000
0.967
0.266
928.930
0.194
17300.000
43218.605
38.041
0.138
0.870
2.949
0.145
5582.645
6397.078
0.097
0.077
0.359
2.523
8.819
5.184
1.740
1777.087
6.865
0.221
13.509
4930.980
178.322
1.746
0.138
5628.754
34.807
2976.204
19163.148
9.669
0.193
4.424
11.708
0.015
2.183
73.541
1.164
0.053
12.279
0.012
0.437
0.132
110508.000
6.4667
8.8500
2.2267
17.3250
27.1803
4.9657
28.3089
282.3503
31.2123
18.0018
14.2502
0.3131
0.1101
198.2405
0.0976
6742.5000
10745.5273
17.3878
0.1382
0.1821
1.2399
0.0426
1544.1975
1561.6196
0.0193
0.0147
0.1313
1.3665
1.3634
1.1355
0.2649
425.7314
1.4330
0.1083
6.0592
2469.4851
66.3391
1.1470
0.0985
1175.9929
14.3028
1374.6101
3522.9609
2.6479
0.0908
0.8767
3.1651
0.0071
0.3618
34.3941
0.4690
0.0152
5.2382
0.0048
0.1760
0.0392
0.109
72.195
0.436
1.094
C.109
1.094
21.877
4.375
0.438
32.816
251.589
5.469
2.188
0.022
1.094
0.109
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TIN . ^'S.Ai1; 171h.:<60 976.034 0.00362 0.016 0.0083
BASER ON DATA FROM 70 SINGLE SUPCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXO EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGLSMULTPL SU8CATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXO EFFLUENT STREAMS
M
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GUIDELINES ANALYSIS OF EFFLUENT SAMPLE STREAKS, DISCHARGED TO ANY WHERE FOR 10THSU8CAT,
SIGNIFICANT VALUES (MG/HR) .0 .2 .4 .6 .8 LIMIT MAX
FLOW GPD
PH, ACID
PH.ALKLN
TUP8IDTY
TEMP C
D. 0.
PSID CHL
ACIDITY
ALKALNTY
AMMONIA
B.0.0.5
COLOR
SULFIOE
CYND.TTL
KJLOHL N
PHENOLS
. CONOCTNC
MINIMUM
1296.000
6.950
7.000
6.100
14.000
223277.125
3283.488
32.330
28?3798.00
16108.777
197009.187
70.000
3233.020
6566.973
139989.687
656.697
136.000
TTLSOL05 22393376.0
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM,TTL
£ CHRM.HEX
-------�
GUIDFLIN.eS ANALYSIS 3F
FLOW GPD
PH, AGIO
PHiALKLN
TURBIOTY
TEMP C
D. 0.
PSID CHL
ACIDITY
ALKALNTY
AMMCNIA
B. 0.0.5
COLDP
SULFIOE
CYNDfTTL
KJLDHL N
PHENOLS
CONDCTNC
TTLSOLDS
TSSPSLDS
STLBLSLD
ALUMINUM
BARIUM
CADMIUM
CALCIUM
CHLORIDE
CHRM.TTL
CHRM.HEX
COPPER
FLUORIDE
IRON.TTL
IRON.DSL
LEAD
MAGNES'M
MANGANES
MOLYBOMN
OILtGRES
HARDNESS
C.0.0.
TTL PHOS
PCB'S
POTASS'M
SILICA
SODIUM
SULFATE
SULFITE
TITANIUM
ziNr
BORON
MERCURY
NICKEL
NITRATE
NITRITE
SILVFO
STPONT'M
ANTIMONY
THALIUM
TIN
SI
MINIMUM
1^0.000
5.400
7.000
2.600
12.000
5671.291
32131 7.437
1419.782
20890.461
5.000
946.522
148.208
2460.957
90.305
21 5.000
10236325.0
272519.937
416349.937
823.379
1044.523
104.087
382991.750
45285.859
47.321
47.319
0.043
0.530
1041.17*
283.957
946.495
243722.001)
107.039
189.304
29641.656
2646124.00
9465.219
2470.138
5204.375
155229.500
34074.789
413631.06?
731984.125
9465.219
189.304
461.092
638.719
16.468
49.403
23663.047
37.861
63.872
2089.046
2789.071
1H.583
373.754
EFFLUC-NT JAUPLE STREAMS, DISCHARGED TO ANY WHERE FOR IZTHSUBCATi
GNIPICAMT VULU i:
MAXIMUM
239500.000
7.000
9.000
20.000
26.000
468393.687
42581.242
66256. '.'00
55150800.0
149031.687
1353137.00
35.000
3481.744
1040. «75
624524.937
15613.121
8600.000
213431392.
55270448.0
416349.937
64013.781
49961.992
468.394
40245424.0
3715923.00
988.831
260.219
7806.559
115273.062
14277.398
208174.937
4788.023
1739707.00
18527.570
348.174
42581.242
85872176.0
7390211.00
36430.621
5204.375
406461.625
532265.500
42581232.0
109604112.
10645. 3D9
1044.523
•34036.605
19256.134
16.468
1613.356
702590.437
2089.046
63.372
80147.312
13429.207
236.630
643.635
MEAN # # * #
93014. OCO
6.225
8.133
11.900
16.286
252216.667
21295.352
23827.375
26817856.0
46077.937
270975.625
18.250
1899.550
467.330 0200
169185.812
2526.693
3283.125
106062848.
15738552.0 0000
416349.937
9693.039
14803.980
237.533 4001
12658724.0
1250295.00
385.510 8000
104.019 6100
2084.401 3200
35045.672 3 1 0 0
5641.477 3101
79439.500
2162.429 0121
834531.500
4694.129
252.651
38071.727 1101
26029632.0
1574655.00 1301
11214.207 4011
5204.375
276149.250
307619.250
11931564.0
.33092592.0
10055.262
624.182
6269.996 3320
6143.332
16.468 1000
420.743 7100
229355.250
726.317
63.872 0100
30430.500
6746. 8C5
187. 7C6
461. -502
8 LIMIT MAX
# H MINIMUM
80.00000
5.40000
7.00000
2.60000
12.00000
9.09668
0.00152
0.01119
51.54784
0.22742
3.56926
5.00000
0.02563
0 1 0.02532
0.39419
0.01547
215.00000
1748.93604
0 4 143.23148
10.25293
0.13645
0.17846
0 0 0.00256
65.43637
7.73735
0 0 0.00832
0 0 0.00641
0 0 0.00001
0 1 0.00009
0 0 0.16677
0.04548
0 0 0.11791
14.78985
0.01829
0.00641
0 0 5.06445
452.10571
1 0 1.51611
0 0 0.42204
0.12816
10.00942
5.45801
70.67128
125.06377
1.51611
0.03032
0 0 0.07878
0.30322
0 0 0.00281
0 0 O.OOB44
2.30691
0.00128
0 0 0.03357
0.35693
0.70742
0.01998
0.06471
ALL SIGNIF CONCENTRTNS 08/25/75
IMG/HRI/M2
MAXIMUM
239500.000
7.000
9.000
20.000
26.000
89.520
22.380
10.613
9422.836
27.303
279.749
35.000
1.119
0.112
22.492
0.595
8600.000
83186.125
1361.076
10.253
1.576
3.021
0.246
2386.818
750.846
0.166
0.030
0.325
19.695
2.439
14.557
0.273
396.348
1.393
0.112
22.380
5662.117
181.989
3.053
0.128
183.963
279.749
22379.914
57605.914
5.595
0.336
1.040
0.476
0.003
0.358
369.269
0.357
0.034
14.435
2.362
0.112
0.113
MEAN
93014.0000
6.2250
8.1333
11.9000
16.2857
40.9224
11.1907
3.5840
3363.1860
9.1483
45.1750
18.2500
0.4728
0.0543
9.8638
0.1690
3283.1290
24241.9687
701.9519
10.2529
0.5807
1.2061
0.0709
1079.6816
210.6118
0.0572
0.0123
0.1656
5.3731
0.9658
8.0989
0.1926
182.8601
0.4794
0.0520
11.5397
2250.5264
89.9471
1.2882
0.1282
62.9482
90.5371
5661.0156
8981.3906
3.5555
0.1815
0.4913
0.3973
0.0028
0.0727
98.0056
0.1214
0.0336
4.6728
1.5117
0.0578
0.0802
LIMIT
0.098
64.951
0.394
0.984
0.098
0.984
19.682
3.936
0.394
29.523
226.343
4.921
1.968
0.020
0.984
0.098
*4
M
O
a
8
01
f}
O
3
H
§
;§
-------�
EASED ON DATA FROM 70 SINGLE SUBCATEGORY PLANTS INCLUDING 28 EFFLUENT STREAMS 1 MXD EFFLUENT STREAMS
BASED ON DATA FROM 173 SINGL&MULTPL SU6CATEGORY PLANTS INCLUDING 120 EFFLUENT STREAMS 6 MXD EFFLUENT STREAMS
1
H
M
O
-------�
173 .SINGLE . ND MULTIPLE SUBCA"EG3PY PLANTS USED IN THIS SAMPLE STREAM ANALYSIS INCLUDE THE FOLLOWING IOCS: DATE: 08/25/75
5
193
341
419
579
737
967
8
194
345
427
609
739
976
14
; 10
:<47
'•28
i 21
•'41
P79
26
214
359
429
646
756
980
24
217
360
431
656
780
2002
41
,?19
!(72
'i57
i,58
-'81
2003
53
229
374
475
664
788
2004
54
234
376
477
665
814
2005
70
241
378
489
672
833
2006
107
246
382
511
678
835
2008
108
247
383
519
679
836
2009
109
249
384
520
689
864
2018
110
283
388
530
698
924
2021
111
284
390
533
699
926
2023
131
286
392
535
700
927
2025
135
287
393
538
707
928
2029
143
296
398
548
709
931
2033
144
301
399
561
713
932
2035
153
321
409
562
721
942
2036
177
339
416
566
727
966
2037
2038 2041 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2054 2057 2061 2063 2066 2067 2068 2070
2077 2078 2079 2080 2081 2083 2085 2086 2087 2088 2089 2090 2091
O
-------�
.70 SINGLE SUBCATEGORY PLANTS USED IN THIS SAMPLE STREAM ANALYSIS INCLUDE THE FOLLOWING !0#S DATE: 08/25/75
8.05 14.12 54.06 70.08 109.01 110.02 321.06 359.07 374.06 392.07 419.12 429.12 431.06 475.01 530.02
533.02 566.09 579.07 665.07 698.03 700.01 727.01 788.02 814.10 864.07 927.10 966.09 967.07 976.08 979.12
980.12 2003.04 2004.03 2005.06 2006.06 2008.01 2009.03 2023.07 2029.02 2035.06 2036.03 2037.01 2038.06 2041.06 2044.02
2046.12 2047.12 2048.08 2049.06 2050.06 2051.06 2052.06 2054.02 2057.08 2063.05 2066.02 2067.03 2070.05 2077.10 2078.10
2079.10 2080.10 2083.02 2085.12 2086.10 2087.10 2088.10 2089.10 2090.10 2091.10
176 RAW WASTE SAMPLE STREAMS, DISCHARGED TC ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING IDfSs 08/25/75
5 5 14 26 41 53 70 107 108 110 111 135 135 144 153 193 193 194 210 214
219 234 241 246 247 283 284 286 287 287 287 296 321 339 341 341 345 345 347 360
372 374 376 382 384 388 388 390 392 393 393 409 416 419 427 428 429 477 511 519
530 533 538 538 548 561 562 566 609 621 646 665 672 678 678 679 689 699 721 741
741 741 756 780 780 738 788 814 836 836 836 864 864 924 926 926 927 931 931 932 H
•8
942 976 2003 2003 2004 2004 2005 2005 2006 2006 2008 2008 2009 2023 2023 2025 2025 2029 2029 2033 |
2033 2035 2035 2036 2036 2037 2037 2038 2041 2041 2043 2043 2044 2044 2046 2046 2047 2047 2048 2048 *"
2050 2051 2052 2054 2054 2057 2061 2061 2063 2063 2066 2066 2067 2067 2068 2068 2070 2070 2077 2077 o
2078 2078 2079 2079 2080 2080 2083 2083 2085 2085 2086 2086 2088 2089 2090 2091 g
O
120 EFFLUENT SAMPLE STREAMS, DISCHARGED TC ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING ID*S: 08/25/75 g
5 5 26 53 70 107 108 109 111 135 177 177 193 194 214 219 234 241 246 247
283 284 286 287 296 301 321 339 341 345 347 359 360 372 374 376 382 383 384 388
390 392 398 399 409 416 419 427 428 429 431 477 489 511 519 530 538 548 561 562
579 609 621 646 665 672 678 678 679 698 721 737 737 739 741 756 780 788 814 835
924 926 927 928 931 931 932 942 979 2002 2002 2018 2018 2021 2021 2025 2025 2033 2033 2043
2043 2045 2045 2049 2054 2054 2057 2061 2061 2067 2067 2068 2068 2077 2077 2081 2081 2085 2085 2087
6 MXD EFFLUENT SAMPLE STREAMS, DISCHARGED TO ANY WHERE USED IN THIS ANALYSIS INCLUDE THE FOLLOWING ID#S: 08/25/75
249 520 658 699 707 727
-------�
APPENDIX A
SAMPLE PORTFOLIO
-------�
Portfolio Number
Page 1 of 18
HAMILTON STANDARD DIVISION OF UNITED AIRCRAFT
DATA COLLECTION SURVEY FOR THE MACHINERY AND MECHANICAL PRODUCTS
MANUFACTURING EFFLUENT LIMITATIONS GUIDELINES DEVELOPMENT PROGRAM
AUGUST 8, 1974
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Portfolio Number
Page 2 of 18
1.0 MANUFACTURING ESTABLISHMENT DATA
Name
Address
Telephone
Type of Manufacturing Establishment
Size of Manufacturing Establishment, Square Feet_
Number of Employees
Standard Industrial Classification
Number (s)
Narrative Description of Activity
Principal Products Manufactured and Amounts
-------�
Portfolio Number
Page 3 of i R
1.0 (Continued)
Principal Raw Materials Consumed and Amounts
(Use Additional Sheet if necessary)
Plant Personnel Contacted
(Name) (Title) (Extension)
-------�
Portfolio Number
Page 4 of 18
2.0 SPECIFIC PRODUCTION PROCESSES EMPLOYED
Check ( * ) processes performed in plant. Indicate major effluent
contributor ( *v ) f specify type.
2.1 Forming and Joining Type
Forging
Rolling '
Drawing
Embossing
Spinning
Coining
Sizing
Swaging
Intra Forming
Riveting
Staking
Bending
Seaming
High Energy Forming
Peening
Extruding
Heading
Flow Turning
Molding
Casting
Welding
Brazing
-------�
Portfolio Number
Page 5 of 18
2.1 (Continued)
Soldering
Bonding
Laminating
Smelting
Refining
2.2 Cutting or Stock Removal
Shearing
Blanking
Punching
Notching
Shaving
Turning
Threading
Milling
Drilling
Boring
Reaming
Honing
Tapping
Planing
Sawing
Shaping
Grinding
Chemical Machin.
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Portfolio Number
Page 6 of 18
2.2 (Continued)
Electro Discharge Mach.
Ultrasonic Machin
Electron Beam Mach.
Laser Mach.
Plasma Arc
Shredding
2.3 Surface Treatment and Cleaning
Annealing
Normalizing
Austenitiz ing
Quenching
Tempering
Shot Peening
Carborizing
Nitriding
Cleaning
Abrasive Blast
Sonic Cleaning
Plating
2.4 Finishing and Coating
Polishing
Buffing
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Portfolio Number
Page 7 of 18
2.4 (Continued)
Tumbling
Coating
Enameling
Porcelain!zing
Flame Spraying
Dipping
Galvanizing
Vacuum Coating
Overlaying
Electroplating
Vacuum Metalizing
Printing
Immersion Plating
Metal Coloring
Etching
Electroless Plating
Painting - Solvent
Painting - Water Base
Painting - Electrostatic
Anodizing
Other (Specify)
-------�
Portfolio Number
Page 8 of 18
2.5 Plastic Manufacture
Thermoforming
Foaming
Extrusion
Compression Molding
Injection Molding
Casting (Low Pressure Molding) ,
Laminating .
Calendering
Blow Molding
Centrifugal Molding
Slosh Molding
.6 Other Production Process Which May Affect the Quality and Quantity
Manufacturing Effluent
Calibration Equipment
Acceptance Testing
Air Pollution Control Equipment
Other
-------�
Portfolio Number
Page q of
3.0 COMPOSITION OF EFFLUENT STREAMS BEFORE TREATMENT
Constituents
Present Stream No. 1 Stream No. 2 Stream No. 3
Process Source
Quantity GPD
Alkalinity
Total Solids
Total Dissolved
Solids
Total Suspended
Solids
Settleable Solids
Ammonia
Acidity
Hardness
Sulfate
Chloride
Fluoride
Oil
Color
Specific
Conductance
PH
Carbonate
Turbidity
Iron, Ferrous
Silica
-------�
4.0 WASTE MANAGEMENT PROCESSES
4.1A Water Inputs to Plant
Type
A. River
B. Lake
C. Municipal
D. Well
E. Mine/Quarry
F. Other
4.IB Water Usage
Type
A. Process
B. Cooling
C. Boiler
D. Sanitary
E. Dust Control
F. Hydraulic
G. Other
Portfolio Number
Page 1Q of IB
Quantity GPP
Comments
Total Quantity GPP
%Recycle
H. Comments
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Portfolio Number
PageJ.1 o f 18
4.2 Effluents from Process and/or Property
Outfall No. Source GPP
1.
2.
3.
4.
5.
4.3 Description of the Current Requirements or Regulations Which Affect
the Effluent (i.e. Federal, State or Municipal Regulations).
4.4 Composition of Effluent Streams After Treatment
Constituents Stream No. 1 Stream No. 2 Stream No. 3
Present Ave. Range Ave. Range Ave. Range
1. Color
2. Turbidity
3. Odor
4. PH .
5. Acidity
6. Alkalinity
7. Ammonia
8. Dissolved Oxygen
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Portfolio Number
Page 12 of 18
4.4 (Continued)
9• Conductance
10- Residual Chlorine
11- Sulfide
12. Hardness
13. Total Solids
14. Total Suspended Solids
15. Settleable Solids
16. Algicides
17. Aluminum
18. Arsenic
19. Barium
20. Boron
21. Carbonate
22. Cadmium
23. Calcium
24. Chloride
25. Chromium
26. Copper
27. Cyanide
28. Fluoride
29. Iron, Total
30. Iron, Dissolved
31. Lead
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Portfolio Number
Page 13 of 18
4.4 (Continued)
32. Magnesium
33. Manganese
34. Mercury
35. Molybdenium
36. Nickel
37. Nitrate
38. Nitrite
39. Kjeldahl Nitrogen
40. Oil, Grease
41. Biochemical Oxygen Demand
42. Chemical Oxygen Demand
43. Phenols
44. Total Phosphates
45. Poly Chlorobiphenyl(s) PCB
46. Potassium
47. Selenium
48. Silica
49. Silver
50. Sodium
51. Strontium
52. Sulfate
53. Sulfite
54. Titanium
55. Zinc
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Portfolio Number
Page 14 of 18
4. 4 (Continued)
56. Chlorinated Hydrocarbons
57. Total Volatile Solids '
58. Surfactants
59. Plasticizers
60. Bromide
61. Antimony
62. Beryllium
63. Cobalt
64. Thallium
65. Tin
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Portfolio Number
Page 15 of 18
4.5 PROCESS WASTE TREATMENTS
Waste Stream Origin
(a)
(b)
(c)
(d)
(e) Describe present treatment and disposal
4.6 Present Treatment Information
Description When Capital Operating Raw Wastes
of Method* Installed Costs Costs Streams Treated
(a)
(b)
(c)
4.7 Performance of Treatment Methods
Method Qualitative Rating Waste Reduction Accomplished**
(a)
(b)
(c)
*Inclu.de equipment, facilities, etc., including sizes and quantitative
description.
**%Reduction in waste load as measured by such quantities as total
suspended or dissolved solids, chlorides,pH, BOD, Orcranics. etc.
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Portfolio Number
Page ie of 18
5.0 WASTE TREATMENT COST INFORMATION
List technology and rough cost estimates for elimination of your
remaining plant wastes. (Recycle or zero waterborne waste basis)
Please include isolation, containment, chemical treatment, settling
ponds, filtrations, centrifuging, reverse osmosis, demineralization,
evaporation, solids handling and disposal or other pertinent treatments
Additional Stream
Treatment Treated
Estimated
%Waste Capital
Reduction Costs
Estimated
Operating
Costs
(a)
(b)
(c)
Future Treatment Plans
Method
(a)
(b)
(c)
5.2 General
Estimated
Installation
Time
Estimated
Cost
Estimated
Performance
(a) Do you foresee any changes in, your waste load in the next few
years (raw material or process changes, product purity, etc.)?
(b) Can the present process fee moeutiea or cnangea to
reduce effluent waste loads?
(c) Do "Good Housekeeping" practices have a major bearing on your
-------�
Portfolio Number
Page 17 of 18
5.2 (Continued)
effluent compositions or are they compositions determined entirely by by-
products of the process or quality of raw materials used?
(d) Does this plant have any unique waste situations as compared
to other plants producing the same products (raw material supply,
process, geographical location, other)?
(e) Are the treatment processes now used
(1) Sensitive to surges?
(2) Shutdown and startup?
(3) Maintenance requirements?
(f) Will the installation of projected waste control facilities cause
air, noise, thermal or other pollution effects?
(g) Are space or land requirements factors in future waste control
projects? (Explain)
-------�
Portfolio Number
of 18
(h) If you were building a new plant could waste effluents be
signficantly reduced or eliminated? (Explain)
(i) Are there any information or sampling data for this plant
available from other sources such as State or EPA agencies which
would be helpful to us in our study?
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PLANT NAME:
CORPORATION:
LOCATION:
PIANT REP.:
PHONE NUMBER:
PORTFOLIO NUMBER:
DATE:
COMMENTS:
ID
NO.
10
11
12
13
1U
WASTE TREATMENT DESCRIPTION
.IN-PLANT
Where Discharged (check
Chip dragout
Oil Removal
Filtration
Sludge removal
Batch dumps
Waste Treat-
ment Plant
Sewer
Contractor
Removal
WASTE TRFATMEriT
20 Screening
21 Emulsion breaking
22 Skimming
23 Chemical oxidation (incl.
cyanide)
2k Chemical reduction (incl.
chromium conversion)
25 Neutralization
26 Flocculation (coagulation)
27 Flotation
28 Sedimentation
29 Clarification
30 Filtration
31 Ion exchange
32 Reverse osmosis
33 Adsorption
31* Distillation
35 Chlorination
36 Lagoon
SLUDGE DEWATERING*
kO Thickening 60
4l Centrifugation 6l
kS Vacuum filtration 62
^3 Pressure filtration
BATCH
CONTINUOUS
Circle all processes and indicate sequence
by putting process numbers in order, i.e.
skimming, neutralization, clarification etc.
will be:
22
2S
29
OIL DISPOSAL*
Incineration/Combustion
Processing for reuse
Contractor removal
70
71
72
73
WATER DISCHARGE*
Sanitary sewer
Stream/river
Lake/pond
Deep well
Leach field
SLUDGE DISPOSAL*
50 Lagooning
51 Land fill
52 Incineration
53 Pyrolysis
51*- Contractor removal
OTHER
Circle if the following are discharged into
your waste treatment plant.
80 Sanitary wastes
8l Non contact cooling water
82 Boiler blowdown
* circle appropriate technique
-------�
PLANT NAME:
CORPORATION:
LOCATION:
PLANT REP:
PHONE NUMBER:
PORTFOLIO NUMBER:
DATE:
COMMENTS:
MANUFACTURING PROCESS NUMBER DESCRIPTION
CASTING & MOLDING
IT!Casting (specify type)
12. Molding (specify type)
13. Melting
14. Pouring
15. Thennof onning
16. Foaming
17. Other (specify)
MECHANICAL MATERIAL REMOVAL
TT. Milling
22. Turning
23. Drilling
24. Boring
25. Tapping
26. Planing
27. Grinding
28. Honing
29. Electro Discharge Mach.
210. Ultrasonic Mach.
211. Electron Beam Mach.
212. Laser Mach.
213. Plasma Arc Mach.
214. Polishing
215. Buffing
216. Abrasive Jet Mach.
217. Power Brush Finishing
218. Tumbling
219. Shaping
220. Sawing
221. Other (specify)
MATERIAL FORMING
31.Forgingfipecify type)
32. Rolling
33. Drawing
34. Bending
35. Shearing
36. Stamping
37. Extruding
38. Embossing
39. Spinning
310. Swaging
311. High Energy Forming
312. Heading
313. Crystallization
314. Squeezing
315. Calendering
316. Other (specify)
PHYSICAL PROPERTY MODIFICATION
Annealing
Normalizing
Austeniti zing
Quenching
Tempering
Peening
Carburizing (specify type)
Cyaniding
Heating Treating
Nitriding (specify type)
Radiation Processing
Other (specify)
4TT
42.
43.
44.
45.
46.
47.
48.
49.
410.
411.
412.
ASSEMBLY OPERATIONS
51.
52.
53.
54.
55.
56.
57.
58.
59.
510.
511.
512.
Welding
Brazing
Soldering
Riveting
Staking
Laminating
Adhesion Bonding
Assembly
Testing
Calibration
Shipping & Receiving
Other (specify)
65. Bright Dipping
66. Electropainting
67. Etching
68. Sputtering
69. Encapsulation
610. Anodizing
611. Electroless Plating
612. Electro Polishing
613. Phosphate Coating
614. Chemical Precipitation
615. Screening
616. Chemical Deposition
617. Chemical Polish*]^
618. Vacuum Evaporation
619. Immersion Platirigfr
620. Conversion Coating
621. Stripping
622. Other (specify)
MATERIAL COATING
71.Painting
72. Galvanizing
73. Vacuum Coating
74. Vacuum Metalizing
75. Overlaying
76. Coating (specify type)
77. Enameling
78. Porcelainizing
79. Flame Spraying
710. Dipping
711. Metal Spraying
712. Gas Plating
713. Hot Stamping
714. Printing
715. Other (specify)
CHEMICAL/ELECTROCHEMICAL PROCESSING ORE PROCESSING & REFINING
61. Electrochemical Mach.
62. Chemical Mach.
63. Electroplating
64. Pickling
81.Roasting & Sintering
82. Reduction S Metal Separation
83. Refining
OTHER
91.Cleaning (specify type)
92. Air Scrubbing
MANUFACTURING PROCESS FLOW DIAGRAM
INSTRUCTIONS:
Indicate the manufacturing
process flow by putting
process numbers in the
boxes in the proper order
for the main product lines.
Indicate liquid waste
sources and final products.
i.e. investment casting
followed by drilling and
then polishing will be:
Investment
NAME OF INDIVIDUAL FILLING OUT FORM:
Cutting Oils
-------�
PIAKT NAMT
CORPORATION:
LOCATION:
PLANT REP.:
PORTFOLIO NUMBER:
DATE:
COMMENTS:
PHONE NUMBER:
PLANT DATA
CATEGORIES
1. Casting & Molding
2. Mechanical Material
Removal
3. Material Forming
U. Physical Property
Modification
5. Assembly Operations
6. Chemical/Electro-
chemical Process-
ing
T. Material Coating
8. Ore Processing
and Refining
Other
Total
Floor
Area
ft2
No. of
Shifts
Worked
Process
Water
Used
gals/day
Process
Water.
Discharged
gals/day
Power
Used
KW
Qty. of
Product
Shipped
Lbs. or
No. of
Units
per day
c
H
-P
c
0)
Treatm
Plant
,
-------�
APPENDIX B
WATER DISCHARGE ANALYSIS
SOURCE LISTING (COMPILATION)
-------�
FCRTRA.M IV Gl RELEASE 2.0
*A IN
DATE = 75237
12/31/17
PAGE 0001
w
0001
0002
0003
G004
0005
0006
0007
0008
0009
0010
0011
C012
INTEGER VISIT 00000010
Ll IMFNSI ON PFAU4) ,PSW{ 14 ), PfcDC 14), PROCSS (103) ,PWDHR( 14 ) ,KS IC( 1731,00000020
1 ISBC7(30),TSBCT<4,30) ,KDST°,B(276,30) ,KPRCSS(3,103) 00000030
2 ,KPRCS1(3,64),KPRCS2(3,39) 00000040
EQUIVALENCE (KPRCSS(111).KPPCSl(1,1)),(KPRCSS(1,65 I,KPRCS2(1,1)) 00000050
DATA CBLNK,CX,CXX/" "," XS'XX'/, KY , KK /"YS'K"/ 00000060
1 ,KS!C/3079,3339,3341(3351t3353,3354,3355,3356,3357,3361, 00000070
2 3i62,3369,3398,3399,3411,3412,3421,3423,3425,3429,3431, 00000080
3 3432,3433,3441,3442,3443,3444,3446,3448,3449,3451,3452,3462, 00000090
4 3463,3465,3466,3469,3482,3483,3484,3489,3493,3494,3495,3496, 00000100
5 3497,3498,3499,3511,3519,3523,3524,3531,3532,3533,3534,3535, 00000110
6' 3536,3537,3541,3542,3544,3545,3546,3547,3549,3551,3552,3553, 00000120
7 3554,3555,3559,3561,3562,3563,3564,3565,3566,3567,3568,3569, 00000130
8 3572,3573,3574,3576,3579,3581,3582,3585,3586,3589,3592,3599, 00000140
9 3612,3613,3621,3622,3623,3624,3629,3631,3632,3633,3634,3635, 00000150
A 3639,3641,3643,3644,3645,3646,3647,3648,3651,3652,3661,3662, 00000160
B 3671,3672,3673,3674,3675,3676,3677,3678,3679,3691,3692,3693, 00000170
C 3694,3699,3711,3713,3714,3715,3721,3724,3728,3731,3732,3743, 00000180
0 3751,3761,3764,3769,3792,3795,3799,3811,3822,3823,3824,3825, 00000190
E 3829,3832,3841,3842,3843,3851,3861,3873,3911,3914,3915,3931, 00000200
F 3942,3944,3949,3951,3961,3991,3993,3995/ 00000210
DATA KPPCS1/ 00000220
1 3,'FORG','ING •,3,'ROLLS'ING«,3,"DRAW,«ING",3,•EHBO","SSNG*, 00000230
2 3,'SPINS'NINGS3,"COINS•ING•,3,•SIZI','NG«,3,'SWAG','INGS 00000240
3 3. • I NTR",1 FORMS 5, •RIVES ' TINGS5," STAK" , • INGS 3, • BEND" , ' ING" , 00000250
4 5,"SEAM',MNG',3,"H.E.","FORM",2,'PEEN","ING",3,•EXTR•,"UDNG", 00000260
5 3,"HEAD1,"ING",3,"FLW ","TRNG",1,"MOLD","ING",1,'CAST',"ING", 00000270
6 5,'HELD' ," INGS5,"BRAZ",•ING",5,"SOLD",•ERNG",5,«BONO•,•ING", 00000280
7 S.'LAMIS'ATNGSS.'SMELS'TINGSB.'REFIS'NINGSS.'SHEAS'RINGS 00000290
8 2,'BLAN','KING",2,'PUNCS'HING",2,"NOTC","HING",2,"SHAV","ING", 00000300
9 2,'TUP.N' , MNG'^.'THRE'.'ADNGSZ.'MILL" , " ING" ,2, • DRIL " , " LING', 00000310
A 2,'BORI' ,'NGS2,'REAMS "ING',2,'HONI","NG",2,'TAPP",•ING", OC000320
B 2,'PLAN',"ING",2,"SAWI",«NG",2,"SNAP","ING",2,"GRIN","DING", 00000330
C 6,'CHEM',1MACH',2,"E.O.S"MACH",2,"USON","MACH",2,•E.B.•,"MACH1, 00000340
D 2,"LASRS"MACH",2,'PLSH",' ARC",2,"SHRE',"DONG",4,"ANNE",'ALNG", 00000350
E 4,"NORM1,"LZNG",4,•AUST",•ENTZ',4,•QUEN","CHNG",4,"TEMP",•ERNGS 00000360
F 4,"SHOT1,"PEEN",4,'CARBS•ORIZ',4,"NITR","IDNG",4,"CLEA","NING", 00000370
G 4,'ABKS',1VBLS",4,ISONI1,>CCLN",6,"PLAT",1ING",2,"POLI","SHNG"/ 00000380
DATA KPRCS2/ 00000390
H 2,'BUFF',' INGS 2,"Time",'LING",7,'COAT',«ING",7,«ENAM',"ELNG", 00000400
I 7,'PORC','ELNZ',7,'FLAM',"SPRYS7,'OIPP","ING",7,'GALV,•ANIZ", 00000410
J 7,'VAC ' ,'COAT",7,'OVRL", ' AYNGS 6," ELCTS "RPLT" ,7, ' VACI", " MTLZ", 00000420
K 7,1PRIN','TING",6,'IMMRS'SPLT",7,•METL","COLR",6,•ETCH","ING", 00000430
L 6,'5LFSS ' SPLT ",7,« PAINS "TSLVS 7, "PAINS "TWTR" ,7, " PA IN", "TELS" , 00000440
M 6,'ANOO" ,' IZNGS9,"THRMS 'FORM' ,9, • FOAM" , ' ING" ,9, • EXTR" , "USN" , 00000450
N 9,'CMP*',"MOLD",9,'INJN",'MOLDS9,"LOHP","MOLD",9,"LAMI","NATGS 00000460
Q 9,'CALF',"NDRG",9,1BLOWS"MOLD",9,"CNTR",•MOLD",9,'SLSH","MOLD", 00000470
P 0,'CAL S'EQIPSO.'ACCPS " TEST SO, ' A IRC" , "TLEQ" , 0, "OTHE" , "R" , 00000480
0 0,'OTHE','RSO.'OTHE" ,'P" ,0,'OTHE','R"/ 00000490
REWIND 30 00000500
5 CONTINUE 00000510
"EAD(5,2000INS3CT,LSIC,LALL, 00000520
1 ,L=1,NSBCT1 00000530
2000 FOPMAT
-------�
FORTRAN iv r-i PLEASE 2.0
MAIN
DATE = 75237
12/31/17
PAGE 0002
to
i
to
0013
0014
0015
0016
0017
0018
0019
0020
0021
0022
0023
0024
0025
0026
0027
0028
0029
0030
0031
0032
0033
0034
0035
0036
0037
C038
0039
0040
0041
0042
0043
0044
OP45
0046
0047
0048
0049
0050
0051
0052
0053
0054
0055
0056
0057
0058
0059
0060
0061
0062
0063
0064
0065
0066
NPLNT=0 00000570
NPAPA=276 00000580
IF(LS IC.EQ.O)NPARA=104 00000590
00 15 I=1,NPARA 00000600
00 15 L=l,30 00000610
KOST"BU,L)=0 00000620
15 CONTINUE 00000630
20 CONTINUE 00000640
fctAO(30,1000,ENO=100HSIC, ID ,VIS IT,PROCSS,PFA,PSW,PWC 00000650
1000 FOR*!AT(IV,I4,75X,A1,158X, 00000660
1 103A2,3K250X),3X,3(14FIO.01,129X,9(250X)) 00000670
'lF(LALL.NE.O)GO TO 24 00000680
IFJVISIT.EO. KY IGO TO 24 00000690
IFIVISIT.eo. KK )GO TO 24 00000700
GO TO 20 00000710
24 CONTINUE 00000720
DO 26 J=lf173 00000730
IFUSIC.HQ.KSICUJIGO TO 28 00000740
26 CONTINUE 00000750
GO TO 20 00000760
28 CONTINUE 00000770
NPLNT = NPLNTH 00000780
DO 30 J=l,14 00000790
PrfDH°* 0.09290304 00000840
GO TO 30 00000850
29 CONTINUE 00000860
WRITEM6,3729) 10,J.PFACJ),PSW(J),PWD
-------�
FORTRAN IV Gl PSLEASf 2.0
MAIN
DATE = 75237
12/31/17
PAGE 0004
SUBPROGRAMS CALLED
SYMBOL LOCATION SYMPPL LOCATION SYMBOL LOCATION
IBC(IM# ].RO EXIT 1R4 MINO 1B8
SYMPOL
LOCATION
SYMBOL
LOCATION
EQUIVALENCE DATA MAP
SYMBOL LPCAT1CN SYMBOL LOCATION SYMBOL LOCATION
KPPCSS 1C8 KPRCSl 1C8 KPPCS2 4C8
SYMBOL
LOCATION
SYMBOL
LOCATION
SYMBOL
CBLNK
NSBCT
MPLNT
J
LOCATION
69C
6BO
6C4
6DB
SYMBO
cx
LSIC
NPARA
NS2
SC'lAS MAP
LOCATION
6AO
6B4
6C8
6 DC
SYMBOL
CXX
LALL
ISIC
NS1
LOCATION
6A4
6B8
6CC
6EO
SYMBOL
KY
L
ID
LOCATION
6A3
6BC
600
SYMBOL
KK
I
VISIT
LOCATION
6AC
6CO
604
ARRAY MAP
SYMBOL LOCATION SYMBOL LHCATIPN SYMBOL LOCATION SYMBOL LOCATION SYMBOL
PFA 6?4 PSW 71C PWD 754 PROCSS 78C PHOHR
KSIC 960 ISBCT C14 TSBCT CSC KDSTRB E6C
LOCATION
928
FORMAT STATEMENT MAP
SYMBOL LOCATION SYMBOL LOCATION SYMBOL LOCATION SYMBOL LOCATION SYMBOL LOCATION
2000 8FCC 1000 BFFA 3729 9020 3000 905C 3001 9071
3009 9084 3002 9097 3003 90AA 3004 90BF 3005 90CD
3007 90DE 3006 90ED 3010 90FB
-------�
FTRTRAN IV T,l "ELEASE 2,0
MAIN
DATE = 75237
12/31/17
PAGE 0005
LOCATION
C091C4
009286
0092BA
0092EE
009390
OC93BE
009 3E 2
009414
009438
00946A
0094B8
0094FE
009578
0095C4
009634
C0968A
0096CA
0096F4
009754
OC9838
0098E4
0099A6
009A38
STA NUK
7
12
15
18
23
26
30
34
37
40
45
48
52
55
58
61
65
68
71
74
77
80
93
LABEL
26
22
30
50
100
140
STATEMENT LABEL MAP
LOCATION
009100
0092A6
0092DO
0092FA
009 3 A 2
OQ93C4
0093FE
009420
009444
009470
009404
009530
009580
0095FE
009656
0096°C
009608
009700
0097AO
009884
0098F8
0099BC
009A54
STA MUM
9
13
16
19
24
28
31
35
38
42
46
49
53
56
59
62
66
69
72
75
78
81
95
w
LABEL
5
15
24
25
29
32
38
60
80
120
*OPTI3NS IN EFFECT* NOTERM,ID,BCD,SOURCE,NOLIST,NOOECK,LOAOtMAP,NQTEST
"OPTIONS IN EFFECT* NAME = MAIN , LINECNT = 58
*STATISTICS* SOURCE STATEMENTS = 97fFROGRAM SIZE = 39528
"STATISTICS* NO DIAGNOSTICS GENERATED
LOCATION
00926C
0092B2
0092EO
00932 E
009380
009304
009404
00942C
00945E
0094AC
0094EC
009566
0095B6
009612
009666
0096C4
0096E4
009712
0097EC
009800
009994
0099C8
009A62
STA NUM
11
14
17
21
25
29
33
36
39
44
47
51
54
57
60
63
67
70
73
76
79
82
96
LABI
20
28
35
40
70
110
130
-------�
F64-LEVFL LTNKAGc EDITOR OPTIONS SPCCIFIED XP.£F,l!ST
DEFAULT OPTIONS) USF.O - SI Z£=< 102400,204801
****MAPJ DOES NOT EXIST BUT HAS BEEN ADDED TC DATA SET
AUTHCMZATITN CODF IS 0.
CROSS REFERENCE TABLE
I
e>
CCNTPCL SECTION
NAME
MAIN
IHNFEXIT*
IHNECOMH*
IHNCCMH2*
IHNFMAXI*
IHNFCVTH*
IHNEFNTH*
IHNEFIOS*
IHNFIOS2*
IHNUOPT *
IHNFCONI*
IHNFCONO*
IHNEP.RM *
IHNIJATBL*
IHNFTEN *
IHNFTRCH*
LOCATION
1BO
1R8
9C110
A494
AA98
AAB4
A4*5C
AAA4
4AAC
ORIGIN
00
9A6H
9C28
ABR8
B2DO
B3B8
BF2B
C410
D4t8
DA20
0060
E048
E4FO
EAfO
F128
P2( 0
RCFEIS
LTNGTH
9A68
ICO
F8C
715
E5
B6F
548
FF8
5B8
340
2E5
4A2
5FC
638
. 198
2A6
TC SYMBOL
IBCOM*
MI MO
SEOOASD
. AOCCN«
AP ITH«
IHNUP°T
FCVEOUTP
FCVITUTP
FCVACUTP
ENTRY
NAMF
EXIT
IBCOM#
SEODASO
MAXO
ADCONO
FCVIOUTP
ARITH#
FIOCS#
FOCONI*
FOCONO*
ERRMON
FTEN#
IHNTRCH
IN CONTROL SECTION
IHNECOMH
IHNFPAXI
IHNCCMH2
IHN^CVTH
IHNEFNTH
IHNUCPT
IHNFCVTH
IHNFCVTH
IHNFCVTH
LOCATION
9A68
9C5A
AFE6
B200
63B8
B9F6
BF28
C470
0060
EOA8
EAFO
F128
F2CO
NAME LOCATION
FDIOCS*
MINO
FCVAOUTP
FCVEOUTP
AOJSWTCH
FIOCSBEP
IHNERRE
ERRTRA
LCCATICN
1BA
9BCO
9068
AA8C
AAB8
ABBO
AAAO
AAA8
AABO
9010
B2E6
BA62
BAE8
C2CA
CA76
E508
F2C8
REFERS
NAME LOCATION NAME LOCATION
INTSHTCH
AMAXO
FCVLOUTP
FCVCOUTP
TO SYMBOL IN
EXIT
IBCOMf
IHNCOMH2
FIOCS*
AOJSHTCH
IHNCMSE
FCVLOUTP
FCVCOUTP
FCVZOUTP
AB8E
B2FC AMI NO
BAF2 FCVZOUTP
BC32 INT6SHCH
CONTROL SECTION
IHNFEXIT
IHNECOMH
IHNCOMH2
IHNEFIOS
IHNEFNTH
SUNRESOLVED(W)
IHNFCVTH
IHNFCVT-H
IHNFCVTH
B312
B6AE
BEA8
-------�
PHFFPS
AA40
1A70
AA50
AEA9
SCOO
9120
B14D
BD14
BDfaC
C318
C31C
C5DO
0274
0295
0461
£438
£AEO
EAE8
F448
F454
ENTRY ADDRESS
TOTAL LENGTH
TO SYWQL !>'
IHN'ERRE
IHfgERRM
IHNCGMH2
IHNCPVIH2
IHNECOMH
I H N E R. R M
IHNECOMH
IHMFCOMH
IHNEf-'RM
FOCnNI*
INTSWTCH
IHNUCiPT
Fines*
IHNERRM
IHNUATBL
1HNFIOS2
IHNFIDS2
FTEN*
IBCOM*
FIOCS3EP
IBCOM*
FIOCSBEP
00
CONTROL SECTION
IHNERRM
IHNERRM
IHNCOMH2
IHNCGMH2
IHNECOMH
IHNERRM
IHNECOMH
IHNECOMH
IHNERRM
IHNFCflNI
IHNECOMH
IHNUOPT
IHNEFIOS
IHNERRM
IHNUATBL
IHNFIOS2
IHNFIOS2
IHNFTEN
IHNECOMH
IHNFFIOS
IHNECOMH
IHNEFIOS
F568
0)
LOCATION
AA6C
AA44
AA4C
AE50
AEAC
ABFC
B13D
BD18
B068
C314
C2CO
C320
C38C
C5C4
0260
D2AC
DFDC
EACC
EAE4
F450
F44C
REFERS TO SYMBOL IN
IHNCOMH2
IHNCOMH2
IHNCOMH2
IHNECOMH
IHNECOMH
IBCOM*
IHNECOMH
IBCOM*
FQCONO*
IBCOM*
INT6SWCH
ADC ON*
IHNERRM
IHNFIOS2
IBCOM*
IHNFIOS2
FT EN*
IHNUOPT
IHNTRCH
LDFIO*
AOCON*
CONTROL SECTION
IHNCOMH2
IHNCOMH2
IHNCDNH2
IHNECOMH
IHNECOMH
IHNECOMH
IHNECOMH
IHNECOHH
IHNFCONO
IHNECOMH
IHNFCVTH
IHNFCVTH
IHNERRM
IHNFIOS2
IHNECOMH
IHNFIOS2
IHNFTEN
IHNUOPT
IHNETRCH
SUNRESOLVED(M)
IHNFCVTH
-------�
APPENDIX C
RAW WASTE ANALYSIS SOURCE LISTING
(COMPILATION)
-------�
IV Gl RELEASE 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0001
0.001
0002
INTFGcR*2 LID
,KDSTPR,NSSTGM,NTSTRM,KGCNFA,KSIC,ISTRM,
0003
0004
0005
O
0006
1 LTSI01 ,I.TSID2,LTSID3
DIMENSION PFA(14),PSW( 14),PWO< 14 I , OWOHR< 14) ,KSIC( 1 73) ,
1 LIO( 7001 tKDSTRB(68,13,3> , TL IM< 77, 2) ,CONCEN( 77, 51 ,
TrONCN(68,13,3), ISTRM(5) , SLI D( 300) , ITS 101(400) ,LTSI 02 (3501 ,
LTSI93UOO) , FL IM( 12 ) , ALIM( 12 ) ,CL IM{ 77) ,KFDST(3,3 ) ,
KPARAM(5,68),KSTP.M<3,3),KAT<15),NSSTRM(3),NTSTRM{3) ,
TGCNFA(68,12,3),RF<77,14),F<77),
KGCNFA(68,12,2l) ,LIST(100,1) ,KWD<2) ,DAZE<2)
,PHOTOG(ll,4)
l' tTEXTBltlOS) ,TEXTB2(105),TEXTB3(901,TEXTB4(40)
EQUIVALENCE { TEXTB1 ( 1 ) ,KPARAM( 1 , 1 ) ) , < TEXTB2< 1 ) ,KPARAM< 1,22»),
HTEXTB3ll),KPARAM(l,43)),
DATA PHOTOG/
1 'ALOE* ,'HtOE« ,'S',2*' •, .019, 1.539, .496, .0114,4.9596, .767,
2 'HYDR'.'OQUI'.'NONE'^*' ',. 01, I. 03, . 168, .006, 5. 7984, .7489,
3 •THIO','CYAN',«ATEI,2*t ', 1. , 5. 1 , 1. 81, .5998, 5.6295,2 .5106,
4 'THIO', 'SULF' , 'ATE/', 'SULF',1 I TE«, 1.03, 9. 1,3. 642,. 870, 34. 9028,
5 5.7336/
DATA NKPARM.TEXTB1/68,
1'FLOW',' ',' ',' ',' ',
2'PH, '.'ACID1,1 1C1 ,' ',' '.'PH, S'ALKA'.'LINE1,' «,« •,
3'TUPBS'IOIT' ,'Y ',' ',' ',
4'TEMP", 'ERAT1 ,'URE •,' ',' *,
5'DISSS 'OLVE'.'D OX','YGEN' ,' ',
6'RESI1, 'DUAL1 ,« CHL* , • 0» IN' , • E ',
8'ALKA', 'LINI' ,'TY ',' ',' ',
9' AMMO1, 'Ml A ',« ',' ',' ',
A'B. 0','. D.1,' 5',' •»' '.'COLO'.'R1,' ',' ',' ',
C'SULFS'IDE «,« ',' •»* ',
D'CYAN'.'IDE,' .'TOTA'.'L «,' ',
H 'CYAN', 'IDE '.'AMN.'.'TC C'.'HLOR',
E'KJEL'.'nAHL1,' NIT1 , 'RflGE • , «N «,
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G'CONO'.'UCTA1 ,«NCE ',' ',' ',
H'TOTA'.'L SO', 'LIDS',1 '• , • •,
I'TOT.1,1 SUSS^ENO'.'EO SS^S. •,
J'SETT'.'LEAB'.'LE S'.'OLID'.'S '/
DATA TEXTB2/
1' ALUM','INUM« ,' ',' ',' ',
2IBAPI','UM ',' ',' ',' ',
3'CADM','IUf ',' ',' ',« «,
4«CALC',MUM ',' ',' ',' •,
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6'CHRD' ,'MIUM' ,« ,TOT' , ' AL • , ' ' ,'CHRO', 'MIUM* ,' ,HEX' ,'AVAL1, 'ENT',
7'COC>P1, •?=! ',' ',' ',' ',
R'PLUC' ,'RIDE1 ,' ',' ',' ',
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G'C. T,1. 0.',' ',' ',' ',
00000010
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00000090
00000100
00000110
00000120
00000130
000001*0
00000150
00000160
00000170
00000180
00000190
00000200
OQ000210
00000220
00000230
00000240
00000250
00000260
00000270
00000280
00000290
00000300
00000310
00000320
00000330
00000340
00000350
00000360
00000370
00000380
00000390
00000400
00000410
00000420
00000430
00000440
00000450
00000460
00000470
00000480
00000490
00000500
00000510
00000520
00000530
00000540
00000550
00000560
-------�
FORTRAN IV Gl ft :LElSc 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0002
OC07
H'ALGI'.'CIDE ,'S «,» '
I'TOTS'i'L PH , •OSPH'.'ATfS*
J'D.C.' ,'B.' • i',3*1 •/
OATA TEXT63/
0008
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DATA F/3*0.( ,6»1. 0,0.0t5*l. 0,0. 0,56*1. Ot 3*0. O/
DATA TLIM/1. , 8 *.001 , .01 , .1 , .00 1 , .001, 2*. 005, . 001 , . 001 , . 1 ,
1 3*.!,. 01,, 01, .001,. 01 f .1,. 001,. 001,. 01,.!,. 001,. 001 ,.001,
2 . 01,. 001,, 00 1, 6*. 1, . 01 ,4*.!,. 01,. 01 ,.001,. 01, 2*. 001, .1,3*. 001,
3 . 01,. 001,, 01,.!,. 1,. 01,. 001,. 1,3*. 001, 9*. 001,
4 9999999.," 6*999999. 9/
OATA NCATEG.NL/12,13/
1 .KSIC/3079, 3339,3341,3351,3353,3354,3355,3356,3357,3361,
2 3362,3369 3398,3399,3411,3412,3421,3423,3425,3429,3431,
3 3432,3433, 3441,3442,3443,3444,3446,3448,3449,3451,3452,3462,
4 3463,3465, 3466,3469,3482,3483,3484,3489,3493,3494,3495,3496,
5 3497,3498, 3499,3511,3519,3523,3524,3531,3532.3533,3534,3535,
6 3536,3537, 3541,3542,3544,3545,3546,3547,3549,3551,3552,3553,
7 3554,3555 3559,3561,3562,3563,3564,3565,3566,3567,3568,3569,
8 3572,3573, 3574,3576,3579,3581,3582,3585,3586,3589,3592,3599,
9 3612,3613 3621.3622,3623,3624,3629,3631,3632,3633,3634,3635,
A 3639,3641 3(43,3644,3645,3646,3647,3648,3651,3652,3661,3662,
B 3671,3672 ,3673,3674,3675,3676,3677,3678,3679,3691,3692,3693,
C 3694,3699 ,3', 1 1 , 3713 , 37 14, 371 5 , 3721 , 3724, 3728 , 373 1, 3732,3743 ,
0 3751,3?'61 ,3'. 64, 3 769, 3 792, 3795, 3799, 3 81 1,3822, 382 3, 3824, 3825,
E 3829,3632 ,3(41,3842,3843,3351,3861,3873,3911,3914,3915,3931,
F 3942, 3S44 , 3*149, 3951 , 3961 , 3991 , 3993, 3995/
DATA
1 KSTRV/'PiW • ,«WAST« ,'F« ,'EFPl' ,«U=NT* , ' '.'MXO • , • EFFL* . 'DENT
2 ,KFDST/'AN /' ,«MHEP« ,«E«,«PIVE' ,«R,ST', «PEAM • , ' SEHE« , • R ' , • •/
00000570
00000580
00000590
00000600
00000610
00000620
00000630
00000640
00000650
00000660
00000670
00000680
00000690
00000700
00000710
00000720
00000730
00000740
00000750
00000760
00000770
00000780
00000790
00000800
00000810
00000820
00000830
00000840
00000850
00000860
00000870
00000880
00000890
00000900
00000910
00000920
00000930
00000940
00000950
00000960
00000970
00000980
00000990
00001000
00001010
00001020
00001030
00001040
00001050
00001060
00001070
00001080
00001090
00001100
/00001110
00001120
-------�
FO&.TR4.N IV Gl PELEAS? 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0003
C013
0014
0015
0016
0017
0018
0019
C020
0021
0022
0023
0024
0025
0026
C027
0028
0029
0030
0031
00?2
0033
0034
0035
0036
0037
0038
0039
0040
0041
0042
0043
0044
0045
0046
0047
0048
0049
0050
0052
0053
0054
0055
0056
0057
0058
0059
0060
COM
006?
0063
00 '..4
0065
STS'aND't'SROt ,«4THf , '5TH' , '6TH1 , '7TH* t'SfH1 ,«9TH',
2 '10TH1 t • UTH1 ,' 12TH' , 'ALL " , ' 14TH« , • ALL ' /
3 .OAZE/1 ',' '/
CALL OATEJC(DAZE)
REWIND 30
5 CONTINUE
LS=0
NLIST=0
LIST(1,1I=0
TFOC,T = 0.0
00 2 L=1,NCATEG
FLIMIL 1=100000.
ALIM(L)=1.0
2 CONTINUE
00 6 J=l,77
CLIMI J)=1.0E31
00 6 L=lil4
RF(J,L)=0.0
6 CONTINUE
F.EAO(5,2010,ENO=7I RF
2010 FORMATJ (77F1.0.3X) )
READ(5,2012tEND=7» FLIM.AUM
2012 FORMATJ (12F6.0,8X) >
READ(5,2016fENO=7) CLIM.1FDST
2016 FOPMAT((26F3.0,2X) I
READ(5f2020fEND=7JLIST
2020 FORMATU20I4))
DO 3 J=l»100.
IF(LIST( J.D.LE.OIGO TO 4
LS=LS»1
3 CONTINUE
4 CONTINUE
NLIST=LS
NSZ=1
NIX= 100
INX=0
IASC=0
KWD(1)=1
KWO(2)=0
IF(NLIST.GT.3)CALL MSORT INL I ST ,NSZ,LI ST.KMD.NIX, INX, I ASC)
7 CONTINUE
LS=1
NSPLNT=0
NSSTRM(U=0
NSSTRM{2)=0
NlSSTP,M(3)=0
NPLNT=0
SLID! 11 = 0
LIO(1)=0
NTSTRMll)-=0
LTSI01(U=0
NTST»M<2)=0
LT$ID2(1)=0
NTSTRM(3)=0
LTSI03(1)=C
L=DST=TFnST
00001130
00001140
00001150
00001160
00001170
00001180
00001190
00001200
00001210
00001220
00001230
00001240
00001250
00001260
00001270
00001280
00001290
00001300
00001310
00001320
00001330
00001340
00001350
00001360
00001370
00001380
00001390
00001400
00001410
00001420
00001430
00001440
00001450
00001460
00001470
00001480
00001490
00001500
00001510
00001520
00001530
00001540
00001550
00001560
00001570
00001580
00001590
00001600
00001610
00001620
00001630
00001640
00001650
00001660
00001670
00001680
-------�
IV Gl P5LEASE 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0004
n
0066
0067
0068
0069
0070
0071
OC72
0073
0074
0075
0076
0077
0078
OC79
0080
0081
0082
0083
0084
0085
0086
0087
0088
0089
0090
0091
0092
0093
0094
0095
0096
0097
0098
0099
0100
0101
0102
0103
0104
0105
0106
0107
0108
0109
OHO
0111
0112
0113
0114
Oil")
0116
1117
one
0110
DO 15 J=1,\'KPAPM 00001690
IF(CLIM(Jl.LT.1.0E-30)CLIM(J)=1.0E31 00001700
TCONCMJ,MLill=1.0E31 00001710
TCQNCNUtNLt 21=0.0 00001720
TCGNCM JfNLt3)=»0.0 00001730
KOSTPB(JtfJL,l)=0 00001740
KDSTRblJtNL,2)=0 00001750
KDSTRB(J,Nl,3)«0 00001760
DO 15 L=1,NCATEG 00001770
TCONCNIJiL,ll=l.OE31 00001780
TGCNFAU,I.tl)=1.0E31 00001790
DO 15 1-1,3 00001800
IF(!.GE.3)GO TO 12 00001810
TCONCN(J.l.tim=0.0 00001820
TGCNFAlJ,U!+l»=0.0 00001830
12 CONTINUE 00001840
KDSTRB(JtLiI)=0 00001850
IFIL.GT.NCATEGtGO TO 15 00001860
KGCNFAtJ,L,I)=0 00001870
KGCNFAUtLt I«-3)=0 00001880
KGCNFAI J,UI>6)=0 00001890
KGCNFAUttt 1+91=0 00001900
KGCNFA
-------�
FC"TRAN IV Gl RELEASE 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0005
O
ui
0121
0122
01Z3
0124
0125
P126
0127
0128
0129
0130
0131
0132
0133
0134
0135
0136
0137
0138
0139
0140
0141
0142
0143
0144
0145
0146
0147
0148
0149
0150
0151
0152
0153
0154
0155
0156
0157
0158
0159
0160
0161
0162
22
IFlPFAUj) 30, 30, 22
PFA(J)=PFA(J)*0. 09290304
IF(PSWIJ)) 30, 30, 29
PWDHRU) = (PWD( J)/(PSW< J)*8.0) ) * 3.785
IF(PWDHR( JI.LT.1.0E-30IGC TO 30
0164
0115
0166
0167
0168
0169
0170
0171
0172
r. 7 3
30
31
C
C ---
33
34
36
35
40
45
50
60
NCATTL=NCATTL+1
IF(J.GT. 13 )GO TO 30
NCAT=NCAT*1
JCAT=J
CONTINUE
IFINCAT.LT.DGO TO 20
IF(NCAT.GT.HGO TO 31
IFUCAT.GT.NCATEOGO TO 20
NSPLNT=NSPLNT+1
SLID(NSPLNT)=IO * 1.0 «• JCAT/100.0
CONTINUE
NPLNT=NPLNT+1
LID(NPLNT)=ID
00 33 I=1,NSTRM
IF( ID .GE. 2000 ) GO TO 34
IFUSTRMU I.EQ.DGO TO 34
-IFdSTPMd t.EQ.DGO TO 34 INCLUDES RAW WASTE WITHOUT
OTHERWISE, USES ONLY RAW WASTE STREAMS IF EFFLUENT STREAMS
IF( ISTRMd ).EQ.2)GO TO 34
IFdSTRMd ».EQ.3)GO TO 34
CONTINUE
GO TO 20
CONTINUE
00 36 L=1,NCATEG
CONTINUE
DO 199 I=l,NSTRM
IFdSTRM( I) .NE. LAND. ISTRMd I. NE. 2. AND. ISTRMd I.NE.31GO TO 99
IST=ISTRM(I)
IF(NCAT.FQ.lJNSSTRMdST)=NSSTRM
-------�
FORTRAN IV Gl RELEASE 2.0
MAIN
DATE
75237
12/18/25
PAGE 0006
r>
0174
0175
0176
0177
0178
0179
0180
0181
01B2
0183
Q185
0186
0187
0188
0189
0190
0191
0192
0193
0194
0195
0196
0197
0198
0199
0200
0201
0202
0203
0204
0205
0206
0207
0208
0209
0210
0211
0212
0213
0214
0215
0216
0217
0218
0219
0220
0221
0222
J, L)*PWDH" IU
IFINCAT.EQ.l.AND.L.EO.JCAT.AND.PFJJ,L).LT.1.0E-30)
1 TFPWOW=TFPWDH+PWOHR(L)
62 CONTINUE
Fr=0.0
IF(TFPHDH.GT.O.O)FF=TPWDHP/TFPWDH
M=IST
M=MINOIM,2)
00 80 L=l,NCATEG
N = NT
JF(NCAT.GT.LAND.RFIJ,1).LE.0.0)60 TO 80
IC(PWOHP.(L)) 80t 90f 65
65 CONTINUE
GO T0( 75f 75, 701,N **+*********«* EXCLUDES NIL VALUES
70, 701,N ************** INCLUDES NIL VALUES
C GO TO! 75
GO T0( 75r 75, 70),N
70 CONTINUE
C CONCN=CONCEN*RF;
CONCN=CONCEN»J,II*RF(J,L)
IF(NCAT.EQ.1ICQNCN=CONCEN(J,II
FFL=F(J)*PWDWPJL)*FF
IF(NCATTL.EQ.1)FFL=F(J)*PWDHR«L)
FFA=F«J)*PFA(LI
C GCNFl = JCONC!!N*RF)*TOTAL FLOW/TOTAL{FLOW*RF)
c OTHERWISE GCNFL=CONCEN
GCNFL=CONCN*AMAX1(1.0,FFL)
C GCNFA=GCNCL/PFA FOR MG/L
GCNFA-GCNFL/AMAXH1.0.FFA)
FFLIM-F|JI*FLIM(L)
FALIM-F(JI*ALIM(L)
GLIML-CLIMJJ)*AMAX1(1.0,FFLIH»
GLIMA>GLIML/AMAX1(1.0,FALIH)
TCONCN( J.L.l. I = AHIN1(TCONCMJ,L,1),CONCN)
TCONCNtJ,L.2)=AMAXltTCONCN(J,L,2),CONCN)
TCONCN(J,L,3)=TCONCN(J,L,3)+CONCN
TGCNFAI J,Lt 1) = AMINHTGCNFA(J,L,1),GCNFAI
TGCNFAIJ,L,2)=AHAX1(TGCNFAJJ,L,2),GCNFAI
TGCNFA(J,L,3)=TGCNFA(j,L,3)*GCNFA
IF(GLHA.GT.1.0E10)GO TO 180
DSINCR = GLTMA * 0.010
TESTOS = 0.0
NC=1
00 160 ITST-1,10
TESTDS = TESTDS * DSINCd
IFJGCNFA.LE.TESTDS * 1.0001 )GO TO 175
NC=NC*1
160 CONTINUE
DSINCR = GUMA * 0.050
DO 165 ITST=1, 2
TESTDS =-TESTDS * DSINCR
IFIGCNFA.LE.TESTDS * 1.0001 )GO TO 175
NC=NC + 1.
165 CONTINUE
OSINCP = GLIMA * 0.100
OT 170 ITST=1, 7
TESTOS = TfSTOS + DSINC°
FOR MG/L
OTHERWISE GCNFA=CCNCEN
00002810
00002820
00002830
00002840
00002850
00002860
000'02870
00002480
00002890
00002900
00002910
00002920
OC002930
00002940
00002950
00002960
00002970
OC002980
00002990
00003000
00003010
00003020
00003030
00003040
00003050
00003060
00003070
00003080
00003090
00003100
00003110
00003120
00003130
00003140
00003150
00003160
00003170
00003180
00003190
00003200
00003210
00003220
00003230
00003240
00003250
00003260
00003270
00003280
00003290
00003300
00003310
00003320
00003330
00003340
00003350
00003360
-------�
FCRTR4N IV f,l KELEASF 2.0 MAIN DATE = 75237
lc(GCNFA.LE.TESTDS * 1.0001 )GO TO 175
12/18/25
PAGE 0007
n
i
0223
02?4
0225
0226
0227
022B
0229
0230
0231
0232
0233
0234
0235
0236
0237
0238
0239
0240
0241
0242
0243
0244
0245
0246
0247
0248
0249
0250
0251
0252
0253
0254
0255
0256
0257
0258
0259
0250
0261
0262
0263
02h4
0265
02 = 6
0267
170 CONTINUE
175 CONTINUE
IF(GCNF4.LE.GLIMA)GO TT 178
NC = 21
178 CONTINUE
K.GCNFAI J,L,NC) = KGCNFA( J,L,NC)-H
180 CONTINUE
75 CONTINUE
KDSTRBIJ,L,N)=KDSTRB(J,L,N)*1
80 CONTINUE
C 85 GO T0« 95, 95, 90),N ************** EXCLUDES NIL VALUES
C 85 GO T0( 95, 90, 90),N ************** INCLUDES NIL VALUES
85 GO TOt 95, 95, 90),N
90 CONTINUE
TCCNCNl J,NL,l)=AMINl
-------�
FORTRAN iv GI RELEASE 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0008
O
CO
0268
0269
0270
0271
0272
0273
0274
0275
0276
0277
0278
0279
0280
0281
0282
0283
0284
0285
0286
0287
0288
0289
0290
0291
0292
0293
0294
0295
0296
0297
0298
0299
0300
0301
0302
0?03
0304
0305
0306
0307
0308
0309
0310
0311
3019 CTRMAT(lX,4A<,tfc2t 63X.F12.5,F15.3,F15.4,F9.3) 00003930
GO TO 205 • 00003940
204 CONTINUE 00003950
205 CONTINUE 00003960
IF(LPRT.EO.O)G(I TO 210 . 00003970
IFtL.GE.Nl. )G) VO 209 00003980
W!!VE(6,3010)NSPLNT,NSSTP*m) , (KSTRMJN, 1) ,N=1,3) 00003990
209 CONTINUE 00004000
HRITE«6t3()ll)N(>LNT,NTSTRMl),(KSTRM(Nl 1),N=1,3) 00004010
210 CONTINUE 00004020
230 CONTINUE 00004030
3010 FORMAT<5X,,'84S :D ON DATA FROM ',15,' SINGLE SUBCATEGORY«, 00004040
1 • PLANTS INCLUDING',2(15,IX,3A4,• STREAMS'I) 00004050
3011 FORMAT(5X,'EAS:D ON DATA FROM ',15,' SINGLEMULTPL SUBCATEGORY't 00004060
1 • PLANTS IW.UDING1 ,2U 5, 1X.3A4, • STREAMS')) 00004070
M=l 00004080
MS=K 00004090
DO 310 L=l,t*:CAfEG 00004100
IF(L.LT.NL.fNO.NSPLNT.LE.O>GO TO 310 00004110
LPPT=0 00004120
DO 305 J=1,M 00004140
IF(NTOT1.LE,0)GO TO 305 00004150
NPTS=KDSTRBfJ,L,3) 00004160
IF(NPTS.LE.O)GO TO 305 00004170
IF(LP?T.EQ.())WRITE(6,3003)1KSTRM(N,MSI,N=1,3I, 00004180
1
-------�
FOOTRA.N IV C,l RELEASE 2.0
MAIM
DATE = 75237
12/18/25
PAGE 0009
n
i
VO
0312
0313
0314
0315
0316
0317
0318
0319
C320
0321
0322
0323
0324
0325
0326
0327
0328
0329
0330
0331
0332
0333
0334
0335
0336
0337
0338
0339
0340
0341
0342
0343
0344
0345
0 34 6
0347
NTBL = MINO (12.L+1I 00004490
IFU.LT.NL.AND.NSPLNT.LE.OIGO TO 410 00004500
LPPT=0 00004510
00 405 J=2,NKPAPM 00004520
NTOTL=KDSTPBTS = KDST<».S( J.L.3) 00004550
IFINPTS.LE.OIGO TO 405 00004560
IF(|_.tT.NL.AND.lPRT.EQ.O)WRlTE(6t3120l NTBL,(KSTRMtN,MS)tN=l,3)tL 00004570
3120 FOPMATi1H1,61X,•TABLF 5-1,I2/45X,•WASTE CHARACTERISTICS OF ',3A4, 00004580
1 'STPEAMS'/60X,'SUBCATEGCRY',I3//48X,•CONCENTRATION' ,22X, 00004590
2' 'PRODUCTION ORIENTED LEVELS'/18X,•PAPAMFTER',IX,2(9X,'MINIMUM', 00004600
3 7X, 'MAXIMUM',8X,'MEAN')/28X,3(lOX.'MG/L'),8X,3{'MG/HR-M2',6XM 00004610
IF(L.EO.NL.AND.LPRT.EQ.O)WRITE(6,3121) (KSTRMtN ,MS),N=1,3 I 00004620
3121 FnRMAT(lHl,54X,'TABLE 5-1' /28X,'HASTE CHARACTERISTICS OF ',3A4, 00004630
1 'STREAMS'/43Xt'ALL SUBCATEGCRYS' //48X,'CONCENTRATION',22X, 00004640
2 /18X,'PARAMETER',IX,K9X,'MINIMUM', 00004650
3 7X,'MAXIMUM',8X,'MEAN')/28X,3(IOX,'MG/L'),8X ) 00004660
LPRT=LPRT+1 00004670
XNPTS=NPTS 00004680
TMEAN=TCONCN(J,L,3)/XNPTS 00004690
IF(L.LT.NL)TAMEAN=TGCNFA(J,L,3I/XNPTS 00004700
IF(L.LT.NL)WRITE(6,3021)(KPARAM(N,JI,N=1,5 I, 00004710
1 WRITE16,3021)(KPARAM(N,J),N=l,5l, 00004740
1 (TCONCNIJ.L.N),N=1,2I,TMEAN 00004750
3021 FORMATU9X.5A4, IX,3F14.3,F14.5,F14.3,F14.4)) 00004760
405 CONTINUE 00004770
409 CONTINUE 00004780
IF(L.EQ.10)WRITE(6,3021)PHOTOG 00004790
410 CONTINUE 00004800
330 CONTINUE 00004810
WRITE(6,3099)NPLNT,DAZE, , 00004870
1 (KFDST(N,LFDST+1),N=1,3),DAZE,(LTSID1(N),N=1,NTSTM1) 00004880
WPITE(6,3091)NTSTM2,(KSTRM(N,2),N=1,3), 00004890
1 (KFDST(N,LFDST+1),N=1,3),DAZE,(LTSID2(NI,N=1,NTSTM2) 00004900
WRITE(6,3091INTSTM3,(KSTRM(rii,3l ,N=1,3) , OC004910
1 (KFO$T(N,LFDST-l-H ,N = 1,3) ,OAZE, (LTSID3I Nl ,N=1,NTSTM3) 00004920
3099 =nPMAT(lHl,2X,I5,t SINGLE ANn MULTIPLE SUBCATEGORY PLANTS', 00004930
1 ' USBD IN THIS SAMPLE STREAM ' 00004940
1 .'ANALYSIS INCLUDE THE FOLLOWING ID«S:',2X, 'DATE: ' 00004950
2 ,2A4/(1HO,2016») 00004960
3091 F
-------�
034*
IV 01 BfLEASE 2.0 MAIM DATE = 75237 12/18/25 PAGE 0010
00005050
n
i
-------�
FOPTRA.N IV Gl RELEASE 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0011
SUBPROGRAMS CALLED
SYMRX
OATEJC
MI NO
SYMBOL
TEXTS1
SYMBOL
NKPARM
TFPST
I NX
I
NCAT
NT
N
GCNFA
DSINCR
LPRT
TAMEAN
r>
i
j_j
1-1 SYMBOL
PFA
LID
ISTRM
FLIM
KAT
c
PHOTOG
SYMBOL
2010
3001
3011
3099
LOCATION
300
354
LOCATION
488
LOCATION
9D8
9EC
AOO
A14
A28
A3C
A50
A64
ATS
A8C
AAO
LOCATION
AB4
CEE
58FC
645C
6638
9098
1264C
LOCATION
126FC.
12762
12919
12C10
SYMBOL LOCATION
IBCOM» 3D4 '
AMAX1 3E8
EQUIVALENCE DATA
SYMBOL LOCATION
KPARAM 488
SCALAR MAP
SYMBOL LOCATION
NCATEG 9DC
L 9FO
1ASC A04
NSTRM A18
NCATTL A2C
TFPWDH A40
CONCN A54
CFLIM A&S
TESTOS A7C
NTOTL A90
NTBL 4A4
ARRAY MAP
SYMBOL LOCATION
PSW AEC
KDSTPB 1266
SLID 5908
ALIM 648C
NSSTRM 6674
KGCNFA 9ECC
FORMAT STATEMENT
SYMBOL LOCATION
2012 12708
3008 12875
3003 12977
30T1 12CAO
SYMBOL
MSOPT
MAP
SYMBOL
TFXTB2
SYMBOL
ia
j
KSPLNT
ISIC
TPWDHR
TFPWOW
FFL
FALIM
NC
NPTS
NTSTM1
SYMBOL
PWD
TLIM
LTSID1
CLIM
NTSTRM
LIST
MAP
SYMBOL
2016
3009
3120
3098
LOCATION
308
LOCATION
62C
LOCATION
9EO
9F4
A08
A1C
A30
A 44
A58
A6C
A80
A94
AA8
LOCATION
B24
2720
5068
64BC
667A
124AC
LOCATION
12714
1288F
12A7C
12D1A
SYMBOL
EXIT
SYMBOL
TEXTB3
SYMBOL
LS
NSZ
NPLNT
ID
JCAT
FF
FFA
GLIML
ITST
XNPTS
NTSTM2
SYMBOL
PWOHR
CONCEN
LTSID2
KFDST
TGCNFA
KWO
LOCATION
3DC
LOCATION
7DO
LOCATION
9E4
9F8
AOC
A20
A34
A48
A5C
A70
A84
A98
A AC
LOCATION
B5C
2988
6008
65FO
6680
1263C
SYMBOL
AMIN1
SYMBOL
TEXTB4
SYMBOL
NLIST
NIX
LFDST
IFDST
1ST
M
GCNFL
GLIMA
MS
THE AN
NTSTM3
SYMBOL
KSIC
TCONCN
LTSID3
KSTRM
RF
DAZE
LOCATION
3EO
LOCATION
938
LOCATION
9E8
9FC
A10
A24
A38
A4C
A60
A74
A88
A9C
ABO
LOCATION
B94
2F8C
6394
6614
8CCO
12644
SYMBOL LOCATION
2020 12720
3019 128A9
3121 12B4D
SYMBOL LOCATION
1000 12729
3010 128C1
3021 12BF5
-------�
FOPTRAN IV Gl RtrLEASF 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0012
STATEMENT
o
LOC',TICN
012FF8
013020
013038
01305R
013090
01300A
01315C
0131A2
0131CE
0131EA
013202
013232
01324E
013266
01327E
013296
013324
013376
0133C8
01341C
01345E
013488
0134A8
0134CC
0135CC
01365C
0136CE
013744
013782
0137A6
0137D4
0137FO
013818
01384C
013872
0138A2
0138DO
01393E
01396C
013996
0139CO
013A54
013AA2
013B22
013B96
013BF4
013COC
013C34
013C8C
013CEA
013028
013D9C
013DF2
STA N
13
17
20
23
26
2
5'»
62
65
68
71
74
7?
80
84
87
90
94
98
102
105
109
113
117
120
123
126
IZ9
132
135
139
142
145
149
152
155
158
161
165
170
174
177
180
183
1 88
191
LAPEL
23
26
33
36
50
70
LABEL MAP
LOCATION
013006
013029
013044
013070
01309A
013100
013180
0131AE
01310A
0131F2
01321E
01323E
013256
01326E
013286
0132B6
013342
013394
0133F4
013444
01346A
013490
0134B8
013404
013640
01368E
013710
01375E
013788
0137C2
01370C
0137FC
013824
013858
01387E
0138B4
0138DC
01394E
01397A
0139AE
013904
013A60
013AC2
013B34
013BAF.
013BFA
013C18
013C44
013CCR
013CFC
013D5E
0130B4
013E18
STA MUM
14
18
21
24
27
31
37
40
44
47
51
54
57
60
63
66
69
72
75
78
82
85
88
91
96
99
103
106
111
114
118
121
124
127
130
133
136
140
143
146
150
153
156
159
162
167
172
175
178
181
184
189
192
LA
3
7
12
15
25
29
35
45
60
LOCATION
013014
013030
013050
013084
0130A6
013130
013190
0131C6
0131E2
0131FA
01322A
013246
01325E
013276
01328E
0132F6
01335C
0133AE
013408
013456
01347A
01349C
0134C4
013 SCO
01364E
0136CO
01372A
013764
013798
0137C8
0137E4
013808
01383E
013864
013886
0138C2
01392E
01395A
013988
013984
0139F8
013A86
013AF2
013B56
013BE8
013C06
013C24
013C9C
013CE2
013020
013D6A
013DD6
013E30
STA MUM
16
19
22
25
28
33
38
42
45
48
52
55
58
61
64
67
70
73
76
79
83
86
89
93
97
100
104
108
112
116
119
122
125
128
131
134
138
141
144
148
151
154
157
160
164
168
173
176
179
182
186
190
193
LA
5
6
4
20
24
28
22
30
31
34
40
62
65
-------�
FORTRAN IV Gl 9ELEASF 2.0
MAIN
DATE = 75237
12/18/25
PAGE 0013
n
i
013E46 194 013E5E 195
013E96 197 013E88 198
013FE6 200 013FOC 201
013F4A 203 013F6C 204
013F92 206 013F9E 207
C13FAE 209 013FB6 210
212 013FE4 213 160
215 014010 216
218 014035 219 165
221 01406A 222
224 . 014098 225 170
228 0140C6 230 178
233 75 014136 234 80
237 90 0141FE 238
241 95 0142F4 242 98
244 199 014398 245
248 0143B8 249
251 01441E 252
254 01448A 256
258 014400 259
261 0145A8 262
264 0145E8 265
270 204 0146D2 271 205
273 01471E 274
277 210 014824 281 230
283 014868 284
286 0148BE 287
289 0148FO 290
293 0149DO 294
296 014A14 297
299 014A5E 300
302 305 014BF4 303
305 014C70 307 309
309 014D30 310
312 014D7A 313
315 0140CC 316
318 0140F6 319
322 • 014F30 324
326 014F70 327
329 015100 331 405
334 410 015198 336 330
338 01525S 339
341 015340 342
347 0154FE 348
IN EFFECT* NOTERM , I 0, BCD, SOURCE, NOL!ST,NODECK,LOAOf MAP .NOTEST
*OPTIONS IN EFFECT* NAME = MAIN , L1NECNT = 58
•STATISTICS* SOURCE STATEMENTS = 348.PRCGPAM SIZE = 87308
*STATISTICS* NO DIAGNOSTICS GENERATED
OU008
014032
014062
01403C
0140BA
014102
01419C
0142A4
01435C
0143AC
0143E8
014482
0144C2
0144E6
014508
0146D2
014710
0147DC
014838
0148A6
0148F8
0149CO
014AOO
014A46
014BOO
014C14
014024
014D58
0140B4
014DEE
014EAO
014F60
015068
01515C
01524C
015268
0154FO
^OPTIONS
013E7A
013EOO
013F24
013F84
013FA6
013FC2
013FF8
01401C
014052
014076
0140AC
014102
01416A
0142 5C
01435C
01439E
0143CO
014450
0144 AA
0144D8
0145B8
0146CC
0146FE
01477C
014830
01489E
01480A
0148FE
0149FO
014A2C
014838
014C06
014CDO
014038
0140 AC
014DDC
014E04
014F40
014F8E
015128
0151FO
015260
015418
196
199
202
205
208
211
214
217
220
223
227
231
235
239
243
247
250
253
257
260
263
269
272
276
282
285
288
291
295
298
301
304
308
311
314
317
320
325
328
333
337
340
343
175
180
85
99
100
209
310
409
-------�
F64-LEVEL LINKAGE EDITOR OPTIONS SPECIFIED X"EF,LIST
DEFAULT OPTIONIS) USED - SIZS=<102400,20490)
****MAIN DOES NOT EXIST BUT HAS BEEN ADDED TC DATA SET
AUTHCjeiZATION CODE IS 0.
CROSS REFERENCE TABLE
CONTPOL SECTION
ENTRY
NAME LOCATION NAME LOCATION NAME LOCATION NAME LOCATION
X10BH10 *
IHNFEXIT*
IHNECOMH*
IHNCOMH2*
IHN^MAXI*
MSORT *
IHNFCVTH*
0
I- IHNEFNTH*
*.
IHNEFIOS*
IHNFIOS2*
IHNUQPT *
IHNFCONI*
IHNFCONO*
IHNERRM *
IHNUATBL*
IHNFTEN *
IHWETRCH*
LOCATION
300
3D8
3PO
3E8
1551=6
15860
15A20
16980
170C8
171BO
17EOO
18970
18EB8
19EBO
IA468
1A7A8
1AA90
1AF38
1B538
1BB70
1BD08
REFEI-S
267
ICO
F8C
715
E5
C50
B6F
548
FF8
5B8
340
2E5
. 4A2
5FC
638
198
2A6
TO SYMBOL
OATEJC
MSOOT
AMIN1
AMAX1
MAX1
CATEJC
EXIT
IBCOMS
SEODASD
MAXO
A DC ON #
FCVIOUTP
ARITH*
FIOCS*
FQCONI*
FOCONO*
EPRMON
FTEN#
IHNTRCH
IN CONTROL SECTION
X103P10
MSORT
IHNFMAXR
IHNFMAX"
15510
155F8
15860
15A4C
160DE
170C8
17EOO
1843E
18970
18EB8
1A7A8
1AA90
1AF38
1BB70
18008
MINI 15526 AMAX1 1553C AMIN1 15552
FOIOCS* 15B08 INTSWTCH 16986
MINO 170DE AMAXO 170F4 AMINO 1710A
FCVAOUTP 17EAA FCVIOUTP 17F3A FCVZOUTP 18096
FCVEOUTP 18530 FCVCOUTP 1867A INT6SWCH 188FO
ADJSUTCH 18DOC
FIOCSBEP 18EBE
IHNERRE 1AF50
ERRTRA 1BOIO
.LOCATION REFERS TO SYMBOL IN CONTROL SECTION
3D4 IBCOMi IHNECOMH
30C EXIT IHNFEXIT
3E4 MINO IHNFMAXI
159C8 IBCOM* IHNECOHH
-------�
LC-CATION "EFERS TO SYKBOL IN CONTROL SECTION
15B08
1638C
16890
168AC
168S4
1689C
16844
16838
16868
16840
16848
16CA1
169F8
16F25
16F45
18008
18068
18DD4
1901C
19CC8
19CF4
1875C
187B4
9 19EA9
>- 1AE80
01 1B528
1P530
1BE90
1BE9C
ENTRY ADDRESS
SFQCASD
A DC ON*
A^ I TH#
IHNUCPT
FCVEOUTP
FCVIOUTP
CC.VAOUTP
IHNERRE
IHNtPRM
IHNCOMH2
IHNCOMH2
IHNECOMH
IHNF.PRM
IHNECOMH
IHNECOMH
INT6SWCH
aOCON#
IHNEPRM
IHNFIOS2
IBCC1M#
IHNFIOS2
IHNERRM
FOCONIf
IHNFIOS2
FTENff
IBCOM#
FIOCSBEP
IBCOM#
FIOCSBEP
00
IHNCPMH2
IHNFCVTH
IHNEFNTH
IHNUCPT
IHNFCVTH
IHNFCVTH
IHNFCVTH
IHNERRM
IHNEPRM
IHNCOMH2
IHNCOMH2
IHNECOMH .
IHNE9R"
IHNECOMH
IHNECOMH
IHNFCVTH
IHNFCVTH
IHNERRM
IHNFIOS2
IHNECOHH
IHNFIOS2
IHNEPRM
IHNFCONI
IHNFIOS2
IHNFTEN
IHNECOMH
IHNEFIOS
IHNECOMH
IHNEFIOS
TOTAL LENGTH
1BFBO
LOCATION REFERS TC SYMBOL IN CONTROL SECTION
15B60
16884
168BO
169A8
16898
168AO
168A8
16864
168 3C
16844
16C48
16CA4
169F4
16F35
18060
18D04
18D64
19018
19CBC
19COD
18760
18780
18D5C
1AA24
1B524
1B52C
1BE98
1BE94
IHNCOMH2
FIOCS#
AOJSWTCH
IHNCMSE
FCVLOUTP
FCVCOUTP
FCVZOUTP
IHNCOMH2
IHNCOMH2
IHNCOHH2
IHNECOMH
IHNECOMH
IBCOM*
IHNECOMH
INTSWTCH
IHNUOPT
FlOCSf
IHNERRH
IHNUATBL
IHNFIOS2
IBCOMI
FQCONOf
IBCOH*
FTEN«
IHNUOPT
IHNTRCH
LDFIO»
ADCONf
IHNCOMH2
IHNEFIOS
IHNEFNTH
$UNRESOLVED
-------�
APPENDIX D
EFFLUENT ANALYSIS SOURCE LISTING
(COMPILATION)
-------�
Frf
-------�
iv 01 I-ELEASE 2.0
VAIN
DATE = 75237
12/26/53
PAGE 0002
D
to
0003
0009
OOiO
0011
0012
0013
0014
0015
0016
0017
0018
0019
0020
0021
0022
0023
0024
0025
0026
0027
0028
0029
0030
0031
0032
0033
0034
0035
0036
0037
0038
0039
0040
0041
0042
0043
0044
0045
0046
0047
0048
0049
0050
0051
0052
0053
0054
0055
0056
0057
0058
0059
0060
0061
0062
3 ,OA2?/« ',' '/
CALL CATEJC(CAZE)
REWIND 30
5 CONTINUE
LS=0
NLIST=0
LIST) 1,11=0
TFOST=0.0
00 2 L=1,NCATEG
FLIMI D=iocooo.
2 CONTINUE
DO 6 J=l,77
CLIMI J)=l .OE31
00 6 1=1,14
RF(J,L)=0.0
6 CONTINUE
<5EADt5,2010,END=7) RF
2010 FORMAT! I77FI. 0,3X)»
HEAD(5,2012,END=7I
2012 FORMAT! (12F6. 0,8X1 )
REAO(5,2016,END=71 CLIM.TFDST
2016 FORMAT((26F3.0,2X))
READ(5,2020,END=7)LIST
2020 FORMATU20I4))
DO 3 J=ltlOO
IF(LISTIJ,1».LE.O)GO TO 4
LS=LS+1
3 CONTINUE
4 CONTINUE
NLIST=LS
NSZ=1
NIX= 100
INX=0
I ASC«=0
KWD(1)=1
IF(NLIST.GT.3JCALL MSORTJNL 1ST, NSZ, LIST, KWD, NIX, INX, IASC)
CONTINUE
LS = 1
NSPLNT=0
NSSTPM<1)=0
NSSTRM(?)=0
NSSTRM(3)=0
NPLNT=0
SLIO(1)=0
LlD(i)=n
NTSTPM(1»=0
LTSID1(1)=0
LTSID2(1)=0
NTSTRM<:» = 0
LTSI03(1)=0
LFDST=TPDST
00 15 J
.LT.I.OE-30ICLIW( J) = 1.0E31
00000570
00000580
00000590
00000600
00000610
00000620
00000630
00000640
00000650
00000660
00000670
00000680
00000690
00000700
00000710
00000720
00000730
00000740
00000750
00000760
00000770
00000780
00000790
00000800
00000810
00000820
00000830
00000840
00000850
00000860
00000870
00000880
00000890
00000900
00000910
00000920
00000930
00000940
00000950
00000960
00000970
00000980
00000990
00001000
00001010
00001020
00001030
00001040
00001050
00001060
OC001070
00001080
00001090
00001100
00001110
00001120
-------�
FOKTRA.N IV Gl RELEASE 2.0
MAIN
DATE = 75237
12/26/53
PAGE 0003
O
00fc3
0064
0065
0066
0067
0068
0069
0070
0071
0072
0073
0074
OC75
0076
0077
OC78
0079
C080
ooei
0082
0083
0084
0085
OC86
0087
0088
0089
0090
0091
0092
0093
0094
0095
0096
0097
0098
0099
0100
0101
0102
0103
0104
0105
0106
0107
0108
0109
0110
0111
0112
0113
0114
0115
0116
0117
DO 15 L = 1,NL OOOOH30
TCONCN,3<14F10.0),129X.9I250X)) 00001320
IFtIO.LE.01GO TO 100 00001330
IF(NSTRM.I_E.O)GO TO 20 00001340
IF(l=DST.EQ.l.AND.IFDST.NE.l)GO TO 20 00001350
IFGO TC 24 00001410
IF(LS.LT.NLIST)LS=LS*1 00001420
GO TO 20 00001430
24 CONTINUE 00001440
IF(LS.LT.NLIST)LS=LS-H 00001450
GO TO 23 00001460
25 CONTINUE 00001470
00 26 J=l,173 00001480
IF(ISIC.EO.KSIC(JJIGO TO 28 00001490
26 CONTINUE 00001500
GO TO 20 00001510
28 CONTINUE 00001520
NCAT=0 00001530
NCATTL=0 00001540
00 21 J=1,NKPARH 00001550
INFAW(J)=0 00001560
21 CONTINUE 00001570
TPWDHF.= 0.0 00001580
00 30 J=l,14 00001590
PhDHRlJl=-1.0 00001600
IFIPFAUM 30, 30, 22 00001610
22 PFAU)=PFA( J)*0.09290304 00001620
IFtPSWUM 30, 30, 29 00001630
29 PWOHR(J) = (Pwn(Jl/(PSWIJ 1*8.01 I * 3.785 00001640
IF(PMDHR(JI.LT.1.0E-30IGC TC 30 00001650
TPk,OHP=TPWDHP-fPWDHMJ) 00001660
NCATTL=NCATTL+1 00001670
IFU.GT. 13 JGO TO 30 00001680
-------�
FQRTBflN IV Gl F'tlEASE 2.0
MAIN
DATE = 75237
12/26/53
PAGE 0004
o.
0119
0120
0121
0122
0123
0124
0125
0126
0127
0128
0129
0130
0131
0132
0133
0134
0135
0136
0137
0138
0139
0140
0141
0142
0143
0144
0145
0146
0147
0148
0149
0150
0151
0152
0153
0154
0155
0156
0157
0158
0159
0160
0161
0162
0163
0164
0165
0166
0167
0168
0169
0170
00001690
JCAT=J 00001700
30 CQNTINUF 00001710
IFINCAT.LT.DGG TO 20 00001720
mNCAT.GT.DGO TO 31 00001730
IF{JCAT.GT.NCATEGIGC TO 20 00001740
NSPLNT=NSPLNT+1 00001750
SLID(NSPLNT)=ID * 1.0 + JCAT/100.0 00001760
31 CONTINUE 00001770
NPLNT=NPLNT+1 00001780
1IO(NPLNT)=ID 00001790
DO 34 I=ltNSTRM 00001800
IFUSTRMU >,NE.1)GG TO 34 00001810
00 33 J=1,NKPARM 00001820
1 INDICATES SIGNIFICANT CONCENTRATION IN RAH WASTE 00001830
IF(CONCEN(J,I).GT.1.01*TLIM(J,1IHNRAW 45. 45, 50 00002000
40 CONTINUE 00002010
NT=1 00002020
GO TO 60 00002030
45 CONTINUE 00002040
NT=2 00002050
GO Tn 60 00002060
50 CONTINUE 00002070
NT=3 00002080
60 CONTINUE 00002090
TFPWOH=0.0 00002100
DO 62 1=1.14 00002110
TFPWDH=TFPWDH»RF( J,U*PHCHRTFPWOH+PHDHR(U 00002140
62 CONTINUE 00002150
FF=0.0 00002160
IF(TFPWDH.GT.O.O)FF=TPWOHR/TFPWDH 00002170
•M=IST 00002180
M=MINO(M,2) 00002190
DO 80 L==1,NCATEG 00002200
N=NT 00002210
IF(NCAT..r,T.l.AND.RFtJ,L).Lf=.O.OJGO TO 80 00002220
IFIPWDHR(L)! 80, 30, 65 00002230
NIL CONCENTRATIONS IN EFFLUENT CONSIDERED SIGNIFICANT 00002240
-------�
IV Gl
e 2.0
MAIN
OATE = 75237
12/26/53
PAGE 0005
O
ui
0171
0172
0173
0174
0175
0176
0177
0178
0179
0180
0181
0182
0183
0184
0185
0186
0187
Olf.8
0189
0190
0191
0192
0193
0194
0195
0196
0197
0198
0199
0200
0201
0202
0203
0204
0205
0206
0207
0208
0209
0210
0211
0212
0213
0214
0215
0216
0217
C BASED ON CGIVCENTPATIONS IN R»W WASTE 00002250
65 C1NTINUF 00002260
IP(IST.GT.l.ANO.INRAW(J).G = .1 . AND.N.GE.2)N=3 00002270
C GO T0( 75, 75, 7C),N ************** EXCLUDES NIL VALUES 00002280
C G3 T0( 75, 70, 70),N ************** INCLUDES NIL VALUES 00002290
GO TQ( 75, 75, 701,N 00002300
70 CONTINUE 00002310
C CONCN=CONCEN*RF 00002320
CDNCN=CGNCEN(J,I)*RF( J,L) 00002330
IF(NCAT.E0.1)CONCN=CONCEMJ,I ) 00002340
FFL=F(J)*PWDHR(L)*FF 00002350
IF(I>:CATTL.EQ.1)FFL = F( J)*FWCHPU) 00002360
FFA=F(J)*PFA(L) 00002370
C GCNFL=(CGNCEN*RF)*TOT*L FLOW/TOTAL(FLOW*RF) FOP MG/L 00002380
C OTHERWISE GCNFL=CONCEN 00002390
GCNFL=CONCN*AMAX1<1.0, FFL) 00002400
c GCNFA=GCNCL/PFA FCR «G/L OTHERWISE GCNFA=CCNCEN 00002410
GCNF4=GCNFL/AMAX1(1.0,FFA) 00002420
FFLIM=F(J)*FLIM(L) 00002430
FALIM=F(J)*ALIM=AMAX1(TGCNFA(J,L,2),GCNFA) 00002540
TGCNFA(J,L,3)=TGCNFA(J,L,3)*GCNFA 00002550
TGCNFAJJ,L,4)=TGCNFA(J,L,4)*GCNFA * GCNFA 00002560
IF(GLIMA.GT.1.0E10)GO TO 180 00002570
DSINCR = GLIMA * 0.200 00002580
TESTDS = 0.0 00002590
NC=1 00002600
DO 170 ITST=1,4 00002610
TESTDS = TESTDS » DSINCR 00002620
IFIGCNFA.LE.TESTDS * 1.0001 JGO TO 175 00002630
NC=MC+1 00002640
170 CONTINUE 00002650
175 CONTINUE 00002660
IFIGCNFA.LE.GLIMA1GO TO 178 00002670
NC = 6 00002680
178 CONTINUE 00002685
KGCNFAIJ,L,NC)=KGCNFA(J,L,NC)+1 00002690
180 CONTINUE 00002700
75 CONTINUE 00002710
KOSTPBIJ,L,NI=KDSTRB{J,L,N)*1 00002720
80 CONTINUE ' 00002730
C 85 GO TQ( 95, 95, 901,N ************** EXCLUDES NIL VALUES 00002740
C 85 GO TH( 95, 90, 90),N ************** INCLUDES NIL VALUES 00002750
85 GO TH( 95, 95, 90),N 00002760
90 CONTINUE 00002770
TCONCNI J,NL,1) = AMIN1(TC1N'CM J,NL, 1) ,CONCEN (J , I) I 00002780
TCCMCM J,NL,2) = AMAX1(TCONCMJ,NL,2),CONCEN(J,I I) 00002790
-------�
FOPTRAN IV Gl PLEASE 2.0
MAIN
DATE = 75237
12/26/53
PAGE 0006
O
01
0218
0219
0220
0221
0222
0223
0224
0225
0226
0227
0228
0229
0230
0231
0232
0233
0234
0235
0236
0237
0238
0239
0240
0241
0242
0243
0244
0245
0246
0247
0248
0249
0250
0251
0252
0253
0254
0255
0256
',3A4,« SAMPLE ',
TCONCN
-------�
FORTRAN IV Gl "ELEASE 2.0
MAIN
DATE = 75237
12/26/53
PAGE 0007
o
I
-J
0257
0258
0259
0260
0261
0262
0263
0264
0265
0266
0267
0268
0269
0270
0271
0272
0273
0274
0275
0276
0277
0278
0279
0280
0281
0282
0283
210 CONTINUE 00003360
230 CONTINUE 00003370
3010 FTRMAT(5Xt'BASED ON DATA FPQM ',15,' SINGLE SUBCATEGORY'» 00003380
1 • PLANTS INCLUDING', 2 I I 5 , 1X.3A4,« STREAMS')) 00003390
3011 FQRMAT<5X,'BASED GN DATA FPCM ',I5,« SINGLtMULTPL SU6CATEGORY1, 00003400
1 ' PLANTS INCLUDING',2(15,IX,3A4f' STREAMS')) 00003410
M=2 00003420
MS=M 00003430
DO 310 L=1,NCATEG 00003440
IFU.LT.NL.AND.NSPLNT.LE.OIGO TO 310 00003450
LPRT=0 00003460
DO 305 J=1,NKPARM 00003470
NTOTL=KDSTRS(J,L,1)+KDSTPB(J,L,2)»KOSTRB(J,L,3) 00003480
IF(NTOTL.LE.O)GO TO 305 00003490
NPTS=KDSTR8(J,L,3) 00003500
IF(NPTS.LE.O)GO TO 305 00003510
IF(LPPT.FQ.O)HRITE(6,3003)(KSTRM(N0MS),N=l,3), 00003520
1 (KFOSTIN.LFDSTn) , N = l ,3 I ,KAT( L> ,DAZE 00003530
3003 FOP«AT(1H1,'GUIDELINES ANALYSIS OF ',3A4,' SAMPLE STREAMS, ', 00003540
I 'DISCHARGED TO 't3A4,« FOR 'f 00003550
1 A4,'SUBCAT, ALL SIGNIF CONCENTRTNS1,3X,2A4 00003560
2 /10X, HX,'SIGNIFICANT VALUES (MG/HR)' 00003570
3 , 6X,'.0 .2 .4 .6 .8 LIMIT MAX',UX,'tMG/HRI/M2' 00003580
4 /12X, 3X,'MINIMUM',8X, 00003590
5 •MAXIMUM',IX,8X,fMEAN' ,2X,6(4X,•#•I,5X,'MINIMUM',8X,'MAXIMUM',8X00003600
6 ,'MEAN',5X,'LIMIT'/) 00003610
3004 FORMATdHl,'GUIDELINES ANALYSIS OF t,3A4,t SAMPLE STREAMS, 'f 00003620
1 'DISCHARGED TO ',3A4,' FCR ', 00003630
1 A4,'SUBCAT, ALL NIL £ SIGNIF CONCENTR',2X,2A4 00003640
2 /IOX, 11X,'SIGNIFICANT VALUES (MG/HR)1 00003650
3
4 /12X,
6X,'.0 .2
.4
.6
.8 LIMIT MAX',11X,MMG/HR)/M2' 00003660
3X,'MINIMUM',8X,
00003670
•MAXIMUM',1X,8X,'MEAN',2X,6(4X,'«'),5X,'MINIMUM',8X,'MAXIMUM',8X00003680
00003690
• SAMPLE STREAMS, ',
5
6 , 'MEAN', 5X, 'LIMIT'/)
3005 FORMATUHl, 'GUIDELINE STATISTICS OF «,3A4
1 'DISCHARGED TO ',3A4,' FCR ',
2 A4,'SUBCAT, ALL SIGNIF CONCENTRTNS' , 3X.2A4
3 /13X,'#' ,8X, 'GUIDELINE VALUES (MG/HR)/M2«,
4 21X, 'STANDARD' , 7X,'95 PERCENT CONFIDENCE'
5 / 9X, 'VALUES', IX, 3X, 'MINIMUM' ,8X,
6 'MAXIMUM' ,2X,8X,'MEAN',8X,'LIMIT',8X, 'DEVIATION' ,3X,
7 'PRECISinN',6X,'*/- % PEL PREC' / )
XNPTS=NPTS
TLMEAN=TGCNFL( J,L,3)/XNPTS
TAMEAN=TGCNFA( J,L,3)/XNDTS
FFLIM=F( J)*FLIM(L)
F4LIM=F(J)«ALIM(L)
GLIML=CLIM( J)*AMAXl( l.O.FFLIM)
I F(GL I MA.LT.I.OE10) WRITS (6,3009 ) ( KPAP AM( N, J ) ,N=l ,2 ) ,
1 (TGCNFLI J,L,NI,N=1,2) .TLMEAN
2 ,(KGCNFA< J,L,N),N=1,6»
3 , (TGCNFA1 J,L,,MI,N=l,2),TAMEAN,GLIMA
IFCGL IMA. G?. 1.0, TLMEAN
00003700
00003710
00003720
00003730
00003740
00003750
00003760
00003770
00003780
00003790
00003800
00003810
00003820
00003830
00003840
00003850
00003860
00003870
00003880
00003890
OC003900
00003910
-------�
FORTRAN IV
P^LEASF 2.0
M* IN
DATE = 75237
12/26/53
PAGE 0008
O
00
0285
0286
0287
0288
0289
0290
0291
0292
0293
029,,N=1,NSPLNT) 000040*0
NTSTM1=NTSTRM<1) 00004050
NTSTH2=NTSTRM<2) 00004060
NTSTM3=NTSTRM{3) 00004070
WRITE(6,3091)NTSTM1,(KSTRM«N,1),N=1,3), 00004080
1 (K?0£T(N,LFOST*l)lN=l,3)fOAZE,(LTSI01(N),N=l,NTSTMn 00004090
WRITE(6,3091)NTSTM2,tKSTPP.(N,2l,N=l,3), 00004100
1 (KFOST(N,LFDST+1)fN=l,3J,DAZE,(LTSID2(N)tN=ltNTSTM2l 00004110
WPITE(6,3091)NTSTM3,(KSTRM{N,3),N=1,3), , 00004120
1 (KFDST(N,LFDST+1»,N=1,3),DAZE,(LTSID3«N),N=ltNTSTM3> 00004130
3099 FORMATUH1,2X,I5,' SINGLE AND MULTIPLE SUBCATEGORY PLANTS*, 00004140
1 • USED IN THIS SAMPLE STREAM • 00004150
1 ,'ANALYSIS INCLUDE THE FOLLOWING ID#S:',2X,'DATE! • 00004160
2 ,2A4/( IH0.20I6M 00004170
3095 FORMATdHO^X.IS,* PLANTS, EXEMPLARY IN •,A4t« SUBCATEGORV", 00004180
1 • USED IN THIS SAMPLE STREAM • 00004190
1 ,'ANALYSIS INCLUDE THE FOLLOWING IO#S!•,2X,'DATE: • 00004200
2 .2A4/IlHOt20I6») 00004210
3091 FORMAT(1HO,3X,I5,2X,3A4,« SAMPLE STREAMS, DISCHARGED TO «t3A4 , 00004220
1 • USED IN THIS ANALYSIS INCLUDE THE FOLLCWING ID#S:'f2X 00004230
2 ,2A4/(1HO,20I6)) 00004240
309ft PORMAT(1H1,5X,I5,' SINGLE SUBCATEGORY PLANTS', 00004250
1 • USED IN THIS SAMPLE STREAM ' 00004260
1 ,'ANALYSIS INCLUDE THE FOLLCWING I OfS',5Xt"DATE: '00004270
2 ,2A4/tlHO,15F8.211 00004280
C4LL EXIT 00004290
END . 00004300
-------�
FORTRAN IV Gl "ELEASE ?.0
MAIN
DATE = 75237
12/26/53
PAGE 0009
SUBPROGRAMS CALLED
SYMBOL LOCATION S
IBCOM# 380 *
AMIN1 394
SYMBOL
CBLNK
NKPARM
J
NSPLNT
ISIC
TPWDHR
TFPWDW
FFL
FALIM
NC
NPTS
NTSTM1
LOCATION
430
444
458
46C
480
494
4A8 '
4BC
400
4E4
4F8
50C
SCALAR MAP
SYMBOL LOCATION
CX 434
LS 448
NSZ 45C
NPLNT 470
ID 484
JCAT 498
FF 4AC
FFA 4CO
GLIML 404
ITST 4E8
XNPTS 4FC
NTSTM2 510
SYMBOL
CXX
NLIST
MX
LFDST
IFDST
1ST
M
GCNFL
GLIMA
MS
TMEAN
NTSTM3
LOCATION
438
44C
460
474
488
49C
480
4C4
408
4 EC
500
514
SYMBOL
NCATEG
TFOST
INX
I
NCAT
NT
N
GCNFA
OS I NCR
LPRT
TLMEAN
LOCATION
43 C
450
464
478
48C
4AO
4B4
4C8
40C
4FO
504
SYMBOL
NL
L
IASC
NSTRM
NCATTL
TFPHDH
CONCN
FFLIM
TESTOS
NT OIL
TAMEAN
LOCATION
440
454
468
47C
490
4A4
4B8
4CC
4EO
4F4
508
ARRAY MAP
SYMBOL LOCATION
PSW
INRAH
ISTRM
FLIM
KSTRM
TGCNFA
KWO
550
CCA
53E8
5F48
6320
8CFC
10148
FORMAT STATEMENT MAP
SYMBOL LOCATION SY>
2012 10164 !
3002 10201
3010 10467
3099 10894
-------�
FCPTPAM IV Gl R :LEA
-------�
Ft'PTRA.r; IV Gl PEL?ASC 2.0
MAIN
DATE = 75237
12/26/53
PAGE 0011
011AF8 188
011B48 191
011BA8 194
011BEA 197
011C06 200
011C30 203 011C3C 204 170
011C5E 207 011C6A 209 178
011CA6 212 75 OUCDA 213 80
011040 216 90
011E48 220 95 011E98 221 98
011F30 223 011F36 225 100
011F50 227
011FB6 230
012022 235
012064 238
01213C 241
01217C 244
012266 251 205
0122B2 254 012360 256 209
01244C 261 230
012498 264
0124F6 267
012528 270
01260C 276
012648 279
01268E 282
0128RO 285 305
012900 288 0129AO 290 309
012AA4 293 330
012B64 296
012C4C 299
012EOA 306
'OPTIONS IN EFFECT* NOTERM,ID,BCD,SOURCE,NOL1ST,NODECK,LOAD,MAP,NOTEST
*U?TIONS IN EFFECT* NAME = MAIN , LINECNT = 58
'STATISTICS* SOURCE STATEMENTS = 306,PROGRAM SIZE = 77336
'STATISTICS* NO DIAGNOSTICS GENERATED
011*00
011360
011BCO
011BF6
011COE
011C3C
011C6A
OUCDA
0110A2
011E98
011F36
011F58
011FE8
012042
01206C
01214C
012260
012292
012360
012458
0124CE
012512
012536
01262C
01265C
0126A6
0128EO
0129AO
012AFC
012B6C
012024
189
192
195
198
201
204
209
213
217
221
225
228
231
236
239
242
249
252
256
262
265
268
271
277
280
283
286
290
294
297
300
011B26
011B86
011BDC
OUBFE
011C1A
011C50
011CA6
011DOE
011EOO
011FOO
011F44
OUF80
01201A
012052
01207A
01216C
012266
0122A4
012404
012460
012406
012520
0125FC
012638
012674
0127CC
0128F2
012A44
012B58
012B74
0120FC
190
193
196
199
202
206
210
214
218
222
226
229
232
237
240
243
250
253
257
263
266
269
275
278
281
284
287
291
295
298
305
175
180
85
99
204
210
310
-------�
F64-LEtfEL LI^1KAG^ EDITOR OPTIONS SPECIFIED X°EF,LIST
DEFAULT OPTICN(S) USED - SIZ?=I 102400,20480)
****M4IN DOES NOT EXIST BUT HAS BEEN ADDED TC OATA SET
AUTHORIZATION CODC IS 0.
CPCSS REFERENCE TABLE
CCNTRHL SECTIOts
O
M
ro
NAME
MAIN
IHNFMAX9*
XIORSIO *
IHNFEXIT*
IHNtCOMH*
IHKCQMH2*
IHNFMAXI*
MSORT *
IHNFCVTH*
IHNEFNTH*
IHNEFIOS*
IHNFIOS2*
IHNUOPT *
IHNFCONI*
IHNFCCNC*
IHNPROM *
IHMJATBL*
IHNFTEN *
IHNETRCH*
LOCATION
37C
384
38C
394
ORIGIN
00
12E18
12FOO
13163
13328
14288
149DO
14AB8
15708
16278
167CO
177B8
17D70
180BO
18398
18840
1.8E40
J.9478
19610
PEFEP.S
LENGTH
12E18
E5
267
ICO
F8C
715
E5
C50
B6F
548
FF8
5B8
340
2E5
4A2
5FC
638
198
2A6
TO SYMBI
OATEJI
MSORT
MINO
AMIM
ENTRY
NAME
MAX1
DATEJC
EXIT
IBCOM«
SEODASD
MAXO
ADCON#
FCVIOUTP
ARITH#
FIOCS*
FOCONI0
FQCONO*
ERRMON
FTEN8
IHNTRCH
SECTION
iBPIO
!RT
IFMAXI
LOCATION
12E18
12FOO
13168
13354
146E6
14900
15708
15D46
16278
167CO
180BO
18398
18840
19478
19610
NAME L
MINI
FOIOCS#
MINO
FCVAOUTP
FCVEOUTP
ADJSWTCH
FIOCSBEP
IHNERRE
F.RRTRA
LOCATION
380
388
390
132CO
OCATIO
12E2E
13410
149E6
157B2
15E38
16614
167C6
18858
19618
REFER!
NAME LOCATION
NAME LOCATION
AMAX1
12E44 AMINl
INTSMTCH U28E
AMAXO
149FC AHINO
SYMBOL IN CONTROL SECTION
IBCOM* IHNECOMH
EXIT IHNFEXIT
AMAX1 IHNFMAXR
IBCOM* IHNECOMH
12E5A
14A12
FCVLOUTP 15842 FCVZOUTP 1599E
FCVCOUTP 15F82 INT6SHCH 161F8
-------�
o
LOCATION KfFE^S TO SYMBOL IN CQNTPOL SECTInM
13410
14194
14198
141B4
1419C
141A4
141AC
14140
14170
14148
14150
145A9
14300
14820
1484D
16064
160BC
16668
1660C
1666C
16920
175C4
175E5
177B1
18788
18E30
18E38
19798
197A4
ENTRY ADORESS
SEODASD
ADC ON*
^F. ITH#
IHNUDPT
FCVEPUTP
FCVIOUTP
FCVAOUTP
IHNERRE
IHNERRM
IHNCOMH2
IHNCOMH2
IHNECOMH
IHNEPRM
IHNECOMH
IHNECOMH
IHNEPRM
FOCONI*
INTSWTCH
IHNUOPT
FIGCS#
IHNERRM
IHNUATBL
IHNFIOS2
IHNFIOS2
FTEN*
IBCOM*
FIOCSBEP
IBCOM*
FIOCSBEP
00
IHNCCMH2
IHNFCVTH
IHNECNTH
IHNUOPT
IHNFCVTH
IHNFCVTH
IHNFCVTH
IHNERRM
IHNERRM
IHNCOMH2
IHNCOMH2
IHNECOMH
IHNERRM
IHNECOMH
IHNECOMH
IHNEPRM
IHNFCONl
IHNECOMH
IHNUOPT
IHNEFIOS
IHNEPRM
IHNUATBL
IHNFIOS2
IHNFIOS2
IHNFTEN
IHNECOMH
IHNEFIOS
IHNECOMH
IHNEFIOS
TOTAL LENGTH 198B8
LOCATION
13468
1418C
141R8
142BO
141AO
141A8
141RO
1416C
14144
1414C
14550
145AC
142FC
1483D
16068
16068
16664
16610
16670
166DC
16924
175DO
175FC
1832C
18E2C
18E34
197AO
1979C
REFEPS TT SYMBOL IN
IHNCOMH2
FIOCS#
AOJSHTCH
IHNCMSE
FCVLOUTP
FCVCOUTP
FCVZOUTP
IHNCOMH2
IHNCOHH2
IHNCOMH2
IHNECOMH
IHNECOMH
IBCOM*
IHNECOMH
IBCOM*
FQCONO»
I8COM*
INT6SWCH
ADC ON*
IHNERRM
IHNFIOS2
IBCOM«
IHNFIOS2
FTEN#
IHNUOPT
IHNTRCH
LOFIO*
ADC ON*
CONTROL SECTION
IHNCOMH2
IHNEFIOS
IHNEFNTH
SUNRESOLVEOlWt
IHNFCVTH
IHNFCVTH
IHNFCVTH
IHNCOMH2
IHNCOHH2
IHMCOMH2
IHNECOKH
IHNECOMH
IHNECOKH
IHNECOMH
IHNECCMH
IHKFCONO
IHNECOHH
IHNFCVTH
IHNFCVTH
IHNERRM
IHNFIOS2
IHNECOMH
IHNFIOS2
IHNFTEN
IHNUOPT
IHNETRCH
*UNRESOLVEO(U)
IHNFCVTH
-------�
ACKNOWLEDGEMENTS
This document was prepared by the Hamilton Standard Division of United
Technologies Corporation. The manual was written by Messrs. Walter
Drake and Jeffrey Wehner under the overall direction of Mr. Daniel
Lizdas, Project Manager.
Project members who assisted in the collection and presentation of data
for this report were:
Mr. Clark Anderson
Mr. Eric Auerbach
Miss Nancy Broderick
Mr. Miner C. Friend
Mrs. A. J. Goldrick
Mr. Gilbert Kleiner
Mr. Daniel Smola
Mr. James Taylor
-------� |