United States
Environmental Protection
Agency
Office of
Radiation Programs
Washington. D.C. 20460
EPA 520/1-87-029
December 1987
Radiation
&EPA
Low-Level and NARM
Radioactive Wastes
Model Documentation
ACCOUNTING Model for
PRESTO-EPA-POP,
PRESTO-EPA-DEEP, and
PRESTO-EPA-BRC
Methodology and Users Manual
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40 CFR Part 193 EPA 520/1-87-029
Environmental Radiation Standards (RAE 8706/1-7)
for Management and Land Disposal
of Low-Level Radioactive Wastes
ACCOUNTING MODEL FOR
PRESTO-EPA-POP, PRESTO-EPA-DEEP, AND PRESTO-EPA-BRC CODES
METHODOLOGY AND USERS MANUAL
Developed by
Vern Rogers
Cheng Hung
December 1987
Prepared for
U.S. Environmental Protection Agency
Office of Radiation Programs
Washington, DC 20460
Cheng Hung, Project Officer
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DISCLAIMER
This report was prepared as an account of work sponsored by an agency
of the United States Government. Neither the United States Government
nor any agency thereof, nor any of their employees, contractors, sub-
contractors, or their employees, makes any warranty, express or implied,
nor assumes any legal liability or responsibility for any third party's use
or the results of such use of any information, apparatus, product or process
disclosed in this report, nor represents that its use by such third party
would not infringe upon privately owned rights.
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PREFACE
This ACCOUNTING model documentation provides background
information on the mathematical modeling used to generate the
basic data for the Environmental Impact Statement (EIS) which is
used to support EPA's rulemaking for generally applicable
environmental standards for the management and disposal of
low-level radioactive wastes (LLU). This model was used as a
utility model for assessing the cumulative population health
effects (including fatal cancer deaths and serious genetic
effects) to the general population residing in the downstream
regional water basin as a result of the disposal of LLW when a
unit response analysis method is used. The utility model is
specifically designed to assess the cumulative population health
effects in conjunction with the PRESTO-EPA-POP, PRESTO-EPA-BRC,
or PRESTO-EPA-DEEP model simply for the purpose of reducing the
cost of analysis. Therefore, the assessment of the cumulative
population health effects may also be conductea with one of the
above appropriate models without the aid of this accounting model
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TABLE OF CONTENTS
Pag<
LIST OF FIGURES iii
LIST OF TABLES iv
EXECUTIVE SUMMARY v
1 INTRODUCTION 1-1
2 PROGRAM DESCRIPTION 2-1
2.1 Structure of the Accounting Model Code 2-1
2.2 Functions Performed by the Accounting Model .... 2-4
2.3 Calculations 2-6
3 INPUT AND OUTPUT 3-1
3.1 Input Data for the Accounting Model 3-1
3.2 Output Data for the Accounting Model 3-9
APPENDIX A -- SAMPLE PROBLEM INPUT DATA A-l
APPENDIX B -- SAMPLE PROBLEM OUTPUT B-l
APPENDIX C — FORTRAN LISTING OF ACCOUNTING MODEL CODE .... C-l
APPENDIX D -- FORTRAN CODE AND OUTPUT FOR MULTIPLE WASTE STREAM
UNIT VOLUME RESULTS D-l
APPENDIX E — FORTRAN CODE AND OUTPUT FOR VOLUME WEIGHTED
RESULTS E-l
REFERENCES R-l
IV
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LIST OF FIGURES
Figure No^ Page
2-1 Subroutine Structure for Accounting Model Code . . . 2-2
2-2 Input and Output Summary for Accounting Model . . . 2-3
2-3 Logic Flow for Accounting Model 2-5
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LIST OF TABLES
Table No. Page
2-1 Waste Streams in the Accounting Model Data Base . . 2-7
3-1
3-2
3-3
3-4
3-5
3-6
3-7
Interactive User Input for Accounting Model ....
Input Description for Waste Stream Matrix Data File
Input Description for Nuclide Scaling Factor File .
Input Description for Health Effects Data File . . .
Input Description for Unit Response Data File ...
Input Description for Waste Stream Concentration
Matrix
Accounting Model Summary File
3-2
3-3
3-5
3-6
3-7
3-10
3-12
VI
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EXECUTIVE SUMMARY
The U.S. Environmental Protection Agency (EPA) is responsible for
developing a generally applicable standard for the land disposal of
low-level radioactive waste (LLW). As an aid in developing the standard, a
family of computer codes, entitled PRESTO-EPA-POP, PRESTO-EPA-BRC,
PRESTO-EPA-DEEP, PRESTO-EPA-CPG, and PATHRAE-EPA, has been developed under
EPA direction. The PRESTO-EPA codes estimate potential health effects to
local and regional populations from the land disposal of low-level
radioactive waste under a wide variety of hydrologic, geologic, climatic,
site engineering, and waste form conditions. The EPA uses the PRESTO-EPA
code family to compare the potential health impacts of a broad number of
LLW disposal alternatives to evaluate and support its decisions for the LLW
standard.
This report documents the Accounting Model computer code. The
Accounting Model is an auxiliary code for the PRESTO-EPA-POP,
PRESTO-EPA-BRC, and PRESTO-EPA-DEEP models. A PRESTO-EPA simulation
calculates the human exposure to radionuclides for a local population near
the waste disposal facility. Exposure pathways include groundwater
transport to a river and to a well, contamination of surface water by
erosion of contaminated soil, and atmospheric transport of contaminated
dust. All radionuclides not consumed by the local population during the
first 1000 years of the simulation are assumed to undergo further transport
to a large downstream population (referred to as the regional basin
population). After 1,000 years all releases from the disposal site travel to
the regional basin, as the local population is assumed to become part of
Vll
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the regional basin population. The quantities of these residual
radionuclides released to the basin population are calculated by the
PRESTO-EPA models. Release pathways to the basin population include surface
water and groundwater. Atmospheric transport to the basin population is
considered negligible. The Accounting Model uses the radionuclide releases
and a set of radionuclide dependent health effect conversion factors to
estimate the total number of health effects to the regional basin
population. These health effects are added to the health effects from the
local population.
The input data required by the Accounting Model includes health effect
and genetic effect conversion factors, a matrix of nuclide concentrations
and volumes for the various waste streams, and the residual radionuclide
releases calculated by a PRESTO-EPA unit response analysis. The Accounting
Model multiplies the radionuclide releases to the river by the health
effects conversion factors to give the total number of health effects to
the population. Results for a fully loaded disposal facility are scaled
from the unit response results. Total numbers of somatic and genetic
health effects are calculated separately.
viii
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1. INTRODUCTION
The development of standards for low-level radioactive waste disposal
by the U.S. Environmental Protection Agency has led to the development and
utilization of the PRESTO-EPA family of computer codes (EPA87a through
EPA87f). The current versions of the PRESTO-EPA codes are capable of
predicting the environmental transport of radionucl ides and the associated
human health risks resulting from the land disposal of radioactive wastes.
Several waste disposal technologies can be simulated. Among them are
shallow land disposal, intermediate depth disposal, sanitary landfill
disposal, and the use of modular concrete containers, as well as
hydrofracture and deep well injection. A variety of waste forms can be
considered, including trash, activated metal, and solidified waste.
As part of the effort to develop disposal standards, health effects
and genetic effects were calculated for a unit volume of waste containing a
unit inventory of each radionuclide. The unit response method of
evaluating the various disposal scenarios was adopted to minimize the
number of PRESTO-EPA computer runs required. In conjunction with the
unit response analyses, the Accounting Model codes were developed to
process the PRESTO-EPA unit response output. The Accounting Model codes
produce health effect results for disposal of a unit volume of each waste
stream and for disposal of a full low-level waste inventory at a full-size
facility.
For the unit response analyses, the PRESTO-EPA codes analyze the
radionuclide exposure and health effects for a local population near the
waste site and the residual radionuclides released to the regional water
1-1
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basin. The health effects to the local population are calculated for a
1000 year period. Those radionuclides not consumed by the local population
during the first 1000 years are considered residual radionuclides. In
addition, after the 1000 year local assessment period has ended, all
radionuclides that leave the disposal site and enter the regional basin
(which now incorporates the local population group) are considered residual
radionuclides. In the basin analysis, health effects to a regional
population are calculated for 10,000 years for all residual radionuclides.
The Accounting Model uses the results of the unit response analyses
and the health effect conversion factors to calculate the total number of
somatic and genetic health effects to the local and regional basin
populations due to disposal of a unit volume of each waste stream. Since
the health effects conversion factors are nuclide dependent, the health
effects are tabulated by nuclide. This allows easy identification of
critical nuclides when evaluating the long-term performance of waste
disposal facilities. The Accounting Model also uses the unit response
results, waste stream radionuclide concentrations, and projected waste
volumes to calculate the health effects resulting from a full-size waste
disposal facility.
The organization of the Accounting Model code is described in this
report in terms of its logic flow, subroutine hierarchy, user input data,
and output format. The organization of the code is discussed in Chapter 2.
The input and output data are described in Chapter 3. Sample input and
output data sets are shown in Appendices A and B, respectively. A FORTRAN
listing of the Accounting Model code is given in Appendix C. Additional
computer codes and outputs for summarizing unit volume results and volume
weighted results are given in Appendices D and E.
1-2
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2. PROGRAM DESCRIPTION
The organization of the Accounting Model code is relatively simple
since it is designed to calculate the health effects due to the disposal of
unit waste volumes and consolidated waste volumes by using simple
multiplications and summations. The model uses the results of the
PRESTO-EPA unit response analyses as the major input. The unit response
results consist of residual radionuclide releases to the regional basin and
health effects to the local population. The PRESTO-EPA codes are generally
run with unit radionuclide inventories. The Accounting Model produces
output for various waste streams by multiplying the unit response results
by the waste stream radionuclide concentrations. For each waste stream the
fatal cancer risks and the genetic risks are tabulated. The cumulative
health risks are calculated for the first 100, 500, and 1000 years, for
years 1000 through 10,000 and for the total 10,000 year simulation. The
Accounting Model is written in FORTRAN for use on a micro-computer. The
structure of the code and the subroutines is described in this chapter.
2.1 STRUCTURE OF THE ACCOUNTING MODEL CODE
The Accounting Model program consists of a main program and six
subroutines. The subroutine structure of the code is shown in Figure 2-1. A
summary of the input data requirements and the output is presented in
Figure 2-2. The program logic consists of reading the radionuclide
releases, the health effects conversion factors, the waste stream
concentration matrix, and then calculating the health effects.
2-1
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BLOCK DATA
RAE-102250
FIGURE 2-1. SUBROUTINE STRUCTURE FOR ACCOUNTING MODEL CODE.
2-2
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INPUT
OUTPUT
INTERACTIVE
USER INPUT
WASTE STREAM
SELECTION MATRIX
RADIONUCLIDE NAMES
AND SCALING FACTORS
HEALTH RISK
FACTORS
PRESTO-EPA UNIT
RESPONSE DATA
WASTE
CONCENTRATION
MATRIX
ACCOUNTING
MODEL
POPULATION
HEALTH RISKS
HEALTH RISK
SUMMARY
RAE-102357
FIGURE 2-2. INPUT AND OUTPUT SUMMARY FOR ACCOUNTING MODEL.
2-3
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2.2 FUNCTIONS PERFORMED BY THE ACCOUNTING MODEL
The functions of the main program and each of the subroutines are
discussed in this section. Figure 2-3 provides a summary of the data
manipulations which occur in each program module. Variables in common
blocks are initialized in a BLOCK DATA section in the code.
The Accounting Model main program reads most of the input data and
coordinates the actions of the subroutines. Interactive user input is read
to specify control parameters and to define the particular scenario being
simulated. The cancer and genetic risk factors are read from a disk file.
The radionuclide concentrations for the various waste streams are read from
another file. When the input is complete, the cumulative cancer and genetic
risks are tabulated, by nuclide, for each waste stream. Population doses
and risks to the local population are printed separately from those for the
basin population.
Subroutine ZERO initializes program variables before data input and
calculations begin. It is called once at the beginning of the Accounting
Model code. Subroutine MATRIX reads the waste stream matrix which
determines which waste streams are to be included in each analysis. The
data set consists of a matrix of zeros and ones. The waste stream matrix
shows which waste streams are included in a given scenario. A value of one
or zero indicates the presence or absence of a particular waste stream.
Subroutine LOCATE is a routine for positioning the screen cursor during
interactive input. It is specific to the micro-computer on which the
Accounting Model is currently implemented. Subroutine PRINTR is used to
organize and order waste concentrations for output. It calls subroutine
SORTER which sorts the results from largest to smallest:,
2-4
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START
INITIALIZE VARIABLES
SUBROUTINE ZERO
READ WASTE STREAM
SELECTION MATRIX
L.
J 1
SUBROUTINE MATRIX
READ INPUT
CALCULATE
HEALTH RISKS
PRINT RESULTS
YES
STOP
RAE-102252
FIGURE 2-3. LOGIC FLOW FOR ACCOUNTING MODEL,
2-5
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2.3 CALCULATIONS
The equations used in the Accounting Model code are presented in this
section. The calculations performed by the Accounting Model utilize the
unit response data from one of the PRESTO-EPA codes (POP, BRC, or DEEP).
The unit response data from PRESTO are based on a unit volume (1 m3) Of
waste containing a unit curie inventory of each radionuclide. The
Accounting Model scales these unit response results to represent the
estimated radionuclide concentrations in a variety of low-level waste
streams. The Accounting Model results give the fatal and genetic health
risks resulting from the disposal of a unit volume of each waste stream.
the waste streams currently in the Accounting Model data base are listed in
Table 2-1.
The cancer risk to an individual resulting from disposal of a unit
volume of a particular waste stream is given by
Rjk = Cjk URld (2-1)
where
Rjk = individual cancer risk from radionuclide j in waste
stream k ( ri sk/yr).
C-JL. = concentration of radionuclide j in waste stream k
(Ci/m3).
URij = individual cancer risk due to disposal of unit
inventory of radionuclide j (risk/yr).
The unit response data are typically given for average risks during the
first 100, 500, and 1000 years of the simulation.
The cumulative population dose is given by
D
jk = Cjk UR2J T (2-2)
2-6
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TABLE 2-1
WASTE STREAMS IN THE ACCOUNTING MODEL DATA BASE
B-COTRASH
C-SMOKDET
C-TIMEPCS
F-COTRASH
F-NCTRASH
F-PROCESS
I-ABSLIQD
I-BIOWAST
I-COTRASH
I-LQSCNVL
L-CONCLIQ
L-COTRASH
L-DECONRS
L-FSLUDGE
L-IXRESIN
L-NCTRASH
L-NFRCOMP
L-WASTOIL
N-ISOPROD
N-LOTRASH
N-LOWASTE
N-SOURCES
N-SSTRASH
N-SSWASTE
N-TARGETS
N-TRITIUM
P-CONDRSN
P-COTRASH
P-FCARTRG
R-INSTDF1
R-INSTDF2
R-INSTDIF
R-GLASDIS
R-GLASDS1
R-GLASDS2
R-RAIXRSN
R-RASOURC
U-PROCESS
2-7
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where
Djk = cumulative population dose due to radionuclide j in
waste stream k (person-rem).
UR2j = average population dose due to disposal of unit
inventory of radionuclide j (person-rem/yr).
T = time period over which average population dose is
calculated (usually 100, 500, or 1000 yr).
The number of fatal health effects in the local population is given by
NLjk = Cjk UR3j T SFj (2-3)
where
number of cancer deaths in the local population due to
radionuclide j in waste stream k.
= average cancer risk to local population due to disposal
of unit inventory of radionuclide j (deaths/yr).
Spj = radionuclide dependent scaling factor to adjust cancer
risks.
The number of fatal health effects in the basin population is
calculated as
NBjk = Cjk UR8j HJ SFj (2-4)
where
number of cancer deaths in the basin population due to
radionuclide j in waste stream k.
activity of radionuclide j released downstream to the
basin population during 10,000 years (Ci).
Hj = fatal health effects conversion factor for radionuclide
release to a river (effects/Ci).
The genetic health risks are calculated by the same method as the
cancer risks in Equations 2-3 and 2-4. The genetic risk to the local
population is expressed as
2-8
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MUk = Cjk UR4j T SGj (2-5)
where
'Ljk
UR4j
SGj
number of genetic effects in the local population due
to radionuclide j in waste stream k.
average genetic risk to local population due to disposal
of unit inventory of radionuclide j (effects/yr).
radionuclide dependent scaling factor to adjust genetic
risks.
The number of genetic effects in the basin population is given by
MBjk = Cjk UR8j GJ SGj (2-6)
where
'Bjk
number of genetic effects in the basin population due
to radionuclide j in waste stream k.
genetic health effects conversion factor for radio-
nuclide release to a river (effects/Ci).
Other parameters are as previously defined.
In addition to calculating the risks by radionuclide, the Accounting
Model sums risks over all radionuclides in a given waste stream. The
individual cancer risk for disposal of a unit volume of a particular waste
stream is
'jk
(2-7)
where
individual cancer risk due to disposal of a unit volume
of waste stream k (risk/yr).
radionuclide dependent cancer risk given by Equation
2-1.
2-9
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The summation in Equation 2-7 is performed over all radionuclides present
in the waste stream. The population dose given in Equation 2-2 is summed
over radionuclides to give the total waste stream dose
Dk = 2_. °jk (2-8)
j
where
Dk = total population dose due to disposal of a unit volume
of waste stream k (person-rem).
Djk = radionuclide dependent population dose given by
Equation 2-2 (person-rem).
The number of fatal health effects due to waste stream k, Nk, in the
population is computed by adding the effects from the local and basin
populations and summing over radionuclides
Nk = Z^(NUk + NBjk) (2-9)
j
The quantities Ni ,-1, and ND-JL, are defined in Equations 2-3 and 2-4.
I—J IN L> J IS. '
Similarly, the number of genetic effects due to waste stream k, Mk, is
obtained by summing the effects in Equations 2-5 and 2-6
K+MBjk) (2-1Q)
j
In an actual disposal facility, multiple waste streams are present and
the doses and health effects must be summed over all waste streams.
Results for a fully loaded disposal facility can be calculated by scaling
the unit volume results and summing over waste streams.
2-10
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The population dose from a fully loaded disposal facility is given by
D = Vk Dk (2-11)
k
where
D = total population dose (person-rem).
Vk = volume of waste stream k disposed in the facility (m^).
Dk = population dose due to disposal of a unit volume of
waste stream k, given by Equation 2-8.
The health effects and genetic effects for the full facility are
calculated similarly:
N = 2^Vk Nk (2-12)
k
M =
i
k
where
N = total number of fatal health effects from full facility.
Nk = number of fatal health effects from disposal of unit
volume of waste stream k, given by Equation 2-9.
M = total number of genetic effects from full facility.
Mk = number of genetic effects from disposal of unit volume
of waste stream k, given by Equation 2-10.
The computer codes which produce the multiple waste stream summaries
and the volume weighted results are listed in Appendices D and E,
respectively. Example outputs from these codes are also given in the
appendices.
2-11
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3. INPUT AND OUTPUT
3.1 INPUT DATA FOR THE ACCOUNTING MODEL
There are six sets of input data required by the Accounting Model. The
types of data required are summarized in Figure 2-2 and are described in
more detail in this section.
The first data set consists of interactive user input which defines
the scenario. Data such as the location of the facility, the type of
disposal technology, and the waste form are provided. These data are used
for titles, table headings, and for determining which wastes streams are
included in the scenario. A line by line description of the interactive
input is given in Table 3-1.
The second data set contains the waste stream matrix. The matrix
specifies which waste streams are to be included in the analysis for a
given scenario. The data set consists of a matrix of zeros and ones. A
value of one indicates the presence of a particular waste stream and a zero
indicates the waste stream's absence. These data are described in Table
3-2. The default file names are LLWMAT.DAT for low-level waste
inventories, and BRCMAT.DAT for below regulatory concern inventories.
The third data file is a list of radionuclide names and scaling
factors. There are three scaling factors for each radionuclide. The first
scaling factor is used to scale the unit response results to account for
different radionuclide inventories. The other two scaling factors can be
used to adjust the somatic and genetic health effects conversion factors.
3-1
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TABLE 3-1
INTERACTIVE USER INPUT FOR ACCOUNTING MODEL
Variable
Format
Description
AN1
Al
FILEB
IR
JOBN
IHIC
A14
12
4A1
12
URF
DFILE
VAR1
A14
A14
Al
FILE2
A12
Flag indicating whether the run is
interactive or batch. For
interactive enter I, for a batch run
enter B.
Batch file name. Read only if the
variable AN1, above, specifies a
batch run.
Two digit numerical identifier for
disposal scenario.
Four digit PRESTO job number for
scenario.
Flag indicating whether high
integrity containers are present.
If not present, enter zero.
Otherwise, enter 1.
Name of PRESTO unit
file.
response data
Name of waste stream concentration
matrix. The default file name is
LLWCONC.DAT or BRCCONC.DAT.
Flag to select output device. For
line printer, enter 1. For disk
output, enter 2. A value of 3 will
write only a summary output to
logical unit 4 under the file name
RAWTOTAL.FIL.
File name for disk output. Read
only if disk output is selected with
variable VAR1.
3-2
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TABLE 3-2
INPUT DESCRIPTION FOR WASTE STREAM MATRIX DATA FILE
Card Variable (Format) Description
1-3 DUMMY (A10) Dummy variables for data set
headings and comments.
4-103 Waste Stream Flags and Scenario Names (3X, 30(11, IX), A6)
M(I,J),0=1,30 Matrix of zeroes and ones indicating
which of up to 30 waste streams are
present for each scenario. The
index J identifier the waste stream
and I identifies the scenario.
RNAM(I) Six character name which identifies
the run.
Note: The ordering of waste streams in this data file must match the
ordering given in DATA statements in the code. The code array
WASNML contains the names of LLW streams and the array WASNMB
contains BRC waste stream names.
3-3
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Table 3-3 gives the input format for this data file. The file name for
this data is NUCNAMES.DAT.
The fourth data set, described in Table 3-4, contains the health
effects conversion factors for both somatic effects (cancers) and genetic
effects. The conversion factors express the total number of health effects
per unit radionuclide release to a river. If the radionuclide releases to
the river over some time period are known, the health effects conversion
factors can be used to estimate the cumulative number of health effects for
the population. The health effects conversion factors are dependent on the
facility location, since water usage patterns vary regionally. Three
facility locations are typically assessed in PRESTO-EPA simulations: a
humid southeastern U.S. location, a humid northeastern site, and an arid
southwestern site. The corresponding file names for the health effect
factors are HEBRCSAW.CFS, HEWVCSAW.CFS, and HEBTCSAW.CFS, respectively.
The next data set consists of a table of residual radionuclide
releases and health risks to the population via surface water and
groundwater pathways. This data set, described in Table 3-5, is usually the
result of a PRESTO-EPA (POP, BRC, or DEEP) unit response simulation. The
data represent the health risks and the quantity of each radionuclide
released to the river assuming one curie of each radionuclide is disposed
at the waste site. The releases resulting from the disposal of one curie of
each radionuclide are provided as part of the PRESTO-EPA output. These
residual radionuclide releases are tabulated for various time periods.
Total releases and health risks are given for the first 100, 500, and 1000
years, for years 1000 through 10,000 and for the total 10,000 year
simulation. The Accounting Model uses the radionuclide releases to the
3-4
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TABLE 3-3
INPUT DESCRIPTION FOR NUCLIDE SCALING FACTOR FILE
Card Variable (Format) Description
1 NUM (12) Number of nuclides in the input data
sets.
2+ Nuclide Names and Scaling Factors (A6.4(1X,E8.2))
NUC(I) Six character nuclide name (e.g.,
Pu-239).
DECA(I) Scaling factor to adjust nuclide
concentrations in waste streams.
DECAF(I) Scaling factor to adjust fatal
health risk calculations.
DECAG(I) Scaling factor to adjust genetic
health risk calculations.
VOLAT(I) Volatility factor for incineration.
It is the fraction of the initial
inventory remaining after
incineration.
Note: Card 2 is repeated for each nuclide.
3-5
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TABLE 3-4
INPUT DESCRIPTION FOR HEALTH EFFECTS DATA FILE
Card
Variable (Format)
Description
HECF(I) (F12.6)
Fatal health effect conversion
factor (health effects per curie
activity released to a river).
Note: Card 1 is repeated for each nuclide.
GECF(I) (F12.6)
Genetic health effect conversion
factor (genetic effects per curie
activity released to a river).
Note: Card 2 is repeated for each nuclide. The ordering of nuclide
data in this set must match the ordering in the nuclide scaling
factor file.
3-6
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TABLE 3-5
INPUT DESCRIPTION FOR UNIT RESPONSE DATA FILE
Card
Variable (Format)
Description
PAPER(K)
UR(I,J,K),J=1,10
(10(E10.4,1X)
Time period for cumulative residual
nuclide releases to the river.
Usually 100, 500, or 1000 years.
Unit response data from PRESTO for
nuclide I. The index J identifies
the unit response quantity.
J=l Individual cancer risk
J=2 Population dose (person-rem/yr)
J=3 Population cancer risk
(deaths/yr)
J=4 Genetic risk (effects/yr)
J=5 Cumulative activity pumped out
of well (Ci)
J=6 Cumulative activity pumped out
of stream (Ci)
J=7 Cumulative activity released to
atmosphere (Ci)
0=8 Cumulative activity released
downstream (Ci)
J=9 Activity released downstream
for remainder of 10,000 year
simulation (Ci)
J=10 Activity remaining in facility
after 10,000 years assuming
perfect containment (Ci)
Note: Card 2 is repeated for each nuclide. The nuclide order in this
file must match the nuclide order in the nuclide scaling factor file.
3-7
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TABLE 3-5
(Conti nued)
Card Variable (Format) Description
3 Total Health Risks (4(E10.4,1X))
XXI Individual cancer risk summed
over all nuclides. Currently not
used.
XX2 Population dose summed over all
nuclides. Currently not used.
XX3 Population cancer risk summed over
all nuclides. Currently not used.
XX4 Genetic risk summed over all
nuclides. Currently not used.
Note: Card sets 1 through 3 are read three times for cumulative
periods of 100, 500, and 1000 years.
3-8
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river and the health effects conversion factors to give the total number of
health effects for the basin population. Total numbers of somatic and
genetic health effects are calculated separately by summing the health
effects for the local population and the basin population.
The last data set contains the radionuclide concentrations for several
representative radioactive waste streams. The concentrations are read from
the file LLWCONC.DAT for low-level waste streams or from the file
BRCCONC.DAT for below regulatory concern (BRC) waste streams. The data file
format is shown in Table 3-6. The radionuclide concentrations are
multiplied by the PRESTO-EPA unit response results to get estimated
residual radionuclide releases for a variety of typical radioactive waste
streams. The input data requirements for calculating volume weighted
results are discussed in Appendix E.
In some of the data sets, the ordering of input data is important. The
data set containing radionuclide names and scaling factors establishes the
ordering of radionuclides. The same radionuclide order must be used in the
health effect conversion factor file and in the waste stream concentration
file. Ordering of the waste stream names is established by a DATA statement
in the code. The character arrays WASNML and WASNMB give the ordering for
the LLW and BRC waste streams, respectively. The ordering must be the same
in the waste stream matrix file and the waste stream concentration file.
3.2 OUTPUT DATA FOR THE ACCOUNTING MODEL
The output from the Accounting Model is organized in a series of
tables. A set of tables is produced for each waste stream analyzed. The
3-9
-------�
TABLE 3-6
INPUT DESCRIPTION FOR WASTE STREAM CONCENTRATION MATRIX
Card
Variable (Format)
Description
1+
XNC(I,J),J=1,30
(3(6X,10E10.2,/))
Concentration of nuciide I in waste
stream J (Ci/m3)
Note: Card 1 is repeated for each nuciide. The waste stream order in
this file must match the waste stream order in the waste stream
matrix file. The nuciide order must be the same as in the
nuciide scaling factor file.
3-10
-------�
tables for each waste stream contain the radionuclide concentrations in the
waste stream, the whole body equivalent population doses, fatal cancer
risks for the local and basin populations, and genetic risks for the local
and basin populations. The cancer and genetic risks for each waste stream
are given by radionuclide so that critical isotopes may be easily
identified. Cumulative numbers of health effects are tabulated for the
first 100, 500, and 1000 years of the simulation. Effects for years 1000
through 10,000 and for the entire 10,000 year period are also given. A
sample output from the Accounting Model is given in Appendix B.
Summary information on health effects and genetic effects is written
to a disk file. Ten output records are produced for each waste stream.
The summary file contains the total numbers of fatal and genetic effects
for cumulative time periods of 100, 500, 1000, and 10,000 years. The
health effects and genetic effects are reported separately for the local
and basin populations. The three radionuclides with the greatest
contribution to the health risks are identified, along with their
fractional contribution to the total.
The format of the summary file and the description of the data are
given in Table 3-7. The information in the summary file is used to create
tables summarizing the output of multiple Accounting Model runs. The
summary data is also used to get volume weighted results. Since the
Accounting Model is typically run for a unit volume of waste disposed, the
summary file data can be scaled to represent the health risks from a full
size disposal facility. Appendices D and E contain two computer codes
which read the Accounting Model summary file to produce multiple waste
stream summaries and volume weighted results. Outputs from these codes are
also given in Appendices D and E.
3-11
-------�
TABLE 3-7
ACCOUNTING MODEL SUMMARY FILE
Record Output Description
Six character scenario name.
PRESTO-EPA job number.
Waste stream name.
Cumulative time period for health risk output (100 years).
Cumulative number of health effects in the local population.
Cumulative number of health effects in the basin population.
Cumulative number of genetic effects in the local population.
Cumulative number of genetic effects in the basin population.
Total health effects in local and basin populations.
Total genetic effects in local and basin populations.
Fractional contributions of top three nuclides to local health
effects.
Fractional contributions of top three nuclides to basin health
effects.
Fractional contributions of top three nuclides to local genetic
effects.
Fractional contributions of top three nuclides to basin genetic
effects.
Fractional contributions of top three nuclides to total health
effects.
Fractional contributions of top three nuclides to total genetic
effects.
4-6 Same as records 1-3 for the first 500 years of the simulation.
3-12
-------�
TABLE 3-7
(Continued)
Record Output Description
7-9 Same as records 1-3 for the first 1000 years of the simulation.
10 Total health effects for years 1000-10,000.
Total genetic effects for years 1000-10,000.
Fractional contributions of top three nuclides to health effects
for years 1000-10,000.
Fractional contributions of top three nuclides to genetic
effects for years 1000-10,000.
3-13
-------�
APPENDIX A
SAMPLE PROBLEM INPUT DATA
-------�
A.I WASTE STREAM MATRIX
111111111122222222223
123456789012345678901234567890
I | : • ! i i | [ I ! : ! : : i : j ! -, ! ; ; I ; j , ' ;
1-6,6,6,1,6,o,o,6,i,i,i,i,i,i,i,1,6,6,6,6,i, 0,1,0,6,0,0,0,0,0 NESLTR
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SWSLTR
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SESLTR
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 NESLAW
5-1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SWSLAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SESLAW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 NESLSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SWSLSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SESLSW
10-0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,ONES LAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SWSLAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SESLAM
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 NECSTR
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SWCSTR
15-0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SECSTR
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 NECSAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SWCSAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SECSAW
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 NECSAM
20-0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SWCSAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SECSAM
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 NECSSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SWCSSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SECSSW
25-1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0,1,0,0,0,0 NECSIS
1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0,1,0,0,0,0 SWCSIS
1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0,1,0,0,0,0 SEC3IS
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 NEISTR
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SWISTR
30-0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SEISTR
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 NEISAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SWISAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SEISAW
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 NEISAM
35-0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SWISAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SEISAM
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 l^EISSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SWISSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0.1,0,1,0,0 SEISSW
40-1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0. 1,0,0,0,0 NEI3IS
1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0,1,0,0,0,0 SWISIS
1,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,1,0,1,0,0,1,0,0,0,0 SEISIS
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 NEIDTR
0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0 0,0,0,0,0 SWIDTR
A-2
-------�
A.I WASTE STREAM MATRIX
(Continued)
45-0,0,0,1,0,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,1,0,1,0,0,0,0,0,0,0 SEIDTR
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,ONEIDAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SWIDAW
1,1,1,0,1,0,1,1,0,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0,1,0,0,0,0 SEIDAW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 NEIDSW
50-1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SWIDSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SEIDSW
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 NEIDAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SWIDAM
0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0 SEIDAM
55-0,1,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0 NEEMSW
0,1,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0 SWEMSW
0,1,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0 SEEMSW
1,0,1,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0,1,0,1,0,0 NECBSW
1,0,1,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0,1,0,1,0,0 SWCBSW
60-1,0,1,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0,1,0,1,0,0 SECBSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 NECCSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SWCCSW
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,0,0 SECCSW
1,1,0,1,1,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,1,0,0,0,0 NEHFSW
65-0,1,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0 SEDIAW
1,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,0,0,0,1,0,1,0,0 SWDGSW
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 TESTER
A-3
-------�
A.2 NUCLIDE SCALING FACTORS
40
H-3
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb-125
1-129
Cs-134
Cs-135
Ca-137
Bal37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
Ra-226
Ac-228
Ra-228
Th-228
Th-232
U-234
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Pu-242
Ara-243
Cm-243
Cm-244
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.
OOE+00
OOE+00
OOE+00
OOE+00
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OOE+00
OOE+00
OOE+00
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OOE+00
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1.
1.
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1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
50E+00
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
.OOE+00
.OOE+00
.OOE+00
.OOE+00
.OOE+00
.OOE+00
.OOE+00
.OOE+00
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.OOE+00
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.OOE+00
.OOE+00
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.OOE+00
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.OOE+00
.OOE+00
.OOE+00
1.
7 .
9.
9.
9.
9.
9.
9.
9.
9,
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
OOE-01
50E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
90E-01
90E-01
98E-01
90E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
98E-01
A-4
-------�
A.3 HEALTH EFFECT CONVERSION FACTORS
7.35E-06 H-3
4.61E-03 C-14
3.19E-04 Fe-55
2.00E-05 Nl-59
5.44E-04 Co-60
4.98E-05 Ni-63
4.75E-04 Sr-90
5.21E-02 Nb-94
2.15E-04 Tc-99
1.01E-03 Ru-106
2.86E-07 Sb-125
9.08E-03 1-129
6.03E-02 Cs-134
5.93E-03 Cs-135
4.04E-02 Cs-137
O.OOE+00 Ba-137m
9.33E-05 Eu-154
7.67E-04 Tl-208
1.80E-01 Pb-210
1.03E-01 Po-210
1.73E-03 Pb-212
1.89E-05 Bi-214
3.59E-05 Pb-214
3.24E-02 Ra-226
2.28E-04 Ac-228
2.28E-02 Ra-228
3.90E-03 Th-228
7.35E-03 Th-232
3.05E-04 U-234
3.51E-04 U-235
2.68E-01 Np-237
3.04E-04 U-238
5.94E-02 Pu-238
6.54E-03 Pu-239
1.08E-03 Pu-241
1.01E-01 Am-241
6.21E-03 Pu-242
l.OOE-01 Am-243
5.54E-02 Cm-243
4.63E-02 Cm-244
A-5
-------�
A. 3 HEALTH EFFECT CONVERSION FACTORS
(Continued)
2.78E-06
8.57E-04
1.02E-04
6.73E-06
2.81E-04
1.61E-05
6.06E-06
3.21E-02
1.02E-05
2.05E-04
1.24E-07
2.02E-05
2.14E-02
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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
4.97E-05
0.0
0.0
2.77E-06
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
8.00E-06
0.0
0.0
5.30E-03
0.0
0.0
5.30E-03
0.0
0.0
8.00E-06
0.0
0.0
5.30E-03
0.0
0.0
5.30E-03
0.0
0.0
1.60E-02
0.0
0.0
8.00E-06
0.0
0.0
8.00E-06
0.0
0.0
8.00E-06
0.0
0.0
8.00E-06
5.20E-04
0.0
2.80E-04
2.30E-05
0.0
0.0
0.0
1.37E-02
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.40E+03
0.0
0.0
1.40E-I-03
0.0
0.0
0.0
0.0
0.0
1.40E+03
0.0
0.0
1.40E+03
0.0
0.0
1.40E+03
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
3.64E-04
0.0
0.0
1.65E-05
0.0
0.0
6.01E-03
8.76E-03
0.0
1.37E-05
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
2.43E-07
0.0
0.0
3.89E-09
0.0
0.0
3.54E-02
1.04E-03
0.0
1.05E-04
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
2.19E-06
0.0
0.0
3.52E-08
0.0
0.0
j,
In
z:
— i
m
CO
— 1
. — - m
o ^>
o 3:
rt- O
-•• O
C O
m
CL "Z.
^ X — 1
5
— 1
o
-3.
— 1
TO
X
-------�
Np-237
U-238
Pu-238
Pu-239
Pu-241
i Am-241
ro
Pu-242
Am-243
Cm-243
Cm-244
2.49E-07
0.0
4.77E-06
4.65E-05
4.40E-06
3.47E-07
3.29E-03
0.0
2.29E-06
2.30E-03
0.0
6.45E-07
1.01E-01
0.0
8.25E-05
5.38E-03
0.0
4.50E-02
5.04E-06
0.0
1.11E-09
1.58E-04
0.0
1.46E-08
1.25E-06
0.0
3.35E-09
1.73E-03
0.0
1.93E-06
2.93E-08
0.0
0.0
2.82E-06
4.20E-06
0.0
4.66E-04
0.0
S.89E-01
2.68E-04
0.0
0.0
1.21E-02
0.0
0.0
6.39E-04
0.0
1.47E+00
5.76E-07
0.0
0.0
1.86E-05
0.0
0.0
3.16E-07
0.0
0.0
3.03E-04
0.0
0.0
2
2
4
2
1
6
4
5
1
3
2
.21E-08
0.0
0.0
.92E-06
0.0
0.0
.95E-04
0.0
0.0
.72E-04
0.0
0.0
.32E-02
0.0
0.0
.04E-04
.82E-06
0.0
.41E-07
0.0
0.0
.40E-05
0.0
0.0
.62E-07
0.0
0.0
.63E-04
0.0
0.0
4.20E-08
0.0
0.0
6.91E-06
0.0
0.0
6.05E-04
0.0
0.0
9.15E-04
0.0
0.0
4.00E-02
0.0
0.0
1.60E-03
1.51E-06
0.0
2.01E-06
0.0
0.0
2.65E-05
0.0
0.0
4.65E-07
0.0
0.0
2.65E-04
0.0
0.0
0.0
0.0
0.0
0.0
8.80E-06
l.OOE-03
1.13E-02
0.0
0.0
7.52E-03
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
1.13E-02
0.0
0.0
3.76E-03
0.0
0.0
0.0
0.0
0.0
0.0
1.71E-04
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
8.54E-05
0.0
2.80E-04
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
3.64E-04
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
4.98E-10
0.0
0.0
7.11E-08
0.0
0.0
7.46E-06
0.0
0.0
6.49E-06
0.0
0.0
2.85E-04
0.0
0.0
1.32E-05
0.0
0.0
1.41E-08
0.0
0.0
3.33E-08
0.0
0.0
3.84E-09
0.0
0.0
3.50E-06
0.0
0.0
4.40E-09
0.0
0.0
6.43E-07
0.0
0.0
6.39E-05
0.0
0.0
5.75E-05
0.0
0.0
2.52E-03
0.0
0.0
1.17E-04
0.0
0.0
1.26E-07
0.0
0.0
2.80E-06
0.0
0.0
3.04E-08
0.0
0.0
2.84E-05
0.0
0.0
GO
—I
m
•70
.—- rn
o 1>
O 12
=3
r+ O
->• O
Z3 Z
a o
ro m
CL -Z.
o
-------�
APPENDIX B
SAMPLE PROBLEM OUTPUT
-------�
DO
I
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: L-NFRCOMP
PAGE: i
p A TI T n —
f\ H U 1 U
NUCLIDE
H-3
C-14
Fe-55
Ni-59
Co-GO
Ni-63
br-90
Nh-94
Tc-99
Ru-106
Sb-125
1-129
Cs-134
Cs-135
Cs-137
Eol37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
Ra-226
Ac-228
R3-228
Th-228
Th-232
U-234
U-235
Np-237
U-238
Pu-238
Pu-239
F'u-241
Am-241
Pu-242
Am-243
Cm-243
Cnt-244
WASTE POPULATION FATAL CANCER RISK RESIDUAL ACTIVITIES DOWNSTREAM
STREAM (PERSON-REM/YR PER Cu-M) (DEATHS/ YR PER Cu-M) (Ci/Cu-M)
(Ci/Cu-M) 100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS 100 YRS
AAA NOT IN WASTE STREAM AAA
G.43E-03 2.50E-04 2.89E-04 2.35E-04 7.01E-OQ 8.12E-08 6.G1E-08 6.16E-02
5.54E+01 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
3.45L-02 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
3.98E+01 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
4.76E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
2.04E-04 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
500 YRS 1000 YRS >1000 YRS
3.57E-01 5.62E-01 3.17E-01
O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 1.44E-03
O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 1.32E-14
O.OOE+00 O.OOE+00 1.30E-03
CO
o
-a
cr
a
j=
-------�
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: L-NFRCOMP
FATAL CANCER RISK (TOTAL DEATHS/Cu-M)
PAGE:
n A r, T n
NUCLIDE
H-3
(" - 1 4
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb- 125
1-129
Cs-134
Cs-135
Cs-137
Bal37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
R.3-22&
Ac-228
Ra-228
Th-228
Th-232
U-234
U-235
No-237
U-238
Pu-238
Pu-239
Pu-241
Ara-241
Pu-242
Am-243
Cm-243
Lm-244
rurULfll 1UN LIUbt
(PERSON-REM PER Cu-M)
100 YRS
AAA
1.61E-04
O.OOE+00
O.OOE+00
O.OOE+00
O.OOE+00
AAA
O.OOE+00
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
500 YRS
NOT
9.
0.
0.
0.
0.
NOT
0.
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
IN WASTE
29E-04
OOE+00
OOE+00
OOE+00
OOE+00
IN WASTE
OOE+00
IN WASTE
IN WASTE
IN WASTE
IN WASTE-
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
1000 YRS
STREAM
1.51E-03
O.OOE+00
O.OOE+00
O.OOE+00
O.OOE+00
STREAM
O.OOE+00
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
PRIMARY ANALYSIS RESIDUAL NUCLIDE
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS
AAA
6.76E-08 3.92E-07 6.3BE-07 2.74E-06 1.59E-05 2.50E-05 1.41E-05
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.49E-09
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 4.69E-18
AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.07E-08
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
10000 YRS
3.91E-05
O.OOE+00
1.49E-09
O.OOE+00
4.69E-18
2.07E-08
TOTAL
CO
o <
o o
fD O
Q- d
1.G1E-04 9.29E-04 1.51E-03 6.76E-08 3.92E-07 6.38E-07 2.74E-06 1.59E-05 2.50E-05 1.41E-05 3.91E-05
NOTE: TOTAL FATAL RISK FOR 100 YRS = 2.81E-OG
TOTAL FATAL RISK FOR 500 YRS = 1.G3E-05
TOTAL FATAL RISK FOR 1000 YRS = 2.56E-05
TOTAL FATAL RISK FOR 10000 YRS = 3.97E-05
-------�
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: L-NFRCOMP
PAGE:
RAD 10-
NUCLIDE
~^I^
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-lOb
Sb-125
1-129
Cs-134
Cs-135
Cs-137
Ei3l37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
Ra-22b
Ac-228
Ra-228
v ;-. - j 2 S
'-' ;". ~ _ .". 1
U - '.. i •:
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Pu-242
Am-243
Cnt-243
Cm-244
UASTE
STREAM
CONC
(Ci/Cu-M)
AAA
6.43E-03
5.54E+01
3.45E-02
3.98E+01
4.76E+00
AAA
2.04E-04
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
,\ A A
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
POPULATION
(PERSON-REM/YR PER Cu-M)
100 YRS
NOT
O
u
0
0
0
0
NOT
0
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NO""
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
IN WASTE
.50E-04
.OOE+00
.OOE+00
.OOE+00
.OOE+00
IN WASTE
.OOE+00
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN UASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN UASTE
IN UASTE
IN WASTE
IN UASTE
IN UASTE
IN WASTE
IN UASTE
IN WASTE
IN WASTE
IN WASTE
IN UASTE
IN WASTE
IN WASTE
500 YRS 1000 YRS
STREAM AAA
2.89E-04 2.35E-04
0. OOE+00 0. OOE+00
0. OOE+00 0. OOE + 00
0. OOE+00 0. OOE+00
0. OOE + 00 0. OOE + 00
STREAM AAA
0. OOE+00 0. OOE+00
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
STREAM AAA
GENETIC RISK RESIDUAL ACTIVITIES DOWNSTREAM
(EFFECTS/ YR PER Cu-M) (Ci/Cu-M)
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS MOOO YRS
1.31E-08 1.51E-08 1.23E-08 6.16E-02 3.57E-01 5.62E-01 3.17E-01
0. OOE + 00 0. OOE+00 0. OOE + 00 0. OOE+00 0. OOE + 00 0. OOE + 00 0. OOE + 00
0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 1.44E-03
0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE+00 0. OOE + 00
0. OOE+00 0. OOE+00 0. OOE+00 0. OOE + 00 0. OOE+00 0. OOE + 00 1.32E-14
0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 1.30E-03
ca
o <
o o
m
ro o
a. ci
-------�
en
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: L-NFRCOMP
PAGE:
t> A ri T n
K fl u 1 u
NUCLIDE
H-3
C-14
Fe-55
Ni-59
Co-GO
Ni-63
Sr-90
Nb-94
Tc-99
Ru-lOG
St.- 125
1-129
Cs-134
Cs-135
Cs-137
B3l37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
R-a-226
Ac-228
Ra-228
Th-228
Th-232
U-234
n-235
No-237
U-238
Pu-238
Pu-230
Pu-241
Ara-241
Pu-242
Am-243
Cm-243
Cm-244
GENETIC RISK (TOTAL EFFECTS/Cu-M)
rUrULflilUN LlUbb =
(PERSON-REM PER Cu-M) PRIMARY ANALYSIS RESIDUAL NUCLIDE
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS
AAA NOT IN WASTE STREAM AAA
1.G1E-04 9.29E-04 1.51E-03 8.42E-09 4.85E-08 7.91E-OB 3.39E-07 1.97E-06 3.10E-06 1.75E-06
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 3.34E-10
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.01E-18
AAA NOT IN WASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 8.51E-09
AAA NOT IN WASTE STREAM AAA
AAA N01 IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WALiTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NUT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
10000 YRS
4.84E-06
O.OOE+00
3.34E-10
O.OOE+00
1.01E-18
8.51E-09
TOTAL
O <
o o
m
ro o
CL cr
-a
c:
O
>
1.G1E-04 9.29E-04 1.51E-03 8.42E-09 4.85E-08 7.91E-08 3.39E-07 1.97E-06 3.10E-OG 1.7GE-06 4.85E-OG
NOTE: TOTAL GENETIC RISK FOR 100 YRS = 3.48E-07
TOTAL GENETIC RISK FOR 500 YRS = 2.02E-OG
TOTAL GENETIC RISK FOR 1000 YRS = 3.18E-OG
TOTAL GENETIC RISK FOR 10000 YRS = 4.93E-OG
-------�
CO
CT>
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS 1000 YRS
2.88fc+01 3.16E-07 G.48E-08 3.24E-08 8.87E-11 1.82E-11 9.09E-12 5.35E-04 5.49E-04 5.49E-04
4.57E-03 2.50E-04 2.89E-04 2.35E-04 7.01E-08 8.12E-08 6.61E-08 6.16E-02 3.57E-01 5.62E-01
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
2.24E+01 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
1.56E-02 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
3.77E+01 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
4.45E+02 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
4.45E+02 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
8.89E-01 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA HOI IN WASTE STREAM AAA
1.47E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
9.59E-27
3.17E-01
O.OOE+00
1.32E-14
1.58E-37
5.79E-36
5.79E-36
7.35E-16
2.17E-07
CO
o <
o o
Z3 |—
m o
O. CZ
-------�
CO
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: N-SOURCES
FATAL CANCER RISK (TOTAL DEATHS/Cu-M)
PAGE:
K H V i U -
NUCLIDE
H-3
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb-125
1-129
Cs-134
Cs-135
Cs-137
H3l37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Eii-214
Pb-214
R3-22&
Ac-228
s j - 2 n °
';' .' -."'.'
T i' i - j -" ! J
1 1 - 2 '-*• 4
U-235
Np-237
U-2J8
Pu-238
Pu-239
Pu-241
Am-241
F'u-242
Am-243
Cm-243
Cm-244
FUPULflTlUN UUbt
(PERSON-REM PER Cu-M)
100 YRS
9.10L-04
1.14E-04
AAA
AAA
O.OOE+00
O.OOE+00
O.OOE+00
AAA
AAA
AAA
AAA
AAA
AAA
AAA
O.OOE+00
O.OOE+00
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
', 'I
" A A
" 7*. A
AAA
AAA
AAA
O.OOE+00
AAA
AAA
O.OOE+00
AAA
AAA
AAA
AAA
500 YRS 1000 YRS
q.
6.
NOT
NOT
0.
0.
0.
NOT
NOT
NOT
NOT
NOT
NOT
NOT
0.
0.
NOT
NOT
-TT
NOT
NOT
NOT
NOT
NOT
NUT
NOT
r-l
f< U i
NOT
NOT
NUT
NOT
0.
NOT
NOT
0.
NOT
NUT
NOT
NOT
33E-04
60E-04
IN WASTE
IN WASTE
OOE+00
OOE+00
OOE+00
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
OOE+00
OOE+00
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
IN WASTE
" '. UASTF
i 1 < w H 5 ^ £
IN WASTE
IN WASTE
IN WASTE
IN WASTE
OOE+00
IN WASTE
IN WASTE
OOE+00
IN WASTE
IN WASTE
IN WASTE
IN WASTE
9J33E-04
1.07E-03
STREAM
STREAM
O.OOE+00
O.OOE+00
O.OOE+00
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
O.OOE+00
O.OOE+00
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
siTRcHi'i
STREAM
STREAM
STREAM
STREAM
O.OOE+00
STREAM
STREAM
O.OOE+00
STREAM
STREAM
STREAM
STREAM
PRIMARY ANALYSIS RESIDUAL NUCLIDE
100 YRS 500 YRS
3.83E-07 3.93E-07
4.81E-08 2.78E-07
AAA
AAA
O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00
O.OOE+00 O.OOE-iOO
AAA
AAA
AAA
AAA
AAA
AAA
AAA
O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
X K .-;
A A A
AAA
AAA
AAA
O.OOE+00 O.OOE+00
AAA
AAA
O.OOE+00 O.OOE+00
AAA
AAA
AAA
AAA
1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS 10000 YRS
3.93E-07 1.70E-07 1.74E-07 1.74E-07 3.05E-30 1.74E-07
4.53E-07 1.95E-OG 1.13E-05 1.78E-05 l.OOE-05 2.78E-05
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.54E-20 1.54E-20
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.56E-34 1.56E-34
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 5.82E-17 5.82E-17
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 4.83E-08 4.83E-08
TOTAL
NOTE: TOTAL FATAL RISK FOR 100 YRS = 2.55E-06
TOTAL FATAL RISK FOR 500 YRS = 1.21E-05
TOTAL FATAL RISK FOR 1000 YRS = 1.88E-05
TOTAL FATAL RISK FOR 10000 YRS = 2.88E-05
ro
o o
rs i—
<-+ c
fD O
Q-CZ
-a
c:
1.02E-03 1.59E-03 2.01E-03 4.31E-07 G.71E-07 8.46E-07 2.12E-06 1.15E-05 1.79E-05 1.01E-05 2.80E-05
-------�
en
oo
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS 1000 YRS
6.88E-12 3.44E-12 5.35E-04 5.49E-04 5.49E-04 9.59E-27
1.51E-08 1.23E-08 G.16E-02 3.57E-01 5.62E-01 3.17E-01
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.32E-14
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 1.58E-37
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 5.79E-36
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 5.79E-36
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 7.35E-16
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.17E-07
CO
o <
o o
=3 r~
fD O
Q. c:
-a
c:
o
—I
3=>
-------�
CD
I
TOTAL
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF UASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
UASTE STREAM: N-SOURCES
GENETIC RISK (TOTAL EFFECIS/Cu-M)
PAGE: 8
RADIO- -
NLICLIDE
H-3
C-14
L'e-55
Ni-59
Co-60
Ni-63
Gr-90
Nb-94
Tc-99
Pu-lOb
Sb- 125
1-129
Cs-134
Cs-135
Cs-137
B3l37m
Eu-154
T 1-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
R.3-226
Ac-223
R 3-228
Th-223
Th-232
U-234
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Pu-242
Aw-243
Cm-243
L'm-244
rUPULflllUN LlUbt — ======_= =_= — =_= — ==_== — =_=== =_===== ==_====_====_=_========_==== =_==
(PERSON-REM PER Cu-M) PRIMARY ANALYSIS RESIDUAL NUCLIDE
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS
9.10E-04 9.33E-04 9.33E-04 9.68E-OU 9.91E-08
1.14E-04 6.60E-04 1.07E-03 5.99E-09 3.45E-08
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE SIREArt AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
VAAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN UASTE STREAM AAA
AAA NOT IN UASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
1000 YRS 100 YRS 500 YRS 1000 YRS MOOO YRS 10000 YRS
9.91E-08 4.28E-08 4.40E-08 4.40E-08 7.68E-31 4.40E-08
5.62E-08 2.41E-07 1.40E-06 2.20E-06 1.24E-06 3.44E-OG
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 3.32E-21 3.32E-21
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 3.99E-35 3.99E-35
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 6.66E-18 6.66E-18
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 5.26E-09 5.26E-09
NOTE: TOTAL GENETIC RISK FOR 100 YRS = 3.87E-07
TOTAL GENETIC RISK FOR 500 YRS = 1.58E-06
TOTAL GENETIC RISK FOR 1000 YRS = 2.40E-06
TOTAL GENETIC RISK FOR 10000 YRS = 3.65E-06
CD
O <
o o
;s m
c;
n> o
Ci. cr
1.02E-03 1.59E-03 2.01E-03 1.03E-07 1.34E-07 1.55E-07 2.84E-07 1.44E-06 2.25E-06 1.25E-06 3.49E-06
-------�
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: N-TARGETS
(AS GENERATED)
PAGE:
WASTE
STREAM
r fl U I U *• LUNL
NUCLIDE (Ci/Cu-M)
H-3 7
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb- 125
1-129
Cs-134
Cs-135
Cs-137
b.3l37ra
Eu-154
Tl-208
F'b-210
Po-210
Pb-212
Bi-214
Pb-214
R.3-226
Ac-228
R.3-228
Ih-228
Th-232
U-234
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Pu-242
Am-243
Cro-243
Cm-244
.BOE+02
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
POPULATION FATAL CANCER RISK RESIDUAL ACTIVITIES DOWNSTREAM
(PERSON-REM/YR PER Cu-M) (HEATHS/ YR PER Cu-M) (Ci/Cu-M)
100 YRS
~~37l6E:07
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
500 YRS
1000 YRS 100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS
6.48E-08 3.24E-08 8.87E-11 1.82E-11 9.09E-12 5.35E-04 5.49E-04 5.49E-04 9.59E-27
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
CO
o <
o o
3 I—
c-l d
D.
-------�
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: N-TARGETS
PAGE: 10
TJ A Fi T n
POPULATION DOSE
(PERSON-REM PER Cu-M)
r R U i U ~
NUCLIDE 100 YRS
H-3 2
C-14
Fe-55
Hi -59
Co-GO
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb- 125
1-129
Cs-134
Cs-135
Cs-137
B a 137m
Eu-154
Tl-208
PC.-210
Po-210
Pb-212
Bi-214
Pb-214
R.3-22G
Ac-223
P.3-228
Ih-228
Tn-232
- ..' 1 4
~
i' u - "'37
U-238
P'j-230
Pu-239
Pu-241
Am-241
Pu-242
Aro-243
Cm-243
Cm-244
.4GE-02
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
•~\ A /'.
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
500 YRS 1000 YRS
2.53E-02
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
WASTE
WASTE
WASTE
UASTE
WASTE
UASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
WASlc
WASTE
WASTE
WASTE
WASTE
WASTE
WASTE
UASTE
UASTE
UASTE
2.53E-0
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
STREAM
FATAL CANCER RISK (TOTAL DEATHS/Cu-M)
PRIMARY ANALYSIS RESIDUAL NUCLIDE
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS 10000 YRS
2 1.04E-05 l.OGE-05 l.OGE-05 4.60E-06 4.72E-06 4.72E-OG 8.25E-29 4.72t-OG
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
TOTAL
O <
o o
rt> O
CL d
2.4GE-02 2.53E-02 2.53E-02 1.04E-05 1.06E-05 1.06E-05 4.60E-06 4.72E-06 4.72E-06 8.25E-29 4.72E-06
NOTE: TOTAL FATAL RISK FOR 100 YRS = 1.50E-05
TOTAL FATAL RISK FOR 500 YRS = 1.54E-05
TOTAL FATAL RISK FOR 1000 YRS = 1.54E-05
TOTAL FATAL RISK FOR 10000 YRS = 1.54E-05
-------�
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
UASTE STREAM: N-TARGETS
PAGE: 11
WASTE
STREAM
NULL IDE (Ci/Cu-M)
H-3 7
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb- 125
1-129
Cs-134
Cs-135
Cs-137
B.al37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
I'b-214
Ra-226
Ac-228
Ra-228
Th-228
Th-232
U-234
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am -241
Pu-242
Am-240
Cm-243
Cm-244
.80E+02
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
POPULATION GENETIC RISK RESIDUAL ACTIVITIES DOWNSTREAM
(PERSON-REM/YR PER Cu-h) (EFFECTS/ YR PER Cu-M) o
o. cr
v * I
~a
cr
-------�
00
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAh JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
UASTE STREAM: N-TARGETS
PAGE: 12
POPULATION DOSE
(PERSON-REM PER Cu-M)
NUCLIDE 100 YRS 500 YRS 1000 YR
H-3 2.
C-14
Fe-55
Ni-59
Co-GO
Ni-63
Sr-90
Nb-94
Ic-99
Ru-lOG
Sb-125
1-129
Cs-134
Cs-135
Cs-137
B3l37ro
Eu-154
T 1-208
Pb-210
Po-210
Pb-212
B i - 2 1 4
Pb-214
P3-22&
Ac-228
Ra-22C
Ih-228
Th-232
U-234
U-235
Np-237
U-238
Pu- 238
Pu-239
Pu-241
Am-241
l'u-242
Am-243
Lm-243
Cm-244
TOTAL 2.
NOTE:
GENETIC RISK (TOTAL EFFECTS/Cu-M)
PRIMARY ANALYSIS RESIDUAL NUCLIDE
1000 YRS 10000 YRS
4GE-02 2.53E-02 2.53E-02 2.G2E-OG 2.G8E-OG 2.G8E-OG 1.16E-06 1.19E-06 1.19E-06 2.08E-29 1.19E-06
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN UASTE STREAM
AAA NOT IN WASTE STREAM
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
4GE-02 2.53E-02 2.53E-02 2.G2E-06 2.G8E-OG 2.G8E-OG 1.16E-06 1.19E-OG 1.19E-06 2.08E-29 1.19E-06
TOTAL GENETIC RISK FOR
TOTAL GENETIC RISK FOR
TOTAL GENETIC RISK FOR
TOTAL GENETIC RISK FOR
100 YRS = 3.78E-OG
500 YRS = 3.87E-OG
1000 YRS = 3.87E-OG
10000 YRS = 3.87E-0&
O <
o o
Z3 I—
fD O
a. cr
-------�
CO
I
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: R-RASOURC
PAGE: 13
r.' A n T n -
ft H V 1 U
NUCLIDE
H-3
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb-12ti
1-129
Cs-134
Cs-135
Cs-137
Bal37m
Eu-154
Tl-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
Ra-226
Ac-228
K'3-228
Th-228
Th-232
U-234
U-235
No-237
U-238
P'j-233
f'u-239
Pu-241
Am-241
Pu-242
Am-243
O-243
Cm-244
WASTE POPULATION
STREAM (PERSON-REM/YR PER Cu-M)
r n KJ r —
LUNL ~ — — •
(Ci/Cu-M) 100 YRS 500 YRS 1000 YRS
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
1.40E+03 O.OOE+00 O.OOE+00 O.OOE+00
1.40E+03 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
1.40E+03 O.OOE+00 O.OOE+00 O.OOE+00
1.40E+03 O.OOE+00 O.OOE+00 O.OOE+00
1.40E+03 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
FATAL CANCER RISK RESIDUAL ACTIVITIES DOWNSTREAM
(DEATHS/ YR PER Cu-M) (Ci/Cu-M)
100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS >1000 YRS
CD
i— «
t —
•z.
i— i
— I
o <
0 O
3 1
c+ f —
-'• ^
3 m
C
CD o
Q. d
O.OOE + 00 O.OOE + 00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.71E-04 — -I
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.71E-04 2
— I
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.71E-04
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.71E-04 2
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 2.71E-04 ^
1=
-------�
CD
I
HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 8492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: R-RASOURC
PAGE: 14
NUCLIDh
H-3
C-14
Fe-55
Hi -59
Co-GO
Ni-t>3
Sr-90
Nb-94
Tc-99
Ru-106
C-b-125
1-129
Cs-134
Cs-135
Cs-137
Pal 37 IN
E-j-154
T 1-208
Pb-210
Po-210
Pb-212
Bi-214
Pb-214
H'3-226
A*"- ^^8
R.3-228
Th-228
Th-232
IJ-234
U-235
Np-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Pu-242
Am -24 3
Cm-243
Cm-244
TOTAL
NOTE
FATAL CANCER RISK
rurULfillUN U U b b = = = _ =
(PERSON-REM PER Cu-M) PRIMARY ANALYSIS
100 YkS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS 100 YRS
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA .
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
: TOTAL FATAL RISK FOR 100 YRS = O.OOE+00
TOTAL FATAL RISK FOR 500 YRS = O.OOE+00
TOTAL FATAL RISK FOR 1000 YRS = O.OOE+00
TOTAL FATAL RISK FOR 10000 YRS = 1.80E-01
(TOTAL DEATHS/Cu-M)
RESIDUAL NUCLIDE
500 YRS 1000 YRS >1000 YRS 10000 YRS
O.OOE+00 O.OOE+00 1.02E-01 1.02E-01
O.OOE+00 O.OOE+00 5.86E-02 5.86E-02
O.OOE+00 O.OOE+00 1.08E-05 1.08E-05
O.OOE+00 O.OOE+00 2.04E-05 2.04E-05
O.OOE+00 O.OOE+00 1.84E-02 1.84E-02
O.OOE+00 O.OOE+00 1.80E-01 1.80E-01
DO
O <
O O
O
O. C
d
—I
a
-------�
CO
I
INPUT PARAMETERS USED FOR UNIT-VOLUME CALCULATIONS
T?C|
228
228
"' 3 ~
34
3b
237
38
238
239
241
241
242
243
243
244
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
1.40E+03
1.40E+03
AAA
1.40E+03
1.40E+03
1.40L+03
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
POPULATION GENETIC RISK RESIDUAL ACTIVITIES DOWNSTREAM
(PERSON-REM/YR PER Cu-M) (EFFECTS/ YR PER Cu-M> 1000 YRS
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE+00 0. OOE + 00 0. OOE+00 0. OOE + 00 2.71E-04
0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 2.71E-04
AAA
0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE + 00 2.71E-04
0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 0. OOE+00 2.71E-04
0. OOE + 00 0. OOE + 00 0. OOE + 00 0. OOE+00 0. OOE + 00 0. OOE+00 0. OOE + 00 2.71E-04
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
AAA
CO
•
t— •
cz
1 — 1
—1
o o
3 i —
(-1- c:
:3 m
c:
fD O
o < —
V ' 1
"O
—1
o
—I
-------�
00
I
HEALTH EFFECTS ANALYSIS FOR UNII-UOLUME OF WASTE DISPOSAL (AS GENERATED)
RUN NAME/NUMBER: SESLAM JN 9492
HUMID PERMEABLE
REGULATED SANITARY LANDFILL
WASTE STREAM: R-RASOURC
GENETIC RISK (TOTAL EFFECTS/Cu-M)
PAGE:
ruruLHiiuN uust = -_ = = =__===_=_====__=_==__=_==_====__3=_= = = = = = = = = =
(PERSON-REM PER Cu-M) PRIMARY ANALYSIS RESIDUAL NUCLIDE
ft A D 1 0 ~ " ~ "
NUCLIDL 100 YR5 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS 100 YRS 500 YRS 1000 YRS
H-3
C-14
Fe-55
Ni-59
Co-60
Ni-63
Sr-90
Nb-94
Tc-99
Ru-106
Sb-125
1-129
C5-134
C5-1G5
15-137
Hal 37m
Eu-154
11-208
Pb-210 0
P o - 2 1 0 0
Pb-212
Ei i - 2 14 0
Pb-214 0
Pi-226 0
Ar-228
R3-22G
Th-228
Th-232
U-234
U-235
No-237
U-238
Pu-238
Pu-239
Pu-241
Am-241
Fu-242
Am-243
Cm-243
Cm-244
TOTAL 0
NOTE:
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AAA
AAA NOT IN WASTE STREAM AA*
.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00
TOTAL GENETIC RISK EOR 100 YRS = O.OOE+00
TOTAL GENETIC RISK FOR 500 YRS = O.OOE+00
TOTAL GENETIC RISK EOR 1000 YRS = O.OOE+00
TOTAL GENETIC RISK FOR 10000 YRS = 3.06E-02
>1000 YRS 10000 YRS
6.53E-03 G.53E-03
1.88E-02 1.88E-02
1.77E-07 1.77E-07
1.66E-06 1.6GE-06
5.24E-03 5.24E-03
3.06E-02 3.06E-02
CXI
o <
o o
rs m
c
03 O
Q. <=.
CD
3=
-------�
SESLAM
SESLAM
SESLAM
SESLAM
SESLAM
SESLAM
SESLAM
DO
1
co SESLAM
SESLAM
SESLAM
SESLAM
SESLAM
JN
JN
JN
JN
JN
JN
JN
JN
JN
JN
JN
JN
8492
1.00
1.00
8492
1.00
1
849
1
1
1
849
0
0
,
9
B
B
n
9
.
,
00
L-NFRCOMP
C-14 0.00
C-14 0.00
L-NFRCOMP
C-14 0.00
C-14
0.00
L-NFRCOMP
00
00
41E
C-14
C-14
-05 1.
0.00
0.00
100.
H-3
H-3
500.
H-3
H-3
1000.
76E-06
N-SOURCES
89
85
8492
0
0
B
_
59
97
8492
0
0
1
849
1
1
B
m
54
98
H-3
C-14
0.11
0.15
N-SOURCES
H-3
C-14
0.41
0.03
N-SOURCES
C-14
C-14
.01E-05 1.
9
m
f
0.46
0.02
H-3
H-3
1.00
100.
C-14
H-3
500.
C-14
H-3
1000.
25E-06
N-TARGETS
00
00
8492
1
1
849
1
1
8
849
9
q
849
q
9
849
9
9
1
.
_
9
_
_
_
u
B
_
9
_
00
00
H-3
H-3
0.00
0.00
N-TARGETS
H-3
H-3
0.00
0.00
N-TARGETS
00
00
25E
H-3
H-3
_ T O 1
JJ J UP
0.00
0.00
H-3
H-3
1.00
100.
C-14
C-14
500.
C-14
C-14
1000.
08E-29
R-RASOURC
99
99
9.99
9.99
R-RASOURC
99
99
9.99
9.99
2 R-RASOURC
a
m
99
99
'.80E-01 3.
9.99
9.99
C-14
C-14
1.00
100.
500.
1000.
06E-02
0.57
6.76E-08 2.74E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.98
3.92E-07 1.59E-05
0.00 Fe-55 1.00
6
4
6
8
0.00 Fe-55 0.98
.38E-07 2.50E-05
0.00 Fe-55 1.00
0.00 Fe-55 0.98
C-14 0.00 Nb-94
.31E-07 2.12E-06
0.00 Fe-55 0.92
0.00 Fe-55 0.76
.71E-07 1.15E-05
0.00 Fe-55 0.98
0.00 Fe-55 0.93
.46E-07 1.79E-05
0.00 Fe-55 0.99
0.00 Fe-55 0.95
8
4
7
1
i
1
1
C-14 0.00 Am-241
1
1
1
0
0
0
.04E-05 4.60E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
.06E-05 4.72E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
.06E-05 4.72E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
H-3 0.00 C-14
.OOE+00 0. OOE+00
9.99 9.99
9.99 9.99
.OOE+00 0. OOE+00
9.99 9.99
9.99 9.99
.OOE+00 0. OOE+00
9.99 9.99
9.99 9.99
2
i
9
"i
9
1
0
0
0
Pb-210 0.33 Po-210
.42E-09 3.39E-07
C-14 0.00 H-3
C-14 0.02 C-14
.85E-08 1.97E-06
C-14 0.00 H-3
C-14 0.02 C-14
.91E-08 3.10E-06
C-14 0.00 H-3
C-14 0.02 C-14
0.00 Ni-59 0.99
.03E-07 2.84E-07
C-14 0.08 H-3
C-14 0.15 H-3
.34E-07 1.44E-06
C-14 0.02 H-3
C-14 0.03 H-3
.55E-07 2.25E-06
C-14 0.01 H-3
C-14 0.02 C-14
0.00 Pu-238 1.00
.62E-06 1.16E-06
H-3 0.00 C-14
H-3 0.31 H-3
.68E-06 1.19E-06
H-3 0.00 C-14
H-3 0.31 H-3
.68E-06 1.19E-06
H-3 0.00 C-14
H-3 0.31 H-3
0.00 Fe-55 1.00
.OOE+00 0.OOE+00
9.99
9.99
.OOE+00 0.OOE+00
9.99
9.99
.OOE+00 0.OOE+00
9.99
9.99
0.10 Ra-226 0.62
2
1
2
9
1
1
1
1
1
0
0
0
.81E-06 3.48E-07
0.00 Fe-55 1.00
0.00 Fe-55 0.98,
.63E-05 2.02E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.98
.5GE-05 3.18E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.98
C-14 0.00 Nb-94
.55E-06 3.87E-07
0.00 Fe-55 0.94
0.07 H-3 0.62
.21E-05 1.58E-06
0.00 Fe-55 0.74
0.02 C-14 0.89
.88E-05 2.40E-06
0.00 Ee-55 0.64
0.02 H-3 0.92
C-14 0.00 Am-241
.50E-05 3.78E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
.54E-05 3.87E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
.54E-05 3.87E-06
0.00 Fe-55 1.00
0.00 Fe-55 0.69
H-3 0.00 C-14
.OOE+00 0. OOE+00
9.99 9.99
9.99 9.99
.OOE + 00 0. OOE + 00
9.99 9.99
9.99 9.99
.OOE+00 0. OOE+00
9.99 9.99
9.99 9.99
Po-210 0.21 Pb-210
C-14
C-14
C-14
C-14
C-14
C-14
0.00
H-3
C-14
H-3
C-14
H-3
C-14
0.00
H-3
H-3
H-3
H-3
H-3
H-3
0.00
0.17
0.00
0.02
0.00
0.02
0.00
0.02
Ni-59
0.06
0.25
0.26
0.06
0.36
0.04
Pu-238
0.00
0.31
0.00
0.31
0.00
0.31
Fe-55
9.99
9.99
9.99
9.99
9.99
9.99
Ra-226
H-3
C-14
H-3
C-14
H-3
C-14
C-14
H-3
C-14
H-3
C-14
H-3
C-14
H-3
C-14
H-3
C-14
H-3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
9
9
9
9
9
9
.00
.00
.00
.00
.00
.00
.00
.11
.00
.03
.00
.02
.00
.00
.00
.00
.00
.00
.99
.99
.99
.99
.99
.99
Fe-55
Fe-55
Fe-55
Fe-55
Fe-55
Fe-55
Fe-55
H-3
Fe-55
H-3
Fe-55
C-14
Fe-55
Fe-55
Fe-55
Fe-55
Fe-55
Fe-55
DO
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-------�
APPENDIX C
FORTRAN LISTING OF ACCOUNTING MODEL CODE
-------�
$DEBUG
$LARGE
C
C THIS IS THE PRESTO ACCOUNTING PROGRAM
C
IMPLICIT REAL*8(A-H,0-Z)
REAL*8 NC,DECA(50) ,DECAF(50),DECAG(50),VOLAT(50)
COMMON/NUM1/NC(50,40),MATX(40),M(100,40),UR(50,10,3),HECF(50)
&,GECF(50),PAPER(3)
COMMON/STR1/NUC(50),HI1(80),HS31(3),HS41(3),HS51(3),
& HS61(3),HS341(3),HS561(3),ZZZ(50).RUNNAM(IOO),TAR1(80),
& WASNML(30),WASNMB(30)
COMMON/SUM1/S(10,30,3),S1(40,30,3),S2(40,30,3),S3(40,30,3)
COMMON/SUM2/S4(40,30,3),S5(40,30,3),S6(40,30,3),S7(40,30,3)
COMMON/SUM3/S8(40,30,3),S9(40,30,3),S10(40,30,3)
COMMON/DIMEN/TAR(80),HI(80),HS3(3),HS4(3),HS5(3),HS6(3),
& HS34(3),HS56(3) ,TTY1(40,30),TTY2(40,30),
& CC(40,30),TYT1(30),TYT2(30)
C
CHARACTER*6 NUC,HI1,HS31,HS41,HS51,HS61,HS341,HS561,TAR1
&,RUNNAM*14,WASTE*9,WASTE1(14)*1,WASTE2*14,EXT(4)*1
CHARACTER FILE1*12,ABC(5)*1 ,AB*8,HE*14,DFILE*14,RNAME*14,LO*2,
LOGICAL TF1
CHARACTER FCR(2,2)*32 ,GRT(2)*37,AN*1,ZZZ*10,ZDOL*10,FILE3*12
CHARACTER*! TEMFIL(14),FILE2(12),TEMP(6),ABC1*14,WASNML*9
&,FILE2B*14,NDOL2*14,NOTE(3)*5,VAR1*1,VAR2*2,FILEB*14,AN1*1
&,WASNMB*9
C
DIMENSION TT1(3),TT2(3),N(5)
CHARACTER*6 TTD1(3),TTD2(3),JOBN(4)*1,TEMP1(14)*1,NDOL*14
CHARACTER LONAM(3)*17,DONAM(15)*30,HIC*10
INTEGER TYPE
C
DATA LOMAT/'NE1 .'SE'.'SW1/
DATA LONAM/1HUMID IMPERMEABLE1,1 HUMID PERMEABLE ',
& ' ARID PERMEABLE '/
DATA DOMAT/'SL'.'CS'.'IS'.'ID'.'EM'.'CB'.'CC'/HF'.'DI'.'DG',
& 'MD'/SF'.'Sr.'UF'.'UI1/
DATA DONAM/' REGULATED SANITARY LANDFILL ',
&' SHALLOW LAND DISPOSAL
&' IMTERMEDIATE DEPTH DISPOSAL
&' CONCRETE BUNKER
&' HYDROFRACTURE
&' DEEP GEOLOGICAL DISPOSAL
&' SUBURBAN SANITARY LANDFILL
&' URBAN SANITARY LANDFILL
IMPROVED SHALLOW LAND DISPOSAL
EARTH MOUND
CONCRETE CANISTER
DEEP WELL INJECTION
MUNICIPAL DUMP
SUBURBAN SLF WITH INCINERATOR
URBAN SLF WITH INCINERATOR
NOTE(1)='NOTE:'
NOTE(2)='
NOTE(3)='
FCR(1,1)=' FATAL CANCER RISK
FCR(1,2)=' GENETIC RISK
FCR(2,1)=' (DEATHS/ YR PER Cu-M)
FCR(2,2)=' (EFFECTS/ YR PER Cu-M)
C-2
-------�
GRT(1)='FATAL CANCER RISK (TOTAL DEATHS/Cu-M)'
GRT(2)=' GENETIC RISK (TOTAL EFFECTS/Cu-M) '
RNAME='
EXT(1)='.'
EXT(2)='S'
EXT(3) = T
EXT(4)='R'
C
IH=5
OPEN(7,FILE='DEBUG.DBG1,STATUS='NEW)
OPEN(6,FILE='CON:')
OPEN(5,FILE='CON:')
C
C THIS SECTION OF CODE DETERMINES IF THE RUN(S) IS A BATCH RUN
C OR AN INTERACTIVE RUN.
C
1000 CALL CLS
WRITE(6,1001)
1001 FORMAT(' IS THIS AN INTERACTIVE OR BATCH RUN (I/B) ' ,«)
READ(IH,411) AN1
IF(AN1.EQ.T .OR. ANl.EQ.'B1) THEN
GO TO 1007
ELSE
GO TO 1000
ENDIF
1007 IF(ANl.EQ.'B') THEN
WRITE(6,1010)
1010 FORMAT(' ',//,' INPUT YOUR BATCH FILE NAME ',«)
READ(IH,'(A14)') FILEB
CLOSE(5)
IH=7
OPEN(IH ,FILE=FILEB,STATUS='OLD')
ENDIF
C
1 CALL ZERO
DO 3 IJK=1,3
TT1(IJK)=0.
TT2(IJK)=0.
TTD1(IJK)='
TTD2(IJK)='
3 CONTINUE
C
CALL CLS
Nl=0
C
CALL MATRIX(M,RUNNAM,NORUN,TYPE,IH)
C
CALL CLS
C
OPEN(3,FILE='NUCNAMES.DAT',STATUS='OLD')
READ(3,*) NUM
DO 6010 1 = 1,NUM
READ(3,6005) NUC(I),DECA(I),DECAF(I),DECAG(I),VOLAT(I)
6005 FORMAT(A6,1X,4(E8.2,1X))
6010 CONTINUE
CLOSE(3)
IDIV=3
C-3
-------�
IF (NORUN.GT.45) IDIV=6
DO 190 I=1,IDIV
N(I)=INT(NORUN/IDIV)
IF (I.LE.MOD(NORUN,IDIV)) N(I)=N(I)+1
190 CONTINUE
WRITE(*,188)
DO 195 I=1,N(IDIV)
IF (IDIV.EQ.3) WRITE (*,200) I,RUNNAM(I),I+N(1) ,RUNNAM(I+N(1)),
& I+N(1)+N(2),RUNNAM(I+N(1)+N(2))
IF (IDIV.EQ.6) WRITE (*,205) I,RUNNAM(I),I+N(1),RUNNAM(I+N(1)),
& I+N(1)+N(2),RUNNAM(I+N(1)+N(2)),I+N(1)+N(2)+N(3),
& RUNNAM(I+N(1)+N(2)+N(3)),I+N(1)+N(2)+N(3)+N(4),
& RUNNAM I+N 1 +N 2 +N 3 +N(4) ,I+N 1 +N 2 +N 3 +N(4)+N(5),
& RUNNAM(I+N(1)+N(2)+N(3)+N(4)+N(5))
195 CONTINUE
ITEMP=MOD(NORUN,IDIV)
IF (ITEMP.EQ.O) GO TO 180
IF (IDIV.EQ.3) WRITE (*,200) (I*N(I),RUNNAM(N(I)) ,I=1,ITEMP)
IF (IDIV.EQ.6) WRITE (*,205) (I*N(I),RUNNAM(N(I)),I=1,ITEMP)
180 WRITE (*,210) NORUN+1
188 FORMAT(' ' ,16X,'####### PRESTO - EPA ACCOUNTING PROGRAM ####*##'
&/J10,1 (Version 2.0; 5 MAR 84)',
&/J10,1 PC VERSION1,//,
&T14,' SELECT A RUN NUMBER FROM THE FOLLOWING LIST: ')
200 FORMAT(3(11X,I3,' - ',A6))
205 FORMAT(6(1X,I3,' - ',A6))
210 FORMAT (SOX,13,' - USER DEFINED RUN ' ,/,' > '«)
400 READ(IH,410) VAR2
410 FORMAT(A2)
READ(VAR2,*,ERR=400) IR
IF(IR.LT.l .OR. IR.GT.NORUN+1) GO TO 400
IF(IR.GE.l .AND. IR.LE.NORUN) THEN
WRITE(6,444)
444 FORMATC WHAT IS THE PRESTO JOB NUMBER FOR THIS RUN (4 DIGITS)
&,•)
READ(IH,445) JOBN
445 FORMAT(4A1)
ENDIF
IF(IR.EQ.NORUN+1) GO TO 8000
NDOL2=RUNNAM(IR)
TEMP(1:6)=NDOL2
WRITE(LO,1(2A1)1) (TEMP(I) ,1 = 1,2)
WRITE(DO,'(2A1)') (TEMP(I), 1=3,4)
WRITE(WT,'(2A1)') (TEMP(I) ,1=5,6)
HIC='
IHIC=0
IF (DO.EQ.'CS'.OR.DO.EQ.'IS1) THEN
WRITE (*,300)
300 FORMAT (' ',/,' HIC option (0) No, (1) Yes >',«)
READ (IH,*) IHIC
IF (IHIC.EQ.l) HIC=' - HIC '
ENDIF
Q******
c****** LO=SUBTRING OF RUNNAM(IR), THE FIRST TWO CHARACTERS
Q******
440 IF(LO.EQ.'NE') THEN
FILE1='HEWVCSAW.CFS'
GO TO 510
ENDIF
C-4
-------�
IF(LO.EQ.'SW') THEN
FILE1='HEBTCSAW.CFS'
GO TO 510
ENDIF
FILE1='HEBRCSAW.CFS'
510 CALL CLS
IF(RNAME.NE.' ') WRITE(*,512) RNAME
512 FORMATC ',T18,'W##W ',A14,' ########')
WRITE(*,515) LO.FILE1
515 FORMATC ',Til ,14('#'),' DATA FILE INPUTS ',14('#'),//,
&' 1) HE/GE CONVERSION FACTORS WILL BE READ FOR ',A2,/,
&' SITE FROM FILE ',A12)
OPEN(1 ,FILE=FILE1,STATUS='OLD')
DO 576 1=1,NUM
READ(1,*) HECF(I)
576 CONTINUE
DO 586 1 = 1,NUM
READ(1,*) GECF(I)
586 CONTINUE
CLOSE(l)
WRITE(*,605)
605 FORMATC ',/,' 2) PRESTO Run Unit Response Data1)
C
ABC(1)='R'
ABC(2)='U'
ABC(3)='N'
C
M1=IR/10
M2=IR-M1*10
ABC(4)=CHAR(48+M1)
ABC(5)=CHAR(48+M2)
C
WRITE(AB,'(5A1)') (ABC(M3),M3=1,5)
C
710 WRITE(*,720) IR,AB
720 FORMATC THIS IS RUN NO. ',I2,/,
&' ENTER U.R. DATA FILE NAME ',»)
READ(IH,8044) HE
IF(HE.EQ.' ') HE=AB
INQUIRE(FILE=HE,EXIST=TF1)
IF(.NOT.TFl) THEN
WRITE(*,2000)
2000 FORMATC FILE DOES NOT EXIST ')
GO TO 710
ENDIF
OPEN(1,FILE=HE,STATUS='OLD')
DO 784 K9=l,3
READ(1,*) PAPER(K9)
DO 786 1=1,NUM
READ(1,790) (UR(I,J,K9),J=1,10)
790 FORMAT(10(E10.4,1X))
786 CONTINUE
READ(1,800) XX1,XX2,XX3,XX4
800 FORMAT(4(E10.4,1X))
784 CONTINUE
CLOSE(l)
C-5
-------�
IF(IR.LT.NORUN+1) THEN
DO 4470 IXX5=1,30
MATX(IXX5)=M(IR,IXX5)
4470 CONTINUE
END IF
C
C
IF (TYPE.EQ.l) ABC1='LLWCONC.WGT
IF (TYPE.EQ.2) ABC1='BRCCONC.WGT
WRITE(*,5020) ABC1
5020 FORMAT(' ',/,' 3) PUT DATA DISK WITH CONC MATRIX IN A:',/,
&' ENTER FILENAME OF CONC MATRIX ',®)
READ(IH,8044) DFILE
IF(DFILE.NE.' ') ABC1=DFILE
OPEN(1,FILE=ABC1,STATUS*1OLD1)
C
DO 5212 1 = 1,NUM
READ(1,5211) (NC(I,J),J=1,30)
5212 CONTINUE
5211 FORMAT(7X,30(E8.2,1X))
5213 FORMAT(7X,30(E10.4,1X))
CLOSE(l)
C
DO 5500 1=1,NUM
DO 5510 J=l,30
NC(I,J)=NC(I,J)*DECA(I)
IF(WT.EQ.'IS1) NC(I,J)=NC(I,J)*VOLAT(I)
5510 CONTINUE
5500 CONTINUE
C
DO 870 1=1,40
IF(MATX(I).EQ.O) GO TO 870
IIQ=I
N1=N1+1
C
IF( I IQ.LE.30 .AND.TYPE.EQ.l) ZZZ(N1)=WASNML(IIQ)
IF(IIQ.LE.30.AND.TYPE.EQ.2) ZZZ(N1)=WASNMB(IIQ)
IF(IIQ.GE.31) ZZZ(N1)=ZZZ(IIQ)
C
870 CONTINUE
C
TEMP1(1:6)=NDOL2
IF (IHIC.EQ.l) TEMP1(4)='H'
TEMP1(7)=' '
TEMP1(8)='J'
TEMP1(9)='N'
TEMP1(10)=' '
TEMP1(11)=JOBN(1)
TEMP1(12)=JOBN(2)
TEMP1(13)=JOBN(3)
TEMP1(14)=JOBN(4)
WRITE(NDOL,'(14A1)') (TEMPI(KKK),KKK=1,14)
C-6
-------�
c
Q************************
C
C GO TO THE ACTUAL ACCOUNTING SECTION
C
GO TO 10950
C
Q************************
C
C USER DEFIND RUNS
C
8000 CALL CLS
NN=31
IX=1
C
WRITE(*,8020)
8020 FORMAT(' ',T23,'######## USER DEFINED RUN ########',/,
&' NAME OF NEW RUN: '•)
READ(IH,8044) RNAME
8044 FORMAT(A14)
WRITE(6,444)
READ(IH,445) JOBN
C
C444FORMATC WHAT IS THE PRESTO JOB NUMBER FOR THIS RUN (4 DIGITS) ',®)
C445 FORMAT(4A1)
C
NDOL2=RNAME
WRITE(*,8045)
8045 FORMATC INPUT 1) FOR NE, 2) FOR SE, OR 3) FOR SW LOCATION ')
8047 READ(IH,411) VAR1
411 FORMAT(Al)
READ(VAR1,*,ERR=8047) IQ
IF(IQ.LT.l .OR. IQ.GT.3) GO TO 8047
IF(IQ.EQ.l) LO='NE'
IF(IQ.EQ.Z) LO='SE'
IF(IQ.EQ.3) LO='SW'
8050 CALL CLS
WRITE(*,8060) RNAME
8060 FORMATC ' ,T18, '######## ',A14,' ####W#V//,
&' 0 = NO MORE WASTE STREAMS')
DO 8087 KN=1,15
IF (TYPE.EQ.l) THEN
WRITE(6,8088) KN.WASNML(KN),MATX(KN),KN+15,WASNML(KN+15),
&MATX(KN+15)
ELSE
WRITE(6,8088) KN,WASNMB(KN),MATX(KN),KN+15,WASNMB(KN+15),
&MATX(KN+15)
ENDIF
8088 FORMATC ',8X,I2,' = 'A9,7X,I1,8X,I2,' = (A9,7X,I1)
8087 CONTINUE
IF(NN.LT.41) WRITE(*,8210)
8210 FORMATC 31 = NEW WASTE STREAM ',/)
C-7
-------�
c
c
8219 CALL LOCATE(1,22)
READ(IH,410) VAR2
READ(VAR2,*,ERR=8219) NW
IX=1
IF(NW.LT.O .OR. NW.GT.31) GO TO 8219
IF(NW.EQ.O) GO TO 440
IF(NW.EQ.31 .AND. NN.LT.41) THEN
GOTO 8330
ELSE
IF(NW.EQ.31) GO TO 8219
ENDIF
C
IF(MATX(NW).EQ.O) THEN
MATX(NW)=1
ELSE
MATX(NW)=0
ENDIF
8275 IRN=NW
IF(NW.GT.15) THEN
IX=IX+1
IRN=NW-15
ENDIF
CALL LOCATE(IX*30,IRN+5)
WRITE(6,8217) MATX(NW)
8217 FORMAT(Il)
IX=1
GO TO 8219
8330 CALL CLS
WRITE(*,8340) RNAME
8340 FORMATC ' ,T15,'######## ',A14,' : NEW WASTE STREAM ########',///,
&' ',T8,'WASTE STREAM NAME : ',«)
READ(IH,8350) WASTE1
8355 FORMAT(45X,14A1)
8350 FORMAT(HAl)
8351 WRITE(WASTE,'(9A1)1) (WASTEl(KKK),KKK=1,9)
ZZZ(NN)=WASTE
C
DO 8360 KK=1,9
IF(WASTE1(KK).EQ.' ') GO TO 8361
8360 CONTINUE
8361 DO 8362 JJ=1,4
WASTE1(JJ+KK-1)=EXT(JJ)
8362 CONTINUE
WRITE(WASTE2,1(14A1)') (WASTEl(KKK),KKK=1,14)
C
INQUIRE(FILE=WASTE2,EXIST=TF1)
IF(.NOT.TFl) THEN
WRITE(*,8200) WASTE2.WASTE2
8200 FORMATC THE WASTE STREAM FILE ',A14,' DOESN"T EXIST1,/,
& ' TYPE IN A NEW WASTE STREAM FILE OR TO CREATE ' ,A14
& ,' ',®)
READ(IH,8350) WASTE1
IF(WASTE1(1).EQ.' ') GO TO 8510
GO TO 8351
ENDIF
C-8
-------�
OPEN(1,FILE=WASTE2,STATUS='OLD')
8389 CALL LOCATE(1,6)
WRITE(6,8390)
8390 FORMATC USE PREVIOUS NUCLIDE DATA (Y/N) ' ,®)
READ(IH,8391) AN
8282 FORMAT(75X,A1)
8391 FORMAT(Al)
WRITE(6,*) '
WRITE(6,*) '
IF(AN.EQ.'N' .OR. AN.EQ.'Y1 .OR. AN.EQ.'n1 .OR. AN.EQ.'y') THEN
GO TO 8405
ELSE
60 TO 8389
ENDIF
8405 IF(AN.EQ.'N' .OR. AN.EQ.'n') THEN
CLOSE(l)
GO TO 8510
ENDIF
DO 8410 I=1,NUM
READ(1,*) NC(I,NN)
8410 CONTINUE
MATX(NN)=1
NN=NN+1
CLOSE(l)
GO TO 8050
8510 CALL CLS
WRITE(*,8520) WASTE
8520 FORMATC ' J14,'######## ',A9,' ########',/,' ',T9,
&'INPUT VALUES OF NUCLIDE CONCENTRATIONS ',/)
IX=0
DO 8550 1=1,NUM
IY=I
IF(I.GT.20) THEN
IX=1
IY=I-20
ENDIF
CALL LOCATE(IX*35+l,IY+3)
WRITE(6,8600) NUC(I)
8600 FORMATC ',A6,' ')
CALL LOCATE(IX*35+9,IY+3)
READ(IH,*) A
NC(I,NN)=A
8550 CONTINUE
MATX(NN)=1
8555 CALL LOCATE(1,24)
WRITE(6,8630)
8630 FORMATC WRITE NEW WASTE STREAM NUCLIDE DATA TO DISK (Y/N) ')
READ(IH,8391) AN
IF(AN.EQ.'N' .OR. AN.EQ.'Y1 .OR. AN.EQ.'n1 .OR. AN.EQ.'y') THEN
GO TO 8655
ELSE
GO TO 8555
ENDIF
8655 IF(AN.EQ.'N' .OR. AN.EQ.'n1) THEN
NN=NN+1
GO TO 8050
ENDIF
C-9
-------�
OPEN(1 ,FILE=WASTE2,STATUS='NEW)
DO 8660 1=1,NUM
WRITE(1,*) NC(I,NN)
8660 CONTINUE
CLOSE(l)
NN=NN+1
GO TO 8050
C
C
10950 CONTINUE
C
C THIS IS THE SECOND HALF OF THE 'PRESTO1 ACCOUNTING PROGRAM
C
DO 10986 LL=1,3
N5=0
DO 10990 1=1,30
IF(MATX(I).EQ.O) GO TO 10990
N5=N5+1
TYT1(N5)=0.
TYT2(N5)=0.
DO 11020 J=1,NUM
S1(J,N5,LL)=NC(J,I)*UR(J,1,LL)
S(1,N5,LL)=S(1,N5,LL)+S1(J,N5,LL)
S2(J,N5,LL)=NC(J,I)*UR(J,2,LL)*PAPER(LL)
S(2,N5,LL)=S(2,N5,LL)+S2(J,N5,LL)
S3(J,N5,LL)=NC(J,I)*UR(J,3,LL)*PAPER(LL)*DECAF(J)
S(3,N5,LL)=S(3,N5,LL)+S3(J,N5,LL)
S4(J,N5,LL)=NC(J,I)*UR(J,8,LL)*HECF(J)*DECAF(J)
S(4,N5,LL)=S(4,N5,LL)+S4(J,N5,LL)
IF(LL.EQ.3) TTY1(J,N5)=NC(J,I)*UR(J,9,3)*HECF(J)*DECAF(J)
S5(J,N5,LL)=NC(J,I)*UR(J,4,LL)*PAPER(LL)*DECAG(J)
S(5,N5,LL)=S(5,N5,LL)+S5(J,N5,LL)
S6(J,N5,LL)=NC(J,I)*UR(J,8,LL)*GECF(J)*DECAG(J)
S(6,N5,LL)=S(6,N5,LL)+S6(J,N5,LL)
IF(LL.EQ.3) TTY2(J,N5)=NC(J,I)*UR(J,9,3)*GECF(J)*DECAG(J)
S7(J,N5,LL)=NC(J,I)*UR(J,6,LL)
S(7,N5,LL)=S(7,N5,LL)+S7(J,N5,LL)
S8(J,N5,LL)=NC(J,I)*UR(J,5,LL)
S(8,N5,LL)=S(8,N5,LL)+S8(J,N5,LL)
S9(J,N5,LL)=NC(J,I)*UR(J,7,LL)
S(9,N5,LL)=S(9,N5,LL)+S9(J,N5,LL)
S10(J,N5,LL)=NC(J,I)*UR(J,8,LL)
S(10,N5,LL)=S(10,N5,LL)+S10(J,N5,LL)
IF(LL.EQ.3) TYT1(N5)=TYT1(N5)+TTY1(J,N5)
IF LL.EQ.3) TYT2(N5)=TYT2(N5)+TTY2(J,N5)
CC(J,N5)=NC(J,I)
11020 CONTINUE
10990 CONTINUE
10986 CONTINUE
CLOSE(3)
WRITE(*,11500)
11500 FORMATC ',//////,' ',T16,'PUT THE OUTPUT DATA DISK IN DRIVE A:1,/
&,' ',T16,' WHEN READY ')
READ(IH,*)
C-10
-------�
11530 INQUIRE(FILE='A:CHECK.DAT',EXIST=TF1)
IF(.NOT.TFl) THEN
CALL CLS
WRITE(*,11560)
11560 FORMATC ',//,' ',T16,'PUT CORRECT DISK IN DRIVE A:',/
&,' ',T16,' WHEN READY ')
READ(IH,*)
GO TO 11530
ENDIF
INQUIRE(FILE='A:RAWTOTAL.FIL',EXIST=TF1)
IF(TFl) THEN
OPEN(4,FILE='A:RAWTOTAL.FIL',STATUS='OLD',ACCESS='DIRECT',
& FORM='FORMATTED',RECL=400)
READ(4,1987,REC=1) NREC
1987 FORMAT(I6)
ELSE
OPEN(4,FILE='A:RAWTOTAL.FIL',STATUS='NEW,ACCESS='DIRECT' ,
& FORM='FORMATTED',RECL=400)
NREC=1
ENDIF
LP=41
CALL CLS
WRITE(*,11620)
11620 FORMATC ',T8,'############## PRINT ##############',//,
&' ENTER PRINT LOCATION:',/,' 1) OUTPUT TO PRINTER1,
«/,' 2) OUTPUT WRITTEN TO DISK',
&/,' 3) UNIT 4 ONLY',/)
11670 READ(IH,4li) VAR1
READ(VAR1,*,ERR=11670) IPP
IF(IPP.LT.l .OR. IPP.GT.3) GO TO 11670
IF(IPP.EQ.l) GO TO 11750
IF(IPP.EQ.3) THEN
OPEN(1,FILE='NUL')
GOTO 11820
ENDIF
LP=33
WRITE(*,11710)
11710 FORMATC ENTER FILE NAME FOR ACCOUNTING MODEL PRINT-OUT ',«)
READ(IH,11730) FILE2
11730 FORMAT(12A1)
11731 FORMAT!50x,i2Ai)
TEMFIL(1)='A'
TEMFIL(2)=':'
DO 11720 111=1,12
TEMFIL(III+2)=FILE2(III)
11720 CONTINUE
WRITE(FILE2B,'(14A1)') (TEMFIL(III),111=1,14)
OPEN(1,FILE=FILE2B,STATUS='NEW')
GO TO 11820
11750 WRITE(*.11760)
C-ll
-------�
11760 FORMATC PREPARE PRINTER1 ,/,
&' -SET TOP W/ FULL BLANK PAPER1,/,
&' - WHEN READY1 ,/)
READ(IH,*)
OPEN(1,FILE='LPT1:')
11820 WRITE(1,*) CHAR(15)
DO 250 ILO=1,3
IF (LO.EQ.LOMAT(ILO)) GOTO 255
250 CONTINUE
255 DO 260 IDO=1,15
IF (DO.EQ.DOMAT(IDO)) GOTO 265
260 CONTINUE
265 CONTINUE
IP=0
C
C
C
PRINT OUT LOOP
DO 11842 1=1,N5
ZDOL=ZZZ(I)
DO 11850 ITW=1,2
IP=IP+1
PRINT FIRST PAGE — INPUTS
IF(IP.EQ.l) GO TO 11970
WRITEd,*) CHAR(12)
WRITEJ1,20001)
FORMATC ',T37,'INPUT PARAMETERS USED FOR UNIT-VOLUME ',
& 'CALCULATIONS (AS GENERATED)')
WRITEJ1,20002) NDOL,HIC,IP,LONAM(ILO),DONAM(IDO),ZDOL
20002 FORMATC ',T56,'RUN NAME/NUMBER: ',A14,A10,T122,'PAGE: ',I3,/,
& ' ',T60,A17,/,' ',T53,A30,/
& ' ',T59,'WASTE STREAM: ' ,A10)
WRITE(1,20004) FCR(l.ITW),FCR(2,ITW)
FORMATC ',/,' ',T13,'WASTE',T31,'POPULATION1,T55.A32,
& T95,1RESIDUAL ACTIVITIES DOWNSTREAM1,/,1 ',T13,'STREAM' ,
& T26,'(PERSON-REM/YR PER Cu-M) ',A32,T105,'(Ci/Cu-M)',/,
& ' ',T3,'RADIO- CONC ',2(32('-'),IX) ,43('-'),/,
& ' ',T3,'NUCLIDE (Ci/Cu-M)1,
& 3(' 100 YRS 500 YRS 1000 YRS '),' >1000 YRS1,/,
C
C
C
11950
11970
20001
20004
20024
*** NOT IN WASTE STREAM ***')
12070
12080
12050
DO 12050 JJ=1,NUM
IF(CC(JJ,I).EQ.O.) THEN
WRITE(1,20024) NUC(JJ)
FORMATC ',A6,'
GO TO 12080
ENDIF
WRITE(1,12070) NUC(JJ),CC(JJ,I),(UR(JJ,2,JKL),JKL=1,3),
(UR(JJ,2+ITW,JKL),JKL=1,3),(UR(JJ,8,JKL),JKL=1,3),UR(JJ,9,3^
FORMATC ',T4,A6,11(2X,1PE8.2,1X))
CONTINUE
CONTINUE
C-12
-------�
c
C SECOND PAGE — OUTPUT
C
C N7=0
IP=IP+1
WRITE(1,*) CHAR(12)
WRITE(1,12180)
12180 FORMATC ',T37,'HEALTH EFFECTS ANALYSIS FOR UNIT-VOLUME OF ',
& 'WASTE DISPOSAL (AS GENERATED)1)
WRITE(1,20002) NDOL,HIC, IP,LONAM(ILO),DONAM(IDO),ZDOL
WRITE(1,12220) GRT(ITW)
12220 FORMATC ',//,' ',T69 ,A37 ,/,' ',T20,'POPULATION DOSE1,T44 ,
& 85('='),/,' ',T17,'(PERSON-REM PER Cu-M)',T52,'PRIMARY '
& ANALYSIS',T96,'RESIDUAL NUCLIDE',/,
& ',T3,'RADIO- ',2(32('-'),IX),54('-'),/,
& ',T3,1NUCLIDE1,3(' 100 YRS 500 YRS 1000 YRS '),
& >1000 YRS 10000 YRS1,/,
& ',T3,7C='),ix,ii(ioc='),ix))
c
DO 12280 JJ=1,NUM
IF(CC(JJ,I).EQ.O.) THEN
WRITE(1,20024) NUC(JJ)
GO TO 12340
ENDIF
IF(ITW.EQ.l) WRITE(1,12070) NUC(JJ),(S2(JJ,1,JKL),JKL=1,3),
& (S3(JJ,I,JKL),JKL=1,3),(S4(JJ,I,JKL),JKL=1,3),
& TTY1[JJ,I),TTY1(JJ,I)+S4(JJ,I,3)
IF(ITW.EQ.2) WRITE(1,12070) NUC(JJ),(S2(JJ,I,JKL),JKL=1,3),
& (S5(JJ,I,JKL),JKL=1,3),(S6(JJ,I,JKL),JKL=1,3),
& TTY2(JJ,I),TTY2(JJ,I)+S6(JJ,I,3)
C
12340 CONTINUE
12280 CONTINUE
WRITE(1,*) '
IF(ITW.EQ.l) WRITE(1,12070) 'TOTAL ' ,(S(2,I ,JKL),JKL=1,3),
& (S(3,I,JKL),JKL=1,3),(S(4,I,JKL),JKL=1,3)
& ,TYT1(I),TYT1(I)+S(4,I,3)
IF(ITW.EQ.2) WRITE(1,12070) 'TOTAL ',(S(2,I ,JKL),JKL=1,3),
& (S(5,I,JKL),JKL=1,3),(S(6,I,JKL),JKL=1,3)
& ,TYT2(I),TYT2(I)+S(6,I,3)
WRITE(1,12437)
12437 FORMATC ')
DO 12438 LL=1,3
IF(ITW.EQ.l) WRITE(1,12440) NOTE(LL),INT(PAPER(LL)),
& S(3,I,LL)+S(4,I,LL)
IF(ITW.EQ.2) WRITE(1,12450) NOTE(LL),INT(PAPER(LL)),
& S(5,I,LL)+S(6,I,LL)
12438 CONTINUE
12440 FORMATC ',T8,A5,' TOTAL FATAL RISK FOR ',15,' YRS = ',
& 1PE8.2)
12450 FORMATC ',T8,A5,' TOTAL GENETIC RISK FOR ',15,' YRS = ' ,
& 1PE8.2)
C-13
-------�
IF(ITW.EQ.l) WRITE(1,12440) ' ',10000,S(3,1,3)+S(4,I,3) +
&TYT1(I)
IF(ITW.EQ.2) WRITE(1,12450) ' ',10000,S(5,1,3)+S(6,1,3) +
&TYT2(I)
C
C
DO 12485 LL=1,3
CALL PRINTR(I,LL,TT1,TTD1,TT2,TTD2,NUM)
IF(ITW.EQ.2) NREC=NREC+1
IF(ITW.EQ.2 .AND. LL.LE.2) THEN
WRITE(4,13100,REC=NREC) NDOL,ZDOL,PAPER(LL),
& S(3,I,LL),S(4,I,LL),S(5,I,LL),S(6,I,LL),S(3,I,LL)+S(4,I,LL),
& S(5,I,LL)+S(6,I,LL),(HS3(JKL),HS31(JKL),JKL=1,3),
& (HS4(JKL),HS41(JKL),JKL=1,3),(HS5(JKL),HS51(JKL) ,JKL=1,3),
& (HS6(JKL),HS61(JKL),JKL=1,3),(HS34(JKL),HS341(JKL),JKL=1,3),
& (HS56(JKL),HS561(JKL),JKL=1,3)
ENDIF
13100 FORMAT(A14,A14,F5.0,1X,6(1PE8.2,1X),
& 18(OPF4.2,1X,A6,1X))
C
IF(ITW.EQ.2 .AND. LL.EQ.3) THEN
WRITE(4,13101,REC=NREC) NDOL,ZDOL,PAPER(LL),
& S(3,I,LL),S(4,I,LL),S(5,I,LL],S(6,I,LL),S(3,I,LL)+S(4,I,LL),
& S(5,I,LL)+S(6,I,LL),(HS3(JKL),HS31(JKL),JKL=1,3),
& (HS4(JKL),HS41(JKL),JKL=1,3),(HS5(JKL),HS51(JKL) ,JKL=1,3),
& (HS6(JKL),HS61(JKL),JKL=1,3),(HS34(JKL),HS341(JKL),JKL=1,3),
& (HS56(JKL),HS561(JKL),JKL=1,3),TYT1(I),TYT2(I),
& (ni(JKL),TTDl(JKL),JKL=l,3),(TT2(JKL),TTD2(JKL),JKL=l,3)
ENDIF
13101 FORMAT(A14,A14,F5.0,1X,6(1PE8.2,1X),
& 18(OPF4.2,1X,A6,1X),2(1PE8.2,1X),6(OPF4.2,1X,A6,1X))
C
12485 CONTINUE
11850 CONTINUE
11842 CONTINUE
WRITEfl,*) CHAR(12)
CLOSE(l)
13300 WRITE(4,1987,REC=1) NREC
CLOSE(4)
WRITE(*,13350)
13350 FORMATC THIS RUN IS COMPLETE1)
C
14000 WRITE(6,14001)
14001 FORMATC WOULD YOU LIKE TO RUN THE ACCOUNTING MODEL AGAIN (Y/N) ')
READ(IH,8391) AN
IF(AN.EQ.'N' .OR. AN.EQ.'Y1 .OR. AN.EQ.V .OR. AN.EQ.'y1) THEN
GO TO 14002
ELSE
GO TO 14000
ENDIF
14002 IF(AN.EQ.'Y' .OR. AN.EQ.'y1) GO TO 1
C
STOP
END
C-14
-------�
c
c
c
c
c
c
c
c
c
c
c
c
BLOCK DATA
THIS IS BLOCK DATA FOR THE 'PRESTO1 ACCOUNTING PROGRAM,
IMPLICIT REAL*8(A-H,0-Z)
COMMON/STR1/NUC(50),HI1(80),HS31(3),HS41(3),HS51(3),
& HS61(3),HS341(3),HS561(3),ZZZ(50),RUNNAM(100),TAR1(80),
& WASNML(30),WASNMB(30)
CHARACTER*6 NUC.HI1,HS31,HS41 ,HS51,HS61,HS341,HS561,
& TAR1,ZZZ*10,WASNML*9,RUNNAM*14,WASNMB*9
DATA RUNNAM/'NESLTR','SWSLTR','SESLTR','NESLAW' ,'SWSLAW','SESLAW'
&,'NESLSW','SWSLSW','SESLSW1,'NESLAM1,'SWSLAM1,'SESLAM1,'NECSTR1 ,
&'SWCSTR','SECSTR','NECSAW','SWCSAW' ,'SECSAW','NECSAM','SWCSAM',
&'SECSAM','NECSSW','SWCSSW',1SECSSW1,1NEISTR1,1SWISTR1,1SEISTR',
&'NEISAW','SWISAWI,'SEISAW1,1NEISAM1,1SWISAMVSEISAMVNEISSW',
&-SWISSW ,'SEISSWVSEIDAM1 ,'SEIDSW','NEHFAW1 ,'NEHFSW1,'SEDIAW1,
&'SWDGSW'/
DATA WASNML/'L
&'L-DECONRS'
&'L-NCTRASH'
&'N-SSTRASH'
&'N-LOWASTE'
&'R-GLASDIS'
&'2-WASTE30'/
/'L-IXRESIN1 ,'
'L-NFRCOMP' ,'
'F-COTRASH1,'
'N-SSWASTE1,1
'N-ISOPROD1 ,'
'R-RAIXRSNV
L-CONCLIQ1
F-PROCESS1
F-NCTRASH1
I-LQSCNVL'
N-SOURCES1
R-INSTDIF1
'L-FSLUDGE1
'U-PROCESS1
'I-COTRASH1
'I-ABSLIQD'
'N-TRITIUM1
'R-RASOURC'
'P-FCARTRG1
'L-COTRASH1
'N-LOTRASH1
'I-BIOWAST1
'N-TARGETS'
'1-WASTE291
DATA WASNMB/1
& 'F-PROCESS1
& 'N-SSTRASH1
& 'I-ABSLIQD1
& •R-RASOURC1
& '1-WASTE251
& '6-WASTE301/
END
B-COTRASH1 ,
'F-COTRASH1
'N-LOWASTE1
1 I-BIOWAST1
'R-INSTDF1'
'2-WASTE261
i
P-COTRASH1 ,'
'F-NCTRASH'
'N-LOTRASH1
'C-SMOKDET1
'R-INSTDF21
'3-WASTE271
'P-CONDRSN1,'L-WASTOIL1,
1U-PROCESS' 'N-SSWASTE',
'I-COTRASH1
'C-TIMEPCS1
'R-GLASDS11
'4-WASTE281
1 I-LQSCNVL1,
'R-RAIXRSN1,
'R-GLASDS2',
'5-WASTE291,
C-15
-------�
SUBROUTINE LOCATE(X.Y)
IMPLICIT REAL*8(A-H,0-Z)
IMPLICIT INTEGER (I-N)
C
C LOCATE « FULL SCREEN CURSOR LOCATION
C
C X - HORIZONTAL COORDINATE
C Y - VERTICAL COORDINATE
C
CHARACTER*! ESC
INTEGER*2 X,Y
DATA ESC/1/
IF(X .GT. 99 .OR. Y .GT. 99) RETURN
IF (X.LT.10) GOTO 10
IF (Y.LT.10) GOTO 20
WRITE (6,200) ESC,Y,X
200 FORMAT (' ' ,A1,'[' ,12,';' ,12,'f,®)
GOTO 90
10 IF (Y.LT.10) GOTO 30
WRITE(6,300) ESC.Y.X
300 FORMATC ' ,A1,'[ ' ,12,' ;' ,11, 'f' ,®)
GOTO 90
20 WRITE (6,400) ESC,Y,X
400 FORMATC ' ,A1,' [' ,11,' ;' ,12,' f ,»)
GOTO 90
30 WRITE (6,500) ESC,Y,X
500 FORMAT(' ',A1,'[',11,';',11,'f',»)
90 CONTINUE
RETURN
END
C-16
-------�
SUBROUTINE MATRIX(M,RNAM,NORUN,TYPE,IH)
C
C MATRIX - PRESTO ACCOUNTING MODEL SUBROUTINE
C TO READ WASTE STREAM MATRIX
C
IMPLICIT REAL*8(A-H,0-Z)
DIMENSION M(100,30)
CHARACTER*14 RNAM(IOO)
CHARACTER*20 FNAME,DUMMY
INTEGER TYPE
5 WRITE (*,10)
10 FORMAT (' (1) LLW matrix or (2) BRC matrix >'«)
READ (IH,*) IOPT
IF (IOPT.NE.LAND.IOPT.NE.2) GO TO 5
TYPE=IOPT
IF (IOPT.EQ.1) FNAME='LLWMAT.DAT1
IF (IOPT.EQ.2) FNAME='BRCMAT.DAT1
20 OPEN (3,FILE=FNAME,FORM='FORMATTED',STATUS='OLD1)
READ (3,30) DUMMY
READ (3,30) DUMMY
READ (3,30) DUMMY
30 FORMAT (A20)
DO 100 1=1,100
READ (3,50,END=150) (M(I ,J),0=1,30),RNAM(I)
50 FORMAT (3X,30(11,IX),A6)
100 CONTINUE
150 1=1-1
NORUN=I
CLOSE (3)
RETURN
END
C-17
-------�
SUBROUTINE PRINTR( I ,LL ,TT1 ,TTD1 ,TT2,TTD2,NUM)
C
C THIS PRESTO ACCOUNTING MODEL SUBROUTINE
C CALLS THE SORT SUBROUTINE
C
IMPLICIT REAL*8(A-H,0-Z)
COMMON/STR1/NUC(50) ,HI1(80) ,HS31(3) ,HS41(3) ,HS51(3) ,
& HS61(3),HS341(3),HS561(3),ZZZ(50),RUNNAM(100),TAR1(80),
& WASNML(30),WASNMB(30)
COMMON/SUM1/S(10, 30, 3) ,S1(40, 30, 3), 52(40,30, 3) ,53(40,30,3)
COMMON/SUM2/S4(40,30,3),S5(40,30,3),S6(40,30,3),S7(40,30,3)
COMMON/SUM3/S8(40, 30, 3) ,59(40,30, 3), 510(40,30, 3)
COMMON/DIMEN/TAR(80),HI(80),HS3(3),HS4(3),HS5(3),HS6(3),
& HS34(3) ,HS56(3) ,TTY1(40,30) ,TTY2(40,30) ,
& CC(40,30),TYT1(30),TYT2(30)
C
CHARACTER*6 NUC,HI 1 ,HS31 ,HS41 ,HS51 ,HS61 ,HS341 .HS561 ,ZZZ*10
&,RUNNAM*14,TAR1*6,WASNML*9,TTD1(3)*6,TTD2(3)*6,WASNMB*9
DIMENSION TT1(3),TT2(3)
C
DO 12490 111 = 1, NUM
TAR(III)=S3(III,I,LL)
TAR1(III)=NUC(III)
12490 CONTINUE
NM=NUM
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 12540 111=1,3
IF(S(3,I,LL).EQ.O.) THEN
HS3(III)=9.99
HS31(III)='
ELSE
HS3(III)=(INT(100.*HI(III)/S(3,I,LL)+.5))/100.
ENDIF
12540 CONTINUE
DO 12580 111 = 1, NUM
TAR(III)=S4(III,I,LL)
TAR1(III)=NUC(III)
12580 CONTINUE
NM=NUM
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 12630 111=1,3
IF(S(4,I,LL).EQ.O.) THEN
HS4(III)=9.99
HS41(III)='
ELSE
HS4(III)=(INT(100.*HI(III)/S(4,I,LL)+.5))/100.
ENDIF
12630 CONTINUE
DO 12670 111 = 1, NUM
TAR(III)=S5(III,I,LL)
TAR1(III)=NUC(III)
C-18
-------�
12670 CONTINUE
NM=NUM
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 12720 111=1,3
IF(S(5,I,LL).EQ.O.) THEN
HS5(III)=9.99
HS51(III)='
ELSE
HS5(III)=INT((100.*HI(III)/S(5,I,LL)+.5))/100.
ENDIF
12720 CONTINUE
DO 12760 111 = 1, NUM
TAR(III)=S6(III,I,LL)
TAR1(III)=NUC(III)
12760 CONTINUE
NM=NUM
CALL SORTER( NM, TAR ,TAR1, HI, HI 1)
DO 12810 111=1,3
IF(S(6,I,LL).EQ.O.) THEN
HS6(III)=9.99
HS61(III)=' '
ELSE
HS6(III) = INT((100.*HI(IH)/S(6,I,LL) + .
ENDIF
12810 CONTINUE
DO 12850 111=1, NUM
TAR(III)=S3(III,I,LL)
TAR1(III)=NUC(III)
12850 CONTINUE
DO 12880 111=1, NUM
TAR(III+NUM)=S4(III,I,LL)
TAR1(III+NUM)=NUC(III)
12880 CONTINUE
NM=NUM*2
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 12930 111=1,3
IF(S(3,I,LL).EQ.O. .AND. S(4,I ,LL) .EQ.O.) THEN
HS34(III)=9.99
HS34l(IIl)=l
ELSE
HS34(III)=(INT(100.*HI(III)/(S(3,I,LL)+S(4,I,LL))+.5))
&/100.
ENDIF
12930 CONTINUE
DO 12970 111=1, NUM
TAR(III)=S5(III,I,LL)
TAR1(III)=NUC(III)
12970 CONTINUE
DO 13000 111 = 1, NUM
TAR(III+NUM)=S6(III,I,LL)
TAR1(III+NUM)=NUC(III)
C-19
-------�
13000 CONTINUE
NM=NUM*2
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 13050 111=1,3
IF(S(5,I,LL).EQ.O. .AND. S(6,I ,LL) .EQ.O.) THEN
HS56(III)=9.99
HS561(III)='
ELSE
H
&/100.
ENDIF
13050 CONTINUE
IF(LL.EQ.3) THEN
DO 22490 111=1, NUM
TAR(III)=TTY1(III,I)
TAR1(III)=NUC(III)
22490 CONTINUE
NM=NUM
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 22540 111=1,3
IF(TYT1(I).EQ.O.) THEN
TT1(III)=9.99
TTD1(III)='
ELSE
TTl(III)=(INT(100.*HI(III)/TYTl(I)+.5))/100
ENDIF
22540 CONTINUE
ENDIF
IF(LL.EQ.3) THEN
DO 23490 1 1 1=1, NUM
TAR(III)=TTY2(III,I)
TAR1(III)=NUC(III)
23490 CONTINUE
NM=NUM
CALL SORTER(NM,TAR,TAR1,HI,HI1)
DO 23540 111=1,3
IF(TYT2(I).EQ.O.) THEN
TT2(III)=9.99
TTD2(III)='
ELSE
TT2(III)=(INT(100.*HI(III)/TYT2(I)+.5))/100
ENDIF
23540 CONTINUE
ENDIF
RETURN
END
C-20
-------�
SUBROUTINE SORTER(NM,TAR,TAR1,HI,HI1)
C
C THIS SUBROUTINE OF THE 'PRESTO1 ACCOUNTING PROGRAM SORTS THE
C CONCENTRATIONS BY HIGHEST TO LOWEST, AND RETURNS THE THREE
C HIGHEST.
C
IMPLICIT REAL*8(A-H,0-Z)
CHARACTER*6 TAR1(80),HI1(80).GRl.TMPl
DIMENSION TAR(80),HI(80)
C
DO 10 I=1,NM-1
GR=TAR(I)
GR1=TAR1(I)
DO 20 J=I+1,NM
IF(GR.GE.TAR(J)) GO TO 20
TMP=GR
TMP1=GR1
GR=TAR(J)
GR1=TAR1(J)
TAR(J)=TMP
TAR1(J)=TMP1
20 CONTINUE
HI(I)=GR
HI1(I)=GR1
10 CONTINUE
RETURN
END
C-21
-------�
SUBROUTINE ZERO
C
C THIS SUBROUTINE ZEROS ALL NUMERIC VALUES AND BLANKS OUT
C ALL CHARACTER VARIABLES PRIOR TO EXECUTING THE PROGRAM.
C
IMPLICIT REAL*8(A-H,0-Z)
REAL*8 NC
COMMON/NUM1/NC(50,40),MATX(40),M(43,40),UR(50,10,3),HECF(50)
&,GECF(50),PAPER(3)
COMMON/STR1/NUC(50),HI1(80),HS31(3),HS41(3),HS51(3),
& HS61(3),HS341(3),HS561(3),ZZZ(50),RUNNAM(100),TAR1(80),
& WASNML(30),WASNMB(30)
COMMON/SUM1/S(10,30,3),51(40,30,3),S2(40,30,3),53(40,30,3)
COMMON/SUM2/S4(40,30,3),55(40,30,3),56(40,30,3),57(40,30,3)
COMMON/SUM3/S8(40,30,3),S9(40,30,3),S10(40,30,3)
COMMON/DIMEN/TAR(80),HI(80),HS3(3),HS4(3),HS5(3),HS6(3),
& HS34(3),HS56(3)STTY1(40,30),TTY2(40,30),
& CC(40,30),TYT1(30),TYT2(30)
C
CHARACTER*6 NUC,HI1,HS31,HS41 ,HS51,HS61,HS341 ,HS561,
& TAR1,ZZZ*10,WASNML*9,RUNNAM*14,WASNMB*9
C
PAPER(1)=0.
PAPER(2)=0.
PAPER(3)=0.
DO 10 1=1,40
MATX(I)=0
DO 20 0=1,50
NC(J,I)=0.
20 CONTINUE
DO 30 J=l,30
CC(I,J)=0.
TTY1(I,J)=0.
TTY2(I,0)=0.
DO 40 K=l,3
S1(I,J,K)=0.
S2(I,J,K)=0.
S3(I,J,K)=0.
S4(I,J,K)=0.
S5(I,J,K)=0.
S6(I,J,K)=0.
S7(I,J,K)=0.
S8(I,J,K)=0.
59(1,0,K)=0.
510(1,0,K)=0.
40 CONTINUE
30 CONTINUE
10 CONTINUE
DO 50 1=1,50
HECF(I)=0.
GECF(I)=0.
NUC(I)='
ZZZ(I)='
DO 60 0=1,10
DO 70 K=l,3
UR(I,0,K)=0.
C-22
-------�
70 CONTINUE
60 CONTINUE
50 CONTINUE
DO 80 1=1,80
TAR1(I)='
HI1(I)='
TAR(I)=0.
HI(I)=0.
80 CONTINUE
DO 100 1=1,10
DO 110 J=l,30
DO 120 K=l,3
S(I,J,K)=0.
120 CONTINUE
110 CONTINUE
100 CONTINUE
DO 130 1=1,30
TYT1(I)=0.
TYT2(I)=0.
130 CONTINUE
DO 140 1=1,3
HS31(I)='
HS41(I)='
HS51(I)='
HS61(I)='
HS341(I)='
HS561(I)='
HS3(I)=0.
HS4(I)=0.
HS5(I)=0.
HS6(I)=0.
HS34(I)=0.
HS56(I)=0.
140 CONTINUE
RETURN
END
C-23
-------�
APPENDIX D
FORTRAN CODE AND OUTPUT FOR MULTIPLE
WASTE STREAM UNIT VOLUME RESULTS
-------�
APPENDIX D
FORTRAN CODE AND OUTPUT FOR MULTIPLE
WASTE STREAM UNIT VOLUME RESULTS
The computer code documented in this appendix prepares summary tables
for the unit volume analyses. The input data for the code is produced by
the Accounting Model and is contained in a disk file called RAWTOTAL.FIL.
Data from this file is read from logical unit 4. Interactive user input is
also required to initiate a run. The interactive user input required for
the code is shown in Table D-l.
The output, written to logical unit 7, consists of the population
health effects and genetic effects resulting from the disposal of a unit
volume of each waste stream. The health effects are summed over all waste
streams and are grouped for cumulative time periods of 100, 500, 1000, and
10,000 years. A sample output is shown in Section D.2.
D-2
-------�
TABLE D-l
INTERACTIVE USER INPUT FOR UNIT VOLUME SUMMARY CODE
Variable Format Description
IDATE
A17 Date of run (up to 17 characters).
BRCPOP
Flag indicating population health effects from LLW or
BRC waste.
1 = LLW summary results
2 = BRC summary results
D-3
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
$LARGE
C
C
C
THIS PROGRAM PRODUCES A SUMMARY OF THE UNIT VOLUME
RESULTS FOR MULTIPLE WASTE STREAMS.
CHARACTER DONAM*30,POPWST*9,BRCWST*9,REGION(3)*17,IDOL*9,IDATE*17
DIMENSION DONAM(17),POPWST(26),THL(17,3,26),THB(17,3,26),DDISP(17)
DIMENSION TGL(17,3,26),TGB(17,3,26),TTH(17,26),TTG(17,26)
DIMENSION RN(17,26),POP(17,26),BRC(17,26),PAP(3),BRCWST(26)
DIMENSION FOUND(17),WASFIN(17,26),TOTD(17,3,26),TOTG(17,3,26)
DIMENSION THE(17,26),TGE(17,26),TPCD(17,3,26),TNUCD(17,3,26)
DIMENSION TPCBD(17,3,26),TNUCBD(17,3,26),TPCG(17,3,26)
DIMENSION TNUCG(17,3,26),TPCBG(17,3,26),TNUCBG(17,3,26)
DIMENSION TPCTD(17,3,26),TNUCTD(17,3,26),TPCTG(17,3,26)
DIMENSION TNUCTG(17,3,26),TPEXD(17,26),TNUEXD(17,26)
DIMENSION TPEXG(17,26),TNUEXG(17,26)
INTEGER BRCPOP,PAS
CHARACTER*6 NUCD,NUCBD,NUCG,NUCBG,NUCTD,NUCTG,NUCEXD,NUCEXG
CHARACTER JN*4,JOB(17,26)*4,TNUCD*6,TNUCBD*6,TNUCG*6,TNUCBG*6
CHARACTER*6 TNUCTD,TNUCTG,TNUEXD ,TNUEXG
CHARACTER WFORM(4)*22,FORM*2
DATA PAP/100.,500.,1000./
DATA POPWST/'L-IXRESIN1,
& 'L-DECONRS'.'L-NFRCOMP'
'L-NCTRASH1.
'N-SSTRASH1,
1N-LOWASTE1,
'R-RAIXRSN1,
DATA BRCWST/1
& "F-PROCESS",
N-SSTRASH1,
I-ABSLIQD1,
R-RASOURC",
'F-COTRASH
'N-SSWASTE
'N-ISOPROD
'R-RASOURC
B-COTRASH'
1F-COTRASH
,"N-LOWASTE
,'I-BIOWAST
,'R-INSTDFl
BLANK",1 BLANK
DATA DONAM/1 Regulated sanitary
&" Shallow land disposal1
& Improved shallow land disposal
&1 Intermediate depth disposal
L-CONCLIQ1,
'F-PROCESS'
'F-NCTRASH'
'I-LQSCNVL1
'N-SOURCES'
P-COTRASH" ,
'F-NCTRASH1
'N-LOTRASH'
'C-SMOKDET'
'R-INSTDF21
'L-FSLUDGE1,
,'U-PROCESS1
,' I-COTRASH1
,' I-ABSLIQD1
,'N-TRITIUM'
'P-CONDRSN1 ,
,'U-PROCESS1
," I-COTRASH '
,'C-TIMEPCS"
,'R-GLASDSl1
'P-FCARTRG1,
,'L-COTRASH",
,'N-LOTRASH1,
,'I-BIOWAST',
,'N-TARGETS",
"L-WASTOIL",
,' N-SSWASTE1,
,' I-LQSCNVL1 ,
, 'R-RAIXRSN',
,'R-GLASDS2',
&' Concrete bunker'
&' Hydrofracture1
&' Deep geological disposal1
&' Suburban landfill'
&' Urban landfill'
DATA DDISP/'SL'.'CSVCH" ,'IS1,'
& "DW'.'DGVMD1,'SF" ,'SI1,'UF1
landfill1,
Shallow,
Impr shallow,
DATA REGION/^umid impermeable" , 'arid permeable1
"humid permeable'/
DATA WFORM/' As generated ','
300 Yr cntr life1
300 Yr cntr life'
Earth mound1
Concrete canister1
Deep well injection1
Municipal dump1
Suburban LF, with incineration1
Urban LF, with incineration'/
'IH'.'ID'.'EM'.'CB'.'CC'.'HF',
'UI1/
& "Incinerated/solidified1,1 Incinerated1/
OPEN (4,FILE='RAWTOTAL.FIL' ,STATUS=' OLD' )
WRITE(*,*) ' ENTER THE REPORTING DATE
READ
(l)POP OR (2) BRC RUN?
Solidified1
,*)
(*,'(A17)') IDATE
314 WRITE(*,*) ' IS THIS A
READ(*,*) BRCPOP
IF(BRCPOP.LT.l .OR. BRCPOP. GT. 2) GO TO 314
PAS=1
D-4
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
(Continued)
1 DO 10 1=1,17
DO 9 J=l,3
DO 8 K=l,26
FOUND(
WASFIN
WASFIN
THL(I,
THB(I,
TGL(I,
TGB(I,
TPCD(I
TPCBD(
TPCG(I
TPCBG(
TPCTD(
TPCTG(
TOTD(I
TOTG(I
TPEXD(
TPEXG(
THE(I,
TGE(I,
TTH(I,
TTG(I,
8 CONTINUE
9 CONTINUE
10 CONTINUE
I)=0.
(1,10=0.
(I,K)=0.
J,K)=0.
J,K)=0.
J,K)=0.
J,K)=0.
,J,K)=0.
I,J,K)=0.
,J,K)=0.
I,J,K)=0.
I,J,K)=0.
I,J,K)=0.
,J,K)=0.
,J,K)=0.
I,K)=0.
I,K)=0.
K)=0.
K)=0.
K)=0.
K)=0.
REWIND 4
READ (4,*) NREC
DO 200 KK=1,NREC-1
READ (4,1000,END=200) RG,DISP,FORM,JN,IDOL,PAPER,SHL.SHB,SQL,
& SGB,TH,TG,PCD,NUCD,PCBD,NUCBD,PCG,NUCG,PCBG,NUCBG,PCTD,NUCTD,
& PCTG.NUCTG,HE,GE,PEXD,NUCEXD ,PEXG,NUCEXG
1000 FORMAT (A2,A2,A2,4X,A4,4X,A9,F6.0,1X,6(1PE8.2,1X),6(OPF4.2,1X,
& A6,25X),2(1PE8.2,1X),2(OPF4.2,1X,A6,25X))
C BRCPOP=1
C IF (DISP.EQ.'MD'.OR.DISP.EQ.'SF'.OR.DISP.EQ.'SI'.OR.DISP.
C & EQ.'UF'.OR.DISP.EQ.'UI') BRCPOP=2
DO 205 1=1,17
IF (PAS.EQ.LAND.FORM.EQ.'SW) GOTO 200
IF (PAS.EQ.LAND.FORM.EQ.1 IS1) GOTO 200
IF (PAS.EQ.2.AND.FORM.NE.'SW) GOTO 200
IF (PAS.EQ.3.AND.FORM.NE.1IS1) GOTO 200
IF (DISP.EQ.DDISP(I)) GO TO 220
205 CONTINUE
GO TO 200
220 FOUND(I)=1.
DO 230 J=l,3
IF (PAPER.EQ.PAP(J)) GO TO 240
D-5
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
(Continued)
230 CONTINUE
60 TO 200
240 DO 210 K=l,26
IF (BRCPOP.EQ. LAND. IDOL. NE .POPWST(K)) GO TO 210
IF (BRCPOP.EQ.2.AND.IDOL.NE.BRCWST(K)) GO TO 210
WASFIN(I,K)=1.
THL(I,J,K) = SHL
THB(I,J,K)=SHB
TGL(I,J,K)=SGL
TGB(I,J,K)=SGB
IF(PCD.EQ.9.99) PCD=0.0
TPCD(I,J,K)=PCD
TNUCD(I,J,K)=NUCD
IF(PCBD.EQ.9.99) PCBD=0.0
TPCBD(I,J,K)=PCBD
TNUCBD(I,J,K)=NUCBD
IF(PCG.EQ.9.99) PCG=0.0
TPCG(I,J,K)=PCG
TNUCG(I,J,K)=NUCG
IF(PCBG.EQ.9.99) PCBG=0.0
TPCBG(I,J,K)=PCBG
TNUCBG(I,J,K)=NUCBG
IF(PCTD.EQ.9.99) PCTD=0.0
TPCTD(I,J,K)=PCTD
TNUCTD(I,J,K)=NUCTD
IF(PCTG.EQ.9.99) PCTG=0.0
TPCTG(I,J,K)=PCTG
TNUCTG(I,J,K)=NUCTG
TOTD(I,J,K)=TH
TOTG(I,J,K)=TG
JOB(I,K)=JN
IF(PEXD.EQ.9.99) PEXD=0.0
IF(J.EQ.3)TPEXD(I,K)=PEXD
IF(J.EQ.S) TNUEXD(I,K)=NUCEXD
IF(PEXG.EQ.9.99) PEXG=0.0
IF(J.EQ.S) TPEXG(I,K)=PEXG
IF(J.EQ.3) TNUEXG(I,K)=NUCEXG
IF(J.EQ.3) THE(I,K)=HE
IF(J.EQ.S) TGE(I,K)=GE
IF (J.EQ.3) TTH(I,K)=TH+HE
IF (J.EQ.3) TTG(I,K)=TG+GE
C IF (J.EQ.3.AND.BRCPOP.EQ.1) POP(I ,K)=POP(I,K) +
C & TTH(I,K)+TTG(I,K)+RN(I,K)
C IF (J.EQ.3.AND.BRCPOP.EQ.1) PCOUNT=PCOUNT+1
C IF (J.EQ.3.AND.BRCPOP.EQ.2) BRC(K) = BRC(K)+TTH(I ,K)
C & TTG(I,K)+RN(I,K)
C IF (J.EQ.3.AND.BRCPOP.EQ.2) BCOUNT=BCOUNT+1
210 CONTINUE
D-6
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
(Continued)
200 CONTINUE
OPEN (7,FILE='LPT1:1)
IREG=1
IF(RG.EQ.'SW') IREG=2
IF(RG.EQ.'SE') IREG=3
DO 700 J=l,3
DO 600 1=1,17
IF(FOUND(I).NE.l.) GO TO 600
WRITE(7,2000)
WRITE(7,2005)
WRITE(7,2010) DONAM(I),REGION(IREG)
IF (I.NE.15.AND.I.NE.17) WRITE(7,2015) WFORM(PAS)
IF (I.EQ.15.0R.I.EQ.17) WRITE(7,2015) WFORM(4)
WRITE(7,2020) PAP(J)
WRITE(7,2056)
WRITE(7,2058)
WRITE(7,2030)
WRITE(7,2040)
WRITE(7,2050)
WRITE(7,2055)
DO 550 K=l,26
IF(I.LE.12.AND.WASFIN(I,K).NE.l.) GOTO 500
IF(I.GE.13.AND.WASFIN(I,K).NE.l.) GOTO 500
IF(BRCPOP.EQ.l) WRITE(7,2060) POPWST(K),JOB(I,K),
& THL(I,J,K),TNUCD(I ,J ,K) ,TPCD(I ,J,K),TGL(I,J,K),
& TNUCG(I,J,K),TPCG(I ,J ,K),THB(I ,J ,K),TNUCBD(I,J,K),
& TPCBD(I,J,K),TGB(I ,J ,K),TNUCBG(I,J,K),TPCBG(I,J,K),
& TOTD(I,J,K),TOTG(I,J,K)
IF(BRCPOP.EQ.2) WRITE(7,2060) BRCWST(K),JOB(I,K),
& THL(I,J,K),TNUCD(I ,J ,K),TPCD(I,J,K),TGL(I,J,K),
& TNUCG(I,J,K),TPCG(I ,J ,K),THB(I ,J,K),TNUCBD(I,J,K),
& TPCBD( I,J,K),TGB(I,J,K),TNUCBG(I,J,K),TPCBG(I,J,K),
& TOTD(I,J,K),TOTG(I,J,K)
GO TO 550
500 IF(I.GE.13.AND.K.GE.25) GOTO 550
IF(BRCPOP.EQ.l) WRITE(7,2070) POPWST(K)
IF(BRCPOP.EQ.2) WRITE(7,2070) BRCWST(K)
550 CONTINUE
WRITE(7,2130)
WRITE(7,2150)
600 CONTINUE
700 CONTINUE
DO 900 1=1,17
IF(FOUND(I).NE.l.) GOTO 900
WRITE(7,2000)
WRITE 7,2005
WRITE(7,2010) DONAM(I),REGION(IREG)
IF (I.NE.15.AND.I.NE.17) WRITE(7,2015) WFORM(PAS)
IF (I.EQ.15.0R.I.EQ.17) WRITE(7,2015) WFORM(4)
D-7
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
(Continued)
WRITE(7,2080)
WRITE(7,2057)
WRITE(7,2058)
WRITE(7,2090)
WRITE(7,2100)
WRITE(7,2110)
WRITE(7,2055)
DO 850 K=l,26
IF(I.LE.12.AND.WASFIN(I,K).NE.l.) GOTO 850
IF(I.GE.13.AND.WASFIN(I,K).NE.l.) GOTO 850
IF(BRCPOP.EQ.l) WRITE(7,2120) POPWST(K),JOB(I,K),THE(I ,K),
& TNUEXD(I,K),TPEXD(I,K),TGE(I,K),TNUEXG( I,K),TPEXG(I,K),
& TTH(I,K),TTG(I,K)
IF(BRCPOP.EQ.2) WRITE(7,2120) BRCWST(K),JOB(I ,K),THE(I ,K),
& TNUEXD(I,K),TPEXD(I,K),TGE(I,K),TNUEXG(I,K),TPEXG(I ,K),
& TTH(I,K),TTG(I,K)
850 CONTINUE
WRITE(7,2140)
WRITE(7,2160)
900 CONTINUE
PAS=PAS+1
IF(PAS.EQ.4) GOTO 5000
GO TO 1
2000 FORMAT(lHl)
2005 FORMAT(' ',//////,40X,'Table . Summary of unit response1,
& ' results.1)
2010 FORMATC ' ,/,40X,A30,' in ',A17,' regions')
2015 FORMAT(' ',/,52X,A22,' waste forms')
2020 FORMATC ',/.57X.F5.0,' Year analysis period')
2030 FORMATC ',/,45X,'Local ',52X,'Basin1,36X,'Total',/,22X,
& 2(56(' '),2X),18('_'))
2040 FORMATC" ',/,33X,'Fatal ',23X,'Genetic1,21X,'Fatal',23X,
& 'Genetic',/,22X,4(27('_'),2X))
2050 FORMAT(' ',/ ,5X,'Waste',10X,4(2X,'Effects,',3X,'Major',4X,
& 'Effect',IX),4X,'Fatal',4X,'Genetic1,/,5X,'stream/job1,7X,
& 4('per M**3',2X,'nuclide',2X,'fraction',2X),lX,2('effects',3X),
& /,5X,15(' '),2X,4(8(' '),2X,7(' '),2X,8(' '),2X),2(8(' '),2X))
2055 FORMATC '7/)
2056 FORMAT(5X,151(' '))
2057 FORMAT(22X,106("r '))
2058 FORMATC ' ,/)
2060 FORMAT(5X,A9,'(I,A4,1)1,4(2X,1PE8.2,3X,A6,4X,OPF4.2,2X),2X5
& 2(1PE8.2,2X))
2070 FORMAT(5X.A9.3X,1 ** NOT FOUND **')
2080 FORMAT(' ',/,53X,'9000 Year extended analysis period')
2090 FORMATC ',/,53X,'Residual basin analysis',21X,'Total effects',
&' over 10,000 years',/,39X,56('_'),2X,31(' '))
2100 FORMATC ' ,/,50X,' Fatal ' ,23X,'Genetic',/,39"X,2(27(' '),2X))
D-8
-------�
D.I FORTRAN LISTING FOR WASTE STREAM SUMMARY CODE
(Continued)
2110 FORMATC ',/,22X,'Waste',10X,2(2X,'Effects,' ,3X,'Major1,4X,
& 'Effect',1X),10X,'Fatal',4X,'Genetic1,/,22X,'stream/job',7X,
& 2('per M**3l,2X,lnuclidel,2X,lfract1onl,2X),7X,2(leffectsl,3X),
&/,22X,15(' '),2X,2(8(' '),2X,7(' '),2X,8(' '),2X),6X,
& 2(8(' '),2X)) - - -
2120 FORMATT22X,A9,'(',A4,')',2(2X .1PE8.2,3X,A6,4X,OPF4.2,2X),8X,
& 2(1PE8.2,2X))
2130 FORMATC ',/,5X,151(' '))
2140 FORMATC ' ,/,22X,106Cr_l))
2150 FORMATC '/,5X,' Note: All responses are based on a single '
& 'curie of each radionuclide per cubic meter of waste,',/,13X,
&'adjusted for the actual radionuclide concentrations in the',
&' as-generated waste.1)
2160 FORMATC '/,22X,' Note: All responses are based on a single '
& 'curie of each radionuclide per cubic meter of waste,',/,30X,
& 'adjusted for the actual radionuclide concentrations in the',
&' as-generated waste.')
5000 END
D-9
-------�
Table . Surinary of unit response results.
Regulated sanitary landfill in humid permeable regions
As generated waste forms
100. Year analysis period
Local
Basin
Total
O
i
Waste
stream/job
L-!XRESIN(7304)
L-CONCL 10(7304)
L-FSLUDGE(7304)
P-FCARTRG<7316)
L-DECONRS(7304)
L-NFRCOHP(8492)
F- PROCESS (7304)
U- PROCESS (7304)
L-COTRASH(7316)
L-NCTRASH(7316)
F-COTRASH(7316)
F-NCTRASH(7316)
I-COTRASH(7316)
N-LOTRASH(7316)
N-SSTRASH(7316)
K--;C-;ASI£(7316)
l-_OSC«VU73&t)
I-ABSLIOO(7304)
J-BIOUAST<7304)
N-LOUASTE<7304)
N-ISOPROD(7316)
N- SOURCES (8492)
N-TRITIUM(7316)
N-TARGETS(8492)
R-RAIXRSN(7304)
R-RASOURC(7304)
Effects.
per M**3
1.97E-06
1.12E-07
1.90E-07
4.20E-08
1.74E-07
6.77E-08
5.89E-11
6.69E-11
2.74E-09
2.28E-08
3.03E-12
2.90E-12
8.88E-07
2.77E-07
9.99E-13
1.94E-11
3.57E-08
1.16E-06
1.43E-06
1.33E-07
2.44E-07
4.31E-07
9.92E-05
1.04E-05
3.43E-09
5.10E-04
Fatal
Major
nuclide
C-14
C-14
C-14
Co -60
Co- 60
C-14
U-234
U-234
C-14
C-14
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-H
Ba137n
H-3
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.91
.89
.62
.55
.98
1.00
.83
.51
.83
.86
.83
.83
.97
.97
.74
.74
.99
.99
.99
.99
.60
.89
.54
1.00
.66
.69
Effects.
per M**3
2.71E-07
1.58E-08
3.52E-08
9.15E-09
4.87E-08
8.39E-09
2.34E-13
1.75E-13
4.09E-10
3.31E-09
1.20E-14
1.15E-14
1.13E-07
3.52E-08
1.63E-15
3.17E-14
4.47E-09
1.45E-07
1.79E-07
1.66E-08
5.57E-08
1.03E-07
1.92E-05
2.62E-06
8.49E-10
1.29E-04
Genetic
Major
nuclide
C-14
C-14
C-14
Co -60
Co-60
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
C-14
C-14
Ba137m
H-3
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.83
.79
.41
.72
.99
1.00
.92
.89
.69
.73
.92
.92
.95
.95
.82
.82
.98
.98
.98
.98
.76
.94
.71
1.00
.77
.79
Effects,
per H**3
1.28E-04
7.12E-06
2.45E-05
1.14E-06
9.52E-07
2.74E-06
5.57E-11
6.58E-11
1.78E-07
1.30E-06
2.87E-12
2.74E-12
3.51E-05
1.09E-05
1.01E-12
1.97E-11
1.43E-06
4.68E-05
5.78E-05
5.36E-06
7.44E-05
2.12E-06
1.86E-03
4.60E-06
1.69E-06
2.38E-01
Fatal
Major
nuclide
C-14
C-14
Cs-137
C-14
Co-60
C-14
U-234
U-234
C-14
C-14
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Cs-137
C-14
C-14
H-3
Po-210
Po-210
Genetic
Effect
fraction
.57
.57
.76
.60
.91
1.00
.82
.49
.52
.61
.82
.82
1.00
1.00
.76
.76
1.00
1.00
1.00
1.00
.86
.92
.99
1.00
.52
.57
Effects,
per M**3
2.30E-05
1.28E-06
5.62E-06
2.11E-07
3.11E-07
3.39E-07
1.62E-12
1.88E-12
3.34E-08
2.28E-07
8.35E-14
7.98E-14
4.36E-06
1.36E-06
2.87E-14
5.57E-13
1.78E-07
5.82E-06
7.18E-06
6.66E-07
1.67E-05
2.84E-07
2.34E-04
1.16E-06
3.06E-07
4.06E-02
Major
nuc I i de
Cs-137
Cs-137
Cs-137
C-14
Co-60
C-14
U-234
U-234
Cs-137
Cs-137
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Cs-137
C-14
C-14
H-3
Pb-210
Pb-210
Effect
fraction
.58
.58
.85
.40
.96
1.00
.79
.48
.62
.53
.79
.79
1.00
1.00
.75
.75
1.00
.99
1.00
.99
.99
.85
.97
1.00
.53
.62
Fatal
effects
1.30E-04
7.23E-06
2.46E-05
1.18E-06
1.13E-06
2.81E-06
1.15E-10
1.33E-10
1.81E-07
1.32E-06
5.90E-12
5.64E-12
3.60E-05
1.12E-05
2.01E-12
3.91E-11
1.47E-06
4.80E-05
5.92E-05
5.49E-06
7.46E-05
2.55E-06
1.96E-03
1.50E-05
1.69E-06
2.39E-01
Genetic
effects
2.33E-05
1.30E-06
5.66E-06
2.20E-07
3.60E-07
3.A8E-07
1.86E-12
2.06E-12
3.38E-08
2.31E-07
9.55E-14
9.13E-H
4.47E-06
1.39E-06
3.03E-14
5.88E-13
1.82E-07
5.97E-06
7.36E-06
6.83E-07
1.67E-05
3.87E-07
2.53E-04
3.78E-06
3.07E-07
4.07E-02
Mot*: All responses are based on a single curie of each radionuclide per cubic meter of waste,
adjusted for the actual radionuclide concentrations in the as-generated waste.
Prepared by Putnam, Hayes, i Bartlett. Inc., JULY 22, 1986
o
ro
5=-
GO
m
73
m
PO
-------�
Table . Summary of unit response results.
Regulated sanitary landfill in humid permeable regions
As generated waste forms
500. Year analysis period
Local
Basin
Total
Waste
stream/job
L-IXRESIM(7304>
L-COMCL 10(7304)
L-FSLUDG£(73(W)
P-FCAKTRG(7316)
L-DECOMRS(7304)
L-NFRCGMP(8492)
f- PROCESS (7304)
U- PROCESS (7304)
L-COTRASH(7316)
L-NCTRASH(7316)
F-COTRASH(7316)
F-NCTRASH(7316)
I-COTRASH(7316)
M-LOTRASH(7316)
M-SSTRASH(7316)
U-SSUASTE(7316)
|-L9SCNVL<7304)
I-ABSLIOO<7304)
I-BIOUAST(73CK)
M-LOUAST£(7304)
M-ISC«>RCO(7316)
N-SOURCES(&492)
M-TRITIUM(7316)
M-TARGETS(8492>
R-RAIXRSN(7304)
R-RASOURC(7304)
Effects.
per M**3
2.36E-06
1.33E-07
2.26E-07
4.28E-08
1.74E-07
3.92E-07
6.22E-11
6.96E-11
2.85E-09
2.36E-08
3.21E-12
3.06E-12
9.09E-07
2.83E-07
1.03E-12
2.00E-11
4.25E-08
1.38E-06
1.71E-06
1.58E-07
2.55E-07
6.71E-07
1.00E-04
1.06E-05
8.38E-09
1.28E-03
Fatal
Hajor
nuclide
C-14
C-14
C-14
Co -60
Co-60
C-14
U-234
U-234
C-14
C-14
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Ba137n
H-3
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.91
.89
.62
.54
.98
1.00
.80
.50
.82
.85
.80
.80
.93
.98
.73
.73
.99
.99
.99
.99
.60
.59
.54
1.00
.75
.77
Effects.
per H**3
3.17E-07
1.83E-08
3.91E-08
9.24E-09
4.87E-08
4.86E-08
9.85E-13
7.33E-13
4.21E-10
3.40E-09
5.06E-14
4.84E-14
1.16E-07
3.61E-08
6.74E-15
1.31E-13
5.31E-09
1.73E-07
2.13E-07
1.9BE-08
5.83E-08
1.34E-07
1.94E-05
2.68E-06
2.25E-09
3.46E-04
Genet i c
Major
nuclide
C-14
C-14
C-14
Co-60
Co-60
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
C-14
C-14
Ba137m
H-3
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.84
.81
.44
.72
.99
1.00
.93
.90
.69
.73
.93
.93
.95
.95
.84
.84
.99
.99
.99
.99
.76
.74
.70
1.00
.81
.82
Effects,
per M**3
1.42E-04
7.91E-06
2.54E-05
1.16E-06
9.89E-07
1.59E-05
1.15E-10
1.35E-10
1.81E-07
1.32E-06
5.91E-12
5.64E-12
3.60E-05
1.12E-05
2.09E-12
4.05E-11
1.71E-06
5.57E-05
6.89E-05
6.39E-06
7.45E-05
1.14E-05
1.91E-03
4.72E-06
1.91E-06
2.70E-01
Fatal
Major
nuclide
C-14
C-14
Cs-137
C-14
Co-60
C-14
U-234
U-234
C-14
C-14
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Cs-137
C-14
C-14
H-3
Po-210
Po-210
Genetic
Effect
fraction
.61
.61
.74
.60
.88
1.00
.82
.49
.53
.62
.82
.82
1.00
1.00
.76
.76
1.00
1.00
1.00
1.00
.86
.98
.99
1.00
.52
.57
Effects,
per M**3
2.47E-05
1.38E-06
5.74E-06
2.14E-07
3.15E-07
1.96E-06
3.34E-12
3.87E-12
3.37E-08
2.30E-07
1.72E-13
1.64E-13
4.47E-06
1.39E-06
5.90E-14
1.15E-12
2.12E-07
6.93E-06
8.55E-06
7.93E-07
1.67E-05
1.44E-06
2.40E-04
1.19E-06
3.46E-07
4.59E-02
Major
nucl ide
Cs-137
Cs-137
Cs-137
C-14
Co-60
C-14
U-234
U-234
Cs-137
Cs-137
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Cs-137
C-14
C-14
H-3
Pb-210
Pb-210
Effect
fraction
.54
.54
.83
.40
.95
1.00
.79
.48
.61
.53
.79
.79
1.00
1.00
.75
.75
1.00
.99
1.00
1.00
.98
.97
.97
1.00
.53
.62
Fatal
effects
1.44E-04
8.04E-06
2.56E-05
.20E-06
.16E-06
.62E-05
.77E-10
.05E-10
.84E-07
.34E-06
9.11E-12
8.71E-12
3.69E-05
1.15E-05
3.11E-12
6.05E-11
1.75E-06
5.71E-05
7.06E-05
6.54E-06
7.48E-05
1.21E-05
2.01E-03
1.54E-05
1.92E-06
2.71E-01
Genetic
effects
2.51E-05
1.40E-06
5.78E-06
2.23E-07
3.64E-07
2.01E-06
4.32E-12
4.61E-12
3.41E-08
2.34E-07
2.22E-13
2.13E-13
4.58E-06
1.43E-06
6.57E-14
1.28E-12
2.17E-07
7.10E-06
8.77E-06
8.13E-07
1.67E-05
1.57E-06
2.59E-04
3.87E-06
3.4BE-07
4.63E-02
Mote: All responses are based on a single curie of each radionuclide per cubic meter of waste,
adjusted for the actual radionuclide concentrations in the as-generated waste.
Prepared by Putnam, Hayes, I Bartlett, Inc., JULY 22, 1986
o
no
o
cz
—I
-a
CO
3=
-i»
CO
-------�
Table . Surmary of unit response results.
Regulated sanitary landfill in humid permeable regions
As generated waste forms
1000. Year analysis period
Local
Basin
Total
ro
Fatal
Genetic
Fatal
Genet (c
Note: All responses are based on a single curie of each radionuclide per cubic meter of waste,
adjusted for the actual radionuclide concentrations in the as-generated waste.
Prepared by Putnam, Hayes. I Bartlett, Inc., JULY 22, 1986
o
ro
Waste
stream/ job
L-IXRESIM(7304)
L-CONCLIQ(7304)
L-FSLUOGE(7304)
P-FCARTRGC7316)
L-DECONRS(7304)
L-NFRCOHP(8492)
F- PROCESS (7304)
U-PROCESS(7304)
L-COTRASH(7316)
L-NCTRASH(7316)
F-COTRASH(7316)
F-NCTRASH(7316)
l-COTRASH(7316)
N-LOTRASH(7316)
N-SSTRASH(7316)
N-SSUASTE(7316)
1-LOSCNVL(7304)
I-ABSLIQO(7304)
|-BIOUAST(7304)
M-LOUASTE(7304)
N-ISOPRCO(7316)
N-SOURCES(8492)
N-TRITIUH(7316)
N-TARGETS(8492)
R-RAIXRSN(7304)
R-RASOURC(7304)
Effects,
per M**3
6.24E-06
3.50E-07
1.51E-06
6.80E-08
1.74E-07
6.37E-07
6.46E-11
7.14E-11
8.74E-09
5.93E-08
3.33E-12
3.18E-12
9.09E-07
2.83E-07
1.05E-12
2.03E-11
4.25E-08
1.38E-06
1.71E-06
1.58E-07
4.30E-07
8.46E-07
1.00E-04
1.06E-05
9.6&E-09
1.47E-03
Major
nuclide
1-129
1-129
1-129
1-129
Co-60
C-14
U-234
U-234
1-129
1-129
U-234
U-234
C-14
C-14
U-238
U-238
C-14
C-14
C-14
C-14
Np-237
C-14
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.62
.62
.85
.35
.98
1.00
.77
.49
.67
.60
.77
.77
.98
.98
.72
.72
.99
.99
.99
.99
.40
.54
.54
1.00
.76
.78
Effects,
per M**3
3.24E-07
1.88E-08
4.11E-08
9.45E-09
4.87E-08
7.91E-08
1.61E-12
1.19E-12
4.32E-10
3.47E-09
8.25E-14
7.90E-14
1.16E-07
3.61E-08
1.10E-14
2.14E-13
5.31E-09
1.73E-07
2.13E-07
1.98E-08
7.71E-08
1.55E-07
1.94E-05
2.68E-06
2.61E-09
4.02E-04
Major
nuclide
C-14
C-14
C-14
Co-60
Co-60
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
U-235
U-235
C-14
C-14
C-14
C-14
Ba137m
H-3
H-3
H-3
Bi-214
Bi-214
Effect
fraction
.82
.79
.42
.70
.99
1.00
.93
.90
.67
.72
.93
.93
.95
.95
.85
.85
.99
.99
.99
.99
.58
.64
.70
1.00
.81
.82
Effects,
per M**3
1.42E-04
7.91E-06
2.54E-05
1.16E-06
9.97E-07
2.50E-05
1.20E-10
1.41E-10
1.81E-07
1.32E-06
6.17E-12
5.89E-12
.3.60E-05
1.12E-05
2.18E-12
4.23E-11
1.71E-06
5.57E-05
6.89E-05
6.39E-06
7.45E-05
1.79E-05
1.91E-03
4.72E-06
1.91E-06
2.70E-01
Major
nucl ide
<£J^
i/C- 14)
(^Cs-IJZ)
cs7TC>
Co:60
C-.14_
<\UJ>34^>
r0^g3O
Oj^>|&
?ff;23O
cFTS)
(£iS)
U-238
U-238
C-14
C-14
C-14
"C-14
Cs-137
C-14
C-14
H-3
Po-210
Po-210
Effect
fraction
X)
o
^ s:
<-t- 1=
^' —i
c m
fD
Q_ L/~i
' — ' 73
m
•^
C/l
a
2
73
~<
-------�
Table . Surmary of unit response results.
Regulated sanitary landfill in humid permeable regions
As generated waste forms
9000 Year extended analysis period
Residual basin analysis
Total effects over 10,000 years
o
i
CO
Waste
stream/job
L-1XRESIN(7304)
L-CONCL 10(7304)
L-FSLUOGE(7304)
P-FCARTRG(7316)
L-OECONRS(7304)
L-NFRCOHP(8492)
F-PROCESS(7304)
U-PROCESS(7304)
L-COTRASH(7316)
L-NCTRASH(7316)
F-COTRASH(7316)
F-NCTRASH(7316)
I-COTRASH(7316)
N-LOTRASHC7316)
N-SSTRASH(7316)
N-SSUASTE(7316)
!-LQSCHVL(7304)
1-ASSLIQO(7304)
I-BIOUASTC7304)
N-LOUASTE(7304)
N-iSOf>ROD(7316)
N- SOURCES (8492)
N-TRITIUH(7316)
N-TARGETS(8492)
R-RAIXRSN(7304)
R-RASOURC(7304)
Effects,
per M**3
7
5
2
6
4
1
2
2
1
9
.1
3
9
4
8
7
5
3
4
1
1
1
8
1
2
.32E-06
.08E-07
.09E-06
.66E-07
.91E-06
.41E-05
.47E-08
.92E-08
.31E-08
.23E-08
..27E-09
22EJ39
.01E-12
.43E-13
.49E-10
.73E-09
.76E-34
.47E-23
.49E-23
.16E-24
.99E-06
.01E-05
.85E-35
.24E-29
.95E-05
.75E+00
Fatal
Major
nuclide
1-129
1-129
1-129
Pu^- 239
(*pg-^o3
C-14
U-234
U-234
1-129
-OraO
Am-241
Am-24^
jyV^Jfl-^
-------�
APPENDIX E
FORTRAN CODE AND OUTPUT FOR VOLUME
WEIGHTED RESULTS
-------�
APPENDIX E
FORTRAN CODE AND OUTPUT FOR VOLUME
WEIGHTED RESULTS
The computer code documented in this appendix prepares tables of
volume weighted results. The input data for the code consists of
interactive user input and unit volume results from the Accounting Model.
The unit volume results are stored in a disk file named RAWTOTAL.FIL. Data
from this file is read from logical unit 4. The interactive user input is
described in Table E-l.
The output, written to logical unit 7, consists of population health
effects and genetic effects resulting from a fully loaded waste disposal
facility. The results are given for each waste stream and are also summed
over all waste streams. The health effects are printed for cumulative
analysis periods of 100, 500, 1000, and 10,000 years. A sample output is
given in Section E.2.
E-2
-------�
TABLE E-l
INTERACTIVE USER INPUT FOR VOLUME WEIGHTING CODE
Variable Format Description
IDATE
FILNAM
WT
DSO(I),
1 = 1,3
A17
A14
ISCENE *
WM 12
Date of run (up to 17 characters).
Scenario definition file. If this file exists, then
all remaining input in this table can be read from a
disk file on logical unit 5. If the file does not
exist, the remaining user input is read interactively.
Integer scenario identification number.
Integer flag to specify waste mix.
1
2
3
4
Rocky Mountain compact waste
Southeast compact waste
Northeast compact waste
U.S. average waste
12 Integer flag to identify waste groups
1
2
3
4
5
6
7
=
=
=
=
=
=
=
LLW - BRC +
LLW + NARM
LLW
LLW - BRC +
Special 1
Special 2
Special 3
NARM
NARM - Class D
The three special waste groups are for hydrofracture,
deep well injection, and deep geologic disposal,
respectively.
FACVOL F10.0 Total facility volume (m3).
Flags indicating disposal technology for Class A, B,
and C wastes, respectively.
1 = Sanitary landfill
2 = Conventional shallow burial
3 = Conventional shallow burial with HIC
4 = Improved shallow burial
5 = Improved shallow buriai with HIC
6 = Intermediate depth disposal
7 = Earth mound
8 = Concrete bunker
9 = Modular concrete canister disposal
10 = Hydrofracture
11 = Deep well injection
12 = Deep geologic disposal
E-3
-------�
TABLE E-l
(Continued)
Varlabl e Format Description
PROCS(I), * Flags indicating waste form for Class A, B, and C
1=1,3 wastes, respectively.
1 = As is
2 = Solidified
3 = Incinerated and solidified
E-4
-------�
E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
THIS PROGRAM CALCULATES VOLUME WEIGHTED POPULATION HEALTH
EFFECTS FROM UNIT VOLUME RESULTS.
LOGICAL EX
CHARACTER WSTSTM(26)*9,IDOL*9,JN*4,JOBN*4,LO(2)*1 ,IDATE*17
DIMENSION LLW(26),NARM(26),11(26),VOLAS(26),VOLDIS(26)
INTEGER BRC(26),D(26),SI1(26),SI2(26),SI3(26),CLASS(26)
INTEGER SW1(26),WM,WT
INTEGER DSO(3)
INTEGER PROCS
DIMENSION TSHL(26),TSHB(26),THE(26),TSGL(26),TSGB(26)
DIMENSION JOBN(26),PROCS(3),TABLE2(26,4),TGE(26),VIF(26,3)
CHARACTER*2 RG,DISP,FORM,REGION(3)*17 ,DDISP(12)
CHARACTER*20 WTNAM(7),WMNAM(4)*24,PRCNAM(3)*22,CLNAM(3)*6
CHARACTER*30 DONAM(12),FILNAM*14
DATA REGION/'humid impermeable','arid permeable',
& 'humid permeable1/
DATA PRCNAM/'as is ','solidified
& 'incinerated/solidified1/
DATA WSTSTM/'L-IXRESIN1 ,'L-CONCLIQ1,'L-FSLUDGE1,'P-FCARTRG',
& 'L-DECONRS','L-NFRCOMP' ,' F-PROCESS','U-PROCESS','L-COTRASH1,
& 'L-NCTRASH','F-COTRASH','F-NCTRASH','I-COTRASH','N-LOTRASH',
& 'N-SSTRASH1,'N-SSWASTE','I-LQSCNVL','I-ABSLIQD1,'I-BIOWAST',
& 'N-LOWASTE1,'N-ISOPROD' ,'N-SOURCES1,'N-TRITIUM1,'N-TARGETS1,
& 'R-RAIXRSNVR-RASOURC'/
DATA LLW/1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,l.O.O/
DATA BRC/0,0,0,0,0,0,1,1,0,0,1,1,0,0,1,1,1,0,0,0,0,0,0,0,0,0/
DATA NARM/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/
DATA D/0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,1/
DATA SI 1/1,1,1,0,1,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,1,0/
DATA SI2/0,1,0,0,1,0,0,0,0,0,0,0,0 ,0,0,0,0,1,0,0,0,0,0,0,0,0/
DATA SI3/1,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,0,0,1,1/
DATA CLASS/2,1,2,1,3,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,3,3,2,2,3,3/
DATA II/l,0,1,0,1,0,0,0,1,0,1,0,1,1,1,0,1,0,1,1,0,0,0,0,1,0/
DATA CLNAM/1 A ',' B ','C-NARM'/
DATA TABLE2/1578.9,12475.8,141.0,518.8,7.0,1986.7,0.0,0.0,11559.5,
& 10925.2,0.0,0.0,7729.5,865.2,3065.1,540.9,412.6,305.2,206.3,
& 514.2,0.0,4.5,18.9,0.3,266.8,0.013,27646.6,104292.2,36131.3,
& 4277.8,568.7,20150.2,40311.9,0.0,175596.3,145251.2,121687.9,
& 21509.7,40202.3,19922.4,35290.8,6227.8,2146.1,1587.6,1073.0,
& 11841.5,0.0,125.8,154.4,20.2,1199.9,0.058,25533.4,55290.2,
& 25676.7,1841.8,390.3,9036.2,2437.7,0.0,124703.8,91792.2,7358.7,
& 1300.7,86533.9,22688.2,133967.1,23641.3,4619.3,3417.2,2309,6,
& 13485.4,1700.0,134.6,4568.0,141.7,1143.2,0.138,99128.0,330646.3,
& 130769.6,12832.9,2240.9,64510.2,59457.1,21386.8,597501.9,
& 478210.2,179480.7,31725.3,281746.6,101462.0,359462.1,63434,:;,
& 15040.0,11125.9,7520.0,60307 .0,9967 .0,582.4,6940.9,223.4,6.-JOO.O,
& 0.445/
E-5
-------�
E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
(Continued)
DATA VIF/1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,
& 3.,3.,1.92,1.,1.,!.,!.,!.,!.,1.,2.,1.4,2.,2.,2.,!.,!.,!.,
$ .2,.5,.2,.5,.2,.2,.2,1.,3.,1.65,1.92,1.,1.3,1.,!.,!.,2.,!.,
& .11,1.,.11,1.,.11,1.,!.,!.,.03,1...05,1.,.06,.06,. 13,1.,.66,3.,
& .13,.05,1.3,1.,1.,1.,.11,1./
DATA WTNAM/'LLW-BRC+NARM1,'LLW+NARM1,'LLW1 ,'LLW-BRC+NARM-C1ass D1,
&'Special I1,'Special 2','Special 31/
DATA WMNAM/'Rocky Mt. Compact Region1,'Southeast Compact Region',
& 'Northeast Compact Region','Total United States'/
DATA DONAM/' regulated sanitary landfill',
&' shallow land disposal' ' shallow, 300 YR cntr life'
S'improved shallow land disposal1
&' intermediate depth disposal'
'irnpr shallow, 300 YR cntr life'
' earth mound1
concrete canister1
deep well injection'
&' concrete bunker'
&' hydrofracture1
&' deep geological disposal1/
DATA DDISP/'SLVCSVCHVISVIH'.'IDVEMVCBVCCVHF1,
& 'DW'.'DG1/
open (7,file='lptl:')
WRITE!*,*) ' ENTER THE REPORTING DATE :'
READ (*,'(A17)') IDATE
WRITE|*,87)
87 FORMAT(' INPUT SCENARIO DEFINITION FILE '•)
READ(*,'(A14)') FILNAM
INQUIRE (FILE=FILNAM,EXIST=EX)
LO(1:2)=FILNAM
WRITE(*,88) LO
88 FORMATC INSERT THE ',2A1,' UNIT 4 DISK IN DRIVE A:1
*,/,' TO CONTINUE1)
READ(*,*)
OPEN (4,FILE='A:RAWTOTAL.FIL1,STATUS='OLD1)
IF (EX) OPEN (5,FILE=FILNAM,STATUS='OLD')
1 READ (5,*,END=9999) ISCENE
IF (EX .EQV..FALSE.) WRITE (*,100)
100 FORMAT (' Select Waste Mix Scenario',/,1 (1) Rocky Mountain1,
& '/Southwest compact',/,' (2) Southeast compact',/,1 (3) ',
& ' Northeast compact1,/,1 (4) United States total',/,' >',«)
READ (5,110) WM
110 FORMAT (12)
111 FORMAT (F10.0)
IF (EX.EQV..FALSE.) WRITE (*,120)
120 FORMAT (' Select Waste Types',/,' (1) LLW-BRC+NARM1,/,1
& '(2) LLW+NARM1,/,1 (3) LLW1,/1 (4) LLW-BRC+NARM-Class1
& ,' D1,/,1 (5) Special I1,/,1 (6) Special 21,/,
& ' (7) Special 31,/,1 >',«)
READ (5,110) WT
IF (EX.EQV..FALSE.) WRITE (*,130)
130 FORMAT (' Input Facility Volume >',«)
READ (5,111) FACVOL
IF (EX.EQV..FALSE.) WRITE (*,140)
E-6
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E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
(Continued)
140 FORMAT (' Define how each class of waste will be disposed.1,/,
&'
&
&
&
&
input for class A, class B, and class C separated by commas1,
from the following list :',/,' (1) SL (7) EM1
(3) CH (9) CC1,/,
(5) IH (11) DW1,/,
(2) CS (8) CB1,/,'
(4) IS (10) HF1,/,1
(6) ID (12) DG',/,' >',«)
READ (5,*) DSO(1),DSO(2),DSO(3)
IF (EX.EQV..FALSE.) WRITE (*,150)
150 FORMAT (' Define a waste process for each class, separating '
$ 'with commas',/,' (1) - As Is ',/,' (2) - Solidified1,
& /,' (3) - Incinerated/Solidified',/,' >',«)
READ (5,*) PROCS(1),PROCS(2),PROCS(3)
TVOL=0
INOTE=0
ESHL=0
ESHB=0
EHE=0
ESGL=0
ESGB=0
EGE=0
EDIS=0
EAS=0
DO 5 J=l,26
TSHL(J)=0.
TSHB(J)=0.
THE(J)=0.
TSGL(J)=0.
TSGB(J)=0.
TGE(J)=0.
JOBN(J)=' ** '
VOLAS(J)=0.
VOLDIS(J)=0.
5 SW1(J)=0
DO 10 1=1,26
IF (WT.EQ.l) SW1(I)=LLW(I)-BRC(I)+NARM(I)
IF (WT.EQ.2) SW1(I)=LLW(I)+NARM(I)
IF (WT.EQ.3) SW1(I)=LLW(I)
IF (WT.EQ.4) SW1(I)=LLW(I)-BRC(I)+NARM(I)-D(I)
IF (WT.EQ.5) SW1(I)=SI1(I)
IF (WT.EQ.6) SW1(I)=SI2(I)
10 IF (WT.EQ.7) SW1(I)=SI3(I)
DO 15 1=1,26
IF (SWl(I).EQ.l) VOLAS(I)=TABLE2(I,WM)
VOLDIS(I)=VOLAS(I)*VIF(I,PROCS(CLASS(I)))
15 TVOL=TVOL+VOLAS(I)
VOLRAT=FACVOL/TVOL
REVISED APRIL 15, 1986
IF (VOLRAT.GT.l.) VOLRAT=1.
IF (ISCENE.GE.106)VOLRAT=1.
DO 20 1=1,26
VOLDIS(I)=VOLDIS(I)*VOLRAT
E-7
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E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
(Continued)
20 VOLAS(I)=VOLAS(I)*VOLRAT
REWIND 4
READ (4,*) NREC
DO 200 KK=1,NREC-1
READ (4,1000,END=200) RG.DISP,FORM,JN,IDOL.PAPER,SHL.SHB.SGL
& SGB,TH,TG,HE,GE
1000 FORMAT (A2,A2,A2,4X,A4,4X,A9,F6.0,1X,6(1PE8.2.1X),216X,
& 2(1PE8.2,1X))
C
C SHL - SUM OF LOCAL HEALTH EFFECTS
C SHB - SUM OF BASIN HEALTH EFFECTS, PRIMARY ANALYSIS
C SGL - SUM OF LOCAL GENETIC EFFECTS
C SGB - SUM OF BASIN GENETIC EFFECTS
C TH - SHL+SHB
C TG - SGL+SGB
C HE - BASIN HEALTH EFFECTS IN THE LAST 9000 YRS
C GE - BASIN GENETIC EFFECTS IN THE LAST 9000 YRS
C
IF(PAPER.NE.1000.) GO TO 200
DO 30 1=1,26
30 IF (IDOL.EQ.WSTSTM(I)) GO TO 40
GO TO 200
40 IF (SWl(I).EQ.O) GO TO 200
IF (DISP.NE.DDISP(DSO(CLASS(I)))) GO TO 200
IF (PROCS(CLASS(IJ).EQ.LAND.FORM.EQ.'SW1) GO TO 200
IF (PROCS(CLASS(I)).EQ.LAND.FORM.EQ.'IS') GO TO 200
IF (PROCS(CLASS(I)).EQ.2.AND.FORM.NE.'SW) GO TO 200
IF (PROCS(CLASS(I)).EQ.3.AND.CLASS(I).EQ.1.0R.
& PROCS(CLASS(I)).EQ.3.AND.NARM(I).EQ.l) GO TO 70
IF (PROCS(CLASS(I)).EQ.3.AND.II(I).EQ.l) GO TO 60
IF (PROCS(CLASS(I)).EQ.3.AND.FORM.NE.'SW') GO TO 200
GO TO 80
60 IF (FORM.NE.1IS1) GO TO 200
GO TO 80
70 IF (II(I).EQ.LAND.FORM.NE.'IS') GO TO 200
IF(FORM.EQ.'SW') GO TO 200
80 TSHL(I)=SHL*VOLAS(I)
TSHB(I)=SHB*VOLAS(I)
THE(I)=HE*VOLAS(I)
TSGL(I)=SGL*VOLAS(I)
TSGB(I)=SGB*VOLAS(I)
TGE(I)=GE*VOLAS(I)
JOBN(I)=JN
ESHL=ESHL+TSHL(I)
ESHB=ESHB+TSHB(I)
EHE=EHE+THE(I)
ESGL=ESGL+TSGL(I)
ESGB=ESGB+TSGB(I)
EGE=EGE+TGE(I)
EDIS=EDIS+VOLDIS(I)
EAS=EAS+VOLAS(I)
E-8
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E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
(Continued)
200 CONTINUE
IRE6=1
IF(RG.EQ.'SW') IREG=2
IF(RG.EQ.'SE') IREG=3
WRITE (7,1900) ISCENE
IF (ISCENE.LE.105) WRITE (7,2000) WTNAM(WT),REGION(IREG),
& WMNAM(WM),FACVOL
IF (ISCENE.GE.106) WRITE (7,2001) WTNAM(WT),REGION(IREG),
& WMNAM(WM)
WRITE (7,2010) DONAM(DSO(1)),PRCNAM(PROCS(1)),DONAM(DSO(2)),
& PRCNAM(PROCS(2)),DONAM(DSO(3)),PRCNAM(PROCS(3))
WRITE (7,2015)
IF (ISCENE.LE.105) WRITE (7,2020)
IF (ISCENE.GE.106) WRITE (7,2021)
WRITE (7,2016)
WRITE (7,2017)
DO 220 1=1,26
IF (SWl(I).EQ.O) GOTO 220
IF (JOBN(I).EQ.1 ** ') INOTE=1
WRITE (7,2030) WSTSTM(I),JOBN(I),CLNAM(CLASS(I)),VOLAS(I),
& VOLDIS(I),TSHL(I),TSHB(I),THE(I),TSGL(I),TSGB(I),TGE(I)
220 CONTINUE
WRITE (7,2040) EAS,EDIS,ESHL,ESHB,EHE,ESGL,ESGB,EGE
WRITE (7,2045)
WRITE (7,2050) ESHL+ESHB+EHE,ESGL+ESGB+EGE
IF (INOTE.EQ.l) WRITE (7,2055)
1900 FORMAT (/,2X,'Scenario No. ',13)
2000 FORMAT (//,53X,'Volume weighted population effects',/,60X,A20,/,
& 53X,'Disposed in ',A17,' areas',/,50X,'Based on volumes in the ',
& A24./.47X,'Disposal volume=',F10.0,' Cu-meters (as generated)')
2001 FORMAT (//,53X,'Volume weighted population effects',/,60X,A20,/,
& 53X,'Disposed in ',A17,' areas',/,50X,'Based on volumes in the ',
& A24./.54X,'DISPOSAL OF ALL WASTES GENERATED')
2010 FORMAT (21X,'Disposal methods and form : Class A -',5X,A30,' /',
& A22./.50X,'Class B -',5X,A30,' /',A22,/,50X,'Class C/NARM -',A30,
& ' /',A22)
2015 FORMAT (/,10X,127(' '))
2016 FORMAT (10X,23(' '),2X,12(' '),2X,11(' '),3X,10('_') ,3X,10('_'),
& 3x,10(' '),3(3XTlO('_')))
2017 FORMAT(/I
2020 FORMAT (/,92X,'Total health effects',/,41X,'Waste volume1,
& T79,44(' '),//,40X,'(cubic-meters)',T79,'Deaths',
& T116,'Genetic1,/,35X,25(' '),T64,36('_'),T103,36('_'),//,10X,' Wa
&ste stream(job)class'.TSe.^As-generated',T50,'As-disposed',T65,
& 'Local in',T78,'Basin in',T90,'Basin last',T104,'Local in',T117,
& 'Basin in',T129,'Basin last',/,T64,'1000 years',T77,'1000 years',
& T90,'9000 years',T103,'1000 years',T116'1000 years',T129,
& '9000 years')
E-9
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E.I FORTRAN LISTING FOR VOLUME WEIGHTING CODE
(Continued)
2021 FORMAT (/,39X,'Total generated1,38X,'Total health effects',/,41X,
&'waste volume1, T79,44(' '),//,40X,'(cubic-meters)',T79,'Deaths',
& T116,'Genetic',/,35X,25T' '),T64,36('_'),T103,36('_'),//,10X,' Wa
&ste stream(job)class'.TSS.^As-generated',T50,'As-disposed',T65,
& 'Local in',T78,'Basin in1,T90,'Basin last1,T104,'Local in',T117,
'Basin last',/,T64,'1000 years',T77,'1000 years',
,T103,'1000 years',T116'1000 years',T129,
C,A4,')',A6,8(3X,1PE10.2))
',6x,8(3X,lPE10.1))
& 'Basin in',T129;
& T90,'9000 years'
& '9000 years')
2030 FORMAT (11X.A9,1
2040 FORMAT /,17X,'Totals
2045 FORMAT (/,10X,127('_'))
2050 FORMAT (/.16X,1 Notes : Total deaths in 10,000 years, all1,
& ' locations = ' ,1PE10.1,/,17X,' Total genetic effects'
& ' in 10,000 years, all locations = ',1PE10.1,/,28X,'Waste'
& ' volumes are in proportion to the as-generated volumes in',
& ' the stated region.')
2055 FORMAT (28X,1** Effects due to this waste stream are not'
& ' included in the totals.')
WRITE (7,2100)
2100 FORMAT ('!')
IF (EX) GO TO 1
9999 END
E-10
-------�
Scenario No.
Volume weighted population effects
LLW-BRC+NARM
Disposed in humid permeable areas
Based on volumes in the Total United States
Disposal volume= 250000. Cu-meters (as generated)
Disposal methods and form : Class A • regulated sanitary landfill /as is
Class B • regulated sanitary landfill /as is
Class C/NARM • regulated sanitary landfill /as is
Waste volume
(cubic-meters)
Waste stream(job)class As-generated
L-IXRESIN
L-CONCL10
L-FSLUDGE
P-FCARTRG
L-DECONRS
L-NFRCOHP
L-COTRASH
L-NCTRASH
I-COTRASH
N-LOTRASH
I-ABSLIOO
I-B10UAST
N-LOUASTE
M-SSOPROO
fc.-SO(JRC<:£
N-TRITIUH
N-TARGETS
R-RAIXRSN
R-RASOURC
(7304)
(7304)
(7304)
(7316)
(7304)C
(8492)
(7316)
(7316)
(7316)
(7316)
(7304)
(7304)
(7304)
(7316)C
<;
-------�
REFERENCES
Du80 Dunning, D. E., Jr., R. W. Leggett, and M. G. Yalcintas, A
Combined Methodology for Estimating Dose Rates and Health Effects
from Exposures to Radioactive Pollutants, ORNL/TM-7105 (Oak Ridge
National Laboratory. Oak Ridge, Tennessee), 1980.
EPA87a U.S. Environmental Protection Agency, PRESTO-EPA-POP: A Low-Level
Radioactive Waste Environmental Transport and Risk Assessment Code
Volume 1, Methodology Manual, EPA 520/1-87-024-1, Washington, DC,
December 1987.
EPA87b U.S. Environmental Protection Agency, PRESTO-EPA-POP: A Low-Level
Radioactive Waste Environmental Transport and Risk Assessment Code -
Volume 2, User's Manual, EPA 520/1-87-024-2, Washington, DC, December
1987.
EPA87c U.S. Environmental Protection Agency, PRESTO-EPA-DEEP: A Low-Level
Radioactive Waste Environmental Transport and Risk Assessment Code,
Methodology and User's Manual, EPA 520/1-87-025, Washington, DC,
December 1987.
EPA87d U.S. Environmental Protection Agency, PRESTO-EPA-CPG: A Low-Level
Radioactive Waste Environmental Transport and Risk Assessment Code,
Methodology and User's Manual, EPA 520/1-87-026, Washington, DC,
December 1987.
EPA87e U.S. Environmental Protection Agency, PRESTO-EPA-BRC: A Low-Level
Radioactive Waste Environmental Transport and Risk Assessment Code,
Methodology and User's Manual, EPA 520/1-87-027, Washington, DC,
December 1987.
EPA87f U.S. Environmental Protection Agency, PATHRAE-EPA: A Performance
Assessment Code for the Land disposal or Radioactive Wastes,
Methodology and User's Manual, EPA 520/1-87-028, Washington, DC,
December 1987.
EPA87g U.S. Environmental Protection Agency, Accounting Model for
PRESTO-EPA-POP, PRESTO-EPA-DEEP, and PRESTO-EPA-BRC Codes,
Methodology and User's Manual, EPA 520/1-87-029, Washington, DC,
December 1987.
R-l
•fr U.S. GOVERNMENT PRINTING OFFICE:1988- 516-002/80059
-------� |