United States Office of EPA 520/1-89-017
Environmental Protection Radiation Programs April 1989
Agency Washington, DC 20460
Radiation
«>EPA User's Guide for the
SYSCPG Program
A PC Version of the
PRESTO-EPA-CPG
Operation System
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EPA 520/1-89-017
USER'S GUIDE FOR THE SYSCPG PROGRAM
A PC Version of the PRESTO-EPA-CPG Operation System
April 30, 1989
Developed by
Cheng Yeng Hung, Ph. D.
U.S. Environmental Protection Agency
Office of Radiation Programs
Washington, DC 20460
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DISCLAIMER
This user's guide for the PRESTO-EPA-CPG operation system
is the result of integrated worK sponsored by an agency or the
United States Government. Neither the United States Government
nor any agency thereof, nor any of their employees, contrac-
tors, subcontractors, or their employees, make any warranty,
express or implied, nor assume any legai liability or
responsiDility for any third party's use of the results of such
use of any information, apparatus, product or process disclosed
in this report, nor represent that its use by such tnird party
would not infringe privately owned rights.
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PREFACE
Since the mainframe version of the PRESTO-EPA-CPG model was
published in December 1987, the Office of Radiation Programs
has received numerous requests from potential users of the
model urging the Office to convert the model to a form usable
on a personal computer. This effort has subsequently proceeded
in two phases, the simplification of the PRESTO—EPA—CPG model
and the development of the PRESTO-EPA-CPG operation system.
The simplification of the PRESTO-EPA-CPG model involved
primarily the modification of the DARTAB subroutine so that the
size required by the random access memory can be reduced
considerably without altering the accuracy of the simulation
results. The PRESTO-EPA-CPG operation system is designed to
assist users to create and edit the main input file for the
PRESTO-EPA-CPG model. It is a user-friendly, menu-directed
operation system. Users will find that the operation of the
system can be simplified and much of the potential error can be
prevented by employing the operation system program. The
operation system does not include the preparation of the input
file required by the INFIL subroutine because the input file
can be easily handled without an operation system.
iii
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TABLE OF CONTENTS
Page
LIST OF FIGURES vii
1 INTRODUCTION 1
2 DESCRIPTION OF THE SYSCPG PROGRAM 3
2.1 PC Version of PRESTO-EPA-CPG MODEL 3
2.2 PRESTO-EPA-CPG Input File Requirements 4
2.2.1 Environmental and Nuclide-Specific
Input File 4
2.2.2 INFIL SuDroutine Input File 5
2.2.3 Dosimetric Input File 5
2.3 Description of SYSCPG System 6
2.3.1 General 6
2.3.2 System Structure 7
3 SYSTEM INSTALLATION 12
4 SYSTEM OPERATIONS 13
4.1 Start Up 13
4.2 Creation of a New File 14
4.3 continuation of the Creation of New File 15
4.4 Copying a New File 16
4.5 Editing an Existing Fiie lfc
4.5.1 Editing an Input File 17
4.5.2 comparing with a Standard File 19
4.5.3 Reviewing of the Input File 20
4.5.4 Deleting Radionuclides 21
4.5.5 Inserting Radionuclides 22
4.5.6 Ena of Editing 23
4.6 Execution of PRESTO-EPA-CPG 24
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Page
4.7 Print Oat CPG.OUT 25
4.8 End of Operation 26
REFERENCES 27
APPENDIX A - LISTING OF PRESTO-EPA-CPG MODEL A-l
APPENDIX B - INPUT FILE FORMAT B-l
APPENDIX C - SAMPLE INPUT AND OUTPUT FILES C-l
Taoie C-l Environmental and Nucnae Specific Input
File C-2
Table C-2 INF1L Subroutine Input Fiie C-7
Table C-3 Dosimetric Input File C-ll
Table C-4 Output File C-20
vi
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LIST OF FIGURES
Page
Number —*-
2-i Block diagram of the PRESTO-EPA-CPG
operation system
4-1 Main menu of the operation system 13
4_2 An example of card data entry I5
4-3 Display of the editing sub-menu 17
4-4 Instructions for file editing
18
vii
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1. INTRODUCTION
The U.S. Environmental Protection Agency (EPA) developed
the PRESTO-EPA-CPG model to calculate the potential committed
annual effective dose equivalent (hereinafter, referred to as
dose or dose equivalent) to a critical population group (CPG)
resulting from the disposal of low-level radioactive wastes
(LLW). These results serve as data bases for the cost-benefit
analysis which was used to optimize EPA's generally appucaule
environmental standards for the management and disposal of
LLW. Tne mooel is also considered to be suitaDie for tne
initial screening of candidate LLW disposal sites.
The original PRESTO-EPA-CPG model employed the DARTAB
subroutine, EPA's standardized generic submodel for doses and
health effects calculations, which requires a large volume of
access file. The model could therefore only be executed by a
mainframe computer. Soon after the model was released to the
public, we received numerous comments from potential users that
it would De Deneficial to new users if the model could be
operated on a personal computer (PC). In responding to the
request, the mainframe version of the mooel was modified and
converted into a PC version lRo87j.
In addition, a new user ma* find tnat one of the input
files is too complicated to nave a successful execution of the
program without undergoing several trial runs. In order to
reduce the potential of making these errors, a user-friendly
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input tile preparation program, INCPG, was developed to
automate the input file preparation [Hu87j.
This user-friendy PRESTO-EPA-CPG Operation System Program,
SYSCPG, is the combination of the input file preparation
program and the PC version of PRESTO-EPA-CPG model which
simplifies the operation of PRESTO-EPA-CPG.
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2. DESCRIPTION OF SYSCPG PROGRAM
2.1 PC VERSION OF THE PRESTO-EPA-CPG MODEL
The PRESTO-EPA-CPG model was designed to analyze the
committed annual dose equivalent to a CPG resulting from the
disposal of LLW. The original model was implemented in an IBM
mainframe computer and is well documented in EPA's report on
the documentation of tne PRESTO-EPA-CPG model [EPA67].
The mainframe version of the model employed the DARTAB
subroutine, whicn prohibited executing the model in a personal
computer. To execute the model in a personal computer, you
will find it necessary to modify the model to reduce the coie
memory requirement ana to improve the process efficiency as
well.
Tne major modifications of the model include the
replacement of the DARTAB suoroutine with the DOSTAB
subroutine, elimination of the QUANC8 function, and adjustment
of I/O statements [Ro87].
The replacement of the DARTAB subroutine with DOSTAB has
reduced considerably the core memory requirement. To calculate
the dose equivalents resulting from human exposures, the DOSTAB
subroutine reads a set of dose equivalent conversion factors
from the dosimetric input file, which were precalculated from
the RADRISK file using the same metnodolo^y as used in tne
original DARTAB subroutine. Tne results ot the calculation are
printed out in much the same format used in the mainframe
version of the model.
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The elimination of the QUANC8 function, a function foe
integrating an algebraic function having an infinite limit,
prevents the tedious numerical integration of Hung's correction
factor iHuoO]. The modified model employs an analytical
solution as derived oy Hung [Hu86]. This modification resulted
in some savings in the process time. In addition, the model
calculates and prints out the dose equivalent incurred through
the drinking water pathway as a component of the ingestion
pathway. A complete listing of the PC version of the
PRESTO-EPA-CPG model is presented in Appendix A. The PC
version of PRESTO-EPA-CPG will De called PRESTO-EPA-CPG
throughout the rest of this documentation.
2.2 PRESTO-EPA-CPG INPUT REQUIREMENTS
There are three input files required for the execution of
PRESTO-EPA-CPG. The^ are: (1) the environmental and nuclide
specific input file; (2) the INFIL suoLOutine input file, and
(3) the dosimetric input file. Details of the input files are
presentea in the following sections.
2.2.1 Environmental and Nuclide-Specific Input file
This input file is used to supply the physical and
hydrogeological characteristics of the disposal site, the
meteorological data for atmospheric dispersion ana deposition,
tne data for the biological pathways, and the radionuclide
characteristics ana inventories.
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The data set also contains parameters describing the site
characteristics/ the disposal technology, the numan exposure
characteristics, and some specific parameters characterizing
the site ana exposure scenarios. For simplification, this
input file is referred to as the main input file tnrougnout
tnis documentation.
^.2.2 INFIL Suproutine input file
The INFIL subroutine input file is used to calculate
rainwater infiltrating through the trench cap into the waste
trench, it is divided into two categories, trench cap
cnaracteristics and local hydrological and meteroiogical data.
2.2.3 Dosimetric Input File
This file contains the dose conversion factors for each
radionuclide, it is used to calculate the committed annual
effective dose equivalent for each organ and the whole body
through each exposure pathway.
These conversion factors are independent of disposal site
and disposal methoa; therefore, this file is incorporated into
the program and requires no changes from the user under normal
application.
The format for the environmental and nucliae-specific,
INFIL suoroutine, and dosimetric input files are listed in
Appendix B, Tables B-l, B-2, and B-3, respectively.
The definition and format of tne input files for the
environmental and nuclide-specific input file and INFIL
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suuroutine input file are oasically identical to that for tne
mainframe version of tne model, except for 3 cards used in the
environmental and nuclide specific input file. Modifications
on these cards are described as follows:
1. Card 4: A variable IORG is aaaed to the end of the
original card isee Appendix B for the
aefinition of IORG).
2. Card 19: The variable name RR is renamed RMECH, but
the definition of the variade remains the
same (see Appendix B for definitions of RR
and RMECH).
3. Card 20: Two variables# RR and FTRR, are added in
front of the two original variaDles, IT and
IS (see Appendix B for definitions of RR,
FTkR, IT, and IS).
2.3 DESCRIPTION OF THE SYSCPG OPERATION SYSTEM
2.3.1 General
The PRESTO-EPA-CPG operation system, SYSCPG, is designed
to help the user of the PRESTO-EPA-CPG moael to prepare the
input data files, to perform necessary file management for the
execution of the precompiled PRESTO-EPA-CPG objective module,
and to automate the execution of the PRESTO-EPA-CPG model. In
creating an input data file, the program also directs users to
enter each individual datum in the right format and at the
right aata field.
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The program also provides the capability of editing the
input data file wnich includes line editing or tne input fue,
display of the input file, line-by-line comparison with a
preaesignated input file, and the insertion and deletion of
radionuclides to be considered in the analysis.
In managing the data files for the execution of the
precompiled objective module, the operation system helps users-
to clear the files which need to be deleted, check the
availability of tne storage volume, ana save the preexisting
output file.
Although there are three input files required to execute
the PRESTO-EPA-CPG model, the SYSCPG operation system includes
the preparation of the environmental and nuclide input file
only because this file is the most complicated input file of
all and needs the most attention.
The preparation of tne INFIL subroutine input file is
excluaeu from the program because there would De only one line
of input data to change if there is a change in the trencn cap
design.
The preparation of the dosimetric input file is also
excluded from the SYSCPG program because the file is
independent of site location and facility design, and no change
is necessary unaer normal application.
2.3.2 System Structure
The structure of the PRESTO-EPA-CPG operation system
consists of many subprograms each or which performs a
designated function. Figure 2-1 shows the general Dlock
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fSYSCPG»BAT1
I LOGO*. BASl
1. Creating new file,
2. Copying input file, —WCOPFIL.BAT>
3. Editing input file, ——IHENUED.BAS
4. Execut. PRESTO-CPG,
5. Print, output file,
6. End of operation
i
00
I
ICRIPIL. BASh
•-JruncpgTbasJ—
-W PRINTCPG.BATJ-* *
SVPIL
f SAVOUT.BATJ
fRUNCPG.BATl
ICPGPC.EXEI
i—
1. Creating new file
2. Continue creation
«4CRIFIL.BAs|
~4CRIFIL.BAS|
-»4lNCPGC. BAS |
-»4INCPGR .BASK»
1. Editing input file -*4lNCPGE .BASK*
2. Compar. input file
3. Review, input file,
4. Deleting nuclides,
5. Inserting nuclides,
6. End of Editing
ides, «|
-—u
INCPGD.BAS
COPY1.BAT
C0PY2.BAT
C0PY3.BAT
INCPGI.BAS
COPY 1.BAT
COPY 2.BAT
COPY 3.BAT
J
Figure 2-1 Block diagram of the PRESTO-EPA-CPG operation system.
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diagram of the operation system. The subprograms include
10 operation programs, 8 batch programs, 3 input aata files
and 1 precompiled objective program.
The operation programs include CRFIL.BAS, INCPGC.BAS,
INCPGD.BAS, INCPGE.BAS, INCPGI.BAS, INCPGR.BAS, LOGO.BAS,
MENU.BAS, MENUED.BAS, and RUNCPG.BAS. The batch programs
incluae COPFIL.BAT, COPYl.BAT, COPY2.BAT, COPY3.BAT,
PRINTCPG.BAT, RUNCPG.BAT, SA7E0UT.BAT, and SYSCPG.BAT. The
three input files are INCPG.DAT, STCPG.DAT, and DOSEFAC.DAT ana
the precompiled objective file is CPGPC.EXE.
The functions of each subprogram are aescribea as follows:
CRINFIL.BAS: an operation program which allows the user
to create a new file from scratch or to
continue creation of a new file,-
INCPGC.BAS: an operation program which allows the user
to make a line-to-line comparison of the
input file with a predesignated standard
input file to locate errors in the input
file;
INCPGD.BAS: an operation program which allows the user
to delete radionuclides of no concern, thus
saving the calculation time.
INCPGE.BAS: an operation program wnich allows the user
to make line editing of the input file;
INCPGI.BAS: an operation program which allows the user
to insert radionuclides of his interest;
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INCPGA.BAS:
LOGO.BAS:
MENU.BAS:
MENUED.BAS:
RUNCPG.BAS:
COPFIL.BAT:
COPYl.BAT:
COPY2.BAT:
COPY3.BAT:
an operation program wmcn allows the user to
review the entire input file;
a program whicn displays tne logo of the SYSCPG
program;
an operation program which displays the main menu
of operation and suosequently loads the program
selected by the operator;
an operation program which displays the editing
menu and suosequently loads the program selected
by the operator;
an operation program which performs file
management/ including the saving of the
preexisting output file# checking of the
availaDle storage volume, ana execution or the
PRESTO-EPA-CPG program;
a batch program whicn copies an input data file
from the standard input data file;
a batch program whicn duplicates the current
input file, standard file and dosimetric file for
editing use;
a batch program wnich replaces the current file
with the updatea file for editing use;
a batch program which replaces the old files with
updatea final files and deletes all the temporary
files during the course of editing;
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PRINTCPG.BAT: a batch program which prints out the
PRESTO-EPA-CPG output file and execute MENU
program subsequently to display the main menu;
a batch program which prepares the files and
executes the PRESTO-EPA-CPG model;
a batch program which loads the BASIC language
and runs the LOGO.BAS program;
an input file containing environmental and
radionuclide-specific data;
a standardized input file equivalent to the
INCPG.DAT file;
an input data file which contains the effective
whole body dose equivalent conversion factors;
an executable PRESTO-EPA-CPG module used
primarily for the calculation of the committed
annual effective dose equivalent.
RUNCPG.BAT:
SYSCPG.BAT:
INCPG.DAT:
STCPG.DAT:
DOSEFAC.DAT:
CPGPC.EXE:
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3. SYSTEM INSTALLATION
The PRESTO-EPA-CPG operation system is designed to De
operated on an IBM PC/AT-level microcomputer or its
compatibles. The computer should be equipped with a math
coprocessor (8087/80287 or equivalent) ana have a minimum of
one megabyte of disk storage after ail of tne software has been
stored in the disk.
The system software may be installed either in a hard disk
arive or in a Bernoulli box. The same disk will also oe used
to store the output file and the temporal output file.
Normally all of the system operation software, oojective module
of PRESTO-EPA-CPG* the sample input and output, and the
standard input file will be transmitted to a user in a high
density 5.25-inch floppy diskette. To install the system,
simply copy all of the files into the same directory or
subdirectory• The system will then be ready for operation.
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4. SYSTEM OPERATION
The PRESTO-EPA-CPG operation system program is a
menu-directed, user-friendly system. Detailed instructions of
the system operations are displayed on the screen so that tne
users may proceed with the operations by simply following the
instructions. This chapter provides the supplemental
instructions on the system operation.
4.1 START UP
To start the system proceed as follows:
1. Turn on the power switch, access the disk operating
system (DOS), and cnange the directory to the DOS
prompt corresponding to the drive in wmch the
software disk placed;
2. Type "SYSCPG"; the logo of the operation system will
appear, and finally,
3. Press any key to display the main menu; see Figure 4-1.
Menu for PRESTO-EPA-CPG OPERATION SYSTEM
1. Create a New File or
Continue Creation of the New File
2. Create a New File by Copying the Standard File,
3. Edit the Existing Input File
4. Execute PRESTO-EPA-CPG
5. Print out CPG.OUT
t». End of Operation
*** Enter your selection number
Figure 4-1. Main menu ot the operation system.
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The system is now ready to receive the user's selection for
operation. Upon receiving the selected number, the system «ill
transfer the operation to the corresponding suDsystem. When "End
ot Operation" is selected, the system will return to the DOS
system.
4.2 CREATION OF A NEVk FILE
The creation of a new input file incluaes the option of
creating a new file and continuing the creation ot a new file.
Arter you have selected "creation of a New File," you will see the
warning statement, "Creatin9 a new tile will result in the loss of
the existing one'." This warning gives you a last chance to save
the input data stored in INCPG.DAT file if desired.
The system will request your approval to proceed further.
Once this process is approved by pressing the [ENTER J key, the
system will move on to issue a command to create a new INCPG.DAT
file. The preexisting input aata in the INCPG.DAT file will tnen
oe lost permanently.
The creation of the input file will start rrom card number 1
and move on consecutively. For eacn aata entry card, tne screen
will display the definition and a numerical example of the aata
entry. An exclamation point marns the beginning of eacn aata
field. This will show an accurace data format and aata fiela.
After you have typed in the data ana pressed the [ENTER] Key,
the system will move to the following card and display the
appropriate information for this card. An example ot the screen
display is presented in Figure 4-2.
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*#*Card 5, Water Infiltration and Use (8F10.0)***
PCT1.PCT2: Fraction of trench cap failure in years NYRl and
NYR2 (see Appendix B, card 3, for the definition of
NYRl and NYR2.)
Praction of irrigation water supplied by
contaminated water from well.
Fraction of animal feed water supplied by
contaminated water from well.
Fraction of human drinking water supplied by
contaminated water from well.
Fraction of irrigation water supplied by
contaminated water from stream.
Fraction of human drinking water supplied by
contaminated water from stream.
The total fraction of water consumption does not
necessarily equal 1.0.
0.0 0.2 0.0 0.5 '1.0 0.0 0.0
***Enter [ESCJ to leave the file creation mode.
Figure 4-2. An exampie of card data entry explanation.
The operation may be terminated at any time. To terminate
the system operation, simply press LESCj before typing in any
entry. The program will then automatically save the data in
the INCPG.DAT file and return to the main menu.
ViWATL:
WWATA:
WWATH:
SWATL:
SWATH:
Mote:
Example:
4.3 CONTINUATION OF THE CREATION OF NEW FILE
when the continuation of the creation of a new file is
selected, the program will restore the input file, INCPG.DAT,
to the point where the operation was terminated previously and
display the appropriate information for the succeeding card as
described previously. The system is now ready for the
continuation of tne creation of a new file. From here on, the
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operation of the suoprogram is identical to that aiscussea for
the option of the creation of a new file.
4.4 COPYING A NEW FILE
This option allows the user to copy a preliminary new
input file trora the standard file provided in STCPG.DAT. This
operation can prevent a massive typing of the new file if the
new file is similar to the standard file. To obtain the final
form ot the input file, you may use the editing operation
discussed in the following sections.
To copy the standard file into a new input file, simply
respond "2" to the request (see Figure 4-1). To avoid this
selection being made by accident anc subsequent loss of the
existing input file, the system responds with a warning to make
sure this is indeed your selection. This warning tells you
that the copying of a new input file will result in the loss of
the old input file. Upon your confirmation, the system will
duplicate, as the input file, the standard file in the system
and then return to the main menu after informing you of the
completion or the copy operation.
4.5 EDITING OF AN EXISTING FILE
This option is designed to allow the user to edit tne
input file which is stored in the INCPG.DAT file. This
selection provides five functions: 1) editing the input file;
2) comparing the input file with tne standard file; 3)
reviewing the input file; 4) deleting radionuclides; and 5)
inserting radionuclides.
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When the selection is made by the user, tne system
displays the menu for input file editing. Figure 4-3 shows tne
display of the menu.
Menu for Editing •
• I
! 1. Gait the CPG Input File j
1 2. Compare the CPG Input File with the Standard File 1
3. Review the CPG Input file j
• 4. Delete radionuclides ;
1 5. Insert radionuclides j
! 6. End of Editing •
• I
I •
***Enter selection number •
Figure 4-3. Display of editing menu
4.5.1 Editing an Input File
When the option of editing an input file is selected the
system will transfer the control to the INCPGE.flAS program
wnicn is followed by the read-in of the current input file.
If the input file is incomplete, the program will give an
error message, "Input file is incomplete, select 'continue the
creation of a new file' only" and then will return to tne main
menu.
If the input file is complete, the system will display the
instructions for file eaitmg, as shown in Figure 4-4. The
system will continue to request the first card numoer of the
block (altogether 21 lines or cards in a block) tnat you wish
to edit, if the card number is either No. 32 or No. 33, the
program will make an additional request for the first
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radionuclide number of the clock that you wish to edit. You
should see the screen display a whole block of 21-line input
aata with its top line being highlighted indicating that the
line is being edited.
Instructions for Pile Editing
3- is\si ££.%£? -v. rh«-ir i|«'2-3 >1.^"tl9ht
it will copy characters on the screen as p wm be
ass*!* $s ssiru s^n.ss.'sn.,. ^ 0£ the un.
4. Repeat step. 3 and 4 until all of the line you wish to edit
is completed
5. TO quit or to move to another Kock, simply ptess (ESC]
***pges8 any key to continue
Figure 4-4 Display of the instructions for file editing.
To edit the highlighted line, proceed as instructed in
Figure 4-4. You should notice that you will lose all input data
to the right hand side of the cursor if the [ENTER] key is pressed
witnout moving the cursor to the very end of the line. However,
if no edit is required for that line, all you need is to press the
[ENTER] key without moving the cursor. After the updated
entered, the system will display the updated line of input data
and move on to highlight the next line.
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To terminate the eaiting of the current Dlock of input data*
you may simply press the [ESC] key. The system will go back to
request the first card number of the clock that you wish co edit.
This will commence another eaiting cycle for the newiy requested
Diock.
You may escape from the editing mode by pressing the lESCJ
key when the first card number of the editing block is requested.
Based on your response, the system will either replace the input
file with an updated file or do nothing to the existing input file
ana return to the menu for editing.
4.5.2 Comparing With a Standard File
This option provides the capability of a line-by-line
comparison of the current input file, INCPG.DAT, with the standard
file, STCPG.DAT, and is primarily designed for checking the format
and numerical field of the input data in the current file. It is
particularly useful in locating the invalid input data which
caused the run time error in the execution of the PRESTO-EPA-CPG
model.
wnen this option is selected, the system starts with the
read-in of the standard ana the current files. If tne current
file is incomplete, tne system will issue the warning message,
"INCPG.DAT is incomplete, select 'continue the creation of new
file only'" and then return to the menu for eaiting. If the file
is complete, the program displays a Dlock of tnree-line
information for each card starting from card number 1. Because of
the limited space available on the screen, seven blocks (only six
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olocks for tne radionuclide-specific input aata cards) are
displayed on a page. Each dock displays the data input from the
standard input file on tne first line, the input data from current
input file on the second line, and the card number and the data
fieia location on the third line.
You may move the display to the next page by pressing the
I ENTER] key. To terminate the option, press the [ESC] key. When
the [ESC] key is pressed, the system will return to the menu for
editing ano will be ready for another selection.
4.5.3 Reviewing the CPG Input File
This option provides the capability for quick review of the
entire current input file. It can be used to check the
completeness of tne file or to scan the input file for any obvious
error.
When this option is selected, tne system will start with a
read-in of the current input file and check the completeness of
the file. If the file is incomplete, the system will issue a
warning message "INCPG.DAT is incomplete, select 'continue
creation of new file only" and then return to the menu for
editing. If the file is complete, the system will display the
input data starting from card no. 1 and displays 20 lines on a
single page. To view tne next page, you may simpiy press the
I ENTRY J key. You may terminate the reviewing option at any time
by pressing the lESCj key. when tnis is done, the system will
return to the menu for editing and will be ready for another
selection.
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4.5.4 Deleting Radionuclides
This option provides the capability of deleting radionuclides
of no interest to the user from the input files. For maintaining
the capability of comparing with the standard input file and
matching the number of radionucliaes with tne dose conversion
factor table, the same deletion of a radionuclide is automatically
conducted for the standard input file ana dose conversion file.
When this option is selected# the system will issue the
warning, "Deletion of radionucliaes from the input fixe will also
result in the deletion of the same radionuclides from the standard
input file and dose conversion factor taole" to give the user a
cnance to save the existing files.
Upon the approval of the user# the system will proceed with
matching the radionuclide name among the current input file,
standard file, and dose conversion factor file. If there are
inconsistencies, the system will print out the inconsistencies and
return to the menu for editing. If no inconsistency is found, the
system will proceed to print out the current raaionucliae sequence
ana request the range of radionuclide numoers to be deleted.
[Note: The PRESTO-EPA-CPG moael takes up to 40
radionuclides with each radionuclide assigned a number
from 1 to 40. These numoers rather their names are
used to identify radionucliaes. The range of
"radionuclide numbers" must fall between 1 and 40 or
the program will not accept the entry.]
- 21 -
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Upon receiving che range of radionuclide numoers to be
deleted, the system will proceed with the aeletion of tne
designated radionuclides from the current input file, the stanuara
input f iie, ana the dose conversion file; print out the new
radionuclide sequence; and ask for another deletion. If the user
approves the request, the system will continue to request the
range of radionuclide numbers to be deleted, and the whole cycle
will be repeated. If the user denies the request, the system will
move on to ask if the user wants to save the new files. If it is
approved, the system will replace all three files with the upoated
files and return to the menu for editing; otherwise, the system
will return to the menu for editing without replacing the upoated
files.
4.5.5 Inserting Radionuclides
This option provides the capability of inserting into the input
files those radionuclides which are of particular interest to the
user. For maintaining the capability of comparing with the
standard input file and matching the number of radionuclides witn
the dose conversion file, the same insertion of radionuclides are
also automatically conducted for the standard input file and dose
conversion file.
When this option is selected, the system will issue the
warning "Insertion of radionuclides into the input file will aiso
result in the insertion of the same radionuclides into the
standard input file and dose conversion factor table." This
warning gives the user a chance to save the existing files.
- 22 -
-------�
Upon approval from the user, the system will proceed with
matching the radionuclide name between the current input file,
standard file, and dose conversion factor table. If there are
inconsistencies, the system will print out the inconsistencies and
return to the menu foe editing. If no inconsistency is found, the
system will proceed to print out the current radionuclide sequence
and request for the range of radionuclides to be inserteo.
[Note: As explained earlier, the capacity of the
program is 40 radionuclides, attempts to insert more
than 40 will be rejected.)
Upon receiving the range of numuers of radionuclides to be
inserted, the system will proceed to insert tne designated
radionuclides into the current input file, the standard input file,
and the dose conversion file; print out the new radionuclide
sequence; and ask for another insertion. If the user approves the
request, the system will continue to request the range of
radionuclide numbers" to be inserted ana the whole cycle will be
repeated. If the user aenies the request, the system will move on
to ask if the user wants to save the new files. If it is approved,
the system will replace all three files with tne upoatea files ana
return to tne menu for editing; otherwise, the system will return
to the menu for editing without replacing the updated files.
4.5.6 End of Editing
Wnen this selection is entered, the program will leave the
editing mode and return to the mam menu for another selection.
- 23 -
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4.6 EXECUTION OF PRESTO-EPA-CPG
Tne option for tne execution of PRESTO-EPA-CPG is designed to
prepare ana run PRESTO-EPA-CPG. The preparation includes the
saving of the existing output file, the reminder of checking the
availabilty of disk storage, and the status of the INFIL suoroutine
input file, INFIL.DAT.
When tne option is selected, the system will ask if the user
wants to save the existing output file, CPG.OUT. If the user s
response is "no," the system will move directly to check the
availaDle disk storage space. If the user's response is "yes," the
system will ask for a new name of the file, upon receiving the new
name of the output file, the system will rename the CPG.OUT file as
designated ana move on to check the available disk storage space.
The system will not check the availaDle aisk storage
automatically. Instead, it will print out the existing available
disk storage and let the user compare it with the minimum storage
requirement of 1 megabyte. This is done by asking the user "Do you
have enough free space?" If the answer is "no," the system will
remind the user to secure more free space and return to the main
menu. If the user's response is "yes," then the system will ask if
the existing INFIL subroutine input file, INFIL.DAT, is current.
If the user's response to this question is "no," the system will
remind the user to update the INFIL.DAT and return to the main
menu. If the user's response is "yes," the system will issue the
message that the system is ready to run the PRESTO—EPA—CPG model
and remind the user that the output file will be saved in the
CPG.OUT file.
- 24 -
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Upon final user approval, the system wili automatically copy
INFIL.DAT, INCPG.DAT, and DOSEFAC.DAT, data files and then run the
PRESTO-EPA-CPG program.
The PRESTO-EPA-CPG is a huge FORTRAN program consuming a lot
of time to execute the entire program. It takes approximately 90
minutes to complete a run involving 40 radionuclides; whereas; when
it is reduced to 5 radionuclides, it takes only 15 minutes to run.
To inform the user of the status of the run during execution, the
system will print out the year of the dose that the model is
calculating. This will continue to 1000 years for a standard run.
When the execution is completed the system will issue the
message "Execution of PRESTO-EPA-CPG completed, and your output is
stored in CPG.OUT." and then return to the main menu.
4.7 PRINT OUT CPG.OUT
This option allows the user to print out the results of the
PRESTO-EPA-CPG run which is stored in the file, CPG.OUT. When this
option is selected, the system will ask for the port numoer of the
printer to be used. As soon as the port number is entered, the
system will print out the messages "CPG.OUT is currently being
printed" ana "If you interrupt the printing Dy pressing any key,
the printing will oe terminated and the system wiil return to the
main menu. Please wait until the completion of tne printing and
stride a key when ready."
Ail you have to do is follow the instructions, the file will
oe printed on the printer of your cnoice. When the printing is
completed, you may press any key to return to the main menu. If
- 25 -
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you get the message, "Can't continue after SHELL," you may type
"SYSCPG" to return to the main menu.
4.8 END OF OPERATION
When this option is selected, the system will leave the SYSCPG
operation system and return to the DOS system.
- 26 -
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REFERENCES
DN 4519
EPA87 U.S. Environmental Protection Agency, "Model
Documentation for PRESTO-EPA-CPG," U.S. Environmental
Protection Agency, Technical Report, EPA 520/1-87-026,
Washington, D.C., 1988.
Hu80 Hung, C.Y., "An Optimum Model to Predict Radionuclide
Transport in an Aquifer for the application to Health
Effects Evaluations," Modeling and Low-Level Waste
Management: An Interagecy Workshop, December 1-4, 1980,
Denver, Colorado.
Hu86 Hung, C.Y., "An Optimum Groundwater Transport Model for
Application to the Assessment of Health Effects Due to
Land Disposal of Radioactive Wastes," Nuclear and
Chemical Waste Management, Vol. 6, pp. 41-50, 1986.
Hu87 Hung, C.Y., "User's Guide for INCPG Code A Code for
PRESTO-EPA-CPG Input File Preparation," Unpublished EPA
Report, August 30, 1987.
Ro87 Rogers, V. and Shuman R. "Modification of tne
PRESTO-EPA-CPG Code to Simplify Dose Calculations," a RAE
Report prepared for U.S. Environmental Protection Agency,
RAE-8706/6-2, December 23, 1987.
-27-
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APPENDIX A
LISTING OF PRESTO-EPA-CPG MODEL
A-l
-------�
$DEBUG
C* ********************************** A A*******************'*'*'************ *
C********************** PRESTO-EPA-CPG -- PC/AT *********************
C***********************************************************************
C***********************************************************************
C
C PRESTO-EPA-CPG -- PC/AT IS A COMPUTER CODE FOR PREDICTING THE
C MAXIMUM INDIVIDUAL DOSE RESULTING FROM THE MULTIPLE PATHWAY
C MIGRATION OF RADIONUCLIDES FROM LOW-LEVEL DISPOSAL FACILITIES.
C THIS MODEL IS DERIVED FROM AND EXTENDS THE CAPABILITIES OF THE
C PRESTO-DEEP MODEL. A NUMBER OF DISPOSAL OPTIONS CAN BE USED:
C 1) SHALLOW LAND BURIAL, 2) DEEP WELL INJECTION, 3) HYDROFRACTURE,
C AND 4) DEEP GEOLOGICAL DISPOSAL IN A MINED CAVITY.
C
C UP TO FIVE WASTE FORMS WITH DIFFERENT INVENTORIES AND
C LEACH BEHAVIORS CAN USED. THIS ALLOWS CONSIDERABLE
C FLEXIBILITY IN MODELLING LLW DISPOSAL FACILITIES.
C
C PRESTO-MID DETERMINES THE MAXIMUM INDIVIDUAL DOSE,
C THE YEAR OF ITS OCCURENCE, AND PROVIDES A NUCLIDE DOSE/EXPOSURE
C SUMMARY TABLE FOR THAT YEAR. OTHER OUTPUT OPTIONS INCLUDE
C AN EXTENDED DOSE/RISK ANALSIS FOR THE MAXIMUM YEAR AND A SIMILAR
C ANALYSIS FOR A POPULATION UTILIZING CONCENTRATIONS AVERAGED OVER
C THE SIMULATION PERIOD.
C
C
C THE MAIN PROGRAM ACTS AS A SUPERVISOR FOR THE REST OF THE
C CODE. MOST OF THE BOOKEEPING, INCLUDING MATERIAL BALANCE,
C IS DONE HERE. THE FOLLOWING SUBROUTINES ARE CALLED:
C SOURCE, AIRTRM, ERORF, TRENCH, LEACH, VERHOR, SURSOL,
C SUSPND, OUT, FOOD, IRRIG, HUMEX, AND DOSTAB. !HUNG
C
C PRINCIPAL VARIABLES
C
C ADEPTH - AQUIFER DEPTH M
C ALH DISPERSIVITY IN AQUIFER M
C ALV DISPERSIVITY IN CONFINING STRATUM M
C AQDISP - AQUIFER DISPERSION ANGLE RADIANS
C AQTHK - AQUIFER THICKNESS M
C AQVOL - AQUIFER DILUTION FACTOR M**3
C AQAM - AMOUNT OF NUCLIDE AT WELL SITE CI/M**3
C AQAVG - AVERAGE NUCLIDE CONCENTRATION AT WELL SITE CI/M**3
C AQCON - NUCLIDE CONCENTRATION AT WELL SITE CI/M**3
C ATAVG - AVERAGE NUCLIDE CONCENTRATION IN ATMOSPHERE CI/M**3
C ATCON - NUCLIDE CONCENTRATION IN ATMOSPHERE DOWNWIND CI/M**3
C ATMASS - NUCLIDE MASS NUMBER
C BDENS - BULK DENSITY OF SOIL G/CC
C CPL1 - NUCLIDE CONCENTRATION IN LEAFY VEGETABLES FOR
C M.I.E. BY ATMOSPHERIC DEPOSITION PCI/KC
C CPL2 - NUCLIDE CONCENTRATION IN PRODUCE FOR M.I.E.
C BY ATMOSPHERIC DEPOSITION PCI/KG
C CPL3 - NUCLIDE CONCENTRATION IN LEAFY VEGETABLES AND
C PRODUCE FOR G.P.E. BY ATMOSPHERIC DEPOSITION PCI/KG
C CS CONCENTRATION IN SURFACE SOIL CI/KG
A-3
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c Ctf CONCENTRATION IN SURFACE WATER CI/M**3
C CWAT - NUCLIDE CONCENTRATION IN WATER
C CCMI1 - NUCLIDE CONCENTRATION IN COW'S MILK FOR M.I.E.
C BY ATMOSPHERIC DEPOSITION PCI/L
C CCMI2 - NUCUDE CONCENTRATION IN COW'S MILK FOR G.P.E.
C BY ATMOSPHERIC DEPOSITION PCI/L
C CGMI1 - NUCUDE CONCENTRATION IN GOAT'S MILK FOR
C M.I.E. BY ATMOSPHERIC DEPOSITION PCI/L
C CGMI2 - NUCUDE CONCENTRATION IN GOAT'S MILK FOR
C G.P.E.BY ATMOSPHERIC DEPOSITION PCIA
C COPU - NUCUDE CONCENTRATION IN LEAFY VEGETABLES FOR
C M.I.E. BY IRRIGATION PCI/KG
C COPL2 - NUCUDE CONCENTRATION IN PRODUCE FOR M.I.E. BY
C IRRIGATION PCI/KG
C COPL3 - NUCUDE CONCENTRATION IN LEAFY VEGETABLES AND
C PRODUCE FOR G.P.E. BY IRRIGATION PCI/KG
C CGMEAT - NUCUDE CONCENTRATION IN BEEF MEAT BY
C ATMOSPHERIC DEPOSITION PCI/KG
C COCMI1 - NUCUDE CONCENTRATION IN COW'S MILK FOR M.I.E.
C BY IRRIGATION PCI/L
C COCMI2 - NUCUDE CONCENTRATION IN COW' MILK FOR G.P.E.
C BY IRRIGATION PC1/L
C COGMI1 - NUCUDE CONCENTRATION IN GOAT'S MILK FOR
C M.I.E. BY IRRIGATION PCIA
C COGMI2 - NUCUDE CONCENTRATION IN GOAT'S MILK FOR
C M.I.E. BY IRRIGATION PCI/L
C COMEAT - NUCUDE CONC IN BEEF MEAT BY IRRIGATION PCI/KG
C CONTRL - EROSION CONTROL PRACTICE FACTOR
C COVER - COVER FACTOR
C DECN(I) - NUCUDE DECAY CORRECTION FACTOR
C DDETA - DECAY-DISPERSION CORRECTION FACTOR
C DECAY - RADIOACTIVE DECAY CONSTANT 1/Y
C DOVER - ANNUAL THICKNESS OF TRENCH OVER BURDEN ERODED M
C DTRAQ - DISTANCE FROM TRENCH TO AQUIFER M
C DWELL - DISTANCE FROM TRENCH TO WELL M
C DDETA1 - DDETA FOR VERTICAL TRANSPORT
C DDETA2 - DDETA FOR HORIZONTAL TRANSPORT
C DERATE - ATMOSPHERIC DEPOSITION RATE
C ERODF - ERODIBILITY FACTOR
C EXPOS - NORMALIZED DOWN WIND ATMOSPHERIC EXPOSURE PER
C UNIT SOURCE RELEASE
C EXTENT - CROSS SLOPE EXTENT OF SPILLAGE M
C FIWIND - FRACTION OF TIME WIND BLOWS TOWARD POPULATION
C FI FRACTION OF YEAR CROPS ARE IRRIGATED
C FRACB - FRACTION OF ABSORBING MATERIAL IN FACILITY
C GWV - GROUND WATER VELOCITY MA
C GNDCON - INSOLUBLE SURFACE SPILLAGE GROUND CONCENTRATION
C HGRAD - HYDRAULIC GRADIENT THROUGH CONFINING STRATUM
C HTIME - HORIZONTAL OR AQUIFER TRANSPORT TIME Y
C IDISP - OPTION INDICATOR FOR DISPOSAL MODE
C IDELT - INCREMENTAL YEAR FOR PRINTING ANNUAL SUMMARIES
C IPRT1 - INITIAL YEAR FOR PRINTING ANNUAL SUMMARIES
C IPRT2 - FINAL YEAR FOR PRINTING ANNUAL SUMMARIES
C ITIME - TOTAL TRANSPORT TIME FROM TRENCH TO WELL Y
A-4
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C IOPSAT - OPTION INDICATOR FOR CALCULATING AREA SOURCE
C CORRECTION
C IOPVWV - OPTION INDICATOR FOR CALCULATING VERTICAL WATER
C VELOCITY
C LU2 - LOGICAL UNIT FOR OUTPUT
C MAXYR - NUMBER OF YEARS IN SIMULATION
C NYEAR - CURRENT YEAR OF SIMULATION
C NONCLD - NUMBER OF NUCLIDES IN SIMULATION
C NUCLID - NUCLIDE NAMES
C OVER - TRENCH OVER BURDEN THICKNESS M
C PC FRACTION OF TRENCH CAP THAT HAS FAILED
C PCON1 - AIR CONCENTRATION CI/M**3
C PCON2 - GROUND SURFACE CONCENTRATION CI/M**2
C PCON3 - COLLECTIVE INGESTION RATE PCI.PER
C PC0N4 - COLLECTIVE INHALATION PCI.PER
C PD DOWNSLOPE DISTANCE TO STREAM M
C PERMS - PERMEABILITY OF SOIL M/Y
C POLB - AMOUNT OF NUCLIDE LEAVING BOTTOM OF TRENCH CI
C POLO - AMOUNT OF NUCLIDE OVERFLOWING TRENCH CI
C POP POPULATION
C PORS - POSOSITY OF SOIL
C PORT - POROSITY OF TRENCH CONTENTS
C PPN - TOTAL ANNUAL PRECIPITATION M
C QING - ANNUAL INTAKE OF RADIONUCLIDE BY INGESTION
C OF CONTAMINATED FOOD CONSIDERING ATMOSPHERIC
C AND AQUATIC PATHWAYS PCI/Y
C QINH - ANNUAL INTAKE OF NUCLIDE BY INHALATION PCI/Y
C QFRAC - FRACTION OF INGESTION DUE TO WATER
C RAINF - RAINFALL FACTOR
C RETARH - HORIZONTAL RETARDATION FACTOR
C RETARV - VERTICAL RETARDATION FACTOR
C SOAM - AMOUNT OF SURFACE SPILLAGE CI
C SAREA - AREA OF SPILLAGE M**2
C SDEEP - AMOUNT OF SOLUBLE SURFACE COMPONENT GOING TO
C TRENCH CI
C SEDELR - SEDIMENT DELIVERY RATIO
C SEEP - FRACTION OF TOTAL ANNUAL PRECIPITATION WHICH
C BECOMES DEEP INFILTRATION THROUGH THE TRENCH
C STAVG - AVERAGE NUCLIDE CONCENTRATION IN STREAM CI/M**3
C STCON - NUCLIDE CONCENTRATION IN STREAM CI/M**3
C STPLNG - SLOPE-STEEPNESS AND SLOPE LENGTH FACTOR
C SOILOS - ANNUAL SOIL LOSS DUE TO EROSION
C SSTREM - AMOUNT SURFACE COMPONENT GOING TO STREAM CI
C STFLOW - STREAM FLOW RATE M**3/Y
C TRAM - AMOUNT OF NUCLIDE IN TRENCH CI
C VD - ATMOSPHERIC DEPOSITION VELOCITY M/S
C VOLB - VOLUME OF WATER LEAVING TRENCH BOTTOM M**3
C VOLO - VOLUME OF WATER OVERFLOWING TRENCH M**3
C VOLUSD - HYPOTHETICAL VOLUME OF WATER USED FROM WELL M**3
C VTIME - VERTICAL TRANSPORT TIME Y
C VWV VERTICAL WATER VELOCITY (TRENCH TO AQUIFER) M/Y
C VIRATE - IRRIGATION RATE L/M**2-
C XINFL - ANNUAL INFILTRATION RATE M
C XKD - CHEMICAL EXCHANGE COEFFICIENT KL/G
A-5
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c
c
c
c-
c-
c
XLSAT - LENGTH OF SATURATED ZONE
YSO - ATMOSPHERIC SOURCE AMOUNT AT spillage
OTHER VARIABLES ARE DEFINED IN SUBROUTINES WHERE THEY
ARE USED MOST FREQUENTLY.
M
CI
DOUBLE PRECISION NUCLID,FLAG,PNUC
COMMON/CNTRL/NONCLD,MAXYR,TITLE(20) '
, PCT1 pcT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1 IRRES2,LINDtIAVGl,IAVG2,RMECH,RR,FTMECH,FTRR,
i ^W^ATH .SWATL. «ATA. SVAIH. .IDISP
ccSS:S^^sS:^~,o^T.sEEP
coS/sraiAfvcS^o) ] C1AM(«0) .cm(W).cis«(|.0^,cns(40)
COMMOK/NUC/NUCLI0(40) .AIMASSCO) .tRAll(40) '
r adam CTAMf40) POLO(40).POLB(40),CS(40),CW(40),
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),S0AVG(40),C0N(40),
& AQC0N(40),STC0N(40),ATC0N(40).AQAVG(40),STAVG<40),
f. ATAVG(40) FMC(40)tFMG(40),DECAY(40),XKD<4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/LAND/RAINF, ERODF. STPLNG, COVER. CONTRL. SED '
& PORS,BDENS,DUET,EXTENT,ADEPTH,PD.RUNOFF,BDENV,RESAT.
&C01MN/]SwOTQ.FIWXin>.H.KUD.IS^.^<^RTroE![^,V^VGXG
COMMON/IRRFOO/Y1,Y2 ,TE1,TE2,TH1 ,TH2 ,TH3, TH4 TH5 TH6 FP. FS,
, ULEAFY UPROD.UCMILK.UGMILK.UMEAT.UWAT.UAIR.QFC.QFG,
£ 1S?!tr!tS.CU(40) ,CX2(40) .CP1(40) ,CP2(40) ,CCMI1(40).
& CCMI2(40),CGMI1(40),CGMI2(40),CMEAT(40),COL1(40),
& C0L2(40) ,COP1(40) ,COP2(40) ,COCMI1(40) ,
& COGMI1(40),C0GMI2(40),C0MEAT(40),QING(40),QINH(40),
& P0P,CSP(40),CSPT(40),CSPO(^O),CSPOT(40)
COMMON/FUNCAAMBOTtTAfTW.FI,PP.WIRA^.QOT.QGW.QBW ABSH PI
COMMON/PASS/PNUC(40),PCON1(40),PCON2(40),PC0N3(40),PC0N4(40).
& PPOP,LLIND,LDIST
C0MM0N/PCV/S0C0N(40)
COMMON/PDCF/DCFCTR(40,12,4),DOSDCF,CWATMX(40)
KTESSftEiS. .PHAX2C40) .PMAX3(«» ,PMAX4(40),
+ DECN(40)
DIMENSION ITIME(40) ,DDETA(40) ,DOSIN(1000)
DIMENSION NUCL(4018),NUMBER(II).IDIG(3),BSMT(40) MXAT(40)
DIMENSION AQMAX(40) ,STMAX(40) ,ATMAX(40) ,10^(40) ,MX5T(40) ,MXAT(
DIMENSION PC1(40),PC2(40),PC3(40),PC4(40),NPC1( 0),
& NPC2(40),NPC3(40),NPC4(40),BSKTA(40) 0
-------�
DATA MINUS/'-'/
DATA NUMBER/'1','2','3','4','5'I'6','7','8','9','0',' '/
IBK-0
EPSP-O.
DO 10 1-1,40
QDWSB(I)-0.
P0V(I)-0.
P0S(I)-0.
PLBT(I)—0.
OFT(I)-0.
RTA(I)-0.
AQAVG(I)-0.
STAVG(I)-0.
ATAVG(I)—0.
S0AVG(I)-0.
BSKTCD-0.0
AQMAX(I)—0.0
STMAX(I)-0.0
ATMAX(I)-0.0
MXAQ(I)-0
MXST(I)—0
MXAT(I)—0
PCl(I)-0.
PC2(I)-0.
PC3(I)-0.
PC4(I)-0.
NPCl(I)-0
NPC2(I)-0
NPC3(I)-0
NPC4(I)-0
C10T(I)-0.
CSP(I)-0.
CSPT(I)-0.
CSPO(I)-0.
CSP0T(I)-0.
SDEEP(I)-0.
SSTREM(I) - 0.0
YSO(I) - 0.0
ATAM(I) - 0.0
QDUSB(I) - 0.0
POW(I) - 0.0
POS(I) - 0.0
PLBT(I) - 0.0
OFT(I) - 0.0
RTA(I) - 0.0
10 CONTINUE
OLDWAT-O.
DOSMAX - 0.0
C INITIALIZE VARIABLES AND INPUT CONTROL PARAMETER.
C PRINT OUT INITIAL CONDITIONS.
CALL SOURCE(NUCL,CFT1,DCFT,FGAM,IRST,PERMT,RTGR,SSAT,XRTM,IORG) !HUNG
POPX - POP
IF (POP.LE.1.0) POP - 1.0
C PERCENTAGE OF AQUIFER WATER FLOWING TO STREAM
A-7
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PRJ - 1.0 - CPRJ
C SAVE STREAM FLOW FOR FUTURE REFERENCE
STFLLL - STFLOW
C THE FOLLOWING EXTRACTS THE ATOMIC MASS FROM THE NUCLIDE
C NAME. THE NUCLIDE NAME MUST CONSIST OF ONE OR TWO LETTERS,
C A MINUS SIGN. AND ONE TO THREE DIGITS. NO IMBEDDED
C BUNKS ARE ALLOWED. THE NAME MUST BE LEFT JUSTIFIED.
WRITE(LU2,5000)
DO SO I-l.NONCLD
PNUC(I)-NUCLID(I)
NDASH-2
IF(NUCL(I,NDASH) .NE. MINUS) NDASH-3 !LC
20 NNUM-NDASH+1
DO 30 K-1,3
ICHAR-NUCL(I,NNUM+K-1)
DO 25 M.,11
IF(ICHAR .EQ. NUMBER(L)) GO TO 27
25 CONTINUE
27 IDIG(K)-L
IF(IDIG(K) .EQ. 10) IDIG(K)-0
30 CONTINUE
NDIG-3
IF(IDIC(3) .EQ. 11) NDIG-2
IF(IDIG(2) .EQ. 11) NDIG-1
INUCN-0
DO 40 L-l.NDIG
INUCN-INUCN+IDIG ( L) *10** (NDIG - L)
40 CONTINUE
ATMASS(I)-FL0AT(INUCN)
WRITE ( 6.5005 ) NUCUD (I) . ATMASS (I)
50 CONTINUE
C DETERMINE IF FARMING IS ONSITE
XIRR-0.0
IF(INSITE .NE. 0) THEN !LC
WRITE(LU2,5006)
XIRR-WIRATE*FI*87 60./1.0E3
ENDIF
C DETERMINE NORMALIZED ATMOSPHERIC EXPOSURE AND
C DEPOSITION.
EXFOS-CHIQ
IF(IDISP.EQ.4)EXPOS - 0.0
IF(CHIQ.LE.0.0.AND.IDISP.NE.4)CALL AIRTRM(EXPOS,DEPO) !LC
C DETERMINE ANNUAL INFILTRATION RATE THROUGH TRENCH CAP
XINFL - SEEP*PPN
IF (IDISP.EQ.1.AND.SEEP.EQ.0.0) CALL INFIL(XINFL,PPN)
C DETERMINE VERTICAL WATER VELOCITY, RETARDATION FACTOR,
C VERTICAL TRANSIT TIME, HORIZONTAL TRANSIT TIME, AND
C TOTAL TRANSIT TIME.
IF (IDISP.GT.1) THEN !LC
XINFL-SINFL
VOLO - 0.0
VOLB - VWV*TAREA
ELSE
VWV-PERMV/PORV
A-8
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RESAT-RESAT/PORV
TINFL^(PCT2*(PPN+XIRR)+(2.-PCT2)*XINFL)*0.5
IF(SSAT .LE. 0.) SSAT-RESAT+(1.-RESAT)*(TINFL/PERMV)**0.25 !LC
IFCSSAT .GT. 1.) SSAT-1.
WRITE(LU2,1005) SSAT, RES AT
IF(SSAT .GT. 0.0 .AND. SSAT .LT. 1.) VWV-TINFL/(PORV*SSAT)
XLSAT-DTRAQ
END IF
D3R-TAREA/ ( 9. *EXTENT*GW)
WRITE(LU2,6200)
DO 100 I-l.NONCLD
RETARV-I.+(BDENV*XKD(3,I))/P0RV
IF(SSAT .GT. 0.0 .AND. SSAT .LT. 1.) RETARV-1.+(RETARV-1.)/SSAT
VTIME-DTRAQ*RETARV/VWV
DDETA1-1.0
IF (VTIME .GT. 1000. .OR. VTIME .GT. 50.*.693/DECAY(I)) GO TO 70
UUV-DECAY(I)*RETARV !HUNG
DDETA1-HUNG (UUV, DTRAQ, VWV ) ! HUNG
70 RETARH-1.+(BDENS*XKD(4,I))/PORA
HTIME-DWELL*RETARH/GWV
CON(I)-D3R*RETARH
DDETA2-1.0
IF(HTIME .GT. 1000. .OR. HTIME .GT. 50.*.693/DECAY(I)) GO TO 80
UUH-DECAY(I)*RETARH !HUNG
DDETA2-HDNG(UUH,DWELL,GWV) !HUNG
80 DDETA(I)-DDETA1*DDETA2
TEMP-VTIME+HTIME
IF(TEMP .GT. FLOAT(MAXYR) .AND. TEMP .LT. 1.1*FL0AT(MAXYR))IBK-1
WRITE(LU2,6210)NUCLID(I),RETARV,VTIME,DDETAl,RETARH,HTIME,
& DDETA2,DDETA(I),TEMP
IF(TEMP .GT. 1.E9) TEMP-1.E9
ITIME (I) -INT (TEMP)
100 CONTINUE
IF(IBK .EQ. 1)WRITE(LU2,6220)
C DETERMINE ANNUAL SOIL LOSS DUE TO EROSION OF INSOLUBLE MATERIALS
C (UNIVERSAL SOIL LOSS EQUATION). AVERAGE ANNUAL SOIL LOSS IN TONS/AC.
SOILOS-RAINF*ERODF*STPLNG*COVER*CONTRL*SEDELR*.22412 ! LC
DOVER-SOILOS/(1000.*BDENS)
WRITE(LU2,602)SOILOS,DOVER
IF (IDISP.EQ.1) WRITE(LU2,603)XINFL
WRITE(LU2,604)VWV
WRITE(LU2,605)EXPOS
300 CONTINUE
C CALCULATE NUCLIDE DECAY FACTORS
DO 301 I -l.NONCLD
DECN(I) - EXP(-DECAY(I))
DETRV(I) - EXP(-DECAY(I)*ITIME(I))
301 CONTINUE
C CALCULATE AQUIFER VOLUME
AQVOb-GWV*PORA*AQTHK*(SQRT(TAREA)+2,*TAN(AQDISP/2.)*DWELL)
C COMPUTE HYPOTHETICAL RADIONUCLIDE WITHDRAWL FROM WELL PER YEAR.
VOLUSW-(WIRATE*4492.*FI*8760.*WWATL +
& UWAT*WWATH + 15000.*WWATA)*POP*1.0E-3
VOLUSS-(WIRATE*44 9 2.*FI*8760.*SWATL +
A-9
-------�
& UWAT*SWATH + 15000.*SWATA)*POP*l.0E-3
C OUTPUT NUCLIDE DOSE CONVERSION FACTORS
URITE(LU2,149 3)
DO 340 I -l.NONCLD
WRITE(LU2,6210)NUCLID(I),(DCFCTR(I,12,L),L-1,4)
340 CONTINUE
C OPEN DIRECT ACCESS FILE FOR AQAM AND INITIALIZE
OPEN(3 3,FILE-'AQAM',FORM-'FORMATTED'.ACCESS-'DIRECT*.RECL-12)
DO 33 K-1,40
DO 33 J-1,1000
URITE(33,'(E12.4)',REC-(K-1)*1000+J) 0.0
33 CONTINUE
C THE FOLLOWING LOOP WILL BE PROCESSED FOR EACH YEAR IN
C THE SIMULATION.
DUMMY1-0.
CFT2-CFT1+DCFT
DO 1000 N-l.MAXYR
WRITE(*,*) 'YEAR - *,N
NYEAR-N
C MOVE DEFINITION OF RESUSPENSION FACTOR
DUMMY1-DUMMY1+365.
DUMMY2-DUMMY1
IF(DUMMY2 .LT. 3650.) DUMMY2-3650.
RES-RE1*ECP(RE2*SQRT(DUMMY2))+RE3
AUX-FLOAT(N)
TRLS-AMAX1(0..DOVER-OVER)
TDEPTH-TDEPTH-TRLS
OVER-AMAX1(0..OVER-DOVER)
FONSIT-O.
IF(NYEAR .LT. IRST .OR. INSITE .EQ. 0) GO TO 1068
RSTR—FLOAT(NYEAR-IRST)
XRT-XRTM
IF(RSTR*RTGR .GT. 9.0 .OR. RTGR .LE. 0.001) GO TO 1069
XRT-XRTM*(1.-EXP(-RTGR*RSTR))
1069 IF(XRT .LE. OVER) GO TO 1068
D1R-TDEPTH
IF(XRT .LE. D1R) FONSIT-
-------�
IF(CFF .GT. 1.) CFF-1.
451 CONTINUE
C THE FOLLOWING LOOP IS EXECUTED FOR EACH NUCLIDE.
DO 500 I-l.NONCLD
II-I
XDECN-DECN(II)
POLB(II) - 0.0
POLO(II) - 0.0
IF (TRAM(II).LE.O.O) GOTO 500
CS(II)-CS(II)*XDECN !LC
CW(II)-CW(II)*XDECN
BSMT(II)-BSMT(II)*XDECN
SSTRAM-TRAM(II)*XDECN
C CALCULATE THE AMOUNT OF LEACHING; FOR DEEP DISPOSAL MODES CALL
C LEACH AND TRANSFER TO 460
IF (IDISP .NE. 1) THEN !LC
TRAM(II) - SSTRAM
CALL LEACH(II,VOLB,VOLO,DMAX,CIOT,FRACB,CFF,XDECN,TINFL,PERMT) !LC
ELSE
C LEACHING FOR SHALLOW DISPOSAL OR MULTIPLE WASTEFORMS
CIAM(II) - CIAM(II)*DECN(II)
CITR(II) - CITR(II)*DECN(II)
CISW(II) - CISW(II)*DECN(II)
CIIS(II) - CIIS(II)*DECN(II)
CLEACH - CIAM(II)*RELFRC(2) + CITR(II)*RELFRC(3) *
& CISU(II)*RELFRC(4) + CIIS(II)*RELFRC(5)
TRAM(II) - CIAU(II)*DECN(II) + CLEACH
CALL LEACH (II, VOLB,VOLO,DMAX,CIOT,FItACB,CFF, XDECN, TINFL, PERMT) !LC
CIAW(II) - TRAM(II)
C END LEACHING FOR SHALLOW DISPOSAL/MULTIPLE WASTEFORM MODE
END IF
PLBT(II) - PLBT(II) + POLB(II)
OFT(II) - OFT(II) * POLO(II)
C CALCULATE ADDITIONS TO AQUIFER.
CALL VERHOR(II ,NYEAR,ITIME,DDETA)
READ(33,'(E12.4)\REC-(II-1)*1000+NYEAR) AQAM !PC/AT
AQCON(II)-AQAM/AQVOL !PC/AT
AMTl-VOLUSW*AQCON(II)
IF(AMT1 .GT. AQAM) AQCON(II)-AQAM/VOLUSW !PC/AT
IF(N .GE. IAVG1 .AND. N .LE. IAVG2)AQAVG(II)-AQAVG(II)+AQCON(II)
IF(AQCON(II) .GT. AQMAX(II)) THEN !LC
AQMAX(II)-AQCON(II)
MXAQ(II)-N
ENDIF
C ACTIVITY OUT OF THE WELL
AMT1 - VOLUSW*AQCON(II)
POW(II) - POW(II) + AMT1
C CALCULATE TRANSPORT OF SOLUBLE SURFACE COMPONENT
CALL SURSOL(II.VOLO) !LC
IF(NYEAR .EQ. 1)SSTREM(II)-STAM(II)+SSTREM(II)
IF ( VOLUSW .LT. AQVOL ) THEN !LC
C IAQSTF EQUAL TO ZERO INDICATES FLOW FROM WELL TO STREAM
IF (IAQSTF .EQ. 0) THEN !LC
SSTREM(II) - SSTREM(II)+PRJ*(AQAM - AMTI) !PC/AT
A-ll
-------�
IF (N.EQ.l.AND.I.EQ.l) STLOW - STFLOW + PRJ*(AQVOL-VOLUSV)
END IF
ENDIF
STCON(II) - SSTREM(II)/STFLOW
AMT-VOLUSS*STCON(II)
IF(AMT .GT. SSTREM(II)) STCON(II)-SSTREM(II)/(VOLUSS) !LC
IF(N .GE. IAVG1 .AND. N .LE. IAVG2)STAVG(II)-STAVG(II)+STCON(II)
IF(STCON(II) .GT. STMAX(II)) THEN !LC
STMAX(II)-STCON(II)
MXST(II)-N
ENDIF
POS (II)-POS (II)+VOUJSS*STCON (11)
C WASTE LEAVING BASIN
IF(IAQSTF.NE.O .AND. AQVOL.GT.VOLUSW)SSTREM(II)-SSTREM(II)+
& PRJ*(AQAM-AMT1) !PC/AT
IF(IAQSTF.NE.O.AND.AQVOL.GT.VOLUSW) THEN !LC
IF(N.EQ.l.AND.I.EQ.l) STFLOW-STFLOW+PRJ*(AQVOL-VOLUSW)
ENDIF
IF(IAQSTF.NE.O .AND. AQVOL.GT.VOLUSW)STCON(II)-SSTREM(II)/STFLOW
IF(VOLUSS.LE.STFLOW)QDWSB(II)-(STFLOW-VOLUSS)*STCON(II)+QDWSB(II)
STFLOW-STFLLL
C CALCULATE ATMOSPHERIC CONCENTRATION AND AMOUNT ABOVE SPILLAGE AREA
GNDCON-CS(II)*BDENS*ADEPTH*1.OE3
IF(INSITE .EQ. 0 .OR. IRRES1 .GE. NYEAR) THEN !LC
CALL SUSPND(NYEAR,II,GNDCON)
RTA(II) - RTA(II) + YSO(II)*3.1536E7
ATCON(II)-AMAX1(0.,YSO(II)*EXPOS*FIWIND)
IF(N.GE.IAVG1.AND.N.LE.IAVG2)ATAVG(II)-ATAVG(II)+ATCON(II)
ELSE
DlR-SSTRAM/(TAREA*TDEPTH*DENCON*lOOO.)
CALL SUSPND(NYEAR,II,D1R)
ATCON(II)-YSO(II)
ENDIF
IF(ATCON(II) .GT. ATMAX(II)) THEN !LC
ATMAX(II)-ATCON(II)
MXAT(II)-N
ENDIF
BSMTA(II)-0.
IF(IBSMT .GT. 0 .AND. NYEAR .GT. IBSMT)THEN !LC
BSMT(II)-BSMT(II)+TRAM(II)
BSMTA(II)-TRAM(II)
ENDIF
IF(NYEAR .EQ. I .AND. IVAP .EQ. 1) THEN !LC
BSMTA(II)-TRAM(II)
BSMT(II)-BSMTA(II)
ENDIF
C MATERIAL BALANCE; 3.1536E7 - SEC/YR
CS(II)-CS(II)+((TRLS/(TDEPTH+TRLS)*SSTRAM-YSO(II)*3.I536E7)/
1 (E3CTENT*PD*ADEPTH) )*I. OE-3/BDENS
C RECALCULATE INVENTORY FOR DEEP DISPOSAL
IF (IDISP .NE. 1) THEN 'LC
TRAM(II) - TRAM(II) - POLB(II)
ELSE
c RECALCULATE INVENTORY FOR SHALLOW DISPOSAL LOSS DUE TO EROSION
A-12
-------�
EROSI - SSTRAM*TRLS/(TDEPTH+TRLS)
C LOSSES DUE TO LEACHING
CIAW(II) - CIAW(II) - POLB(II) - POLO(II)
CIAM(II) - CIAM(II)*(1.0 - RELFRC(2))
CITR(II) - CITR(II)*(1.0 - RELFRC(3))
CISW(II) - CISW(II)*(1.0 - RELFRC(4))
CIIS(II) - CIIS(II)*(1.0 - RELFRC(S))
C INVENTORY IN TRENCH AT END OF YEAR
TRAM(II) - CIAW(II) + CIAM(II) + CITR(II)
& + CISW(II) + CIIS(II) - EROSI
C END INVENTORY CALCULATION: SET EQUAL TO ZERO IF NEGATIVE
END IF
IF(TRAM(II).LT.0.0) TRAM(II)-0.0
CW(II)-CW(II)+(POLO(II)/(EXTENT*PD*ADEPTH*PORS))
IF(CW(II) .LT. 0.0) CW(II)-0.
IF(CS(II) .LT. 0.0) CS(II)-0.
C COMPUTE SOIL CONCENTRATION
D1R-0.
SOCON(II)-l.0E12*ADEPTH*(CU(II)*PORS+1000.*CS(II)*BDENS+DIR)
IF(IOPVWV .GE. 0) THEN !LC
IF(IRST .LT. N .AND. TDEPTH .GT. 0.) D1R-FONSIT+TRAM(II)/
& (TAREA*TDEPTH)
IF(IOPVWV .EQ. 1) D1R-D1R*BV(II)
SOCON(II)-l.0E12*ADEPTH*D1R
ENDIF
IF(N .GE. IAVG1 .AND. N .LE. IAVG2)SOAVG(II)-SOAVG(II)+SOCON(II)
500 CONTINUE
C RE-INITIALIZE TOTAL DOSE VARIABLE
DOSDCF - 0.0
DO 900 I-l.NONCLD
II-I
DERATE(II)-ATCON(II)*3.6E15*VD !PC/AT
CALL FOODA(II)
IF(N .GE. IAVG1 .AND. N .LE. IAVG2)CSPT(II)-CSPT(II)+CSP(II)
CWAT(II)"(WWATL*AQCON(II)+SWATL*STCON(II))*1.0E9
CALL IRRIGA(II)
IF(N .GE. IAVG1 .AND. N .LE. IAVG2)CSPOT(II)-CSPOT(II)+CSPO(II)
CWAT(II)-(WWATH*AQCON(II)+SWATH*STCON(II))*1.0E9
CALL HUMEXA(II)
BSMTA(II)-BSMTA(II)*.0333333 3*FGAM/(TDEPTH*TAREA)
QSUR-(CSP(II)+CSP0(II))/I.0E12
IF(INSITE.EQ.1.AND.IOPVWV.GE.0)QSUR-0.
TEMP-ATCON(II)
IF(PC1(II) .LT. TEMP) THEN !LC
PC1(II)-TEMP
NPC1(II)-NYEAR
ENDIF
TEMP-QSUR+BSMTA(II)
IF(PC2(II) .LT. TEMP) THEN !LC
PC2(II)-TEMP
NPC2(II)-NYEAR
ENDIF
TEMP-QING(II)*POP
IF(PC3(II) .LT. TEMP) THEN !LC
A-13
-------�
PC3(II)-TEMP
NPC3(II)-NYEAR
ENDIF
TEMP-QINH(II)*POP
IF(PC4(II) .LT. TEMP) THEN LC
PC4(II)-TEMP
NPC4(II)-NYEAR
ENDIF
PCONl(II) - ATCON(II)
PCON2(II) - QSUR ~ BSMTA(II)
PCON3(II) - QING(II)
PC0N4(II) - QINH(II)
C CALCULATE DOSE VIA PDCF'S
DOSDCF - DOSDCF
& + PCONl(II)*DCFCTR(II,12,3)
& + PCON2(II)*DCFCTR(II,12,4)
& + PCON3(II)*DCFCTR(II,12,1)
& + PCON4(II)*DCFCTR(II,12,2)
900 CONTINUE
DOSIN(N)-DOSDCF
C IF NEW MAXIMUM DOSE SAVE CONCENTRATION ARRAYS
IF (DOSDCF .GT. DOSMAX ) THEN !LC
DOSMAX - DOSDCF
KYEAR - N
PERMAX - PER
UDPMAX - UDEPTH
VLBMAX - VOLB
VLOMAX - VOLO
DO 905 I - 1,NONCLD
PMAXl(I) - PCONl(I)
PMAX2(I) - PCON2(I)
PMAX3(I) - PCON3(I)
PMAX4(I) - PC0N4(I)
TRAMAX(I) - TRAM(I)
PLOMAX(I) - POLO(I)
PLBMAX(I) - POLB(I)
READ(33,'(E12.4)',REC-(I-1)*1000+NYEAR) AQAM !PC/AT
AQAMAX(I) - AQAM !PC/AT
CSMAX(I) - CS(I)
CWMAX(I) - CW(I)
CWATMX(I) - CWAT(I)
STRMAX(I) - SSTREM(I)
SDPMAX(I) - SDEEP(I)
YSOMAX(I) - YSO(I)
ATCMAX(I) - ATCON(I)
AQCMAX(I) - AQCON(I)
SOCMAX(I) - SOCON(I)
905 CONTINUE
ENDIF
VD-DMAX
IF(WD .GT. TDEPTH)WD-TDEPTH
IF(NYEAR.EQ.ITWO) CALL DOSTAB(2,IORG)
IF(M0D(NYEAR-IPRT1,IDELT) .EQ. 0 .OR. NYEAR .EQ. 1) THEN !LC
C OUTPUT ANNUAL SUMMARY
A-14
-------�
CALL OUT(NYEAR,PC,WD,VOLO,VOLB)
CALL DOSTAB(1,IORG)
END IF
1000 CONTINUE
C SET CONCENTRATION ARRAYS AND CALCULATE MAXIMUM DOSE VIA DOSTAB
WRITE(6,1491) DOSMAX
WRITE(6,1492) KYEAR
NYEAR - KYEAR
PER - PERMAX
WDEPTH - WDPMAX
VOLB - VLBMAX
VOLO - VLOMAX
DO 1025 I - l.NONCLD
TRAM(I) - TRAMAX(I)
POLO(I) - PLOMAX(I)
POLB(I) - PLBMAX(I)
AQAM - AQAMAX(I) !PC/AT
WRITE(33,'(E12.4)',REG—(I-1)*1000+NYEAR) AQAM !PC/AT
CS(I) - CSMAX(I)
CW(I) - CUMAX(I)
SSTREM(I) - STRMAX(I)
SDEEP(I) - SDPMAX(I)
YSO(I) - YSOMAX(I)
ATCON(I) - ATCMAX(I)
AQCON(I) - AQCMAX(I)
SOCON(I) - SOCMAX(I)
1025 CONTINUE
CALL OUT(NYEAR,PC,WD,VOLO,VOLB)
WRITE(6,1497)
DO 1050 I - l.NONCLD
PCONl(I) - PMAXl(I)
PCON2(I) - PMAX2(I)
PCON3(I) - PMAX3(I)
PC0N4(I) - PMAX4(I)
WRITE(6,6210) NUCLID(I),PCON3(I),PC0N4(I),PCON1(I),PCON2(I)
1050 CONTINUE
C CALCULATE MAXIMUM DOSE VIA DOSTAB
IF (POPX .EQ. 0.0) CALL D0STAB(2,IORC)
IF (POPX .EQ. 0.0) GO TO 1543
IF (POPX .NE. 0.0) CALL DOSTAB(2,IORG)
IF (POPX .EQ. 1.0) GO TO 1543
C IF POP > 1.0 CONTINUE WITH AVERAGE CALCULATIONS
WRITE(6,1492) KYEAR
NEXYR-IAVG2-IAVG1+1
WRITE(LU2,700)IAVG1,IAVG2
DO 1100 II-l.NONCLD
AQAVG(II)-AQAVG(II)/FLOAT(NEXYR)
STAVG(II)-STAVG(II)/FLOAT(NEXYR)
ATAVG(II)-ATAVG(II)/FLOAT(NEXYR)
SOAVG(II)-SOAVG(II)/FLOAT(NEXYR)
WRITE(LU2,6215)NUCLID(II),ATAVG(II),ATMAX(II),MXAT(II).AQAVG(II),
& AQMAX(II),MXAQ(II),STAVG(II),STMAX(II),MXST(II)
1100 CONTINUE
C CALCULATE RADIONUCLIDE CONCENTRATIONS IN FOOD DUE TO
A-15
-------�
ATMOSPHERIC DEPOSITION.
WRITE(LU2,6000)
WRITE(LU2,6005)
DO 1200 I-l.NONCLD
II-I
DERATE(II)-ATAVG(II)*VD*3.6E15
CALL FOOD(II)
WRITE(LU2,6210)NUCLID(II) ,CL1(II),CP1(II) ,CL2(II) ,CP2(II) ,
& CCMIl(II),CCMI2(II),CGMIl(II),CGHI2(II),CMEAT(II)
1200 CONTINUE
CALCULATE RADIONUCLIDE CONCENTRATIONS IN FOOD DUE TO WATER IR-
RICATION. ALSO CALCULATE ANNUAL RADIONUCLIDE INTAKE BY MAN.
WRITE(UJ2,6010)
WRITE(LU2,6005)
DO 1300 I-l.NONCLD
II-I
CWAT(II)-(WWATL*AQAVG(II)+SWATL*STAVG(II))*1.0E9
CALL IRRIG(II)
WRITE(LU2,6210)NUCUD( II) , COU (II) , C0P1 (II), COL2 (II), COP2 (II),
& COCMIl(II),COCMI2(II),COGMIl(II),COGMI2(II).COMEAT(II)
CWAT(II)—(WWATH*AQAVG(II)+SWATH*STAVG(II))*1.0E9
CALL HOMEX(II)
1300 CONTINUE
WRITE(LU2,6020)
IF(LIND .EQ. 0)WRITE(LU2,6024)
IF(LIND .NE. 0)WRITE(LU2,6026)
WRITE(UJ2,6030)
DO 1310 I-l.NONCLD
WRITE(LU2,6040)NUCLID(I),QING(I),QINH(I)
1310 CONTINUE
: TABLE OF CUMULATIVE (AGGREGATED VALUES OF RADIOCTIVITY PRODUCED HERE
WRITE(LU2f6041)
DO 1313 I-l.NONCLD
WRITE(LU2,6042) NUCLID(I),POW(I),POS(I),PLBT(I).OFT(I),RTA(I),
&QDWSB(I)
1313 CONTINUE
WRITE(LXJ2,6045)
; CALCULATE VARIABLES NECESSARY TO PASS TO DOSTAB. DOSTAB COMBINES
; RADIONUCLIDE ENVIRONMENTAL EXPOSURE DATA WITH DOSIMETRIC AND HEALTH
; EFFECTS DATA TO GENERATE TABULATIONS OF PREDICTED IMPACTS.
PPOP-POP
LDIST-XG
LLIND-LIND
DO 1320 I-l.NONCLD
QSUR-(CSP(I)+CSPO(I))/1.0E12
QFRAC-0.
BSMT(I)-BSMT(I)/FLOAT(MAXYR-IBSMT+1)*- 03333333/(TDEPTH*TAREA)
IF(QING(I) .NE. 0.0) QFRAC-CWAT(I)*UWAT/QING(I)
WRITE(UI2,6050)NUCUD(I) ,QFRAC
PCONl(I)-ATAVG(I)
PCON2(I)-QSUR+BSMT(I)
PC0N3(I)-QING(I)*POP
PCON4(I)-QINH(I)*POP
1320 CONTINUE
A-16
-------�
WRITE(LU2,6300)
DO 1340 I-l.NONCLD
WRITE(LU2,6310)NUCLID(I),PC1(I),NPC1(I),FC2(I),NPC2(I),
& PC3(I),NPC3(I),PC4(I),NPC4(I)
1340 CONTINUE
C CALCULATE AVERAGE DOSES
CALL DOSTAB(2,IORG)
1543 WRITE(6,1545) TITLE
OPEN(26.FILE-'DOSES.OUT',STATUS-'NEW') !GRAPH
NN-MAXYR/10
L^O
DO 1544 I-l.NN
K-L+l
L-Lrl-10
WRITE(26,1546) (DOSIN(N),N-K.L),L !GRAPH
1544 WRITE(6,1546) (DOSIN(N),N-K.L),L
WRITE(26,1547)
CLOSE(33,STATUS-'DELETE') !PC/AT
STOP
C FORMAT STATEMENTS
1005 FORMAT(' DEGREE OF SATURATION - '.F6.3,/,
& ' RESIDUAL SATURATION - '.F6.3)
1491 FORMAT('l',//tlX,'THE MAXIMUM INDIVIDUAL DOSE COMMITMENT IS
6i F10.4,' MREM' )
1497 FORMAT(////.20X,' UPTAKE/CONCENTRATIONS PASSED TO DOSTAB
& ' NUCLIDE ',3X,' INGESTION INHALATION AIR IMMERS. SURFACE'
& ,/,' PCI/YR PCI/YR PCI/M**3 PCI/M',
e, '**2 ',//)
1545 FORMAT(/////,IX,20A4,//)
1546 FORMAT(IX,1P10E12.3,4X,15)
1547 FORMAT(118X,'999')
6041 FORMAT('l'.lOX,'AGGREGATED VALUES OF RADIOACTIVITY:',/,
&1X,'NUCLIDE',6X,'PUMPED OUT \5X,'PUMPED OUT '.5X,'LEFT BOTTOM'
6t5X,'OVERFLOWED ';5X,'RELEASED TO',5X,'RELEASED TO'/' ',13X,
&' THE WELL ',5X,' THE STREAM',5X,' OF TRENCH ',5X,' TRENCH
&3X,'THE ATMOSPHERE',4X,' BASIN')
6042 FORMAT(' ',lXfA8,5X,6(lPE11.4,5X))
6200 FORMAT('1',51X,'INITIAL CALCULATIONS',
& //' ',2X,'NUCLIDE'.4X.'VERTICAL',5X,'VERTICAL',
& 5X,'VERTICAL',4X,'HORIZONTAL',3X,'HORIZONTAL',
& 3X,'HORIZONTAL',5X,'DDETA*,5X,'BREAK THRU',
& /' ',11X,'RETARDATION',5X,'TIME Y',7X,'DDETA',5X,
& 'RETARDATION',4X,'TIME Y',8X,'DDETA',21X,'TIME Y')
6210 FORMATC ',A8,3X,9(1PE11.4,2X))
6215 FORMATC ',A8,3X,3(2(1PE11.4,2X),0PI4,5X))
6220 FORMAT(/' 5X,'RADIONUCLIDE BREAKTHROUGH TIME IS ONLY SLIGHTLY',
6i ' GREATER THAN SIMULATION TIME AND LEADING EDGE OF PULSE',
& ' MAY BE MISSED')
602 FORMAT(//' 10X,'ANNUAL SOIL LOSS IS '.1PE11.4,' KILOGRAMS PER',
& ' SQUARE METER',/' \20X,'OR '.E11.4,
& ' METERS IS REMOVED FROM THE SURFACE')
603 FORMATC ',10X,'ANNUAL INFILTRATION INTO TRENCH IS ',
& F8.4,' METERS')
604 FORMATC ', 10X,'VERTICAL WATER VELOCITY IS \F8.4,' METERS' ,
A-17
-------�
& • PER YEAR')
605 FORMAT(' \10X.'NORMALIZED DOWN WIND ATMOSPHERIC EXPOSURE ,
61 ' PER UNIT SOURCE RELEASE IS \E11.4,' CI/M**3 PER CI/SEC')
615 FORMAT(//' ',5X,'WATER OUTFLOW FROM THE WASTE IS APPROACHING',
& ' DILUTION VOLUME IN AQUIFER FOR YEAR ',14)
700 F0RMATC1',35X,'AVERAGE CONCENTRATIONS OVER THE YEARS ',13.
& ' TO ',14,' OF THE SIMULATION',
& /' ',50X,'MAXIMUM ANNUAL CONCENTRATIONS',
& ///' ',IX,'NUCLIDE',8X,'ATMOSPHERE DOWNWIND',
& 24X,'IN WELL',26X,'IN STREAM',
& //• ' ,7X,3(6X.'AVERAGE',6X,'MAXIMUM',4X,'YEAR',IX),
& /' \7X,3(2(6X,'CI/M**3')f9X))
5000 TORMATC1',SIX,'INITIAL CALCULATIONS',//' ',50X,'NUCLIDE',
&. lOX.'MASS',//)
5005 FORMAT(' ',51X,A8,8X,F5.0)
5006 FORMAT(' ',5X,'THE POPULATION RESIDES ONSITE')
5007 FORMAT(' ',5X,'POPULATION RESET TO ',F10.0,' FOR ONSITE FARM')
6000 FORMAT('l',30X,'RADIONUCLIDE CONCENTRATION IN FOODS DUE TO',
& ' ATMOSPHERIC DEPOSITION',/' ',55X,'PICO CURIES PER KILOGRAM')
6005 FORMAT(//' ',IX,'NUCLIDE',4X,'LEAFY VEG',6X,'PRODUCE',5X,
& 'LEAFY VEG' ,6X, 'PRODUCE' ,4X, 'COW'S MILK' ,3X, 'COW'S MILK',
& 3X,'GOAT"S MILK',2X,'GOAT" S MILK',3X,'BEEF MEAT',
& /' ',14X,'M.I.E.',7X,'M.I.E.',7X,2('G.P.E.',7X),'M.I.E.',
& 7X,'G.P.E.',7X,'M.I.E.',7X,'G.P.E.')
6010 FORMAT(////' ', 35X,'RADIONUCLIDE CONCENTRATION IN FOODS DUE TO',
& ' IRRIGATION',/' ',55X,'PICO CURIES PER KILOGRAM')
6020 P0RMAT(///' ',5X,'NOTE: G.P.E. • GENERAL POPULATION',
& ' EXPOSURE',/' MIX,'M.I.E. - MAXIMUM INDIVIDUAL',
& ' EXPOSURE')
6024 FORMAT('0',11X,'M.I.E. WILL BE USED TO CALCULATE',
& ' HEALTH EFFECTS *)
6026 FORMATCO',11X,'G.P.E. WILL BE USED TO CALCULATE*,
& ' HEALTH EFFECTS')
6030 F0RMAT('l',IX,'NUCLIDE',10X,'ANNUAL INTAKE',10X,
& 'ANNUAL INTAKE'/' ',18X,'BY INGESTION',11X,'BY INHALATION',
& /• ',20X,2('PCI/Y',18X))
6040 FORMAT(' ' ,1X,A8,9X,1PE11.4,12X,1PEU.4)
6050 FORMAT(' ',50X,A8,8X,F8.4)
6045 FORMATCl' ,50X, 'FRACTION OF INGESTION DUE TO WATER',
& //' ',50X,'NUCLIDE',10X,'FRACTION')
6300 FORMATCl' , 55X,'MAXIMUM ANNUAL EXPOSURE',
& ///,2X,'NUCUDE' , 12X, 'AIR' ,8X,'YEAR',8X,
& 'SURFACE',6X,'YEAR',7X,'INGESTION',5X,'YEAR',6X,
& 'INHALATION',5X,'YEAR',
& /' ',15X,2('CONCENTRATION',12X),5X,
& 2('RATE',19X),
& /' \18X,'CI/M**3',18X,'CI/M**2',
& 16X,2('PERSON.PCI/Y',12X)/)
6310 FORMATC ',A8,8X,4(1PE11.4,4X,0PI4,6X))
1492 FORMAT(//,IX, 'THE MAXIMUM INDIVIDUAL DOSE OCCURS IN THE ',
+ 16,' TH YEAR')
1493 FORMATCl' ,///,20X, 'NUCLIDE DOSE CONVERSION FACTORS ',//,
& ' NUCLIDE ',3X,' INGESTION INHALATION AIR IMMERS. SURFACE'
& .//)
A-18
-------�
END
C
C
SUBROUTINE AIRTRM (EXPOS ,DEPO) !LC
C
C D.E. FIELDS, 2/81
C COMPUTES ATMOSPHERIC EXPOSURE VALUES AT POINTS DOWNWIND FROM
C RELEASE SITE FOR 22.5 DEG. SECTOR; RECEPTOR ASSUMED AT GROUND LEVEL
C
C DEPO -DEPOSITION RATE PER UNIT SOURCE STRENGTH
C EXPN -NORMALIZED EXPOSURE - EU/Q, S/M**2,
C EXPOS -EXPOSURE PER SOURCE STRENGTH NORMALIZED TO WIND VELOCITY
C H -SOURCE HGT, M
C HUD -LID HEIGHT
C IPLU -I IMPLIES TRANSVERSE PLUME CALCULATION REQUIRED
C ISEC -1 IMPLIES SECTOR AVERAGE REQUIRED
C IS -STABILITY CLASS
C IT -TYPE OF STABILITY FORMULATION,
C -1 FOR PG
C -2 FOR BRIGGS-SMITH
C ROUGH -HOSKER ROUGHNESS PARAMETER, M, ABOUT .01*PHYSICAL ROUGHNESS
C U -VELOCITY, WIND, M/S
C VD -VELOCITY, DEPOSITION, M/S
C VG -VELOCITY, GRAVITATIONAL FALL, M/S
C XXG -GAUGE DISTANCE FROM SOURCE BASE. M
C
COMMON/AIR/CHIQ, FTWIND, H, HLID, IS, IT, ROUGH, RTPDEX, U, VD, VG, XG
COMMON/LAND/RAINF.ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,PORS,
& BDENS,DWET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,INSITE
C TEST FOR INVALID COMBINATIONS OF IS AND IT.
36 IF(IS.LT.1.OR.IS.GT.6)WRITE(6,38)IT,IS
IF(IT.EQ.5.AND.(IS.EQ.1.OR.IS.EQ.5))WRITE(6,38)IT,IS
IF(IT.EQ.6.AND.(IS.EQ.1.0R.IS.EQ.6))WRITE(6,38)IT,IS
C INITIALIZE PARAMETERS
IF(HUD.EQ.0.)HLID-12000. !LC
XG-XG+EXTENT/O.397825
XXG-XG !LC
C ACCOUNT FOR PLUME TILT
HH-AMAX1(0.,H-VG*XXG/U) ! LC
C COMPUTE PLUME WIDTH FACTORS AT DISTANCE XXG
CALL SIGMAZ(XXG,IT,IS,ROUGH,SIGZ,IKPM,HLID,HH) !LC
C RESTRICT HUD TO TROPOPAUSE IF INPUT SPEC. -0.0
C COMPUTE CORRECTION FACTOR FOR PLUME DEPLETION
COR-1.
IF(VG.NE.O..OR.VD.NE.O.) CALL DPLT(HH,VD,U,IT,IS,XXG,ROUGH, !LC
& HLID,COR)
EXPO-EXP(-HH*HH/2./SIGZ/SIGZ)
C COMPUTE SECTOR AVERAGE VALUES
EXPN-COR*2.032*EXPO/SIGZ/XXG
EXPOS-EXPN/U
DEPO-EXPOS*VD
38 FORMAT(2X,'INVALID COMBINATION OF IT-',12,'AND IS-',12)
40 FORMAT(2X,'DEPLETION CORRECTION FACTOR -\F8.4)
RETURN !LC
A-19
-------�
END
C
C
SUBROUTINE DPLT(HH,VD,U,IT.IS,XXG,ROUGH,HLID,COR) !LC
C
C COMPUTES PLUME DEPLETION CORRECTION
C
DIMENSION XX(50),FX(50),AX(50)
COMMON/C/BY(6),BZ1(6),BZ2(6),BZ3(6),Al(6),A2(6),B1(6),B2(6),
& B3(6),PY(6,5),PZ(6,5),QY(6,5),QZ(6,5),XM(50)
DATA PI,SQRTPI/3.141593,.79785/ !LC
IF(IS.GT.6)IS-6
IKPM-1
IDUM-1
CALL SIGMAZ(XXG,IT,IS,ROUGH,SIGZ,IKPM,HLID,HH) !LC
C IKPM HAS BEEN RECOMPUTED
IKP-IKPM+1
FX(IKP)-EXP<-.5*(HH/SIGZ)**2)/SIGZ
XX(IKP)-XXG
DO 20 I-l.IKPM
XX(I)-XM(I)
CALL SIGMAZ(XX(I),IT,IS,ROUGH,SIGZ,IDUM.HLID.HH) !LC
FX(I)-EXP(-.5*
-------�
C CHOOSE TYPE OF COMPUTATION
IPOINT-IT
IF(IT.GT.3)IP0INT-4
GOTO(10,20,30,40),IPOINT
C PASQUILL-GIFFORD DISPERSION VALUES, FROM VOGT
10 ALX-ALOG(XXG)
SIGZ-(EXP(B1(IS)+(B2(IS)+B3(IS)*ALX)*ALX))/2.15
G0T099
C HOSKER'S FORM. OF BRIGGS - SMITH DISPERSION VALUES, FROM ATM
20 ABS-ROUGH
CI -YLAG(ABS,RGH,CONE,0,3,6,0)
D1 -YLAG(ABS,RGH,DONE,0,2,6,0)
C2 -YLAG(ABS,RGH,CTUO,0,3,6,0)
D2 -YLAG(ABS.RGH.DTtfO,0,2,6,0)
G-AONE(IS)*XXG**BONE(IS)/(1.O+ATWO(IS)*XXG**BTW0(IS))
F-Cl*(XXG**D1)
F-ALOG(F)
IF(ROUGH.GT.O.l) THEN !LC
F—F+ALOG(1.+1./(C2*XXG**D2))
ELSE
F-F-ALOG(1.+C2*XXG**D2)
ENDIF
SIGZ-G*F
IF(SIGZ.LT.l.O) SIGZ-1.0
G0T099
C BRIGGS DISPERSION VALUES, FROM AIRDOS II
30 SIGZ-BZ1(IS)*XXG*(1+BZ2(IS)*XXG)**BZ3(IS)
G0T099
C DISPERSION VALUES AFTER KLUG, AND OTHERS
40 J-IT-3
C -1 FOR KLUG
C -2 FOR BROOKHAVEN
C -3 FOR ST. LOUIS
C -4 FOR JUUCH(50M)
C -5 FOR JULICH(IOOM)
SIGZ-PZ(IS,J)*XXG**QZ(IS, J )
99 SIGCAL-2.*(HLID-HH*.5)/2.15
IF(SIGZ.GT.SIGCAL) SIGZ-SIGCAL !LC
RETURN
END
C
C
SUBROUTINE SIHFUN(XX,FX,NX,I,AX)
C
C PROGRAM AUTHOR: J. BARISH, COMPUTING TECHNOLOGY CENTER, UNION
C CARBIDE CORP., NUCLEAR DIV., OAK RIDGE, TENN.
C
DIMENSION XX(50),FX(50),AX(50)
IF (I.LT.O) GO TO 30
AX(1)—0.0
DO 10 IX-2,NX,2
Dl-XX(IX)-XX(IX-l)
AX(IX)-AX(IX-l)+Dl/2.0*(FX(IX)+FX(IX-1))
IF (NX.EQ.IX) GO TO 20
A-21
-------�
D2-XX(IX+1) -XX(IX-l)
D3-D2/D1
A2-D3/6.0*D2**2/(XX(IX+1)-XX(IX))
A3-D2/2.0-A2/D3
10 AX(IX+1)-AX(IX-1)+(D2-A2-A3)*FX(IX-1)+A2*FX(IX)+A3* FX(IX+1)
20 RETURN
30 AX(NX)-0.0
DO 40 IX-2.NX.2
IC—NX+1-IX
D1-XX(IC+1)-XX(IC)
AX(IC)^AX(IC+l)+Dl/2.0*(FX(IC+1)+FX(IC))
IF (NX.EQ.IX) GO TO 20
D2-XX(IC+1)-XX(IC-1)
D3-D2/(XX(IC)-XX(IC-l))
A2-D3/6.0*D2**2/D1
A3-D2/2.0-A2/D3
40 AX(IC-I)-AX(IC+l)+(D2-A2-A3)*rX(IC-I)+A2*FX(IC)+ A3*FX(IC+1)
RETURN
END
C
C
FUNCTION YLAG(XI,X,Y,IND1,N1,IMAX, IEX)
C PROGRAM AUTHORS A. A. BROOKS AND E.C. LONG, COMPUTING TECHNOLOGY
C CENTER, UNION CARBIDE CORP., NUCLEAR DIV., OAK RIDGE, TENN.
C
C LAGRANGIAN INTERPOLATION
C XI INTEPOLATED ENTRY INTO X-ARRAY
C N THE ORDER OF LAGRANGRAN INTERPOLATION
C Y - ARRAY FROM WHICH YLAG IS OBTAINED BY INTERPOLATION
C IND - THE MIN-I FOR X(I).GT.XI
C IF IND - 0, X-ARRAY WILL BE SEARCHED
C IMAX - MAX INDEX OF X-AND Y-ARRAYS
C EXTRAPOLATION CAN OCCUR, IEX - -1 OR +1
C
DIMENSION X(6),Y(6)
IND-IND1
N-Nl
IEX-0
IF (N.LE.IMAX) GO TO 10
N-IMAX
IEX-N
10 IF (IND.GT.O) GO TO 40
DO 20 J - 1, IMAX
IF (XI-X(J)) 30,130,20
20 CONTINUE
IEX-1
GO TO 70
30 IND-J
40 IF (IND.LE.l) IEX—1
INLAND- (N+l)/2
IF (INL.LE.O) INL-1
INU-INL+N-1
IF (INU.LE.IMAX) GO TO 80
A-2 2
-------�
70 INL-IMAX-N+1
INU-IMAX
80 S-0.
P-l.
DO 110 J-INL.INU
P-P*(XI-X(J))
D-l.
DO 100 I-INL.INU
IF (I.EQ.J) THEN
XD-XI
ELSE
XD-X(J)
END IF
100 D"D*(XD-X(I))
110 S-S+Y(J)/D
YIAG-S*P
120 RETURN
130 YLAG-Y(J)
GO TO 120
END
C
C
BLOCK DATA
C
C D.E. FIELDS, 2/81
C
COHMON/C/BY(6),BZ1(6),BZ2(6),BZ3<6),A1(6),A2(6),B1(6),B2(6),
& B3(6),PY(6,5)fPZ(6,5),QY(6,5),QZ(6,5),XM(50)
C FOR BRIGGS
DATA BY/.22,.16,.11,.08,.06,.04/,
& BZ1/.2,.12,.08,.06,.03,.016/,
& BZ2/0.,0.,.0002,.0015,.0003,.0003/,
& BZ3/1.,l.,-.5,-.5,-l.,-l./
C FOR PG
DATA Al/-.0234,-.0147,-.0117,-.0059,-.0059,-.0029/,
& A2/.35,.248,.175,.108,.088,.054/,
& Bl/.88,-.985,-1.186,-1.35,-2.88,-3.8/,
& B2/-.152,.82,.85,.793,1.255,1.419/,
& B3/.1475,.0168,.0045,.0022.042,-.055/
C FOR KLOG, ET. AL. TYPES OF DISPERSION...
DATA FY/.469,.306,.23,.219,.237,.273,0.,.4..36,.32,.0,.31,
& .0,1.7,1.44,.91,1.02,.0,.66,.66,.63,.53,.41,7.56,
& .34,.37,.40,.43,.46,7.56/
DATA QY/.903,.885,.855,.764,.691,.594,0.,.91,.86,.78,.0,.71,
& 0...717,.71,.729,.648 .0,.83,.83..80,.80,.87,.52,
& 1.00,.94,.88,.82,.76,.52/
DATA PZ/.017,.072,.076,.14,.217,.262,.0,.411,.326,.223,.0,
& .062,.0,.079,.131,.91,1.93,.0,.14,.14,.21,.26,.13,.56,
& .037,.076,.16,.32,.66,1.37/
DATA QZ/1.38,1.021,.879,.727,.61,.5,.0,.907,.859,.776,.0,.709,
& .0,1.2,1.046,.702,.465,.0,1.09,1.09,.98,.89,.83,.55,1.28,
& 1.12,.96,.88,.63,.47/
DATA XM/
& 1.000E+00,2.000E+00,3.000E+00,4.000E+00,5.000E+00,
A-23
-------�
& 1.OOOE+Ol.1.500E+01,2.OOOE+Ol,2.500E+01,3.OOOE+Ol,
& 3 500E+01.4.OOOE+Ol,4.500E+01,5.OOOE+Ol,1.500E+02.
& 2000E+O2,3. OOOE+02.4. OOOE+02,5. OOOE+02,6.000E+02,
& 7 OOOE+02,8.OOOE+02,9.OOOE+02,1.000E+03.1.100E+03,
& 1'200E+03,1.300E+03,1.400E+03,1.600E+03,1.800E+03.
4 2.OOOE+03,2.500E+03,3.000E+O3,3.500E+03,4.000E+O3,
& 4 500E+03,5.OOOE+03,6.OOOE+03,7.OOOE+03,8.000E+03,
& 1!OOOE+04,1.500E+04,2.000E+O4,3.000E+04,4.000E+04.
& 5.OOOE+04,6.OOOE+04,7.000E+04,8.000E+04,1.000E+05/
END
FUNCTION CAP(NYEAR)
- THIS FUNCTION CALCULATES AND RETURNS THE FRACTION OF THE TRENCH
- CAP THAT HAS FAILED. FAILURE CAN BE CAUSED BY EROSION AS
- DETERMINED FROM THE UNIVERSAL SOIL LOSS EQUATION OR BY USER
- INPUTS. CAP—1 INDICATES TOTAL CAP FAILURE. CALLED BY TRENCH.
INPUT VARIABLES
NYEAR - CURRENT YEAR OF SIMULATION
NYR1 - FIRST YEAR OF FAILURE
NYR2 - LAST YEAR OF FAILURE
PCT1 - PER CENT FAILURE IN NYR1
PCT2 - PER CENT FAILURE IN NYR2
OVER - THICKNESS OF TRENCH CAP
OUTPUT VARIABLE
CAP - FRACTION OF CAP THAT HAS FAILED
DOUBLE PRECISION NUCLID
COMMON/CNTRL/NONCLD.MAXYR,TITLE(20).LOCATE(12),NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1.IPRT2.IDELT.
& IRRES1,IRRES2, LIND,IAVG1,IAVG2,RMECH, RR,FTMECH,FTRR,
& WWATL,WWATA,WWATH,SWATL,SWATA,SWATH,IVAP.IBSMT,IDISP
COMMON/TRCH/TAREA,TDEPTH,OVER,PORT,RELFAC,DENCON,OLDWAT,SEEP
CAP—0.0
IF(0VER .LE. l.E-2) THEN
CAP—1.0
ELSEIF(NYEAR.GE.NYR1.AND.NYR1.LT.NYR2) THEN
CAP-((PCT2-PCT1)/(NYR2-NYR1))*(NYEAR-NYR1)+PCT1
IF(NYEAR .GT. NYR2) CAP-PCT2
ENDIF
RETURN
END
A-24
-------�
SUBROUTINE FOOD(NN)
C
C CALCULATION OF RADIONUCLIDE CONCENTRATION IN VEGETABLES, MILK AND
C MEAT CONSUMED BY MAN RESULTING FROM ATMOSPHERIC DEPOSITION
C CALLED BY MAIN.
C
C INPUT VARIABLES
C
C NN NUCLIDE NUMBER
C DECAY - RADIOACTIVE DECAY CONSTANT 1/Y
C XAMBtfE - WEATHER DECAY CONSTANT 1/H
C AIRBORNE MATERIAL
C TA PERIOD OF TIME FOR WHICH SOIL IS EXPOSED TO THE
C CONTAMINATED AIRBORNE MATERIAL H
C PP SURFACE DENSITY FOR SOIL KG/M**2
C RA RETENTION FRACTION
C BV CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY VEGETATIVE PARTS OF CROPS
C BR CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY REPRODUCTIVE PARTS OF CROPS
C DERATE - RADIONUCLIDE DEPOSITION RATE PCI/M**
C IOPT - OPTIONS FOR SPECIALS RADIONUCLIDES H-3 AND C-14
C IOPT - 1 IF H-3 AND C-14 IS NOT INCLUDED IN THIS RUN
C IOPT - 2 IF ONLY H-3 IS INCLUDED
C IOPT - 3 IF ONLY C-14 IS INCLUDED
C IOPT - 4 IF BOTH ARE INCLUDED
C Y1 - AG PRODUCTIVITY FOR GRASS CONSUMED BY ANIMALS KG/M**2
C Y2 - AG PRODUCTIVITY FOR VEGETATION CONSUMED BY MAN KG/M**2
C TE1 - TIME PASTURE GRASS EXPOSED DURING GROWING SEASON H
C TE2 - TIME CROP/VEG EXPOSED DURING GROWING SEASON H
C TH1 PERIOD DELAY BETWEEN HARVEST OF PASTURE GRASS
C AND INGESTION BY ANIMALS H
C TH2 PERIOD DELAY BETWEEN HARVEST OF STORED FEED AND
C INGESTION BY ANIMAL H
C TH3 - PERIOD DELAY BETWEEN HARVEST OF LEAFY VEG AND
C INGESTION BY MAN FOR MAXIMUM INDIVIDUAL EXPOSURE H
C TH4 PERIOD DELAY BETWEEN HARVEST OF PRODUCE AND
C INGESTION BY MAN FOR MAXIMUM INDIVIDUAL EXPOSURE H
C TH5 TIME DELAY BETWEEN HARVEST LEAFY VEG AND
C INGESTION BY MAN FOR GENERAL POPULATION EXPOSURE H
C TH6 TIME DELAY BETWEEN HARVEST OF PRODUCE AND
C INGESTION BY MAN FOR GENERAL POPULATION EXPOSURE H
C FP FRACTION OF YEAR THAT ANIMAL GRAZE ON PASTURE
C FS - FRACTION OF DAILY FEED THAT IS FRESH GRASS WHEN
C ANIMALS GRAZE ON PASTURE
C FMC FRACTION OF THE COW'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH LITER OF MILK D/L
C FMG FRACTION OF THE GOAT'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH LITER OF MILK D/L
C QFC - AMOUNT OF FEED CONSUMED BY CATTLE KG/D
C QFG - AMOUNT OF FEED CONSUMED BY GOATS KG/D
C TF1 - TRANSPORT TIME OF RADIONUCLIDE FROM
C FEED-MILK-RECEPTOR FOR M.I.E. H
C TF2 - TRANSPORT TIME OF RADIONUCLIDE FROM
A-2 5
-------�
c FEED-MILK-RECEPTOR FOR G.P.E. H
C FF FRACTION OF THE ANIMAL'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH KG OF FLESH D/KG
C TS TIME FROM SLAUGHTER OF MEAT TO CONSUMPTION H
C ABSH - ABSOLUTE HUMIDITY OF THE ATMOSPHERE G/M**3
C P14 - FRACTIONAL EQUILIBRIUM RATIO FOR C-14
C INTERMEDIATE VARIABLES
C XAMBEF- EFFECTIVE DECAY CONSTANT
C CPAST - NUCLIDE CONC IN PASTURE GRASS CONSUMED BY ANIMALS
C CSTO - NUCLIDE CONC IN STORED FEED CONSUMED BY ANIMALS
C CFEED - RADIONUCLIDE CONCENTRATION IN ANIMALS'S FEED
C
C OUTPUT VARIABLES
C
C CLI RADIONUCLIDE CONC IN LEAFY VEG CONSUMED BY MAN
C FOR M.I.E. PCI/KG
C CL2 RADIONUCLIDE CONC IN LEAFY VEG CONSUMED BY MAN
C FOR G.P.E. PCI/KG
C CP1 - RADIONUCLIDE CONC IN PRODUCE CONSUMED BY MAN
C FOR M.I.E. PCI/KG
C CP2 - RADIONUCLIDE CONC IN PRODUCE CONSUMED BY MAN
C FOR G.P.E. PCI/KG
C CCMI1 - RADIONUCLIDE CONC IN COW'S MILK FOR M.I.E. PCI/L
C CCMI2 - RADIONUCLIDE CONC IN COW'S MILK FOR G.P.E. PCI/L
C CGMII - RADIONUCLIDE CONC IN GOAT'S MILK FOR M.I.E. PCI/L
C CGMI2 - RADIONUCLIDE CONC IN GOAT'S MILK FOR G.P.E. PCIA
C CHEAT - RADIONUCLIDE CONC IN BEEF CATTLE'S MEAT PCI/KG
C
DOUBLE PRECISION NUCUD, H3, C14
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),S0AM(40),ATAM(40),
& AQAM.STAM(40),POL0(40),POLB(40),CS(40)PCW(40), !PC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),SOAVG(40),C0N(40),
& AQC0N(40),STCON(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40), EMC(40),FMG(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/IRRF00/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY,UPROD,UCMILK,UGMILK,UMEAT,UWAT,UAIR,QFC,QFG,TF1,
& TF2.TS,CL1(40),CL2(40),CP1(40),CP2(40),CCMI1(40),
& CCMI2(40),CGMII(40),CGMI2(40),CMEAT(40),C0L1(40),C0L2(40),
& COP1(40),C0P2(40),C0CMI1(40),C0CMI2(40),C0GMI1(40),
& C0GMI2(40),C0MEAT(40),QING(40),QINH(40),POPpCSP(40),
& CSPT(40),CSPO(40),CSPOT(40)
COMMON/FUNC/XAMBWE,TA,TW,FI,PP,WIRATE,QCW,QGW,QBW,ABSH,P14
DATA H3/8HH-3 /.C14/8HC-14 /
DECA-DECAY(NN)/8760.
IF(NUCLID(NN) .EQ. H3) GO TO 200
IF(NUCLID(NN) .EQ. C14) GO TO 300
C CALCULATION OF CPAST- RADIONUCLIDE CONCENTRATION IN PASTURE GRASS
C CONSUMED BY ANIMALS
100 B-0.243*BV(NN)
CPAST-CV(NN,Y1,TE1,TH1,B,1.)
C CALCULATION OF CSTO - RADIONUCLIDE CONCENTRATION IN STORED FEED
C CONSUMED BY ANIMALS
A-26
-------�
B-0.680*(0.378*BR(NN)+0.622*BV(NN))
CSTO-CV(NN,Y1,TE1,TH2,B,0.1)
C CALCULATION OF CFEED - RADIONUCLIDE CONCENTRATION IN ANIMAL'S FEED
CFEED-FP*FS*CPAST+(1.0-FP*FS)*CSTO
C CALCULATION OF CLX - RADIONUCLIDE CONC IN LEAFY VEG CONSUMED BY MAN
B-0.066*BV(NN)
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CL1(NN)-CV(NN,Y2,TE2,TH3,B,1.)
C 2. FOR GENERAL POPULATION
CL2(NN)-CV(NN,Y2,TE2,TH5,B,1.)
C CALCULATION OF CPX - RADIONUCLIDE CONC IN PRODUCE CONSUMED BY MAN
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
B-0.187*BR(NN)
CP1(NN)-CV(NN,Y2,TE2,TH4,B,0.1)
C 2. FOR GENERAL POPULATION
CP2(NN)-CV(NN,Y2,TE2,TH6,B,0.1)
C CALCULATION OF CCMIX - RADIONUCLIDE CONCENTRATION IN COW'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CCMI1(NN)-FMC(NN)*CFEED*QFC*EXP(-DECA*TF1)
C 2. FOR GENERAL POPULATION
CCMI2(NN)-FMC(NN)*CFEED*QFC*EXP(-DECA*TF2)
C CALCULATION OF CGMIX - RADIONUCLIDE CONCENTRATION IN GOAT'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CGMII(NN)-FMG(NN)*CFEED*QFG*EXP(-DECA*TF1)
C 2. FOR GENERAL POPULATION
CGMI 2 ( NN ) -JMG ( NN ) *CFEED*QFG*EXP ( - DECA*TF2 )
C CALCULATION OF CMEAT - RADIONUCLIDE CONCENTRATION IN BEEF CATTLE'
CMEAT(NN)-FF(NN)*CFEED*QFC*EXP(-DECA*TS)
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: TRITIUM
C CALCULATION OF CV3 - TRITIUM CONCENTRATION IN ALL VEGETATION
200 CV3-3.75E14*ATAVG(NN)/ABSH
C CALCULATION OF CONCENTRATION OF TRITIUM IN VEGETATION, MILK AND MEAT
C CONSUMED BY MAN
CL1(NN)-CV3
CL2(NN)-CV3
CP1(NN)-CV3
CP2(NN)-CV3
CCMI1(NN)-FMC(NN)*CV3*QFC
CCMI2(NN)-CCMIl(NN)
CGMI1(NN)-FMG(NN)*CV3*QFG
CGMI2(NN)-CGMI1(NN)
CMEAT(NN)-FF(NN)*CV3*QFC
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: CARBON-14
C CALCULATION OF CV14 - C-14 CONCENTRATION IN ALL VEGETATION
300 CV14—6.875E14*ATAVG(NN)*P14
C CALCULATION OF C-14 CONCENTRATION IN VEGETATION, MILK AND MEAT
C CONSUMED BY MAN
CL1(NN)-CV14
CL2(NN)-CV14
CP1(NN)-CV14
CP2(NN)-CV14
CCMIl(NN)-FMC(NN)*CV14*QFC
A-2 7
-------�
CCMI2(NN)-CCMIl(NN)
CGMI1(NN)-FMG(NN)*CV14*QFG
CGMI2(NN)-CGMU(NN)
CMEAT(NN)-FF(NN)*CV14*QFC
RETURN
END
FUNCTION CV(I,Y,TE,TH,B,TV)
. CALCULATION OF RADIONUCLIDE CONCENTRATION IN FORAGE, PRODUCE AND
- VEGETABLES CALLED BY FOOD
DOUBLE PRECISION NUCUD
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),S0AM(40),ATAM(40),
& AQAM,STAM(40),P0L0(40),POLB(40),CS(40),CW(40),
& SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),SOAVG(40),CON(40).
& AQCON(40),STCON(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
COMMON AAND/RAINF, ERODF, STPLNG, COVER, CONTRL, SEDELR, SOILOS,
& PORS,BDENS,DWET.EXTENT,ADEPTH.PD,RUNOFF,BDENV,RESAT,
& INSITE
C0MM0N/IRRF00/Y1,Y2.TE1.TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ITT -EA FY, UPROD, UCMILK r UGMILK. UMEAT. UWAT. UAIR, QFC. QFG, TF1,
& TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),CCMI1(40),CCMI2(40),
& CGMI1(40) ,CGMI2(40) ,CMEAT(40) ,C0U(40) ,COL2(40) ,COP1(40),
& C0P2(40),COCMI1(40),COCMI2(40),C0GMI1(40),C0GMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,CSP(40),CSPT(40),CSPO(40),
& CSPOT(40)
COMMON/FUNC/XAMBWE,TA,TW,FI,PP, VI RATE,QCtf,QGW.QBW,ABSH,P14
COMMON/EVAP/PPN, P. XIRR, XINFL. SINFL, SMASS, WMASS, WDEEP
COMMON/CNTRL/NONCLD,MAXYR,TITLE(20).LOCATE(12).NYR1.NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1.IPRT2,IDELT,
& IRRES1,IRRES2, LIND,IAVG1,IAVG2,RMECH,RR,FTMECH,FTRR,
& WWATL,WWATA,WWATH,SWATL,SWATA,SWATH,IVAP,IBSMT,IDISP
NEXYR-IAVG2-IAVG1+1
DECA-DECAY(I)/8760.
XAMB EF-D ECA+XAMBUE
TERM1-DERATE(I)*RA(I)*TV*(1.0-EXP(-XAMBEF*TE))/(Y*XAMBEF)
CSP(I)-CSPT(I)/FLOAT(NEXYR)
IF(INSITE .EQ. 1)CSP(I)-S0AVG(I)
TERM2-CSP(I)*B/PP
CV-(TERM1+TERM2)*EXP(-DECA*TH)
RETURN
END
SUBROUTINE FOODA(NN)
CALCULATION OF RADIONUCLIDE CONCENTRATION IN VEGETABLES, MILK AND
MEAT CONSUMED BY MAN RESULTING FROM ATMOSPHERIC DEPOSITION
A-2 8
-------�
C CALLED BY MAIN.
C
C INPUT VARIABLES
C
C NN NUCLIDE NUMBER
C DECAY - RADIOACTIVE DECAY CONSTANT 1/Y
C XAMBWE - WEATHER DECAY CONSTANTE 1/H
C AIRBORNE MATERIAL
C TA PERIOD OF TIME FOR WHICH SOIL IS EXPOSED TO THE
C CONTAMINATED AIRBORNE MATERIAL H
C PP SURFACE DENSITY FOR SOIL KG/M**2
C RA RETENTION FRACTION
C BV CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY VEGETATIVE PARTS OF CROPS
C BR CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY REPRODUCTIVE PARTS OF CROPS
C DERATE - RADIONUCLIDE DEPOSITION RATE PCI/M**
C IOPT - OPTIONS FOR SPECIALS RADIONUCLIDES H-3 AND C-14
C IOPT - 1 IF H-3 AND C-14 IS NOT INCLUDED IN THIS RUN
C IOPT - 2 IF ONLY H-3 IS INCLUDED
C IOPT - 3 IF ONLY C-14 IS INCLUDED
C IOPT - 4 IF BOTH ARE INCLUDED
C Y1 - AG PRODUCTIVITY FOR GRASS CONSUMED BY ANIMALS KG/M**2
C Y2 - AG PRODUCTIVITY FOR VEGETATION CONSUMED BY MAN KG/M**2
C TE1 - TIME PASTURE GRASS EXPOSED DURING GROWING SEASON H
C TE2 - TIME CROP/VEG EXPOSED DURING CROWING SEASON H
C TH1 PERIOD DELAY BETWEEN HARVEST OF PASTURE GRASS
C AND INGESTION BY ANIMALS H
C TH2 PERIOD DELAY BETWEEN HARVEST OF STORED FEED AND
C INGESTION BY ANIMAL H
C TH3 PERIOD DELAY BETWEEN HARVEST OF LEAFY VEC AND
C INGESTION BY MAN FOR MAXIMUM INDIVIDUAL EXPOSURE H
C TH4 - PERIOD DELAY BETWEEN HARVEST OF PRODUCE AND
C INGESTION BY MAN FOR MAXIMUM INDIVIDUAL EXPOSURE H
C TH5 TIME DELAY BETWEEN HARVEST LEAFY VEG AND
C INGESTION BY MAN FOR GENERAL POPULATION EXPOSURE H
C TH6 - TIME DELAY BETWEEN HARVEST OF PRODUCE AND
C INGESTION BY MAN FOR GENERAL POPULATION EXPOSURE H
C FP FRACTION OF YEAR THAT ANIMAL GRAZE ON PASTURE
C FS FRACTION OF DAILY FEED THAT IS FRESH GRASS WHEN
C ANIMALS GRAZE ON PASTURE
C FMC FRACTION OF THE COW'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH LITER OF MILK DA
C FMG FRACTION OF THE GOAT'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH LITER OF MILK D/L
C QFC - AMOUNT OF FEED CONSUMED BY CATTLE KG/D
C QFG AMOUNT OF FEED CONSUMED BY GOATS KG/D
C TF1 - TRANSPORT TIME OF RADIONUCLIDE FROM
C FEED-MILK-RECEPTOR FOR M.I.E. H
C TF2 - TRANSPORT TIME OF RADIONUCLIDE FROM
C FEED-MILK-RECEPTOR FOR G.P.E. H
C FF FRACTION OF THE ANIMAL'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH KG OF FLESH D/KG
C TS TIME FROM SLAUGHTER OF MEAT TO CONSUMPTION H
A-2 9
-------�
c ABSH - ABSOLUTE HUMIDITY OF THE ATMOSPHERE G/M**3
C P14 - FRACTIONAL EQUILIBRIUM RATIO FOR C-14
C INTERMEDIATE VARIABLES
C XAMBEF- EFFECTIVE DECAY CONSTANT
C ' CPAST - NUCLIDE CONC IN PASTURE GRASS CONSUMED BY ANIMALS
C CSTO - NUCLIDE CONC IN STORED FEED CONSUMED BY ANIMALS
C CFEED - RADIONUCLIDE CONCENTRATION IN ANIMALS'S FEED
C
C OUTPUT VARIABLES
C
c
CL1
- RADIONUCLIDE
CONC
IN
LEAFY VEC CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
CL2
- RADIONUCLIDE
CONC
IN
LEAFY VEG CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
CP1
- RADIONUCLIDE
CONC
IN
PRODUCE CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
CP2
- RADIONUCLIDE
CONC
IN
PRODUCE CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
CCMI1
- RADIONUCLIDE
CONC
IN
COW'S MILK FOR M.I.E.
PCI/L
c
CCMI2
- RADIONUCLIDE
CONC
IN
COW'S MILK FOR G.P.E.
PCI/L
c
CGMI1
- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR M.I.E.
PCI/L
c
CGMI2
- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR G.P.E.
PCI/L
c
CMEAT
- RADIONUCLIDE
CONC
IN
BEEF CATTLE'S MEAT
PCI/KG
C
DOUBLE PRECISION NUCLID,H3,C14
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),S0AM(40),ATAM(40),
& AQAM,STAM(40),POLO (40),POLB(40),CS(40),CW(40), 1PC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YS0(40),SOAVG(40),C0N(40),
& AQC0N(40),STC0N(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FHG(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
C0MM0N/IRRF00/Y1.Y2,TE1,TE2.TH1.TH2.TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY, UPROD, UCMILK, UGMILK, UMEAT, UWAT, UAIR, QFC, QFG, TF1,
& TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),CCMI1(40),CCMI2(40),
& CGMI1(40),CGMI2(40),CMEAT(40),C0L1(40),C0L2(40),COP1(40),
& COP2(40),COCMI1(40),C0CMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,CSP(40),CSPT(40),CSPO(40),
& CSPOT(40)
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,PORS,
& BDENS,DUET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,INSITE
COMMON/EVAP/PPN, P, XIRR, XINFL, SINFL, SMASS, WMASS, WDEEP ! LC
COMMON/FUNC/XAMBWE,TA,TW,FI,PP, VI RATE,QCW,QGW,QBU,ABSH,P14
COMMON/PCV/SOCON(40)
DATA H3/8HH-3 /.C14/8HC-14 /
IF(NUCLID(NN) .EQ. H3) GO TO 200
IF(NUCLID(NN) .EQ. CI4) GO TO 300
DECA-DECAY(NN)/8760.
DECSL-SINFL/(0.15*(1.+BDENS/PORS*XKD(1,NN)))/8760.
CSP(NN)-(CSP(NN)+DERATE(NN)*8760.)*EXP(-(DECA+DECSL)*8760.)
IF(INSITE .EQ. 1) CSP(NN)-SOCON(NN)
C CALCULATION OF CPAST- RADIONUCLIDE CONCENTRATION IN PASTURE GRASS
C CONSUMED BY ANIMALS
A-30
-------�
B-0.243*BV(NN)
TERM2-CSP(NN)*B/PP
CPAST-CVA(NN,Y1,TE1,TH1,TERM2,1.)
C CALCULATION OF CSTO - RADIONUCLIDE CONCENTRATION IN STORED FEED
C CONSUMED BY ANIMALS
B—0.68*(0.378*BR(NN)+0.622*BV(NN))
TERM2-CSP(NN)*B/PP
CSTO-CVA(NN,Y1,TE1,TH2,TERM2,0.1)
C CALCULATION OF CFEED - RADIONUCLIDE CONCENTRATION IN ANIMAL'S FEE
CFEED"FP*FS*CPAST+(1.0•FP*FS)*CSTO
C CALCULATION OF CLX - RADIONUCLIDE CONC IN LEAFY VEG CONSUMED BY MAN
B—0.066*BV (NN)
TERM2-CSPO(NN)*B/PP
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CL1(NN)-CVA(NN,Y2,TE2,TH3,TERM2,1.)
C 2. FOR GENERAL POPULATION
CL2(NN)-CVA(NN,Y2,TE2,TH5,TERM2,1.)
C CALCULATION OF CPX - RADIONUCLIDE CONC IN PRODUCE CONSUMED BY MAN
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
B—0.187*BR(NN)
TERM2-CSP(NN)*B/PP
CP1(NN)-CVA(NN,Y2,TE2,TH4,TERM2,0.1)
C 2. FOR GENERAL POPULATION
CP2(NN)-CVA(NN,Y2,TE2,TH6,TERM2,0.I)
C CALCULATION OF CCMIX - RADIONUCLIDE CONCENTRATION IN COW'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CCMI1(NN)-FMC(NN)*CFEED*QFC*EXP(-DECA+TF1)
C 2. FOR GENERAL POPULATION
CCMI2(NN)-FMC(NN)*CFEED*QFC*EXP(-DECA*TF2)
C CALCULATION OF CGMIX - RADIONUCLIDE CONCENTRATION IN GOAT'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
CGMI1(NN)-FMG(NN)*CFEED*QFG*EXP(-DECA*TF1)
C 2. FOR GENERAL POPULATION
CGMI2(NN)-FMG(NN)*CFEED*QFG*EXP(-DECA*TF2)
C CALCULATION OF CMEAT - RADIONUCLIDE CONCENTRATION IN BEEF CATTLE'
CMEAT(NN)-FF(NN)*CFEED*QFC*EXP(-DECA*TS)
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: TRITIUM
C CALCULATION OF CV3 - TRITIUM CONCENTRATION IN ALL VEGETATION
200 CV3-3.75E14*ATCON(NN)/ABSH
C CALCULATION OF CONCENTRATION OF TRITIUM IN VEGETATION, MILK AND MEAT
C CONSUMED BY MAN
CL1(NN)-CV3
CL2(NN)-CV3
CP1(NN)-CV3
CP2(NN)-CV3
CCMI1(NN)-FMC(NN)*CV3*QFC
CCMI2(NN)-CCMIl(NN)
CGMI1(NN)-FMG(NN)*CV3*QFG
CGMI2 (NN)—CGMI1 (NN)
CMEAT(NN)-FF(NN)*CV3*QFC
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: CARBON-14
C CALCULATION OF CV14 - C-14 CONCENTRATION IN ALL VEGETATION
A-31
-------�
300 CV14-6.875E14*ATCO:'(NN)*P14
CALCULATION OF C-14 CONCENTRATION IN VEGETATION, MILK AND MEAT
CONSUMED BY MAN
CL1(NN)-CV14
CL2(NN)—CV14
CP1(NN)-CV14
CP2(NN)-CV14
CCMI1(NN)-FMC(NN)*CV14*QFC
CCMI2(NN)-CCMI1(NN)
CGMI1 (NN)-FMG (NN) *CV14*QFG
CCMI2(NN)-CGMI1(NN)
CMEAT(NN)-FF(NN)*CV14*QFC
RETURN
END
FUNCTION CVA(I,YfTE,TH,TERM2,TV)
CALCULATION OF RADIONUCLIDE CONCENTRATION IN FORAGE, PRODUCE AND
VEGETABLES CALLED BY FOOD
DOUBLE PRECISION NUCLID
C0MM0N/NUC/NUCLID(40),ATMASS(40).TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO (40),POLB(40),CS(40),CW(40),
& SSTREM(40),SDEEP(40),AIRCON(40),YS0(40),SOAVG(40),C0N(40),
& AQCON(40),STC0N(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),Rtf(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/FUNC/XAMBWE,TA,TW.FI,PP.VIRATE,
& QCV,QGW,QBtf,ABSH,P14
DECA—DECAY(I)/8760.
XAMBEF-DECA+XAMBWE
TERM1-DERATE(I)*RA< I)*TV*(1.0 - EXP( -XAMBEF*TE) ) / (Y*XAMBEF)
CVA-(TERM1+TERM2)*EXP(-DECA*TH)
RETURN
END
C
C
SUBROUTINE HUMEX(NN)
C
C CALCULATION OF ANNUAL RADIONUCLIDE INTAKE BY MAN. CALLED BY MAIN.
C
C INPUT VARIABLES
C
C NN
C ULEAFY
C UPROD
C UCMILK
C UGMILK
C UMEAT
C UWAT
C UAIR
C
A-3 2
- RADIONUCLIDE NUMBER
- ANNUAL INTAKE OF LEAFY VEGETABLES (KG/Y)
- ANNUAL INTAKE OF PRODUCE (KG/Y)
- ANNUAL INTAKE OF COW'S MILK(L/Y)
- ANNUAL INTAKE OF GOAT'S MILK (LA)
- ANNUAL INTAKE OF BEEF CATTLE'S MEAT(KG/Y)
- ANNUAL INTAKE OF DRINKING WATER (LA)
- ANNUAL INHALATION RATE OF AIR(M3A)
-------�
C OUTPUT VARIABLES
C
C QING - ANNUAL INTAKE OF RADIONUCLIDE BY INGESTION OF CONTAMINED
C FOOD CONSIDERING ATMOSPHERIC AND AQUATIC PATHWAYS(PCI/Y)
C QINH - ANNUAL INTAKE OF RADIONUCLIDE BY INHALATION(PCI/Y)
C
DOUBLE PRECISION NUCLID.PNUC
COMMON/IRRFOO/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY, UPROD, UCMILK, UGMILK, UMEAT, UUAT, UAIR,
& QFC,QFG,TF1,TF2.TS,CL1(40),CL2(40).CP1(40).CP2(40),
& CCKI1(40),CCMI2(40),CGMI1(40),CGMI2(40),
& CHEAT(40),COL1(40),COL2(40),COP1(40),COP2(40),
& C0CMI1(40),C0CMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,
& CSP(40),CSPT(40),CSPO(40),CSPOT(40)
CONMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO(40),POLB(40),CS(40),CW(40), 1PC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),SOAVG(40),CON(40),
& AQCON(40),STC0N(40),ATCON(40),AQAVG(40),STAVG(40).
& ATAVG(40),FMC(40),F*G(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
COMMON/PASS/PNUC(40),PCON1(40),PC0N2(40),PC0N3(40),
& PC0N4(40),PPOP.LLIND,LDIST
C CALCULATION OF RADIONUCLIDE INTAKE BY CONSUMPTION OF VEGETATION,
C MILK, MEAT AND DRINKING WATER
IF(LLIND .NE. 0) THEN !LC
QVEG-(CL2(NN)+COL2(NN))*ULEAFY+(CP2(NN)+COP2(NN))*UPROD
QMILK-(CCMI2 (NN)+COCMI2 (NN) )*UCMILK+(CGMI2 (NN)+COGMI2 (NN) )*
& UGMILK
ELSE
QVEG-(CL1(NN)+C0L1(NN) )*ULEAFY+(CP1(NN)+C0PI(NN) )*UPROD
QMILK-(CCMI1(NN)+C0CMI1(NN))*UCMILK+(CGMI1(NN)+COGMI1(NN))*
& UGMILK
END IF
200 QMEAT-(CMEAT(NN)+C0MEAT(NN))*UMEAT
QWAT-CWAT(NN)*UWAT
QING (NN)-QVEG+QMILK+QMEAT+QWAT
C CALCULATION OF RADIONUCLIDE INTAKE BY INHALATION
COAIR-ATAVG(NN)*1.0E12
QINH(NN)-COAIR*UAIR
RETURN
END
C
C
SUBROUTINE HUMEXA(NN)
C
C CALCULATION OF ANNUAL RADIONUCLIDE INTAKE BY MAN. CALLED BY MAIN
C
C INPUT VARIABLES
C
C NN RADIONUCLIDE NUMBER
C ULEAFY - ANNUAL INTAKE OF LEAFY VEGETABLES (KG/Y)
A-3 3
-------�
C UPROD
C UCMILK
C UGMILK
C UMEAT
C UWAT
C UAIR
C
C OUTPUT VARIABLES
C
C QING - ANNUAL INTAKE OF RADIONUCLIDE BY INGESTION OF CONTAMINED
C FOOD CONSIDERING ATMOSPHERIC AND AQUATIC PATHWAYS(PCI/Y)
C QINH - ANNUAL INTAKE OF RADIONUCLIDE BY INHALATION (PCI/Y)
C
DOUBLE PRECISION NUCLID.PNUC
COMMON/IRRFOO/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY, UPROD. UCMILK .UGMILK .UMEAT, UWAT, UAIR,
& QFC,QFGtTFl,TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),
& CCMI1(40),CCMI2(40),CGMI1(40),CGMI2(40),
& CHEAT(40),COL1(40),COL2(40),C0P1(40),C0P2(40).
& COCMI1(40),C0CMI2(40),C0GMI1(40),COGMI2(40),
& C0MEAT(40),QING(40),QINH(40).POP,
& CSP(40),CSPT(40),CSPO(40),CSPOT(40)
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40).POLO(40),POLB(40),CS(40),CW(40), !PC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),S0AVG(40),CON(40),
& AQC0N(40),STCON(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/PASS/PNUC(40),PC0N1(40),PC0N2(40),PCON3(40),
& PC0N4(40),PPOP.LLIND.LDIST
C CALCULATION OF RADIONUCLIDE INTAKE BY CONSUMPTION OF VEGETATION,
C MILK, MEAT AND DRINKING WATER
IF(LLIND .NE. 0) THEN !LC
QVEG-(CL2(NN)+COL2(NN))*ULEAFY*(CP2(NN)+COP2(NN))*UPROD
QMILK-(CCMI2(NN)+COCMI2(NN))*UCMILK+(CGMI2(NN)+COGMI2(NN))*
& UGMILK
ELSE
QVEG-(CL1(NN)+C0L1(NN) )*ULEAFY+(CP1(NN)+C0P1(NN) )*UPROD
QMILK-(CCMI1(NN)+C0CMI1(NN))*UCMILK+(CGMI1(NN)+C0GMI1(NN))*
& UGMILK
ENDIF
200 QMEAT-(CMEAT(NN)+COMEAT(NN))*UMEAT
QWAT-CWAT(NN)*UWAT
QING(NN)-QVEG+QMILK+QMEAT+QWAT
C CALCULATION OF RADIONUCLIDE INTAKE BY INHALATION
COAIR-ATCON(NN)*1.0E12
QINH(NN)-COAIR*UAIR
RETURN
END
C
C
SUBROUTINE INFIL(TXI,TP)
- ANNUAL INTAKE OF PRODUCE (KG/Y)
- ANNUAL INTAKE OF COW'S MILK(L/Y)
- ANNUAL INTAKE OF GOAT'S MILK(L/Y)
- ANNUAL INTAKE OF BEEF CATTLE'S MEAT(KG/Y)
- ANNUAL INTAKE OF DRINKING WATER(L/Y)
- ANNUAL INHALATION RATE OF AIR(M3/Y)
A-34
-------�
C THIS SUBROUTINE, WITH SUBROUTINES SOIL AND ROUT, CALCULATES
C INFILRATION THROUGH THE TRENCH CAP FOR A SINGLE YEAR AND
C RETURNS THAT VALUE TO THE MAIN PROGRAM. THE ORIGINAL MODEL AND
C PROGRAM WERE WRITTEN BY C.Y.HUNG, OFFICE OF RADIATION PROGRAMS,
C USEPA, WASHINGTON D.C.
C
COMMON /BL0CK1/R(25),EP(25),H(25),QL<25),YP(25),YG(25),ETO(25),
1 ETS(25),VP(25),VG(25),YTP(25),YTG(25),XI(25),P(12,31,25)
COMMON /BL0CK2/HT(4),YPT(4),YGT(4)
COMMON /BLOCK3/RT,EPT,YPTE,XKL,ETOT,QLT,XL,VGT,VPT,DELT,ETST,EPSP,
1YTGPP, HUPMAX, VPMAX, HUGMAX. VGMAX, YPMAX, XNS, UYMAX, XKI, I, XIT,
2EPSG,YTGPG,YGMAX.XDE.XKE
DIMENSION MODAY(12),TMP(12,31),DTH(12)
DATA IAMP/99/.MODAY/31,28,31,30,31,30,31,31,30,31,30,31/
WRITE(6,3010)
C READ CONTROL PARAMETERS
OPEN(4,FILE-'INFIL.INP',STATUS-'OLD')
READ(4,1010)TWT,SLOP,XKI,EPSG,EPSP,YGMAX.XDE,XKE,YPI,YGI
WRITE(6,9010)TWT,SLOP,XKI,EPSG,EPSP,YGMAX,XDE,XKE,YPI,YGI
9010 FORMAT(//,' INPUT DATA AS READ IN'.//.5X.6F7.3.2E10.3.2F7.3)
YP(1)-YPI
YG(1)-YGI
YPMAX-YGMAX
VPMAX-0.0
VGMAX—XKI
C CREATE A 3-DIMENSIONAL ZERO-RATE RAINFALL MATRIX
DO 100 IM-1,12
NODAY-MODAY(IM)
DO 100 ID-l.NODAY
DO 100 IH-2,25
P(IM,ID,IH)-0.
100 CONTINUE
C READ MONTHLY MAXIMUM DAY LENGTH
READ(4,1020) (DTH(IM),IM-1,12)
WRITE(6,3020) (DTH(IM),IM-1,12)
C READ DAILY MEAN TEMPERATURES (DEG C)
WRITE(6,3030)
DO 200 ID-1,31
READ(4,1030) (TMP(IM,ID),IM-l,12)
WRITE(6,3031) ID,(TMP(IM,ID),IM-1,12)
200 CONTINUE
C OVERLAY PERTINENT DATA (0.1MM/HR) ONTO PRECIP ARRAY AS READ IN
WRITE(6,3040)
400 READ(4,1040) MO,IDA.(P(MO,IDA.IH),IH-2,25)
IF(IAMP.EQ.MO) GO TO 500
WRITE(6,3041) MO,IDA,(P(MO,IDA,IH),IH-2,25)
GO TO 400
C CONVERT RAINFALL TO M/HR
500 DO 600 MO-1,12
NODAY-MODAY(MO)
DO 600 IDA-1,NODAY
DO 600 IH-2,25
A-3 5
-------�
P(MO,IDA,IH)-P(MO,IDA,IH)*lE-4
600 CONTINUE
C CALCULATE OR DEFINE CONSTANTS
DELT-1.
TAU-.66
H(l)-0.
HSNU-O.
TXIL-O.
XKCMMIM.20./39.37
CEP-.14/(24. * 1000.)
X^-TVT/2.
XKL^SQRT(SL0P)*3600./0.05
XKCM-XKCMMD/(1000.*24)
XKI-VGMAX+VPMAX
WRITE(6,3050)
WRITE(6,3051) XKCMMD,YGMAX,TVT,SLOP,XKI
WRITE(6,3052)EPSP,EPSG,XDE,XKE,DELT
C STEADY STATE INFILTRATION LOOP
DO 80 IY-1,10
TP-0.0
TEP-0.0
TRO-O.O
TXI-0.0
C MONTHLY LOOP
DO 70 IM-1,12
NODAY-MODAY(IM)
DT-DTH(IM)/12.
C DAILY LOOP
DO 60 ID—1,NODAY
TOTMP(IM.ID)
IF(TC .LT. -20.8) XT - 0.
IF(TC .LT. -20.8) GO TO 5
BB"»(TC+20.8)/31.98
XT-BB**0.861
5 PT-10.**XT
EP(1)-CEP*DT*DT*PT
HR-1.0
C HOURLY LOOP
DO 50 IH-2,25
I-IH
EP(I)-EP(1)
C CONVERT BACK TO FAHRENHEIT TEMP (TF)
TF-(1.8*TC)+32.
IF(TF.GE.32.) GO TO 10
HSNU - HSNU + P(IM,ID,I)
R(I) - 0.
GO TO 40
10 SM-XKCM*(TF-24.)
IF(SM .GT. HSNU) SM-HSNV
HSNW-HSNW-SM
R(I)-SM+P(IM,ID,I)
40 CONTINUE
CALL ROUT
A-36
-------�
TEP-TEP+(ETS(I)+ETO(I))*DELT
TP-TP+P(IM,ID,I)*DELT
TXI-TXI+XI (I) *DELT
TRCV-TRO+QL( I) *DELT
ETS0-ETS(I)+ET0(I)
Il-I-l
HR-HR+1.
50 CONTINUE
H(l)-H(25)
YG(1)-YG(25)
YP(1)-YP(25)
60 CONTINUE
70 CONTINUE
WRITE(6,81) IY
WRITE(6,3060) TP,TEP,TRO,TXI
URITE(6,3061) YP(25),YG(25),HSNW
PERTXI-TXI-TXIL
WRITE(6,82) PERTXI
PER-0.02*TXIL
IF(PERTXI.LE.PER.AND.IY.NE.l) RETURN
TXIl^TXI
80 CONTINUE
C FORMAT STATEMENTS
81 FORMAT(//,10X,'YEAR-',12)
82 F0RMAT(//,' CHANGE OF TOTAL ANNUAL INFILTRATION-'.1PE11.2,////)
1010 FORMAT(10F7.3)
1020 FORMAT(12F5.1)
1030 FORMAT(2X.12F6.2)
1040 F0RMAT(I2,1X,I2,1X,24(F3.0),2X)
3010 FORMAT(IX,'OUTPUT FROM SUBROUTINE INFIL'/,28('*'),//)
3020 FORMAT(IX,'DAILY SUNSHINE BY MONTH (HOURS)'/,3X,12F8.1//)
3030 FORMAT(IX,'DAILY TEMPERATURES (DEGREES CELSIUS):'//,
1 2X,'MONTH- JAN FEB MAR APR MAY JUN JUL AUG
2 SEP OCT NOV DEC'/,3X,'DAY'/)
3031 F0RMAT(3X,I2,3X,12(F6.2,1X),/)
3040 FORMAT(//,IX,'MONTH,DAY,& RAINFALL AS READ IN (0.1MM/HR):'/)
3041 FORMAT(IX,2(12,IX).24F4.0)
3050 FORMAT(/,LX,'TRENCH CHARACTERISTICS: '/)
3051 FORMAT(15X,'SNOUMELT COEFFICIENT -'.F10.2,'MM/DEG-DAY'/.
1 15X,'THICKNESS OF TRENCH COVER -'.F10.2,' M'/.
2 15X,'TOTAL WIDTH OF TRENCH COVER -\F10.2,' M'/.
3 15X,'AVERAGE SLOPE OF TRENCH COVER -\F10.2,' M/M'/,
4 15X,'PERMEABLITY OF TRENCH CAP -',E12.3,'M/HR')
3052 FORMAT(15X,'POROSITY FOR PELLIC WATER , F10.2,' (UNITLESS)'/,
1 15X,'POROSITY FOR GRAVITY WATER -',F10.2,'(UNITLESS)'/.
2 15X,'EQUIVALENT UPWARD DIFFUSIVITY -'.E12.2,' M**2/HR',/,
3 15X,'EQUIVALENT UPWARD HYDRAULIC CONDUCTIVITY -'.E12.2,' M/HR',/
4 15X,'TIME STEP FOR MODEL -', F10.2,' HOURS'/)
3060 F0RMAT(///,1X,12('*'),'CUMULATIVE ANNUAL VALUES (M)',12('*')//
1 8X,'PRECIP',6X,'EVAP',6X,'RUNOFF',6X,'INFIL',/,5X,50('-')/,
2 4X,4(1PE11.2)/)
3061 FORMAT(5X,'PELLICULAR',4X,'GRAVITY',5X,'SNOW'/,5X,'DEFICIT',
1 7X,'DEFICIT'/,5X,50('-')/,4X,3(1PE11.2)/)
RETURN
A-37
-------�
END
C
C
SUBROUTINE ROUT
C
COMMON /BLOCKl/R<25),EP(25),H(25),QL(25),YP(25),YG(25).ETO<25),
1 ETS(25),VP(25),VG(25),YTP(25),YTG(25),XI(25),P(12,31,25)
COMMON /BL0CK2/HT(4),YPT(4),YGT(4)
COMMON /BLOCK3/RT. EPT,YPTE.XKL, ETOT, QLT ,XL,VGT, VPT, DELT, ETST, EPSP,
1 YTGPP, HUPMAX, VPMAX, HUGMAX, VGMAX, YPMAX, XNS, UYMAX, XKI, I, XIT,
2 EPSG,YTGPG,YGMAX,XDE,XKE
RT-R(I)
EPT-EP(I)
CALL SOIL
IF(ETOT .NE. 0.0) THEN
HT(1) - H(I-l)
DO 200 J-1,4
QLT-XKL*HT(J)**1.667
HT(J)-(RT-ETOT-ETST-QLT/XL-VPT-VGT)*DELT + H(I-l)
IF(HT(J) .LT. 0.0) HT(J)-0.
IF(J .LT. 3) HT(J+1)-(HT(J) + H(I-1))*0.5 !LC
IF(J .EQ. 3) HT(J+1) - HT(J)
200 CONTINUE
H(I)-(HT(1)+2.0*(HT(2)+HT(3)) + HT(4))/6.0
QL(I)-(R(I)-ETOT-VGT-VPT-(H(I)-H(I-1))/DELT)
ELSE
H(I)-0.
QL(I)-0.
ENDIF
YP(I)-YP(I-1)+(ETST-VPT)*DELT/EPSP
IF(YP(I).CT.1.E30) YP(I)-1.E30 1PC/AT
IF(YP(I).LT.l.E-30) YP(I)-I.E-30 !PC/AT
YG(I)-YG(I-1)+(XIT-VGT)*DELT/EPSG
ETO(I) - ETOT
ETS(I)-ETST
XI(I)-XIT
VP(I)-VPT
VG(I)-VGT
RETURN
END
C
C
SUBROUTINE SOIL
C
COMMON /BL0CK1/R(25),EP(25),H(25),QL(25),YP(25),YG(25),ETO(25),
1 ETS(23),VP(25),VG(25),YTP(25),YTG(25),XI(25),P(12,31,25)
COMMON /BL0CK2/HT(4),YPT(4),YGT(4)
COMMON /BL0CK3/RT,EPT,YPTE,XKL,ETOT,QLT,XL,VGT.VPT,DELT,ETST,EPSP,
1 YTGPP,HUPMAX,VPMAX,HUGMAX,VGMAX,YPMAX,XNS,UYMAX,XKI,I,XIT,
2EPSG,YTGPG,YGMAX,XDE,XKE
TSWE-(RT-EPT)*DELT+H(I-1)
A-38
-------�
IF(TSWE .GE. 0.0) THEN
!LC
ETOT-EPT
ETST-0.0
VPT-VGMAX
AUX-TSWE/DELT
IF(AUX .LT. VGMAX) VPT-TSWE/DELT
50 YPTT-VPT*DELT/EPS P
IF(YPTT .GT. YP(I-l)) VPT-YP(I-1)*EPSP/DELT
IF(YPTT .GE. YP(I-l)) YPTT-VPT*DELT/EPSP
TGHW-TSWE-VPT*DELT
IF(TGHW .LT. 0.0) TGHW-0.
VGT-VGMAX-VPT
IF(TGHW .LT. VGT) VGT-TGHW/DELT
YGTT- VGT+DELT/EPSG
IF(YGTT .CT. YG(I-l)) VGT - YG(I-1)*EPSG/DELT
IF(YGTT .GT. YG(I-l)) YGTT-VGT*DELT/EPSG
ELSE
ETOT-TSWE/DELT+EPT
IF(ETOT .LT.0.) ETOT-O.
EPSPG-EPSP+EPSG
EPTE-EPT-ETOT
IF(YP(I-1).NE.O.) THEN !LC
ETSTW-XDE*EPSP/YP(I-1)-XKE
IF(ETSTW.CT.EPTE) ETSTW-EPTE
ELSE
ETSTW-EPTE
ENDIF
ETSTV-EPTE/(1+YP(I-1)*0.5/(0.66*EPSPG))
IF(ETSTV.GE.ETSTtf) ETST-ETSTV
IF(ETSTU.GE.ETSTV) ETST-ETSTW
VPT-0.
VGT-0.
ENDIF
IF(YG(I-1) .GE. YGMAX) THEN !LC
XIT-0.
ELSE
XIT-XKI
YGIT-XIT*DELT/EPSG
XX-YGMAX-YG(I-l)
IF(YGIT .GT. XX) XIT-XX*EPSG/DELT
ENDIF
RETURN
END
C
C
SUBROUTINE IRRIG(NN)
C
C CALCULATION OF RADIONUCLIDE CONCENTRATION IN VEGETABLE, MILK AND
C CONSUMED BY MAN RESULTING FROM WATER IRRIGATION. CALLED BY MAIN.
C
C INPUT VARIABLES
C
A-39
-------�
c NN NUCLIDE NUMBER
C DECAY - RADIOACTIVE DECAY CONSTANTE 1/Y
C XAMBWE - WEATHER DECAY CONSTANTE 1/H
C TV PERIOD OF TIME FOR WHICH SOIL IS EXPOSED TO THE
C CONTAMINATED WATER H
C PP SURFACE DENSITY FOR SOIL KG/M**2
C RW RETENTION FRACTION
C BV CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY VEGETATIVE PARTS OF CROPS
C BR CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
C FROM SOIL BY REPRODUCTIVE PARTS OF CROPS
C FI -FRACTION OF THE YEAR CROPS ARE IRRIGATED
C VIRATE- IRRIGATION RATE L/M**2-YR
C CWAT - RADIONUCLIDE CONCENTRATION IN WATER PCI/L
C IOPT - OPTIONS FOR SPECIAL RADIONUCLIDE H-3
C IOPT - I IF H-3 IS NOT INCLUDED IN THIS RUN
C IOPT - 2 IF H-3 IS INCLUDED
C Y1 - AG PRODUCTIVITY FOR GRASS CONSUMED BY ANIMALS KG/M**2
C Y2 - AG PRODUCTIVITY FOR VEGETATION CONSUMED BY MAN KG/M**2
C TE1 - TIME PASTURE GRASS EXPOSED DURING GROWING SEASON H
C TE2 - TIME CROP/VEG EXPOSED DURING GROWING SEASON H
C TH1 - PERIOD DELAY BETWEEN HARVEST OF PASTURE GRASS
C AND INGESTION BY ANIMALS H
C TH2 - PERIOD DELAY BETWEEN HARVEST OF STORED FEED
C AND INGESTION BY ANIMAL H
C TH3 - PERIOD DELAY BETWEEN HARVEST OF LEAFY VEGETABLE
C AND INGESTION BY MAN FOR M.I.E. H
C TH4 - PERIOD DELAY BETWEEN HARVEST OF PRODUCE AND
C INGESTION BY MAN FOR M.I.E. H
C TH5 - PERIOD DELAY BETWEEN HARVEST OF LEAFY VEG
C AND INGESTION BY MAN FOR G.P.E. H
C TH6 - PERIOD DELAY BETWEEN HARVEST OF PRODUCE
C TH5 - PERIOD DELAY BETWEEN HARVEST OF LEAFY VEG
C FP - FRACTION OF YEAR THAT ANIMAL GRAZE ON PASTURE
C FS - FRACTION OF DAILY FEED THAT IS FRESH GRASS WHEN
C ANIMALS GRAZE ON PASTURE
C FMC - FRACTION OF THE COW'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH L OF MILK D/L
C FMG - FRACTION OF THE GOAT'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH L OF MILK D/L
C QFC - AMOUNT OF FEED CONSUMED BY CATTLE KG/D
C QFG - AMOUNT OF FEED CONSUMED BY GOATS KG/D
C TF1 - TRANSPORT TIME OF RADIONUCLIDE FROM
C FEED-MILK-RECEPTOR FOR M.I.E. H
C TF2 - TRANSPORT TIME OF RADIONUCLIDE FROM
C FEED-MILK-RECEPTOR FOR G.P.E. H.
C FF - FRACTION OF THE ANIMAL'S DAILY INTAKE OF
C RADIONUCLIDE WHICH APPEARS IN EACH KG OF FLESH D/KG
C TS - TIME FROM SLAUGHTER OF MEAT TO CONSUPTION H
C QCW AMOUNT OF WATER CONSUMED BY COW L/D
C QGW - AMOUNT OF WATER CONSUMED BY GOAT L/D
C QBW - AMOUNT OF WATER CONSUMED BY BEEF CATTLE L/D
C
C INTERMEDIATE VARIABLES
A-AO
-------�
C XAMBEF- EFFECTIVE DECAY CONSTANT
C COPAST- RADIONUCLIDE CONCENTRATION IN PASTURE GRASS CONSUMED BY A
C COPAST- RADIONUCLIDE CONCENTRATION IN STORED FEED CONSUMED BY ANI
C COFEED- RADIONUCLIDE CONCENTRATION IN ANIMALS'S FEED
C
C OUTPUT VARIABLES
C
c
COL1 - RADIONUCLIDE
CONC
IN
LEAFY VEG CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
COL2 - RADIONUCLIDE
CONC
IN
LEAFY VEG CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
COP1 - RADIONUCLIDE
CONC
IN
PROCUCE CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
COP2 - RADIONUCLIDE
CONC
IN
PRODUCE CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
COCMI1- RADIONUCLIDE
CONC
IN
COV'S MILK FOR M.I.E.
PCI/L
c
COCMI2- RADIONUCLIDE
CONC
IN
COV'S MILK FOR G.P.E.
PCI/L
c
COGMI1- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR M.I.E.
PCI/L
c
COGMI2- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR G.P.E.
PCI/L
c
/»
COMEAT- RADIONUCLIDE
CONC
IN
BEEF CATTLE'S MEAT
PCI/KG
t
DOUBLE PRECISION NUCLID.H3
,C14
COMMON/CNTRL/NONCLD,MAXYR,TITLE(20) .LOCATE(12) ,NYR1,NYR2,
& PCT1, PCT2, LEAOPT, IOPWV, IOPSAT, IPRT1, IPRT2, IDELT,
& IRRESI, IRRES2, LIND, IAVG1, IAVG2, RMECH, RR, FTMECH, FTRR,
& WWATL,WWATA.WWATH,SWATL,SUATA,SWATH,IVAP,IBSMT,IDISP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO(40),POLB(40),CS(40),CW(40), IPC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),SOAVG(40),CON(40).
& AQCON(40),STCON(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC<40),fHG<40),DECAY(40),XKD(4,40),S0L(40).
& FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/IRRFOO/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY,UPROD,UCMILK,UGMILK,UMEAT,UVAT,UAIR,QFC,QFG,TF1,
& TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),CCMI1(40),CCMI2(40),
& CGMI1(40),CGMI2(40),CMEAT(40),C0L1(40),COL2(40),COP1(40),
& C0P2(40),COCMI1(40),COCMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),P0P,CSP(40),CSPT(40),CSPO(40),
& CSPOT(40)
COMMON/FUNC/XAMBWE ,TA,TW,FI,PP, WIRATE, QCW, QGW, QBU, ABSH, P14
DATA H3,C14/8HH-3 .8HC-14 /
DECA-DECAY(NN)/8 7 60.
IF(NUCLID(NN) .EQ. H3)GO TO 200
IF(NUCLID(NN) .EQ. C14) GO TO 300
C CALCULATION OF COPAST-RADIONUCLIDE CONCENTRATION IN PASTURE GRASS
C CONSUMED BY ANIMALS
B-0.243*BV(NN)
COPAST-COV(NN, Y1,TE1,TH1,B,1.)
C CALCULATION OF COSTO - RADIONUCLIDE CONCENTRATION IN STORED FEED
C BY ANIMALS
B-0.680*(0.378*BR(NN)+0.622*BV(NN))
COSTO-COV(NN,Y1,TE1,TH2,B,0.1)
A-41
-------�
c CALCULATION OF COFEEF - RADIONUCLIDE CONCENTRATION IN ANIMAL'S FEED
COFEED-FP*FS*COPAST+(1.0-FP*FS)*COSTO
c CALCULATION OF COPLX - RADIONUCLIDE CONCENTRATION IN LEAFY
C VEGETABLE CONSUMED BY MAN
B-0.066*BV(NN)
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
C0L1(NN)-C0V(NN.Y2,TE2,TH3,B,1.)
q 2 FOR GENERAL POPULATION EXPOSURE
e CONC IN PRODUCE CONSUMED BY MAN
c 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
B-.187*BR(NN)
COP1(NN)-COV(NN,Y2,TE2,TH4,B,0.1)
C 2. FOR GENERAL POPULATION
COP2(NN)-COV(NN,Y2,TE2,TH6,B,0.1)
C CALCULATION OF COCMIX - RADIONUCLIDE CONCENTRATION IN COW'S MILK
CWAT(NN)- WWATA*AQAVG(NN)+SWATA*STAVG(NN)
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
C0CMI1(NN)-FMC(NN)*(C0FEED*QFC+CWAT(NN)*QCW)*EXP( -DECA*TF1)
C 2. FOR GENERAL POPULATION __ _ L _
C0CMI2(NN)-FMC(NN)*(C0FEED*QFC+CWAT(NN)*QCW)*EXP(-DECA*TF2)
C CALCULATION OF COCMIX - RADIONUCLIDE CONCENTRATION IN GOAT'S MILK
C I. FOR MAXIMUM INDIVIDUAL EXPOSURE ,
COGMI1 (NN)-FMG (NN)* (COFEED*QFG+CWAT (NN)*QGW)*EXP( - DECA*TF1)
C 2. FOR GENERAL POPULATION
C0GMI2(NN)-FMG(NN)*(C0FEED*QFG+CWAT(NN)*QGW)*EXP(-DECA*TF2)
C CALCULATION OF COMEAT - RADIONUCLIDE CONCENTRATION IN BEEF CATTLE
COMEAT (NN)-FF(NN) * ( COFEED*QFC+Ctf AT (NN) *QBW) *EXP (- DECA*TS )
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: TRITIUM
C TRITIUM CONCENTRATION IN VEGETATION - TRITIUM CONCENTRATION IN ANIM
C FEED - TRITIUM CONCENTRATION IN WATER - CWAT(l)
C CALCULATION OF H-3 CONCENTRATION IN VEGETATION, MILK AND MEAT
C CONSUMED BY MAN
200 C0L1(NN)-CWAT(NN)
COL2(NN)-CWAT(NN)
C0P1(NN)-CWAT(NN)
COP2(NN)-CWAT(NN)
CWAT(NN)- WWATA*AQAVG(NN)+SWATA*STAVG(NN)
COCMI1(NN)-FMC(NN)*CWAT(NN)*(QFC-KJCW)
COCMI2(NN)-COCMI1(NN)
C0GMI1(NN)-FMG(NN)*CWAT(NN)*(QFG+QGW)
COGMI2(NN)-COGMIl(NN)
COMEAT(NN)-FF(NN)*CWAT(NN)*(QFC+QCW)
RETURN
300 C014-0.
C0L1(NN)"C014
C0L2(NN)-C014
C0P1(NN)-C014
C0P2(NN)-C014
CWAT(NN)- WWATA*AQAVG(NN)+SWATA*STAVG(NN)
C0CMI1(NN)-FMC(NN)*C014*(QFC+QCW)
C0CMI2(NN)-COCMIl(NN)
COGMI1 (NN ) -FMG (NN) *C014* ( QFG+
-------�
C0GMI2(NN)-C0GMI1(NN)
C0MEAT(NN)-FF(NN)*C014*(QFC+QCW)
RETURN
END
C
C
FUNCTION COV(I,Y,TE,TH,B,TV)
C
C CALCULATION OF RADIONUCLIDE CONCENTRATION IN FORAGE, PRODUCE AND
C VEGETABLES. CALLED BY IRRIC.
C
DOUBLE PRECISION NUCLID
C0MM0N/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40).
& AQAM,STAM(40).POLO (40),POLB(40),CS(40),CW(40), !PC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),SOAVG(40),CON(40),
& AQC0N(40),STC0N(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CtfAT(40)
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,
& PORS,BDENS,DWET, EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,
& INSITE
COMMON/IRRFOO/Y1, Y2, TE1. TE2. TH1, TH2, TH3, TH4, TH5 , TH6, FP, FS,
& ULEAFY,UPROD,UCMILK,UGMILK,UMEAT,UWAT,UAIR,
& QFC,QFG,TF1,TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),
& CCMI1(40),CCMI2(40),CGMI1(40),CGMI2(40),
& CHEAT(40),COL1(40),COL2(40),COP1(40),COP2(40),
& COCMI1(40),COCMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,
& CSP(40),CSPT(40),CSPO(40),CSPOT(40)
COMMON/FUNC/XAMBVE ,TA,TV,FI ,PP, WIRATE, QCW, QGW, QBW, ABSH, P14
COMMON/EVAP/PPN, P, XIRR, XINFL, SI NFL, SMASS, VMASS, WDEEP ! LC
COMMON/CNTRL/NONCLD,MAXYR,TITLE(20),LOCATE(12),NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1, IRRES2, LIND, IAVG1, IAVG2, RMECH, RR, FTMECH, FTRR,
& WWATL,WWATA,UWATH,SWATL,SWATA,SWATH,IVAP,IBSMT,IDIS P
NEXYR-IAVG2-IAVG1+1
DECA-DECAY(I)/8760.
XAMBEF-DECA+XAMBWE
TERM1-WIRATE*CWAT(I)*TV*RW(I)*(1.0-EXP(-XAMBEF*TE))/ (Y*XAMBEF)
CSPO(I)-CSPOT(I)/FLOAT(NEXYR)
IF(INSITE .EQ. l)CSPO(I)-SOAVG(I)
TERM2-CSPO(I)*B/PP
COV-(TERM1+TERM2)*EXP(-DECA*TH)
RETURN
END
C
C
SUBROUTINE IRRIGA(NN)
C
C CALCULATION OF RADIONUCLIDE CONCENTRATION IN VEGETABLE, MILK AND
C CONSUMED BY MAN RESULTING FROM WATER IRRIGATION. CALLED BY MAIN.
C
A-43
-------�
c
INPUT VARIABLES
c
c
NN
_
NUCLIDE NUMBER
c
DECAY
-
RADIOACTIVE DECAY CONSTANTE
1/Y
c
XAMBWE -
• WEATHER DECAY CONSTANTE
1/H
c
TW
-
PERIOD OF TIME FOR WHICH SOIL IS EXPOSED TO THE
c
CONTAMINATED WATER
H
c
PP
-
SURFACE DENSITY FOR SOIL
KG/M**2
c
RW
-
RETENTION FRACTION
c
BV
CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
c
FROM SOIL BY VEGETATIVE PARTS OF CROPS
c
BR
_
CONCENTRATION FRACTION FOR UPTAKE OF RADIONUCLIDE
c
FROM SOIL BY REPRODUCTIVE PARTS OF CROPS
c
FI
-FRACTION OF THE YEAR CROPS ARE IRRIGATED
c
WIRATE-
IRRIGATION RATE
L/M**2-YR
c
CtfAT
-
RADIONUCLIDE CONCENTRATION IN WATER
PCI/L
c
IOPT
-
OPTIONS FOR SPECIAL RADIONUCLIDE H-3
c
IOPT - 1 IF H-3 IS NOT INCLUDED IN THIS RUN
c
IOPT - 2 IF H-3 IS INCLUDED
c
Y1
-
AC PRODUCTIVITY FOR GRASS CONSUMED BY ANIMALS
KG/M**2
c
Y2
-
AG PRODUCTIVITY FOR VEGETATION CONSUMED BY MAN
KG/M**2
c
TE1
TIME PASTURE GRASS EXPOSED DURING GROWING SEASON
H
c
TE2
-
TIME CROP/VEG EXPOSED DURING GROWING SEASON
H
c
TH1
-
PERIOD DELAY BETWEEN HARVEST OF PASTURE GRASS
c
AND INGESTION BY ANIMALS
H
c
TH2
-
PERIOD DELAY BETWEEN HARVEST OF STORED FEED
c
AND INGESTION BY ANIMAL
H
c
TH3
-
PERIOD DELAY BETWEEN HARVEST OF LEAFY VEGETABLE
c
AND INGESTION BY MAN FOR M.I.E.
H
c
TH4
-
PERIOD DELAY BETWEEN HARVEST OF PRODUCE AND
c
INGESTION BY MAN FOR M.I.E.
H
c
TH5
»
PERIOD DELAY BETWEEN HARVEST OF LEAFY VEG
c
AND INGESTION BY MAN FOR G.P.E.
H
c
TH6
-
PERIOD DELAY BETWEEN HARVEST OF PRODUCE
c
TH5
-
PERIOD DELAY BETWEEN HARVEST OF LEAFY VEG
c
FP
-
FRACTION OF YEAR THAT ANIMAL GRAZE ON PASTURE
c
FS
-
FRACTION OF DAILY FEED THAT IS FRESH GRASS WHEN
c
ANIMALS GRAZE ON PASTURE
c
FMC
-
FRACTION OF THE COW'S DAILY INTAKE OF
c
RADIONUCLIDE WHICH APPEARS IN EACH L OF MILK
D/L
c
FMG
-
FRACTION OF THE GOAT'S DAILY INTAKE OF
c
RADIONUCLIDE WHICH APPEARS IN EACH L OF MILK
D/L
c
QFC
-
AMOUNT OF FEED CONSUMED BY CATTLE
KG/D
c
QFG
-
AMOUNT OF FEED CONSUMED BY GOATS
KG/D
c
TF1
-
TRANSPORT TIME OF RADIONUCLIDE FROM
c
FEED-MILK-RECEPTOR FOR M.I.E.
H
c
TF2
-
TRANSPORT TIME OF RADIONUCLIDE FROM
c
FEED-MILK-RECEPTOR FOR G.P.E.
H
c
FF
-
FRACTION OF THE ANIMAL'S DAILY INTAKE OF
c
RADIONUCLIDE WHICH APPEARS IN EACH KG OF FLESH
D/KG
c
TS
TIME FROM SLAUGHTER OF MEAT TO CONSUPTION
H
c
QCW
-
AMOUNT OF WATER CONSUMED BY COW
L/D
c
QGW
-
AMOUNT OF WATER CONSUMED BY GOAT
L/D
c
QBV
AMOUNT OF WATER CONSUMED BY BEEF CATTLE
L/D
A-44
-------�
C INTERMEDIATE VARIABLES
C
C XAMBEF- EFFECTIVE DECAY CONSTANT
C COPAST- RADIONUCLIDE CONCENTRATION IN PASTURE GRASS CONSUMED BY A
C COPAST- RADIONUCLIDE CONCENTRATION IN STORED FEED CONSUMED BY ANI
C COFEED- RADIONUCLIDE CONCENTRATION IN ANIMALS'S FEED
C
C OUTPUT VARIABLES
C
c
COLl - RADIONUCLIDE
CONC
IN
LEAFY VEG CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
COL2 - RADIONUCLIDE
CONC
IN
LEAFY VEG CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
COP1 - RADIONUCLIDE
CONC
IN
PROCUCE CONSUMED BY MAN
c
FOR M.I.E.
PCI/KG
c
COP2 - RADIONUCLIDE
CONC
IN
PRODUCE CONSUMED BY MAN
c
FOR G.P.E.
PCI/KG
c
COCMI1- RADIONUCLIDE
CONC
IN
COW'S MILK FOR M.I.E.
PCI/L
c
COCMI2- RADIONUCLIDE
CONC
IN
COW'S MILK FOR G.P.E.
PCI/L
c
COGMI1- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR M.I.E.
PCI/L
c
COGMI2- RADIONUCLIDE
CONC
IN
GOAT'S MILK FOR G.P.E.
PCI/L
c
p
COMEAT- RADIONUCLIDE
CONC
IN
BEEF CATTLE'S MEAT
PCI/KG
u
DOUBLE PRECISION NUCLID.H3,
,C14
COMMON/CNTRL/NONCLD, MAXYR, TITLE ( 20 ) , LOCATE (12 ) , NYR1, NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1,IRRES 2, LIND,IAVG1,IAVG2,RMECH,RR,FTMECH,FTRR,
& WWATL,WW ATA,WWATH,SUATL,SVATA,SWATH,IVAP,IBSMT,IDISP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO (40),POLB(40),CS(40),CU(40), IPC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YS0(40),SOAVG(40),CON(40),
& AQCON(40),STCON(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
C0MM0N/IRRF00/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY,UPROD,UCMILK,UGMILK,UMEAT,UWAT,UAIR,QFC,QFG,TF1,
& TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),CCMI1(40),CCMI2(40),
& CGMI1(40),CGMI2(40),CHEAT(40),COL1(40),C0L2(40),COP1(40),
& COP2(40),COCMI1(40),C0CMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,CSP(40),CSPT(40),CSPO(40),
& CSPOT(40)
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,PORS,
& BDENS,DWET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,INSITE
COMMON/EVAP/PPN,P,XIRR,XINFL,SINFL, SMAS S, WMASS, WDEEP ! LC
COMMON/FUNC/XAMBWE,TA,TW,FI,PP, VI RATE,QCtf,QGW,QBW.ABSH,PI4
COMMON/PCV/SOCON(40)
DATA H3.C14/8HH-3 .8HC-14 /
IF(NUCLID(NN) .EQ. H3)G0 TO 200
IF(NUCLID(NN) .EQ. C14) GO TO 300
DECA-DECAY(NN)/8760.
DECSb-SINFL/(0.15*(1.+BDENS/PORS*XKD(l,NN)))/8760.
A-45
-------�
CSPO(NN)-(CSPO(NN)+CWAT(NN)*W1RATE*8760.*FI)*EXP(-(DECA+DECSL)
& *8760.)
IF(INSITE .EQ. 1) CSPO(NN)-SOCON(NN)
B-0.243*BV(NN)
TERM2-CSP0(NN)*B/PP
c CALCULATION OF COPAST-RADIONUCLIDE CONCENTRATION IN PASTURE GRASS
C CONSUMED BY ANIMALS
COPAST-COVA(NN,Y1,TE1,TH1,TERM2,1.)
c CALCULATION OF COSTO - RADIONUCLIDE CONCENTRATION IN STORED FEED
C BY ANIMALS
B-0.68*(0.378*BR(NN)+0.622*BV(NN))
TERM2-CSP0(NN)*B/PP
COSTO-COVA(NN,Y1 ,TE1 ,TH2.TERK2,0.1) „,„AT>C.
c CALCULATION OF COFEEF - RADIONUCLIDE CONCENTRATION IN ANIMAL S FEED
COFEED-FP*FS*COPAST+(1.0-FP*FS)*COSTO
C CALCULATION OF COPLX - RADIONUCLIDE CONCENTRATION IN LEAFY
C VEGETABLES CONSUMED BY MAN
B-0.066*BV(NN)
TERM2-CSP0(NN)*B/PP
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
C0L1(NN)-C0VA(NN,Y2,TE2,TH3.TERM2,1.)
C 2. FOR GENERAL POPULATION EXPOSURE
C0L2(NN)-C0VA(NN,Y2,TE2,TH5,TERM2,1.)
C CALCULATION OF COPX - RADIONUCLIDE CONC IN PRODUCE CONSUMED BY MAN
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
B-0.187*BR(NN)
TERM2-CSPO(NN)*B/PP
COPl(NN)-COVA(NN,Y2,TE2,TH4.TERM2,0.1)
C 2. FOR GENERAL POPULATION
COP2(NN)-COVA(NN,Y2,TE2,TH6,TERM2,0.1)
CWAT(NN)- WWATA*AQCON(NN)+SWATA*STCON(NN)
C CALCULATION OF COCMIX - RADIONUCLIDE CONCENTRATION IN COW'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
C0CMI1(NN)—FMC(NN)*(COFEED*QFC+CWAT(NN)*QCtf )*EXP(-DECA*TF1)
C 2. FOR GENERAL POPULATION
COCMI2(NN)-FMC(NN)*(COFEED*QFC+CWAT(NN)*QCW)*EXP(-DECA*TF2)
C CALCULATION OF COCMIX - RADIONUCLIDE CONCENTRATION IN GOAT'S MILK
C 1. FOR MAXIMUM INDIVIDUAL EXPOSURE
COGMI1(NN)-FMG(NN)*(COFEED*QFG+CWAT(NN)*QGW)*EXP(-DECA*TF1)
C 2. FOR GENERAL POPULATION
COGMI2(NN)-FMG(NN)*(COFEED*QFG+CWAT(NN)*QGV)*EXP(-DECA*TF2)
c CALCULATION OF COMEAT - RADIONUCLIDE CONCENTRATION IN BEEF CATTLE
COMEAT(NN)-FF(NN)*(COFEED*QFC+CWAT(NN)*QBW)*EXP(-DECA*TS)
RETURN
C CALCULATION FOR SPECIAL RADIONUCLIDE: TRITIUM
C TRITIUM CONCENTRATION IN VEGETATION - TRITIUM CONCENTRATION IN ANIMAL
C FEED - TRITIUM CONCENTRATION IN WATER - CWAT(l)
C CALCULATION OF H-3 CONCENTRATION IN VEGETATION, MILK AND MEAT CON
C BY MAN
200 C0L1(NN)-CWAT(NN)
COL2(NN)-CWAT(NN)
C0P1(NN)-CWAT(NN)
COP2(NN)-CWAT(NN)
CWAT(NN)- WWATA*AQCON(NN)+SWATA*STCON(NN)
A-46
-------�
COCMI1(NN)-FWC(NN)*CWAT(NN)*(QFC+QCW)
COCMI2(NN)-COCMIl(NN)
COGMI1(NN)-FMG(NN)*CWAT(NN)*(QFG+QGW)
COGMI2(NN)-COGMIl(NN)
C0MEAT(NN)-FF(NN)*CWAT(NN)*(QFC4QCW)
RETURN
300 C014-0.
C0L1(NN)-C014
COL2(NN)-C014
COP1(NN)-C014
COP2(NN)-CO14
CWAT(NN)- WWATA*AQCON(NN)+SWATA*STCON(NN)
C0CMI1(NN)-FMC(NN)*C014*(QFC+QCW)
COCMI2(NN)-COCMIl(NN)
C0GMI1(NN)-FMG(NN)*C014*(QFG+QGW)
COGMI2(NN)-COGMIl(NN)
COMEAT(NN)-FF(NN)*C014*(QFC+QCW)
RETURN
END
C
C
FUNCTION COVA(I,Y,TE,TH,TERM2,TV)
C
C CALCULATION OF RADIONUCLIDE CONCENTRATION IN FORACE, PRODUCE AND
C VEGETABLES. CALLED BY IRRIG.
C
DOUBLE PRECISION NUCLID
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POL0(40),P0LB(40),CS(40),CW(40), IPC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),SOAVG(40),CON(40),
& AQCON(40),STCON(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMC(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/FUNC/XAMBWE,TA,TW,FI,PP, VI RATE,QCW,QGW,QBtf,ABSH,P14
DECA-DECAY(I)/8760.
XAKBEF-DECA+XAMBWE
TERM1-WIRATE*CWAT(I)*TV*RW(I)*(1.0-EXP(-XAMBEF*TE))/(Y*XAMBEF)
COVA-(TERM1+TERM2)*EXP(-DECA*TH)
RETURN
END
C
C
SUBROUTINE LEACH(NN,VOLB,VOLO,DMAX,CIOT,FRACB,CFF,XDECN, !LC
& TINFL.PERHT)
C
C THIS SUBROUTINE CALCULATES THE AMOUNT OF EACH RADIONUCLIDE
C THAT LEAVES FROM THE BOTTOM OF THE TRENCH TO THE AQUIFER
C AND THE AMOUNT THAT LEAVES AS A RESULT OF WATER OVERFLOWING THE
C TRENCH. THIS SUBROUTINE IS CALLED BY MAIN.
C
C THERE ARE FIVE METHODS THAT MAY BE USED TO CALCULATE THESE
C AMOUNTS. THEY ARE GIVEN BY THE FOLLOWING VALUES OF LEAOPT:
A-47
-------�
C--
1
TOTAL CONTACT,CHEMICAL EXCHANGE
C--
2
IMMERSED FRACTION, CHEMICAL EXCHANGE
C--
3
TOTAL CONTACT, CHEMICAL SOLUBILITY
C--
4
IMMERSED FRACTION. CHEMICAL SOLUBILITY
C--
5
RELEASE FACTOR
c
C
INPUT VARIABLES
c
C
NN
NUCLIDE NUMBER
c
NYEAR
-
CURRENT YEAR OF SIMULATION
c
TAREA
-
AREA OF TRENCH
c
TDEPTH
-
DEPTH OF TRENCH
c
PORT
-
POROSITY OF TRENCH MATERIAL
c
RELFAC
-
RELEASE FACTOR
c
LEAOPT
-
LEACHING OPTION
c
SOL
-
SOLUBILITY OF RADIONUCLIDE IN TRENCH
c
DENCON
-
DENSITY OF WASTE
c
VOLO
-
VOLUME OF WATER OVERFLOWING TRENCH
c
VOLB
-
VOLUME OF WATER LEAVING BOTTOM OF TRENCH
c
NONCLD
-
NUMBER OF NUCLIDES
c
TRAM
-
AMOUNT OF NUCLIDE IN TRENCH
c
OLDWAT
-
AMOUNT OF WATER IN TRENCH
c
DILFAC
-
DILUTION FACTOR
c
DMAX
«¦
MAXIMUM WATER DEPTH IN TRENCH
c
XKD
-
CHEMICAL EXCHANGE COEFFICIENT
c
c
t•
OUTPUT VARIABLES
c
POLB
AMOUNT OF EACH NUCLIDE LEAVING BOTTOM OF TRENCH
c
POLO
AMOUNT OF EACH NUCLIDE OVERFLOWING TRENCH
c
c
c
INTERMEDIATE VARIABLES
c
CCWAT
CONCENTRATION OF NUCLIDE IN WATER
c
FWET
-
WETTED OR IMMERSED FRACTION
c
c
POLOUT
4
TOTAL AMOUNT OF NUCLIDE LEAVING TRENCH
DOUBLE PRECISION NUCLID
COMMON/CNTRL/NONCLD,MAXYR,TITLE(20),LOCATE(12), NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1.IPRT2,IDELT,
6t IRRES1, IRRES2, LIND, IAVG1, IAVG2, RMECH, RR, FTMECH, FTRR,
& UWATL,WWATA,UWATH,SWATL,SWATA,SWATH,IVAP,IBSMT,IDISP
COMMON/EVAP/PPN, P, XIRR, XINFL, SINFL.SMASS .WMASS .WDEEP ! LC
COMMON/TRCH/TAREA,TDEPTH,OVER,PORT,RELFAC,DENCON.OLDWAT,SEEP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),S0AM(40),ATAM(40),
& AQAM,STAM(40),POLO(40),POLB(40),CS(40),CW(40), IPC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YS0(40),SOAVG(40),CON(40),
& AQC0N(40),STC0N(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
DIMENSION CIOT(40),CINEWT(40)
DATA LU6/6/
A-48
-------�
CCWAT-0.
IF(DMAX .LE. 0.)GO TO 600
C FOR OPTIONS 1 AND 3 ASSUME WETTED FRACTION
C TO BE TOTAL CONTACT AREA.
FWET-1.
TCON-1.
GO TO (200,100,400,300,500),LEAOPT
WRITE(LU6,6000)
RETURN
C FOR OPTION 2 USE IMMERSED FRACTION TO COMPUTE WETTED FRACTION.
100 FWET-AMIN1(1.,DMAX/TDEPTH) !LC
TCON-AMIN1(I.,TINFL/PERMT) ! LC
IF(FWET.EQ.I.0)TCON-1.0
FWAST-(DMAX-VOLB/(PORT+TAREA))/(TDEPTH-OVER)
IF(FWAST.GT.1.0)FWAST-1.0
IF(FWAST.GT.O.)TCON-TCON*(l.-FWAST)+FWAST !LC
C FOR OPTIONS 1 AND 2 COMPUTE CONCENTRATIONS USING
C CHEMICAL EXCHANGE.
200 CCWAT-TRAM(NN)*FWET*TCON/(TAREA*(DMAX*PORT+TDEPTH*FWET*
& XKD(2,NN)*DENCON*FRACB))
TEMP—5.163E11*S0L(NN)*DECAY(NN)/ATMASS(NN)
IF(CCWAT .GT. TEMP .AND. SOL(NN) .NE. 0.) CCWAT-TEMP
CCVAT-CCWAT*CFF
GO TO 600
C FOR OPTION A WETTED FRACTION IS THE IMMERSED FRACTION.
300 FWET-AMIN1(1.,DMAX/TDEPTH) !LC
C FOR OPTIONS 3 AND A USE CHEMICAL SOLUBILITY.
400 CCWAT-TRAM(NN)*FWET/(DMAX*TAREA*PORT)
TEMP-5.163E11*S0L(NN)*DECAY(NN)/ATMASS(NN)
IF(CCWAT .GT. TEMP) CCWAT-TEMP
CCWAT-C CUAT* C FF
GO TO 600
C FOR OPTION 5 USE RELEASE FACTOR.
500 IF(DMAX.EQ.0.0.AND.IDISP.LE.2) GO TO 515
CINEWT(NN)-CIOT(NN)+TRAM(NN)*RELFAC*CFF
IF(DMAX.GT.TDEPTH)DMAX-TDEPTH
IF(DMAX.GT.TDEPTH)DMAX-TDEPTH
CCWAT-CINEWT(NN)/(DMAX*PORT*TAREA+VOLB+VOLO)
GO TO 525
515 CINEWT(NN)-CIOT(NN)
CCWAT-0.
525 CIOT(NN)-CCWAT*(DMAX*PORT*TAREA)*XDECN
600 POLOUT-(VOLB+VOLO)*CCWAT
C DISTRIBUTE RADIONUCLIDE OUTPUT BETWEEN OVERFLOW AND SEEPAGE
610 VOLS-VOLB+VOLO
IF(VOLS .EQ. 0.) THEN !LC
P0LB(NN)-0.0
POLO(NN)-O.0
ELSE
A-49
-------�
POLB(NN)-POLOUT*VOLB/VOLS
POLO (NN)-POLOUT*VOLO/VOLS
ENDIF
6000 FORMAT(' ','*** ERROR *** - INVALID LEACHING PARAMETER')
RETURN
END
C
C
SUBROUTINE OUT(NYEAR,PC,WDEPTH,VOLO,VOLB)
C
C THIS ROUTINE OUTPUTS AN ANNUAL SUMMARY FOR YEARS
C REQUESTED BY USER INPUT. OUT IS CALLED BY MAIN.
C
C INPUT VARIABLES
C
C NYEAR - CURRENT YEAR OF SIMULATION
C PC FRACTION OF TRENCH CAP THAT HAS FAILED
C WDEPTH - MAXIMUM DEPTH OF WATER IN TRENCH
C
DOUBLE PRECISION NUCLID
COMMON/CNTRL/NONCLD.MAXYR,TITLE(20) .LOCATE(12) ,NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1,IRRES2, LIND,IAVG1,IAVG2,RMECH,RR.,FTHECH,FTRR,
& WWATL, WWATA, WWATH, SWATL, SWATA, SWATH, IVAP, IBSMT, IDISP
COMMON/NUC/NUCLID(40) ,ATMASS(40) ,TRAM(40) ,S0AM(40) ,ATAM(40) ,
& AQAM,STAM(40),P0L0(40),P0LB(40),CS(40),CW(40), !PC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YS0(40),SOAVG(40)tCON(40),
& AQCON(40),STC0N(40),ATCON(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMC(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
COMMON/PCV/SOCON(40)
DATA LU6/6/
WRITE(UJ6,6000)NYEAR
IF (IDISP.GT.I) THEN !LC
WRITE(LU6,6016) VOLB
WRITE(LU6,6023)
ELSE
PER-100.*PC
WRITE(UJ6,6005)PER
WRITE(LU6,6010)WDEPTH
WRITE(LU6.6015)VOLB.VOLO
WRITE(LU6,6020)
ENDIF
DO 10 I-l.NONCLD
READ(33,' (E12.4)' ,REO(I-1)*1000+NYEAR) AQAM [PC/AT
IF (IDISP.LE.l) WRITE(LU6,6025)NUCLID(I),TRAM(I),POLO(I),POLB(I),
& AQAM !PC/AT
IF (IDISP.GT.l) WRITE(LU6,6025)NUCLID(I),TRAM(I),POLB(I),
& AQAM !PC/AT
10 CONTINUE
WRITE(LU6,6030)
A-50
-------�
DO 20 I-l.NONCLD
WRITE(LU6,6025)NUCLID(I),CS(I),CW(I).SSTREM(I),
& SDEEP(I),YSO(I),ATCON(I),AQCON(I),SOCON(I)
20 CONTINUE
RETURN
C FORMAT STATEMENTS
6000 FORMATCl' ,/,20X, 'ANNUAL SUMMARY FOR YEAR ',15,' OF THE ',
& 'SIMULATION')
6005 FORMAT(///' ',10X,'THE TRENCH CAP HAS HAD '.F6.2,
& ' PER CENT FAILURE')
6010 FORMAT(' ',I0X,'THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH ',
& 'DURING THE YEAR IS \F6.2,' METERS')
6015 FORMAT(' ',10X,1PE11.4,' CUBIC METERS OF WATER LEFT BOTTOM',
& ' OF TRENCH',/' ',10X,1PE11.4,' CUBIC METERS OF WATER',
& ' OVERFLOWED TRENCH')
6016 FORMAT(' ',10X,1PEI1.4,' CUBIC METERS OF WATER FLOWED THROUGH'
& ' THE FACILITY DURING THIS YEAR')
6020 FORMAT(/////' ',51X,'NUCLIDE TRANSPORT INFORMATION',
& ///' ',2X,'NUCLIDE',3X,'AMOUNT IN',5X,'FACILITY',
& 5X,'FACILITY*,5X,'AMOUNT AT',/' \12X,'FACILITY',6X,
& 'OVERFLOW',4X,' DRAINAGE ',5X,'WELL',
& /' \L6X.4('CI',11X))
6023 FORMAT(/////' ',51X,'NUCLIDE TRANSPORT INFORMATION',
& ///' ',2X,'NUCLIDE',3X,'AMOUNT IN',5X,'FACILITY',
& 5X, 'AMOUNT AT',/' M2X, 'FACILITY',
& 4X,' OUTFLOW ',5X,'WELL',
& /' ',16X,3('CI',11X))
6025 FORMAT(' ',A8,3X,9(1PEI1.4,2X))
6030 FORMAT(////' ',2X, 'NUCUDE',5X,'SURFACE',5X,'SURFACE',
& 4X,'SOLUBLE TO',3X,'SOLUBLE TO',3X,'ATMOSPHERE',
& 3X,'ATMOSPHERE',3X,'WELL WATER',3X,'SOCON',
& /' ',I3X,'SOIL CONC',3X,'WATER C0NC'(4X,'STREAM',6X,
& 'FACILITY',3X,'AT SPILLAGE',3X,'DOWN WIND',6X,'CONC',
& /' '.7X.2(6X,'CI/M**3'),9X.'CI\11X,'CI\3X,3(5X,'CI/M**3'),
& 8X,'PCI/M**2')
END
C
C
SUBROUTINE SOURCE(NUCL,CFT1,DCFT,FGAM, IRST,PERMT,RTGR,SSAT, .'HUNG
& XRTM.IORG)
C
C THIS SUBROUTINE PERFORMS THE NECESSARY INPUTS TO INITIALIZE
C PARAMETERS AND VARIABLES. SOURCE IS CALLED FROM MAIN.
C
DOUBLE PRECISION NUCLID,NU,NC,DATE,DTIME
COMMON/CNTRL/NONCLD.MAXYR,TITLE(20) .LOCATE(12) .NYR1.NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1,IRRES2, LIND,IAVG1,IAVG2,RMECH,RR,FTMECH,FTRR,
& WWATL,WWATA,WWATH,SWATL,SWATA,SWATH,IVAP,IBSMT,IDISP
COMMON/EVAP/PPN, P, XIRR, XINFL, SI NFL, SMASS, WMASS, WDEEP ! LC
COMMON/TRCH/TAREA,TDEPTH,OVER,PORT,RELFAC,DENCON,OLDWAT,SEEP
COMMON/RLFRC/RELFRC(5),FRTRSH,ITWO
C0MM0N/STREAM/CIAW(40),CIAM(40),CITR(40),CISW(40),CIIS(40)
COMMON/WATER/DTRAQ,DWELL,GWV,XLSAT,STFLOW.AQTHK,AQDISP,
A-51
-------�
& PORA,PORV,PERMV,IAQSTF,CPRJ,VWV,HGRAD,FRACB,ALV,ALH
COMMON/NUC/NUCLID( 40 ),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POL0(40),P0LB(40),CS(40),Ctf(40), 1PC/AT
& SSTREM(40),SDEEP(40),AIRCON(40),YS0(40),SOAVG(40),CON(40),
& AQCON(40),STC0N(40),ATCON(40),AQAVG(40).STAVG(40).
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),S0L(40),
6l FF(40),RA(40)tRW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,PORS,
& BDENS,DUET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,INSITE
COMMON/A1R/CHIQ, FTWIND ,H. HUD, IS, IT, ROUGH, RTPDEX, U, VD, VG, XG
COMMON/IRRFOO/Y1,Y2,TE1,TE2,TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,
& ULEAFY, UPROD. UCMILK, UGMILX, UMEAT, UWAT, UAIR, QFC, QFG, TF1,
& TF2,TS,CU(40) ,CL2(40) ,CP1(40) ,CP2(40) ,CCMI1(40) ,CCMI2(40),
& CGMI1(40) ,CGMI2(40) ,CMEAT(40) ,COU(40) ,C0L2(40) ,C0P1(40) ,
& C0P2(40),C0CMI1(40),C0CMI2(40>,C0GMI1(40),C0GMI2(40),
& C0MEAT(40),QING(40),QINH(40),POP,CSP(40),CSPT(40),CSPO(40),
6 CSPOT(40)
COMMON/FUNC/XAMBWE,TA,TW,FI,PP,WIRATE,QCU,QGW,QBW,AESH,P14
COMMON/PDCF/DCFCTR(40,12,4),DOSDCF,CWATMX(40)
COMMON/RESUS/RES,RE1,RE2.RE3
DIMENSION MONTH(12).DAT(20),NUCL(40,8)
DATA LU5/5/.LU6/6/
OPEN(3,FILE-'CPGFAC.DAT',STATUS-'OLD')
OPEN(5,FILE-'CPG.INP',STATUS-'OLD*)
OPEN(6,FILE-'CPG.OUT',STATUS-'NEW')
WRITE(LU6,1010)
WRITE(LU6,2010)
5 READ(LU5,3000,END-7)DAT
WRITE(LU6,2005)DAT !LC
GO TO 5
7 REWIND LU5
C CONTROL INFORMATION.
READ(LU5,3000)TITLE
READ(LUS,3000)LOCATE
READ(LU5,3010)MAXYR,NONCLD,LEAOPT,NYR1,NYR2,IOPVWV,IOPSAT,
& IPRT1,IPRT2,IDELT,IRRES1,IRRES2,LIND,IAVG1,IAVG2,IDISP
READ(LU5,3010)IVAP,IBSMT,IAQSTF,IRST,ITWO,INSITE,IORG
IF (IDISP.GT.l) IBSTMT - 0
READ(LU5,3005)PCT1,PCT2,WWATL,WWATA,WWATH,SWATL,SWATA,SWATH
IF(IAVG1 .LE. 0)IAVG1-1
IF(IAVG2 .GT. MAXYR)IAVG2-MAXYR
IF(IAVG1 .GT. IAVG2)IAVG1-1
IF(IAVG1 .GT. IAVG2)IAVG2-MAXYR
WRITE(LU6,6000)
WRITE(LU6,6005)TITLE
WRITE(LU6,6008)
WRITE(LU6,6010)LOCATE
GO TO (10,11,12,13), IDISP
10 WRITE(UJ6,5001)
GO TO 19
11 WRITE(LU6,5002)
LEAOPT - 1
GO TO 19
A-52
-------�
12 WRITE(LU6,5003)
LEAOPT - 5
GO TO 19
13 WRITE(LU6,5004)
LEAOPT - 5
19 IF(N0NCLD .LT. 1 .OR. NONCLD .GT. 40) THEN !LC
WRITE(LU6,6015)
STOP
ENDIF
CONTINUE
WRITE(LU6,6020)MAXYR,NONCLD
WRITE(LU6,6025)LEAOPT
IF(NYR1 .LT. NYR2)WRITE(LU6,6030)NYR1,PCT1,PCT2,NYR2
IF(IDISP.EQ.l) WRITE(LIJ6,6040)
IF(IDISP.EQ.l) WRITE(LU6,6050)
WRITE(LU6,6060)LIND
IF(LIND .EQ. 0)WRITE(LU6,6064)
IF(LIND .NE. 0)WRITE(LU6,6066)
WRITE(LU6,6072)WWATL,WWATA,WWATH
WRITE(LU6,6074)SWATL,SWATA,SWATH
IF(IBSHT .GT. 0)WRITE(LU6,6088)IBSMT
C COMMENTS
READ(LU5,3000)
READ(LU5,3000)
READ(UJ5,3000)
READ(LU5,3000)
READ(LU5,3000)
READ(LU5,3000)
READ(LU5,3000)
C TRENCH INFORMATION
READ(UJ5,3005)TAREA,TDEPTH,OVER,PORT,DENCON,RELFAC,CPRJ,SINFL
READ(LU5,3005) SSAT,RESAT
WRITE(LU6,6200)
WRITE(UI6,6205)TAREA,TDEPTH
WRITE(LU6,6210)PORT
WRITE(LU6,6215)SINFL
READ(LU5,3005) PERMT,FACTIM,TMN,CFT1,DCFT,FGAM
C AQUIFER INFORMATION
READ(LU5,3005)DTRAQ,DWELL,GWV,AQTHK,AQDISP,PORA,PORV,PERMV
READ(LU5,3005)VWV,HGRAD,FRACB,ALV,ALH,BDENV
IF (HGRAD.EQ.0.0) HGRAD - 1.0
IF (FRACB.EQ.0.0) FRACB - 1.0
IF (ALV.EQ.0.0) ALV - 0.3
IF (ALH.EQ.0.0) ALH - 0.3
IF (VWV.EQ.0.0) VWV - PERMV*HGRAD/PORV
WRITE(LU6,6300)
WRITE(LU6,6305)GWV
WRITE(LU6,6310)DTRAQ
WRITE(LU6,6315)DWELL
WRITE(LU6,6320)AQTHK,AQDISP
IF (IDISP.EQ.1) WRITE(LU6,6325) PORA,PORV,PERMV
IF (IDISP.NE.1) WRITE(LU6,6326) PORA,PORV,PERMV
WRITE(LU6,6330) ALH
IF (IDISP.GT.1) WRITE(LU6,6340) VWV,HGRAD,FRACB,ALV
A-53
-------�
IF (IDISP.EQ.1) WRITE(LU6,6342) ALV.FRACB
IF (IDISP.GT.1) WRITE(LU6,6343) BDENV
ATMOSPHERIC INFORMATION
READ(LU5 ,3005) H. VG, U. VD, XG. HUD, ROUGH
READ(LU5,3005)FTWIND,CHIQ,RE1,RE2,RE3,RMECH,FTMECH
READ(LU5,30U)RR,FTRR,IT,IS
WRITE(LU6,6400)
WRITE(LU6,6405)H
WRITE(IU6,6410) VG
WR1TE(LU6,6415)U
WRITE(UJ6,6420)VD
WRITE(LD6,6425)XG
WRITE(UJ6,6435)HLID
WRITE(UJ6,6440)ROUGH
WRITE(UJ6,6445)IT,IS
WRITE(LU6,6450)FTWIND
IF(CHIQ .LT. 0.0)WRITE(LU6,6470)
IF(CHIQ .GE. 1.0E-10)WRITE(LU6,6460)CHIQ
WRITE(LU6,6480)RE1,RE2,RE3
WRITE(LU6,6055)IRRES1,IRRES2,RMECH,FTMECH
WRITE(LU6,6057)RR,FTRR
SURFACE INFORMATION
READ(LU5,3005)RAINF,ERQDF,STPLNC,COVER,CONTRL,SEDELR
READ(LU5,3005)PORS,BDENS,STFLOW,EXTENT.ADEPTH
READ(LU5,3005)PP.PPN,RUNOFF.SEEP
RTPDEX-SQRT(PD*EXTENT)
IF (BDENV.EQ.0.0) BDENV - BDENS
WRITE(LU6,6500)
WRITE(LU6,6505)RAINF.ERODF,STPLNG,COVER,CONTRL,SEDELR
WRITE(LU6,6510)PORS.BDENS
WRITE(IU6,6515)RUNOFF
IF (SEEP.NE.0.0) WRITE(LU6,6525) SEEP,PPN
WRITE(LU6,65203STFLOW,EXTENT.ADEPTH,PD
AIR-POODCHAIN INFORMATION
WRITE(LU6,7800)
READ(LU5,3005)Y1,Y2,PP.XAMBWE.TA,TE1,TE2
READ(LU5,3005)TH1,TH2,TH3,TH4,TH5,TH6,FP,FS
READ(LU5.3005)QFC,QFG,TF1,TF2,TS,ABSH,P14
READ(UJ5,3005) XRTM.RTGR
WRITE(LU6,7805)Y1,Y2.PP,XAMBWE.TE1.TE2
WRITE(LU6,7815)TH1,TH2,TH3,TH4,TH5,TH6,FP,FS,QFC
WRITE(LU6,7825)QFG,TF1,TF2,TS, ABSH,P14
• WATER-FOODCHAIN INFORMATION
WRITE(LU6,7900)
READ(LU5,3005)TW,FI,WIRATE,QCW,QGW,QBW
WRITE(LU6,7905)FI.WIRATE,QCW,QGW,QBW
- HUMAN INGESTION AND INHALATION INFORMATION
READ (LU5,3005 )ULEAFY, UPROD, UCMILK, UGMILK, UMEAT, UWAT, UAIR, POP
WRITE(LU6,6905)
WRITE ( LU6,6910 )ULEAFY, UPROD, UCMILK, UGMILK, UMEAT, UWAT, UAIR, POP
- NUCLIDE INFORMATION
WRITE(LU6,7000)
SMASS-1000.*BDENS*EXTENT*PD*ADEPTH
WMASS-1000.*PORS*EXTENT*PD*ADEPTH
A-54
-------�
WDEEP-SINFL*EXTENT*PD
READ(LU5,3005) RELFRC(l),RELFRC(2),RELFRC(3),RELFRC(4),RELFRC(5),
& FTRAB,FRTRSH
READ(LU5,3005) SPLAW,SPLAM,SPLTR,SPLSV,SPLIS
DO 1776 I - 1,NONCLD
READ(LU5,3012)NUCLID(I),(NUCL(I,K),K-1,8),CIAW(I),CIAM(I),
& CITR(I),CISW(I),CIIS(I)
SOAM(I) - SPLAW*CIAW(I) + SPLAM*CIAM(I) + SPLTR*CITR(I) +
& SPLSW*CISW(I) ~ SPLIS*CIIS(I)
CIAV(I) - CIAW(I) + FTRAB*CITR(I)
CITR(I) - CITR(I)*(1.0-FTRAB)
1776 CONTINUE
DO 40 1-1,NONCLD
READ(LU5,3012)NUCLID(I),(NUCL(l.K),K-lt8),DUMKY1,
& DUMMY2,STAM(I),ATAM(I),DECAY(I),SOL(I),CON(I)
READ(LU5,3015)NU,(XKD(K,I),K-l,4)
READ(LU5,3015)NC,RA(I),RW(I),BV(I),BR(I),FMC(I),FMG(I),FF(1)
D1R-DECAY(I)
FNCL-(EXP(D1R)-1.0)/D1R
IF(FACTIM .GT. 0.) FNCL-FNCL*(1.-EXP(-D1R*FACT1M))/(D1R*FACT1M)
FNCb-FNCL*EXP(-D1R*TMN)
IF(D1R.LT.0.001) FNCL - 1.0
CIAW(I)-C1AW(I)*FNCL
CIAM(I)-C1AM(I)*FNCL
CITR(I)-C1TR(I)*FNCL
CISW(I)-CISW(I)*FNCL
CIIS(I)-CIIS(I)*FNCL
TRAM(I)-C1AW(I)+C1AM(1)+CITR(I)+CISW(1)+C11S(I)
CW(I)-1000.*S0AM(I)/(XKD(1,I)*SMASS+WMASS)
CS(I)-CW(I)*XKD(l,I)*1.0E-3
VRITE(III6,7005)NDCL1D(I),TRAM(I),SOAM(I),STAM(I).ATAM(I),
& DECAY(I),SOL(I),FNCL
40 CONTINUE
DO 35 1-1,NONCLD'
DO 35 K-l,12
READ(3,3025) NUCLID(I),(DCFCTR(I,K,L),1^1,4)
35 CONTINUE
WRITE(LU6,7010)
DO 50 1-1,NONCLD
WRITE(LU6,7807 )NUCUD(I). (XKD(K, I) , K-l,4)
50 CONTINUE
WRITE(LU6,1066) RELFRC(1).RELFRC(2).RELFRC(3),RELFRC(4),RELFRC(5)
WRITE(LU6,1067)
DO 1068 I - 1,NONCLD
WRITECLU6.7807) NUCLIDCI).CIAW(I),CIAM(I).CITR(I).CISW(I),CIIS(I)
1068 CONTINUE
WRITE(LU6,7806)
DO 70 1-1,NONCLD
WRITE(LU6,7807)NUCLID(I),RA(I),RW(I),BV(I),BR(I),FMC(I),
1 FMG(I),FF(I)
70 CONTINUE
RETURN
C FORMAT STATEMENTS
A-55
-------�
1010 FORMATC 1\47X/** PRESTO-EPA-CPG -- PC/AT VERSION **',///) ! PC/AT
1066 FORMAT(///' '/ABSORBING MATERIAL RELEASE FRACTION : '.1PE11.2
& ,// ' /ACTIVATED METAL RELEASE FRACTION : \1PE11.2
& ,// '/TRASH RELEASE FRACTION : \1PE11.2
& ,// '/SOLIDIFIED WASTE RELEASE FRACTION : ' .1PE11.2
& ','INCIN./SOLID. WASTE RELEASE FRACTION : '.1PE11.2)
1067 F0RMAT(///' ',30X,'WASTE STREAM INVENTORIES',//.
&' NUCLIDE ABS.MATL. ACT.METAL TRASH SOLIDIFIED
&' INCIN./SOLID ',//)
2005 FORMAT(' ',20A4)
2010 FORMAT(5X,'** INPUT DATA AS READ IN **',//) !PC/AT
3000 FORMAT(20A4)
300S FORMAT(8F10.0)
3010 F0RMAT(16I5)
3011 FORMAT(2F10.0,215)
3012 FORMAT(A8,Tl,8Al,2X,7F10.0)
3015 F0RMAT(A8,2X,7F10.0)
3025 FORMAT(A8,3X,4(1PE11.4, 2X))
5001 FORMAT(' '.10X/THE MODE OF DISPOSAL IS SHALLOW LAND BURIAL')
5002 FORMAT (' '.10X/THE MODE OF DISPOSAL IS DEEP WELL INJECTION')
5003 FORMAT(' '.10X/THE MODE OF DISPOSAL IS HYDROFRACTURE')
5004 FORMATC '.10X/THE MODE OF DISPOSAL IS DEEP GEOLOGICAL DISPOSAL')
6000 FORMAT(' 1' , 25X,' PRESTO - A MODEL FOR PREDICTING THE',
& ' MAXIMUM INDIVIDUAL DOSE AS A RESULT OF THE',
& /' ',34X,' MIGRATION OF RADIONUCLIDES ',
& 'FROM LOW-LEVEL RADIOACTIVE WASTE DISPOSAL SITES')
6002 FORMATCO'.40X/THIS RUN WAS MADE AT \A8,' ON ' ,A8)
6005 FORMATCO',2(/' \20X.20A4))
6008 PORMAT(///' ' ,5X/*** CONTROL INFORMATION ***')
6010 FORMATCO',10X/THE BURIAL SITE IS LOCATED AT '.12A4)
6015 FORMATCO'/*** ERROR :*** INVALID NUMBER OF NUCLIDES')
6020 FORMATC '.10X/THE SIMULATION WILL RUN FOR' ,15/ YEARS AND',
& ' WILL INCLUDE', 13/ NUCLIDES')
6025 FORMATC ', 10X,'LEACHING OPTION NUMBER', 12/ WILL BE USED')
6030 FORMATC '.lOX/IN YEAR',14/ / ,F4.2/ OF THE CAP WILL BE',
& ' ASSUMED TO FAIL',/' '.15X/THIS WILL CONTINUE',
& ' UNTIL ' , F4.2 / HAS FAILED IN YEAR ' , 14,
& /' '.10X/CAP MAY ALSO FAIL BY SURFACE EROSION')
6040 FORMATC ' ,10X/PERMEABILITY WILL BE USED FOR MINIMUM',
& ' VERTICAL WATER VELOCITY')
6050 FORMATC ',10X,'LENGTH OF VERTICAL SATURATED ZONE WILL BE',
& ' SET TO THE TRENCH TO AQUIFER DISTANCE')
6055 FORMATC ' ,10X/FROM YEAR ',14/ TO YEAR ',14,
& ' THE RESUSPENSION RATE DUE TO MECHANICAL DISTURBANCES',
& ' WILL BE '.1PE11.4,/' ',15X,'THIS WILL OCCUR DURING ',
& 0PF6.3/ OF EACH YEAR')
6057 FORMATC ' .10X/DUST LOADING FOR ON-SITE RECLAIMER WILL BE ' ,
& 1PE11.4,/' ',15X,'THIS WILL OCCUR DURING '.0PF6.3,
& ' OF THE YEAR')
6060 FORMATC ' ,10X/POPULATION INDICATOR IS ',12)
6064 FORMATC ' ,15X, 'MAXIMUM INDIVIDUAL EXPOSURE WILL BE USED' ,
& ' TO CALCULATE HEALTH EFFECTS')
A-56
-------�
6066 FORMAT(' ',15X,'GENERAL POPULATION EXPOSURE WILL BE USED',
& ' TO CALCULATE HEALTH EFFECTS')
6070 FORMAT(' ',10X,'THE POPULATION WILL BE EXPOSED TO CONTAMINATED \
& 'MATERIALS FROM YEAR ',13,' TO *,14)
6072 FORMAT(' \10X,F6.3,' OF IRRIGATION WATER WILL BE GOTTEN FROM
& 'WELL',
& /' '.10X.F6.3,' OF DRINKING WATER FOR ANIMALS WILL BE' ,
& ' GOTTEN FROM WELL',
& /' ',I0X,F6.3,' OF DRINKING WATER FOR HUMANS WILL',
& ' BE GOTTEN FROM WELL')
6074 FORMAT(' '.10X.F6.3,' OF IRRIGATION WATER WILL BE GOTTEN FROM
& 'STREAM',
& /' ',10X.F6.3,' OF DRINKING WATER FOR ANIMALS WILL BE 1,
& 'GOTTEN FROM STREAM',
& /' '.I0X.F6.3,' OF DRINKING WATER FOR HUMANS WILL',
& ' BE GOTTEN FROM STREAM')
6088 FORMAT(' ',10X,'BEGINNING IN YEAR ',14,PEOPLE WILL LIVE ',
& 'IN THE BASEMENT')
6200 FORMAT('l',5X,'*** FACILITY INFORMATION +**')
6205 FORMAT(//' ',10X,'THE FACILITY HAS AN AREA OF ',
& Ell.4,' SQUARE METERS AND A DEPTH OF ',
& Ell.4,' METERS')
6210 FORMAT(' 'f10X,'WASTE/BACKFILL POROSITY IS \F8.2)
6215 FORMAT(' ',10X,'ANNUAL INFILTRATION FOR THE WATERSHED IS',
& F7.4,' METERS')
6300 FORMAT(//' \5X,'*** AQUIFER INFORMATION ***')
6305 FORMAT(//' \10X, 'GROUNDWATER VELOCITY IS \F10.3,
' METERS PER YEAR')
10X,'WASTE-TO-AQUIFER DISTANCE IS \F6.1,' METERS')
10X,'DISTANCE TO WELL IS ',F8.2,' METERS')
10X,'AQUIFER THICKNESS IS ',F8.2,' METERS',
10X,'AQUIFER DISPERSION ANGLE IS ',F8.4,' RADIANS')
10X,'POROSITY OF AQUIFER REGION IS ',F8.5,
10X,'POROSITY BENEATH TRENCH IS \F8.5,
10X,'PERMEABILITY BENEATH TRENCH IS ',1PE8.2,
' METERS/YEAR')
10X,'POROSITY OF AQUIFER REGION IS ',F8.5,
10X,'POROSITY OF CONFINING STRATUM IS \F8.5,
10X,'PERMEABILITY OF CONFINING STRATUM IS ',1PE8.2,
' METERS/YEAR')
10X,'AQUIFER DISPERSIVITY IS ',F7.3,' METERS')
10X,'WATER VELOCITY IN CONFINING STRATUM IS ',
F10.3,' METERS/YEAR',
10X,'HYDRAULIC GRADIENT IS \F6.2,
10X, 'FRACTION OF WASTE IMPACTED IS \F6.2,
10X,'DISPERSIVITY IN CONFINING STRATUM IS ',
F7 .3,' METERS')
lOX.'THE DISPERSIVITY IN THE CONFINING STRATUM IS
F7.3,' METERS',
10X.'FRACTION OF ABSORBING MATERIAL IS '.F6.2)
10X,'THE DENSITY OF THE CONFINING STRATUM IS ',
F7 .3,' G/CC')
6400 FORMAT(//'1',5X,'*** ATMOSPHERIC INFORMATION ***')
6405 FORMAT(//' '.10X,'SOURCE HEIGHT IS \F6.1,' METERS')
6310 FORMAT('
6315 FORMAT('
6320 FORMAT('
& /'
6325 FORMAT('
& /'
& /'
6c
6326 FORMAT('
& /'
& /'
&
6330 FORMAT('
6340 FORMAT('
&
& /'
& /'
& /'
&
6342 FORMAT('
6i
& /'
6343 FORMAT('
6c
A-57
-------�
6410 FORMAT(' 10X,'VELOCITY OF GRAVITATIONAL FALL IS *,
U F7.3,' METERS/SECOND')
6425 FORMAT(' ',10X,'GAUGE DISTANCE FROM SOURCE IS ',F8.2,' METERS')
6420 FORMAT(' ',10X,'DEPOSITION VELOCITY IS '.F6.2,' METERS/SECOND')
6415 FORMAT(' ',10X,'WIND VELOCITY IS ',F7.3,' METERS/SECOND')
6435 FORMAT(' '.lOX.'UD HEIGHT IS \F8.2,' METERS')
6440 FORMATC ',10X,'HOSKER ROUGHNESS FACTOR IS *,F7.3)
6445 FORMAT(' ',10X,'TYPE OF STABILITY FORMULATION IS ',12,
& /' ',I0X,'STABILITY CLASS IS ',12)
6450 FORMAT(' ' ,10X, 'FRACTION OF TIME WIND BLOWS TOWARD POPULATION IS ,
& F10.6) ,
6460 FORMAT(' ',10X,'NORMALIZED DOWN WIND ATMOSPHERIC EXPOSURE PER
& 'UNIT SOURCE AREA IS '.1PE11.4,' CI/M**3 PER CI/SEC')
6470 FORMAT(' ',10X,'NORMALIZED DOWN WIND ATMOSPHERIC EXPOSURE PER
& 'UNIT SOURCE AREA WILL BE CALCULATED INTERNALLY')
6480 FORMAT(' '.10X,'RESUSPENSION FACTOR PARAMETERS ',3(5X,E11.4))
6500 FORMAT(//' ',5X,'*** SURFACE INFORMATION ***')
6505 FORMAT(//' ', 10X,' PARAMETERS FOR UNIVERSAL LOSS EQUATION',
& /' '.15X,'RAINFALL \F8.2.
& /' ' ,15X,'ER0DIBIUTY ' ,F8.2,
& /• ',15X,'STEEPNESS-SLOPE',F8.2,
& /' '.15X,'COVER '.F8.2,
6i /' ' , 15X,' EROSION CONTROL', F8.2,
& /' ',15X,'DELIVERY RATIO '.F8.2)
6510 FORMAT(' '.lOX.'SOIL POROSITY IS ',F8.5,
& /' ' ,10X,'SOIL BULK DENSITY IS \F8.5,' G/CC')
6515 FORMATC ',10X,'RUNOFF FRACTION IS ',F8.5)
6520 FORMAT(/' ' ,10X, vt?ad,
& 10X,'STREAM FLOW RATE IS '.1PE11.4,' CUBIC METERS PER YEAR ,
& /' ',10X,'CROSS SLOPE EXTENT OF SPILLAGE IS ',0PF8.2,' METERS'
& /' ' ,10X, 'ACTIVE SOIL DEPTH IS \F8.2,' METERS',
& /' ',10X,'AVERAGE DOWN SLOPE DISTANCE TO STREAM IS ',F8.2,
& ' METERS')
6525 FORMATC ',10X,'THE DEEP INFILTRATION FRACTION IS ',F8.5,
& /' ',10X,'THE INPUT ANNUAL PRECIPITATION IS '.F8.5)
7800 FORMAT('1',5X,'*** AIR-FOODCHAIN INFORMATION *++')
7805 FORMAT(/' ',10X,'AGRICULTURAL PRODUCTIVITY FOR GRASS',F10.2,
& ' KG/M**2',
& /' ',10X,'AGRICULTURAL PRODUCTIVITY FOR VEGETATION',
& F10.2,' KG/M**2\
& /' ',10X,'SURFACE DENSITY FOR SOIL ',F10.2,' KG/M**2',
& /' ',10X,'WEATHER DECAY CONSTANT',F10.4,' I/HOURS',
& /' ',10X,'PERIOD PASTURE GRASS EXPOSURE GROWING SEASON',
& 'F10!2,' HOURS',
& /' ',10X,'PERIOD CROP/VEGETATION EXPOSURE GROWING SEASON',
& F10.2,' HOURS')
7815 FORMATC ',10X,'PERIOD BETWEEN HARVEST PASTURE GRASS AND',
& ' INGESTION BY ANIMAL',F10.2,' HOURS',
& /' ',10X,'PERIOD BETWEEN STORED FEED AND INGESTION',
& '• BY ANIMAL'.F10.2,' HOURS',
& /' ',10X,'PERIOD BETWEEN HARVEST LEAFY VEGETABLES AND',
A-58
!PC/AT
!PC/AT
!PC/AT
-------�
& ' INGESTION BY MAN(M.I.E.)',F10.2,' HOURS',
& /' ',10X,'PERIOD BETWEEN HARVEST PRODUCE AND INGESTION BY',
& ' MAN(M.I.E.)',F10.2,' HOURS',
& /' ',I0X,'PERIOD BETWEEN HARVEST LEAFY VEG ',
& 'AND INGESTION BY MAN(G.P.E.)',F10.2,' HOURS',
& /' ',I0X,'PERIOD BETWEEN HARVEST PRODUCE',
& ' AND INGESTION BY MAN(G.P.E.)'.F10.2,' HOURS',
& /' MOX,'FRACTION OF YEAR ANIMALS GRAZE ON PASTURE',F10.2
& /' '.10X,'FRACTION OF DAILY FEED THAT IS FRESH GRASS'.F10.2,
& /' MOX,'AMOUNT OF FEED CONSUMED BY CATTLE',F10.2,' KG')
7825 FORMAT(' ',10X,'AMOUNT OF FEED CONSUMED BY GOATS',F10.2,' KG',
& /'MOX, 'TRANSPORT TIME FEED-MILL-RECEPTOR FOR M.I.E.',
& F10.2,' HOURS',
& /'MOX, 'TRANSPORT TIME FEED-MILL-RECEPTOR FOR G.P.E.' ,
& F10.2,' HOURS',
& /' MOX,'TIME FROM SLAUGHTER OF MEAT TO CONSUMPTION'.FIO. 2,
& ' HOURS',
& /' ',10X,'ABSOLUTE HUMIDITY OF THE ATMOSPHERE'.FIO.2,
& ' G/M**3',
& /' MOX,'FRACTIONAL EQUILIBRIUM RATIO FOR C-14' .F10.2)
7900 FORMAT('1',5X,'*** WATER-FOODCHAIN INFORMATION ***')
7905 FORMAT(///' ',10X,'FRACTION OF YEAR CROPS ARE IRRIGATED',FIO.2,
& /' ',10X,'IRRIGATION RATE \F10.3,' L/(M**2-H)\
& /' MOX,'AMOUNT OF WATER CONSUMED BY COWS \F10.2,' L/D',
& /' MOX,'AMOUNT OF WATER CONSUMED BY GOATS \F10.2,' L/D',
& /' ',10X,'AMOUNT OF WATER CONSUMED BY BEEF CATTLE ',F10.2,
& ' L/D')
6905 FORMAT(///' ',5X,**** HUMAN INGESTION AND INHALATION RATE',
& ' INFORMATION ***')
6910 FORMAT(/' ',10X,'ANNUAL INTAKE OF LEAFY VEG \F8.2,
& ' KILOGRAMS PER YEAR',
& /' MOX, 'ANNUAL INTAKE OF PRODUCE ' ,F8.2,
& ' KILOGRAMS PER YEAR',
& /' MOX,'ANNUAL INTAKE OF COW'S MILK \F8.2,
& ' LITERS PER YEAR',
& /' MOX,'ANNUAL INTAKE OF GOAT"S MILK',F8.2,
& ' LITERS PER YEAR',
& /' MOX,'ANNUAL INTAKE OF MEAT \F8.2,' KILOGRAMS PER YEAR'
& /' MOX,'ANNUAL INTAKE OF DRINKING WATER',F8.2,
& ' LITERS PER YEAR',
& /' MOX,'ANNUAL INHALATION RATE OF AIR \F8.2,
& ' CUBIC METERS PER YEAR',/' ',10X,'A POPULATION OF ',
& FIO.0,' WILL BE CONSIDERED')
7005 FORMAT(' ',A8,3X,9(1PEI1.4,2X))
7000 FORMATCl' ,5X, '*** NUCLIDE INFORMATION ***' ,
& //' ',50X,'INFORMATION ON INDIVIDUAL NUCLIDES',
& //' ','NUCLIDE',3X,'AMT IN WASTE ',3X,'SPILLAGE',4X,
& 'STREAM AMT ',2X,'AMT IN AIR',2X,'DECAY CONST',
& 2X,'SOLUBILITY CONST',2X,'OPERATIONS DECAY FACTOR',
& /' ' ,3X,4(12X,'CI'),8X,'1/YM1X.'G/ML')
7010 FORMAT(////' ',25X,'DISTRIBUTION COEFFICIENTS ML/G',
& //' ','NUCLIDE',6X,'SURFACE',6X,'WASTE ',6X,'VERTICAL',
& 5X,'AQUIFER'/)
7807 FORMAT(' ',A8,1X,9(1PE11.2,2X))
A-59
-------�
END
C
C !LC
SUBROUTINE SURSOL(II,VOLO)
c CALCULATES THE AMOUNT OF SOLUBLE S™TACf
C ENTERS THE STREAM AND TRENCH ANNUALLY. SURSOL IS CALLED BY MAIN.
C
C INPUT VARIABLES
C ADEPTH - SOIL DEPTH OF ACTIVE EXCHANGE
C XINFL - AVERAGE ANNUAL INFILTRATION
C RUNOFF - FRACTION OF NET INPUT GOING TO STREAM
c PD DOWNSLOPE DISTANCE TO STREAM
C BDENS - BULK DENSITY OF SOIL
C EXTENT - CROSS SLOPE EXTENT OF SPILLAGE
C SOAM - AMOUNT OF SPILLAGE
C XKD CHEMICAL EXCHANGE COEFFICIENT
C
C INTERMEDIATE VARIABLES
C
C SMASS - SOIL MASS
C WMASS - WATER MASS
C
C OUTPUT VARIABLES
C SSTREM - AMOUNT OF NUCLIDE GOING TO STREAM
C SDEEP ¦ AMOUNT OF NUCLIDE GOING TO TRENCH
C CV NUCLIDE CONCENTRATION IN WATER
C CS NUCLIDE CONCENTRATION IN SURFACE SOIL
DOUBLE PRECISION NUCLID iLC
COMMON/EVAP/PPN,P.XIRR.XINFL.SINFL,^
C0MM0N/NUC/NUCLID(40) ,ATMASS(40) ) ' , PC/AT
6, AQAM,STAM(40),POL0(40)1POLB(40),CS(40),CW(4O),
SSTREM(40),SDEEP(40),AIRCON(40),YSO(40),S0AVG(40),CON(40),
AQC0N(40)PSTCON(40),ATCON(40),AQAVG(40),STAVG(40),
ATAVG(40) FMC(40),FMG(40),DECAY(40),XKD(4,40),SOL(40),
FF(40),RA(40),RW(40),BV(40),BR(40),DERATE(40),CWAT(40)
COMMON/LAND/RAINF, ERODF, STPLNG, COVER' S^oF^ BI^ ^AT
PORS,BDENS,DWET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT.
&
&
&
&
&
& INSITE
WSTREM-RUNOFF* ( PPN*EXTENT*PD+VOLO )
SUAM-CS (II) *SMASS+CW (II) *WMASS/1. 0E3
WMASS2-1000.*(P0RS*EXTENT*PD*ADEPTH+WDEEP+WSTREM)
r COMPUTE NUCLIDE CONCENTRATION PER CUBIC METER OF WATER
CW(II)-1000.*SUAM/(XKD(1,II)*SMASS+WMASS2)
c COMPUTE NUCLIDE CONCENTRATION PER KG OF SOIL
CS(II)-CW(II)*XKD(l,II)*1.0E-3
A-60
-------�
SSTREM(II)-WSTREM*CW(II)
SDEEP(II)-WDEEP*CW(II)
RETURN
END
C
C
SUBROUTINE SUSPND(IYR,II,GNDCON)
C
C COMPUTES AIR CONCENTRATION AND ATMOSPHERIC SOURCE TERM AT SPILLAGE
C AREA. CALLED ANNUALLY BY MAIN.
C
C INPUT VARIABLES
C
C IYR
C II
C SAREA
C GNDCON
C IRRES1
C IRRES2
C RMECH
C FTMECH
C RR
C FTRR
C U
C
C INTERMEDIATE VARIABLES
C
C RE RESUSPENSION FACTOR
C YSOl - NORMAL CONTRIBUTION TO ATMOSPHERIC SOURCE
C YS02 - CONTRIBUTION TO ATMOSPHERIC SOURCE FROM MECHANICAL
C DISTURBANCE
C
C OUTPUT VARIABLES
C
C AIRCON- AIR CONCENTRATION AT SPILLAGE AREA
C YSO - ATMOSPHERIC SOURCE AMOUNT AT SPILLAGE AREA
C
C ASSUME ALL RADIONUCLIDES DEPOSITED ON SOIL SURFACE AT TIME ZERO.
C
DOUBLE PRECISION NUCLID
COMMON/CNTRL/NONCLD.MAXYR,TITLE(20),LOCATE(12),NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOPVWV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES 1,IRRES2,LIND,IAVG1,IAVG2, RMECH, RR, FTMECH, FTRR,
& WWATL,WWATA,WWATH,SWATL,SWATA,SWATH,IVAP,IBSMT,IDISP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO (40),POLB(40),CS(40),CW(40), JPC/AT
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),S0AVG(40),CON(40),
& AQCON(40),STCON(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40),FMC(40),FMG(40),DECAY(40),XKD(4,40),SOL(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CWAT(40)
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,
& PORS,BDENS,DWET,EXTENT,ADEPTH,PD,RUNOFF,BDENV,RESAT,
& INSITE
- CURRENT YEAR OF SIMULATION
- CURRENT NUCLIDE
- AREA COVERED BY SPILLAGE
- GROUND CONCENTRATION
. FIRST YEAR OF MECHANICAL RESUSPENSION RATE
- LAST YEAR OF MECHANICAL RESUSPENSION RATE
- RESUSPENSION RATE DURING MECHANICAL DISTURBANCE (SEC**-1)
- FRACTION OF YEAR FOR MECHANICAL DISTURBANCE
. DUST LOADING FOR ONSITE RECLAIMER (GM/M3)
- FRACTION OF YEAR ONSITE RECLAIMER IS EXPOSED TO DUST
- WIND VELOCITY
A-61
-------�
COMMON/AIR/CHIQ,FTWIND,H,HLID,IS,IT,ROUGH,RTPDEX,U,
& VD,VG,XG
COMMON/RESUS/RES,RE1,RE2,RE3
!PC/AT
IF(INSITE .EQ. I .AND. IRRES1 .LT. IYR) GO TO 11
C RESUSPENSION FACTOR (RE) BY ANSPAUGH WAS CALCULATED IN SOURCE
AIRCON(II)-RES*GNDCON
IF (IYR.EQ.l) AIRCON(II)-AlRCON(II)+ATAM(II)
F-RTPDEX*VG/U !LC
IF(F .CT. 1.) F-1.0
YSOl-AIRCON(II)*U*RTPDEX*F !LC
C THE FOLLOWING IS FOR RESUSPENSION DUE TO MECHANICAL DISTURBANCES.
YS02-0.
IF((IYR .GE. IRRES1) .AND. (IYR ,LE. IRRES2))
& YS02-PD*EXTENT*GNDC0N*RMECH*FIMECH !LC
YS0(II)-(YS01+YS02)
RETURN
11 YSO(II)-GNDCON*RR*FTRR*.001 !LC
RETURN
END
C
C
SUBROUTINE TRENCH(NYEAR,VOLB,VOLO,DMAX,PC,TINFL)
C
C THIS SUBROUTINE MAINTAINS A TRENCH WATER BALANCE. WATER ENTERS
C THE TRENCH IN THE FORM OF PRECIPITATION AND EXITS FROM THE
C BOTTOM IF POSSIBLE. IF MORE WATER ENTERS THE TRENCH THAN CAN
C EXIT FROM THE BOTTOM THE TRENCH MAY OVERFLOW.
C
C INPUT VARIABLES
C
C TDEPTH
C TAREA
C PORT
C OLDWAT
C XLSAT
C PPN
C XINFL
C NYEAR
C
C OUTPUT VARIABLES
C
C DMAX - MAXIMUM DEPTH OF WATER IN TRENCH
C OLDWAT - VOLUME OF WATER IN TRENCH AT END OF YEAR
C VOLO - VOLUME OF WATER OVERFLOWING TRENCH
C VOLB - VOLUME OF WATER GOING OUT BOTTOM OF TRENCH
C
C INTERMEDIATE VARIABLES
C
C WDEPTH - DEPTH OF WATER IN TRENCH
C NEWWAT - VOLUME OF WATER ENTERING TRENCH
C PC FRACTION OF TRENCH CAP THAT HAS FAILED
C
REAL NEWWAT
- TRENCH DEPTH
- TRENCH AREA
- POROSITY OF TRENCH MATERIAL
- VOLUME OF WATER IN TRENCH FROM PREVIOUS YR
- LENGTH OF SATURATED ZONE
- ANNUAL PRECIPITATION
- ANNUAL INFILTRATION
- CURRENT YEAR OF SIMULATION
A-62
-------�
COMMON/EVAP/PPN, P, XIRR, XINFL, SI NFL, SMASS ,WMASS, WDEEP ! LC
COMMON/TRCH/TAREA, TDEPTH, OVER, PORT, RELFAC, DENCON, OLDWAT, SEEP
COMMON/WATER/DTRAQ, DWELL, GWV, XLSAT, STFLOW, AQTHK, AQDISP,
& PORA, PORV, PERMV, IAQSTF, CPRJ , VWV, HGRAD, FRACB, ALV, ALH
COMMON/LAND/RAINF,ERODF,STPLNG,COVER,CONTRL,SEDELR,SOILOS,
& PORS,BDENS,DWET,EXTENT,ADEPTH,PD.RUNOFF,BDENV,RESAT,
& INSITE
VOLBT-O.
VOLOT-O.
PC-CAP (NYEAR)
DELT-0.1
DO 30 1-1,10
NEWWAT-TAREA*(PC*(PPN+XIRR)+(1.-PC)*XINFL)*DELT
TINFL-NEWWAT/TAREA
oldwat-oldwat+newwat
WDEPTH-OLDWAT/(P0RT*TAREA)
DMAX-UDEPTH
1F(WDEPTH .GT. TDEPTH)WDEPTH-TDEPTH+(WDEPTH-TDEPTH)*PORT
VOLO-O.
IF(WDEPTH .GT. TDEPTH) VOLO-(WDEPTH-TDEPTH)*TAREA
VOLB-O.
IF(WDEPTH .CE. l.E-7) VOLB-(WDEPTH+XLSAT)*PERMV*TAREA/XLSAT*DELT !LC
RAE0286
IF(VOLB .GT. OLDWAT-VOLO) VOLB-OLDWAT-VOLO
OLDWAT-OLDWAT-VOLO •VOLB
IF(OLDWAT .LT. 0.)OLDWAT-0.
VOLOT-VOLOT+VOLO
VOLBT-VOLBT+VOLB
30 CONTINUE
VOLO-VOLOT
VOLB-VOLBT
TINFL-TINFL/DELT
RETURN
END
C
C
SUBROUTINE VERHOR(II,NYEAR,ITIME,DDETA)
C
C THIS ROUTINE CALCULATES AND DECAYS THE AMOUNT OF RADIOACTIVE
C MATERIAL THAT WILL REACH THE WELL IN A GIVEN YEAR. VERHOR IS
C CALLED FROM MAIN.
C
C INPUT VARIABLES
C
C II
C NYEAR
C ITIME
C VOLB
C POLB
C DECAY
C
C OUTPUT VARIABLES
C
C AQAM - AMOUNT OF NUCLIDE AT WELL SITE
- NUCLIDE NUMBER
- CURRENT YEAR OF SIMULATION
- TRANSIT TIME FROM TRENCH TO WELL
- VOLUME OF WATER LEAVING TRENCH
- AMOUNT OF NUCLIDE LEAVING BOTTOM OF TRENCH
- RADIOACTIVE DECAY CONSTANT
A-63
-------�
DOUBLE PRECISION NUCLID
COMMON/CNTRL/NONCLD.MAXYR,TITLE(20),L0CATE(12), NYR1.NYR2,
& PCTl.PCT2. LEAOPT.IOPVWV,IOPSAT,IPRT1.IPRT2.IDELT,
& IRRESl,IRRES2, LIND,IAVG1,IAVG2,RMECH,RR,FTMECH,FTRR,
& WWATL, WWATA, WWATH, SUATL, SWATA, SWATH. IVAP, IBSMT, IDISP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),SOAM(40),ATAM(40),
& AQAM,STAM(40),POLO (40),POLB(40),CS(40),CW(40),
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),S0AVG(40),C0N(40),
& AQCON(40),STC0N(40),ATC0N(40),AQAVG(40),STAVG(40),
& ATAVG(40),FWC(40),IMG(40),DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CtfAT(40)
DIMENSION ITIME(40),DDETA(40)
C CALCULATE CORRECT POSITION IN ARRAY AND DECAY THE MATERIAL FOR THE
C PERIOD OF TIME MATERIAL IS IN TRANSIT FROM TRENCH TO WELL.
IF(IOPSAT .GT. 0) GO TO 21
ITMP-ITIME(II)
IF((NYEAR+ITMP) .LE. MAXYR .AND. ITMP .GE. 0) THEN
AQAM-EXP(-DECAY(II)*ITIME(II))*(POLB(II)+
& SDEEP(II))*DDETA(II)
WRITE(33,' (E12.4)' ,REO(II-1)*1000+NYEAR+ITIME(II)) AQAM
ENDIF
RETURN
21 DTIME-CON(II)
DO 20 N-1,9
FN-FLOAT(N)-5.
NTIME-NYEAR+ITIME (II)+FN*DTIME+0.5
IF(NTIME .GT. 1000 .OR. NTIME .LE. 0) GO TO 20
READ(33,' (E12.4) ' ,REO(II-1)*1000+NTIME) AQAM
AQAM-AQAM+EXP(-DECAY(II)*(NTIME-NYEAR))*
& (POLB(II)+SDEEP(II))*DDETA(II)/9.
WRITE(33. '(E12.4)* ,REO(II-1)*1000+NTIME) AQAM
20 CONTINUE
RETURN
END
C
C
FUNCTION HUNG(UU.DL.W)
C
C CALCULATIONS FOR DISPERSION CONCENTRATION FACTOR - HUNG(X,Y,Z)
C DD IS THE DISPERSION COEFFICIENT FOR HUNG FUNCTION
C
DD-0.3
XDL-DL/(DD*2.)
XUU-UU*DD/W
T2R-SQRT (4. *XUU*W+W*W)
ARG-XDL* (W+2. *XUU - T2R)
HUNG-1.0
IF(ARG.GT.6.93) THEN
HUNG-1000.
!PC/AT
!LC
!PC/AT
!PC/AT
!PC/AT
!PC/AT
!PC/AT
!HUNG
A-64
-------�
ELSEIF (ARG.GT.O.) THEN
HUNG-EXP(ARG)
END IF
RETURN
END
SUBROUTINE DOSTAB(IFLAG,IORG)
DOUBLE PRECISION NUCLID,PATH,PNUC,TOTAL,ORGAN
COMMON/PASS/PNUC(40),PCON1(40),PC0N2(40),PCON3(40),
& PCON4(40),PPOP,LLIND,LDIST
COMMON/PDCF/DCFCTR(40,12,4),DOSDCF p CWATMX(40)
COMHON/CNTRL/NONCLD,MAXYR,TITLE(20),LOCATE(12),NYR1,NYR2,
& PCT1,PCT2,LEAOPT,IOtTVV,IOPSAT,IPRT1,IPRT2,IDELT,
& IRRES1,IRRES2, LIND,LAVG1, 1AVG2, RMECH,RR,FTMECH,FTRR,
& WWATL,WWATA,WWATH,SUATL,StfATA,SWATH,IVAP,IBSMT,IDISP
COMMON/NUC/NUCLID(40),ATMASS(40),TRAM(40),S0AM(40),ATAM(40),
& AQAM,STAM(40),POLO(40),POLB(40),CS(40),CW(40),
& SSTREM(40),SDEEP(40),AIRC0N(40),YSO(40),SOAVG(40),CON(40),
& AQCON(40),STC0N(40),ATCON(40),AQAVG(40),STAVC(40).
& ATAVG(40),FMC(A0),FMG(40).DECAY(40),XKD(4,40),S0L(40),
& FF(40),RA(40),RW(40),BV(40),BR(40).DERATE(40),CVAT(40)
COMMON/IRRFOO/Yl, Y2. TE1, TE2, TH1. TH2, TH3, TH4, TH5, TH6, FP, FS,
& ULEAFY,UPROD,UCHILK,UCMILK,UMEAT,UWAT,UAIR,
& QFC,QFG,TF1,TF2,TS,CL1(40),CL2(40),CP1(40),CP2(40),
& CCMI1(40),CCMI2(40),CGMI1(40),CGMI2(40),
& CHEAT(40),COL1(40),C0L2(40),COP1(40),C0P2(40),
& COCMI1(40),C0CMI2(40),COGMI1(40),COGMI2(40),
& COMEAT(40),QING(40),QINH(40),POP,
& CSP(40),CSPT(40),CSPO(40),CSP0T(40)
DIMENSION ABC(40),DOSN(40),DOSN0(40,12),DOSNP(40,4),
& DOSNPO(40,12,4),DOSO(12),D0S0P(12,4),D0SPTH(4),
& ORGAN(12),0RGDAT(12),PDF(4),PATH(9,3)
DATA GSCFAC,FACD/0.5,100./
DATA TOTAL/'TOTAL '/
DATA ORGAN/'R MAR ','ENDOST ','THYROID BREAST
& '*PUL* ','S WALL 'INT WALL','LIVER
£> 'PANCREAS' , 'KIDNEYS ' , 'OTHER \'WT. SUM '/
DATA ORGDAT/.1552..0035,.0987..1299..2075..0840..0390..0853,
& .0585,.0248,.1136,1.000/
DATA PATH/'- ALL PA','- INGEST
- GROUND','- INTERN
- NON-DR','THWAYS
MERSION ',' SURFACE
NG WATER','INKING V
&
&
&
&
&
'- INHALA
'- EXTERN
'ION
'AL
,'ATER
'- AIR IM
'- DRINKI
'TION
'AL
- INITIALIZE VARIABLES
DOSWAT - 0.
DO 500 1-1,4
DOSPTH(I) - 0.
CONTINUE
DO 600 I-l.NONCLD
A-65
-------�
DOSN(I) - 0.
DO 700 K-1,12
DOSNO(I.K) -0.
700 CONTINUE
DO 600 L-1,4
DOSNP(I.L) - 0.
600 CONTINUE
DO 777 K-1.12
DOSO(K) - 0.
DO 777 b-1,4
DOSOP(K.L) - 0.
777 CONTINUE
DO 1000 II-l.NONCLD
DO 1000 K-1,12
DOSNPO(II.K.l) - PC0N1(II)*DCFCTR(II,K,3)
DOSNPO(II,K,2) - PCON2(II)*DCFCTR(II,K,4)*CSCFAC*FACD
DOSNPO(II,K,3) - PCON3(II)*DCFCTR(II,K,l)
D0SNP0(II,K,4) - PCON4(II)*DCFCTR(II,K,2)
DO 800 IM.,4
DOSO(K) - DOSO(K)+DOSNPO(II,K,L)
IF
-------�
WRITE(6,300) (NUCLID(L) ,L-l,NONCLD).TOTAL
WRITE(6,444)
WRITE(6,200) (DOSN(II),11-1,NONCLD),DP1234
WRITE(6,325) (PATH(1,1),1-1,3),(NUCLID(L),L-l,NONCLD),TOTAL
WRITE(6,555)
WRITE(6,200) (ABC(II),II-l,NONCLD),TTL
C PRINT INDIVIDUAL ORGAN DOSE EQUIVALENT SUMMARIES IF IORG - 1
IF(IORG .EQ. 1) THEN
WRITE(6,22)
DO 111 K-1,11
WRITE(6,33) ORGAN(K),(NUCLID(I),1-1,NONCLD).TOTAL
WRITE(6,666)
DO 113 1^3,4
WRITE(6,55) (PATH(L-l.I).1-1,3).(DOSNPO(II,K,L),II-l.NONCLD),
& DOSOP(K.L)
DO 2222 II-l.NONCLD
PCONl(II) - 0.
IF (DOSNPO(II,K,3) .NE. 0. .OR. DOSNPO(II.K.4) .NE. 0.)
& PCONl(II) - DOSNPO(II,K,L)*100./(DOSNPO(II,K,3)+DOSNPO(II.K.4))
2222 CONTINUE
TEMP - 0.
IF (D0S0P(K,3) .NE. 0. .OR. D0S0P(K,4) .NE. 0.)
&TEMP - DOSOP(K,L)/(DOSOP(K.3)+DOSOP(K.4))*100.
WRITE(6.56) (PCON1(II),11-1,NONCLD),TEMP
DO 4444 II-l,NONCLD
PCONl(II) - 0.
IF (DOSNO(II.K) .NE. 0.)
& PCONl(II) - DOSNPO(II,K.L)*100./(DOSNPO(II,K,1)+DOSNPO(II,K,2)+
& DOSNPO(II,K.3)+DOSNPO(II,K,4))
4444 CONTINUE
TEMP - 0.
IF (DOSO(K) .NE. 0.) TEMP - DOSOP(K,L)/DOSO(K)*100.
WRITE(6,57) (PC0N1(II),II-l,NONCLD),TEMP
113 CONTINUE
DO 115 L-l,2
WRITE(6,55) (PATH(L+3,I),1-1,3),(DOSNPO(II,K,L),II-l.NONCLD).
(x DOSOP (K.L)
DO 6666 II-l.NONCLD
PCONl(II) - 0.
IF (DOSNPO(II,K,l) .NE. 0. .OR. DOSNPO(II,K,2) .NE. 0.)
& PCONl(II) - DOSNPO(II,K.L)*100./(DOSNPO(I1,K.l)+DOSNPO(II,K.2))
6666 CONTINUE
TEMP - 0.
IF (DOSOP(K.l) .NE. 0. .OR. DOSOP(K,2) .NE. 0.)
&TEMP - DOSOP(K.L)/(DOSOP(K.1)+DOSOP(K.2))*100.
WRITE(6.6 7) (PCON1(11).11-1.NONCLD).TEMP
DO 8888 II-l,NONCLD
PCONl(II) - 0.
ABC(II) - DOSNPO(II,K,3)+DOSNPO(II,K,4)
IF (DOSNO(II.K) .NE. 0.)
& PCONl(II) - DOSNPO(II,K.L)*100./(DOSNPO(II,K.l)+DOSNPO(II,K.2)+
& DOSNPO(II,K.3)+DOSNPO(II,K,4))
8888 CONTINUE
TEMP - 0.
A-67
-------�
IF (DOSO(K) .NE. 0.) TEMP - DOSOP(K,L)/DOSO(K)*100.
WRITE(6,57) (PCON1(II),II-l,NONCLD),TEMP
115 CONTINUE
TEMP - DOSOP(K,3) + D0S0P(K,4)
WRITE(6,55) (PATH(6,I),1-1,3),(ABC(II),11-1.NONCLD).TEMP
DO 3333 II-l,NONCLD
PCONl(II) - 0.
IF (DOSNO(II.K) .NE. 0.)
& PCONl(II) - ABC(II)*100./(DOSNPO(II,K,1)+DOSNPO(II,K,2)+
& DOSNPO(II,K,3)+DOSNPO(II,K,4))
ABC(II) - DOSNPO(II,K,l)+DOSNPO(II,K,2)
3333 CONTINUE
TEMP - 0.
IF (DOSO(K) .NE. 0.) TEMP - (D0S0P(K,3)+D0S0P(K,4))/DOSO(K)*100.
WRITE(6,57) (PCON1(II).II-l.NONCLD),TEMP
TEMP - DOSOP(K.l) + DOSOP(K,2)
WRITE(6,55) (PATH(7,I),1-1,3).(ABC(II),11-1,NONCLD),TEMP
DO 9999 II-l,NONCLD
PCONl(II) - 0.
IF (DOSNO(II.K) .NE. 0.)
& PCONl(II) - ABC(II)*100./(DOSNPO(II,K,l)+DOSNPO(II,K,2)+
& DOSNPO(II,K,3)+DOSNPO(II,K,4))
9999 CONTINUE
TEMP - 0.
IF (DOSO(K) .NE. 0.) TEMP - (DOSOP(K,1)+DOSOP(K,2))/DOSO(K)*100.
WRITE(6,57) (PC0N1(II),II-l,NONCLD),TEMP
WRITE(6,88) (DOSNO(II.K),II-l,NONCLD),DOSO(K)
111 CONTINUE
ENDIF
C PRINT INDIVIDUAL DOSE EQUIVALENTS SUMMED OVER ORGANS
WRITE(6,23)
WRITE(6,34) (NUCLID(I),1-1.NONCLD).TOTAL
WRITE(6.666)
DO 2412 L-2,3
WRITE(6,55) (PATH(L,I),1-1,3),(DOSNP(II,L+l),II-l.NONCLD),
&DOSPTH(L+l)
DO 1212 II-l,NONCLD
PCONl(II) - 0.
IF (DOSNP(II,3) .NE. 0. .OR. D0SNP(II,4) .NE. 0.)
& PCONl(II) - DOSNP(II,L+1)*100./(DOSNP(II,3)+DOSNP(II,4))
1212 CONTINUE
TEMP - 0.
IF (DP34 .NE. 0.) TEMP - D0SPTH(L+1)/DP34*100.
WRITE(6,56) (PCON1(II),II-l,NONCLD).TEMP
DO 1313 II-l,NONCLD
PCONl(II) - 0.
IF (DOSN(II) -NE. 0.) PCONl(II) - DOSNP(II,L+1)*100./DOSN(II)
1313 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DOSPTH(L+1)/DP1234*100.
WRITE(6,57) (PCONl(II),11-1,NONCLD),TEMP
C DRINKING AND NON-DRINKING WATER DOSES
IF (L .EQ. 3) GOTO 2412
DO 3939 II-l,NONCLD
A-68
-------�
ABC(II) - DCFCTR(II,12,1,*CWATMX(II)*UWAT
DOSWAT - DOSWAT+ABC(II)
3939 CONTINUE
VRITE<6,55) (PATH(8,I),1-1,3),(ABC(II),11-1,NONCLD),DOSWAT
TEMP - 0.
DO 1281 II-l.NONCLD
PCONl(II) - 0.
IF (DOSNP(II,3) .NE. 0. .OR. D0SNP(II,4) .NE. 0.)
& PCONl(II) - ABC(II)/(DOSNP(II,3)+DOSNP(II,4))*100.
TEMP - TEMP + ABC(II)
1281 CONTINUE
IF (DP34 .NE. 0.) TEMP - TEMP/DP34*100.
WRITE(6,56) (PCON1(II),II-l,NONCLD),TEMP
DO 1371 II-l,NONCLD
PCONl(II) - 0.
IF (DOSN(II) .NE. 0.) PCONl(II) - ABC(II)/DOSN(II)*100.
1371 CONTINUE
IF (DP1234 .NE. 0.) TEMP - TEMP*DP34/DP1234
WRITE(6,57) (PC0N1(II),11-1,NONCLD),TEMP
DO 6868 II-l,NONCLD
ABC(II) - DOSNP(II,3)-ABC(II)
IF (ABC(II) .LT. 0.) ABC(II) - 0.
6868 CONTINUE
DOSWAT - DOSPTH(3)-DOSWAT
WRITE(6,55) (PATH(9.I).1-1,3),(ABC(II),II-l.NONCLD).DOSWAT
TEMP - 0.
DO 1581 II-l.NONCLD
PCONl(II) - 0.
IF (D0SNP(II,3) .NE. 0. .OR. D0SNP(II,4) .NE. 0.)
& PCONl(II) - ABC(II)/(DOSNP(II,3)+D0SNP(II,4))*100.
TEMP - TEMP + ABC(II)
1581 CONTINUE
IF (DP34 .NE. 0.) TEMP - TEMP/DP34*100.
WRITE(6,56) (PCONl(II),II-l,NONCLD),TEMP
DO 1771 II-l,NONCLD
PCONl(II) - 0.
IF (DOSN(II) .NE. 0.) PCONl(II) - ABC(II)/DOSN(II)*100.
1771 CONTINUE
IF (DP1234 .NE. 0.) TEMP - TEMP*DP34/DP1234
WRITE(6,57) (PC0N1(II),11-1.NONCLD).TEMP
2412 CONTINUE
DO 3412 L-4,5
WRITE(6,55) (PATH(L,I),1-1,3),(DOSNP(II,L-3),II-l.NONCLD),
&DOSPTH(L-3)
DO 3232 II-l,NONCLD
PCONl(II) - 0.
IF (DOSNP(II.l) .NE. 0. .OR. DOSNP(II,2) .NE. 0.)
& PCONl(II) - DOSNP(II,L-3)*100./(DOSNP(II,l)+DOSNP(II.2))
3232 CONTINUE
TEMP - 0.
IF (DP12 .NE. 0.) TEMP - DOSPTH(L-3)/DP12*100.
WRITE(6,67) (PC0N1(II),II-l,NONCLD),TEMP
DO 2323 II-l,NONCLD
PCONl(II) - 0.
A-69
-------�
ABC(II) - DOSNP(TI,3)+DOSNP(II,4)
IF (DOSN(II) .NE. 0.) PCONl(II) - DOSNP(II,L-3)*100./DOSN(II)
2323 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DOSPTH(L-3)/DP1234*100.
WRITE(6,57) (PCONl(II),II-l.NONCLD),TEMP
3412 CONTINUE
WRITE(6,55) (PATH(6,I).1-1,3),(ABC(II),11-1,NONCLD),DP34
DO 5656 II-l,NONCLD
PCONl(II) - 0.
IF (DOSN(II) .NE. 0.) PCONl(II) - ABC(II)*100./DOSN(II)
ABC(II) - DOSNP(II,l)+DOSNP(II,2)
5656 CONTINUE
TEMP - 0.
IF (TEMP .NE. 0.) TEMP - DP34/DP1234*100.
WRITE(6,57) (PC0N1(II).II-l.NONCLD),TEMP
WRITE(6,55) (PATH(7,I),I-1,3),(ABC(II),11-1,NONCLD),DP12
DO 6767 II-l,NONCLD
PCONl(II) - 0.
IF (DOSN(II) .NE. 0.) PCONl(II) - ABC(II)*100/DOSN(II)
6767 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DP12/DP1234*100.
WRITE(6,57) (PCONl(II),II-l.NONCLD).TEMP
WRITE(6,88) (DOSN(II).II-l.NONCLD).DP1234
DO 7878 II-l,NONCLD
PCONl(II) - 0.
IF (DP1234 .NE. 0.) PCONl(II) - DOSN(II)/DP1234*10O.
7878 CONTINUE
WRITE(6,89) (PCONl(II),II-l,NONCLD)
C PRINT INDIVIDUAL DOSE EQUIVALENTS SUMMED OVER NUCLIDES
URITE(6,35) (ORGAN(K),K-1,12)
URITE(6,666)
DO 8412 L-2,3
WRITE(6,55) (PATH(L,I),1-1,3),(DOSOP(K,L+l),K-1,11),DOSPTH(L+l)
DO 8282 K-1,11
PCONl(K) - 0.
IF (DOSOP(K,3) .NE. 0. .OR. D0S0P(K,4) .NE. 0.)
& PCONl(K) - DOSOP(K,L+l)*100./(DOSOP(K,3)+DOSOP(K,4))
8282 CONTINUE
TEMP - 0.
IF (DOSPTH(3) .NE. 0. .OR. D0SPTH(4) .NE. 0.)
&TEMP - DOSPTH(L+1)/(DOSPTH(3)+DOSPTH(4))*100.
WRITE(6,56) (PCONl(K),K-1,11),TEMP
DO 8383 K-1,11
PCONl(K) - 0.
IF (DOSO(K) .NE. 0.) PCONl(K) - DOSOP(K,L+1)*100./DOSO(K)
8383 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DOSPTH(L+1)/DP1234*100.
WRITE(6,57) (PCONl(K),K-1,11).TEMP
8412 CONTINUE
DO 9412 b-4,5
WRITE(6,55) (PATH(L.I),1-1,3),(DOSOP(K,L-3).K-1,11),DOSPTH(L-3)
A-70
-------�
DO 9292 K-1,11
PCONl(K) - 0.
IF (DOSOP(K.l) .NE. 0. .OR. DOSOP(K,2) .NE. 0.)
& PCONl(K) - DOSOP(K,L-3)*100./(DOSOP(K,l)+DOSOP(K,2))
9292 CONTINUE
TEMP - 0.
IF (DPI2 .NE. 0.) TEMP - DOSPTH(L-3)/DP12*100.
WRITE(6,67) (PCONl(K),K-1,11),TEMP
DO 9393 K-1,12
PCONl(K) - 0.
ABC(K) - DOSOP(K,3)+DOSOP(K,4)
IF (DOSO(K) .NE. 0.) PCONl(K) - DOSOP(K,L-3)*100./DOSO(K)
9393 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DOSPTH(L-3)/DP1234*100.
WRITE(6,57) (PCONl(K),K-1,11),TEMP
9412 CONTINUE
WRITE(6,55) (PATH(6,I),1-1,3),(ABC(K),K-1,11),DP34
DO 9696 K-1,11
PCONl(K) - 0.
IF (DOSO(K) .NE. 0.) PCONl(K) - ABC(K)*100./DOSO(K)
ABC(K) - DOSOP(K,1)+DOSOP(K,2)
9696 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DP34/DP1234*100.
WRITE(6,57) (PCONl(K),K-1,11),TEMP
WRITE(6,55) (PATH(7,1),1-1,3),(ABC(K),K-1,11),DP12
DO 9797 K-1,11
PCONl(K) - 0.
IF (DOSO(K) .NE. 0.) PCONl(K) - ABC(K)*100./DOSO(K)
9797 CONTINUE
TEMP - 0.
IF (DP1234 .NE. 0.) TEMP - DP12/DP1234*100.
WRITE(6,57) (PCONl(K),K-1,11),TEMP
WRITE(6,88) (DOSO(K),K-1,11).DP1234
C FORMAT STATEMENTS
11 FORMAT(//,30X,' ORGAN DOSE/EXPOSURE SUMMARY',/
&/'*** SELECTED INDIVIDUAL ***'/
&'DOSE RATES:',/,18X,'ORGANS:',10(2X,A8),/,25X,2(2X,A8)/
&'DOSE EQUIVALENT (MREM/YR)')
22 FORMAT(///,30X,'INDIVIDUAL ORGAN DOSE EQUIVALENT RATES',
&' (MREM/YR)' ,/,30X,' ',
&' ')
23 FORMAT(///,30X,'INDIVIDUAL DOSE EQUIVALENT RATES',
fx' (MREM/YR)',/,30X,' ',
&' ')
33 FORMAT(//,' FOR ORGAN: ',A8,/' NUCUDES' , 16X, 10(2X, A8) ,/,
&(26X,10(2X,A8)))
34 FORMAT(//,' ***SUMMED OVER ALL ORGANS' ,/' NUCUDES',16X, 10(2X,
&A8),/,(26X,10(2X,A8)))
35 FORMAT(//,' ***SUMMED OVER ALL NUCUDES',/,' ORGANS',18X, 10(2X,
&A8),/,25X,2(2X,A8))
55 F0RMAT(//,1X,3(A8),1X,1P10G10.3/(26X,1P10G10.3))
56 F0RMAT(/' % OF INTERNAL',11X,1P10G10.3/(26X,1P10G10.3))
A-71
-------�
57 FORMAT(/' % OF ALL PATHWAYS'.7X,1P10G10.3/(26X,1P10G10.3))
67 FORMAT(/' % OF EXTERNAL',11X,1P10G10.3/(26X,1P10G10.3))
88 FORMAT(/,' TOTAL OVER ALL PATHWAYSIX,1P10G10.3/(26X,1P10G10.3))
89 FORHAT(/,' % OF TOTAL',14X,1P10G10.3/(26X,1P10G10.3))
666 FORMAT(' PATHWAYS')
100 FORMAT(//,30X,' PATHWAY DOSE/EXPOSURE SUMMARY'/
&/'~** SELECTED INDIVIDUAL ***'/
&'DOSE RATES:'/'WEIGHTED SUMS OF ORGAN DOSE RATES'.//
4' PATHWAYS: INGESTION',
INHALATION AIR GROUND',
&' INTERNAL EXTERNAL TOTAL'/
&47X,' IMMERSION SURFACE'//)
200 FORMAT(26X,1P10G10.3/(26X,1P10G10.3))
225 FORMAT(//,30X,' PATHWAY DOSE/EXPOSURE SUMMARY'/
(,/'*** SELECTED INDIVIDUAL *~*'/
&'DOSE RATES:'/'WEIGHTED SUMS OF ORGAN DOSE RATES',//
&' PATHWAYS: INGESTION ',
6.'INHALATION AIR GROUND',
&' INTERNAL EXTERNAL TOTAL'/
6A7X,' IMMERSION SURFACE'//)
300 FORMAT(//,30X,'NUCLIDE DOSE/EXPOSURE SUMMARY '/
&/'*~* SELECTED INDIVIDUAL ***'/
&'DOSE RATES:'/'WEIGHTED SUMS OF ORGAN DOSE RATES'/
&15X,' NUCUDES:', 10(2X,A8)/(26X,10(2X,A8)))
444 FORMAT('DOSE EQUIVALENT (MREM/YR)')
325 FORMAT(//.30X,'NUCLIDE DOSE/EXPOSURE SUMMARY \3(A8),/
&/'~** SELECTED INDIVIDUAL ***'/
&'DOSE RATES:'/'WEIGHTED SUMS OF ORGAN DOSE RATES'/
415X,' NUCUDES:', I0(2X,A8)/(26X, 10(2X, A8)))
555 FORMATCDOSE EQUIVALENT (% OF TOT.)')
RETURN
END
A-72
-------�
APPENDIX B
INPUT FILE FORMAT
B-l
-------�
TABLE B-l
DESCRIPTION OF PRESTO-CPG-PC/AT ENVIRONMENTAL ANO NUCLIOE INPUT
Car<1 Variable (Input Format^
Description
CARO 1 Run Identification (20A4)
TITLE
Identifies the run. Up to 30 characters
are allowed.
CARO 2 Location and Site Description (20A4)
'LOCATE
- Location of the disposal site. Up to 80
characters are allowed.
CARD 3 Time. Nuclides, and Farming Control Parameters (1615)
HAXYR
NONCLD
LEAOPT
NYR1, NYR2
IOPVUV
- The number of years for which the simula-
tion will run, must be 1,000 or less.
- The number of radionuclides which are used
in the simulation. Must be 40 or less.
- The leaching option. Radionuclides will be
removed from trench in different manners
depending on the value of LEAOPT. Must be
one of the following calculation methods.
Option Leach Calculation Method
1 Total contact, distribution coeffi-
cient
2 Immersed fracton, distribution co-
efficient
3 Total contact, solubility
4 Immersed fraction, solubility
5 Release fraction
- Beginning and ending years of trench cap
failure. Both values must be less than or
equal to MAXYR. NYR2 must be greater than
or equal to NYR1.
- Option for direct fanning 1n the waste.
< 0 no on-site farming
¦ 0 on-site farming
o 1 on-site fanning with vegetation decay
B-3
-------�
TABLE B-l
(Continued)
Cari Van able 'Incur ror-ia*
Dasc^ ot i on
10PSAT
PRT1, mT2.
IOELT
HRES1, 13RES2
- Flag for area source calculation. If
lOPSATaO a point source is assumed for the
groundwater calculations. If ICPSA7>0, the
a"ea source is approximated by a se>-:2s of
nine point sources.
- Control parameters. annual summary
taote will be produced for each year chat
is a multiple of [CELT and falls between
the range of IPRTl and IP9T2.
- Beginning and ending year for the mechani-
cal suspension of contaminated soil into
a:*iosphere. Used in the faming scenario.
- Option used in dose calculations. If LIND
=» 0 then OOSTAB computes concentrations and
rates for maximally exposed individuals.
If LINO » 1 then general population
concentrations are computed.
- Beginning and ending years for averaging
nuclide concentration values.
- Mode of disposal. IOISP - 1,2,3, or 4 for
shallow land burial, deep well injection,
hydrofracture, and deep geologic disposal,
respectively.
CARD 4 Externa? Exposures and Time Duration Parameters (715)
IVAP - Not used.
LINO
IAVGI, IAVG2
1DISP
IBSHT
IAQSTF
- The beginning year for the basement correc-
tion factor for surface gamma exposure
calculations made by OOSTAB. If I8SMT > 0
correction factor is calculated beginning
in that year. If IBSMT ¦ -1 then no
correction is calculated.
- Control parameter for aquifer to stream
flow. A blank field defaults to calcula-
tions under the assumption that the flow
takes place, otherwise the field should
contain a nonzero integer.
B-4
-------�
TABLE B-l
(Continued)
Card
Variable (Input Fomat.
IRST
Descripti on
I TWO
INSITE
I ORG
- Number of years of restricted site use
after site closure.
- Secondary year for which an organ dose
summary table will be output.
- Flag for farming on the waste site.
- Flag for dose equivalent output by organ.
If IORG ° 0 doses are not printed for
individual organs. If IORG ¦ 1 doses are
printed for individual organs.
CARD 5 Water Infiltration and Use (8F10.0)
PCT1, PCT2
CARDS
6-12
WWATL
WWATA
WWATH
SWATL
SWATA
SWATH
- The fraction of the trench cap that 1s
assumed to fall between the years NYR1 and
NYR2.
- Fraction of Irrigation water supplied by
contaminated water fro"> well (1.0 If all
water comes from well, 0.0 if none).
- Fraction of animal drinking water supplied
by contaminated water from well (1.0 1f all
water comes from well, 0.0 1f none).
- Fraction of human drinking water supplied
by contaminated water from well (1.0 1f all
water comes from well, 0.0 1f none).
- Fraction of Irrigation water supplied by
contaminated water from stream (1.0 if all
water comes from stream, 0.0 1f none).
- Fraction of animal drinking water supplied
by contaminated water from stream (1.0 if
all water comes from stream, 0.0 1f none).
- Fraction of hunan drinking water supplied
by contaminated water from stream (1.0 1f
all water comes from stream, 0.0 1f none).
Conments and References (20A4)
These cards are available for comments and
references pertaining to data set. Up to
80 characters allowed in each of six cards.
B-5
-------�
TABLE B-l
(Continued)
Card Variable (Input Format)
Description
CARD 13 Lm Site Characteristics (8F10.0)
TAREA
TDEPTH
OVER
PORT
OENCON
REIFAC
CPRJ
SI NFL
- The total combined radioactive waste
surface area for the facility being
simulated (m^). Must be nonzero.
- Nominal depth (m) of operating trench in
the shallot* disposal scenario. Includes
cover thickness.
- Thickness of trench overburden (m). This
must be equal to YGMAX of INFIL.
- Porosity of material within trench. Must
be nonzero.
- Mean density of the waste materials in the
trench (g/arr).
- Not used. Set equal to 1.0.
- Complement to one for the fraction of
underground water flowing to the stream
(0.0 means 100 percent to the regional
basin river).
- Annual infiltration rate for the noncap
portions of the site and for local farm-
land (m/yr).
CARD 14 Groundwater Saturation (2F10.0)
SSAT - Fraction of water saturation 1n the ground
formation beneath the buried waste. If
SSAT * 0 or If left blank, the fraction of
saturation Is calculated internally by the
code.
RESAT - Fraction of residual saturation.
CARD IS Site Operations and Waste Containers (6F10.0)
PERMT - Trench permeability (n/yr).
FACTIM - Number of years of active operation of the
waste site.
B-6
-------�
TABLE B-l
(Continued)
Card Variable (Input Format)
Description
TMN
CFT1
DCFT
FGAM
- Number of years of active maintenance after
site closure. No nuclide migration 1s
Initiated during the maintenance period,
although radioactive decay takes place.
• Number of years before waste containers
begin falling.
- Number of years after CFT1 that containers
fall completely. At time CFT1+0CFT all
containers have failed.
- D1mens1onless factor characterizing the
intensity and duration of gafima exposure
from the basement scenario.
CARD 16 Transport Parameters (8F10.0)
OTRAQ
DWELL
GWV
AQTHK
AQDISP
PORA
PORV
PERMV
- The distance from the bottom of the trench
to the nominal depth of the aquifer (m).
OTRAQ * TDEPTH should equal the aquifer
depth below the surface.
- 01 stance from the center of the trench to
the well used for Irrigation and drinking.
Must be nonzero (m).
- Velocity of the groundwater in the aquifer.
Must be nonzero (m/yr).
- Thickness of the aquifer at the location of
the well (m). This 1s used to calculate
the volume of water 1n which the available
radionuclides are diluted. Must be nonzero.
- Dispersion angle of the pollutant plume 1n
the aquifer (radians). Used with AQTHIC to
calculate dilution volune. Must be 1n
radians.
- Aquifer porosity.
- Sub-trench porosity.
- Sub-trench permeability (m/yr).
B-7
-------�
'ABLE B-1
(Continued)
Cirri Variable (Inout eor-nat^ Descriation
CARD 17 Groundwater Jaranete-s CSF10.0)
VUV - Vertical water velocity (m/yr). If a value
of 0.0 is input, VWV is calcinated internal ly.
HG3AD - Hydraulic gradient (dimension!ass). If a
value of 0.0 is input, HG3AD is assigned
tie default value 1.0.
FRAC3 - Fraction of waste impacted by chemical
sxchange leaching (0. _< F9ACB <_ 1.0). The
:efault value is 1.0. ~~
AlV - Dispersi vit,y in the confining stratum (m),
i.e., the region beneath the trench {IDISP
» 1) or the aquiclude (I0ISP 3 2,3, or -l).
The default value is 0.3 m.
AlH - Disperslvity 1n the aquifer (m). The
default value is 0.3 m.
BOENV - Density of the conf-.ning stratum (g/cm^).
CARD 18 Atmospheric Parameters (7F10.0)
H - Atmospheric source height of radionuclides
fm). One meter is chosen because most re-
suspension rate measurements are expressed
for that height.
VG - Settling velocity of contaminated soil
particles due to gravity (m/s).
U - Annual average wind speed (m/s) in the di-
rection of Interest. For population calcul-
ations this 1s the wind speed toward the
population centrold. Must be nonzero.
VO - Deposition velocity (m/s). Nominal generic
value 1s 0.01 m/s.
XG - Oistance (m) from source (trench) to
population or Individual of Interest. If
XG 1s less than P0, the adjacent farming
option will be triggered.
HLID - Height of the Inversion layer or I1d (m).
ROUGH - Hosier's roughness parameter (m).
B-8
-------�
TABLE B-l
^Continued)
Card Variable (Input Format)
Description
CARD 19 Atmospheric Parameters (7F10.0)
FTWINO
CHig
RE1, RE2, RE3
RMECH
FTMECH
- Fraction of the tune the wind blows toward
the population or individual of interest.
- User specified atmospneric transport para-
neter which may be calculated by an external
atmospheric dispersion code (s/m^). 4 non-
zero value will override any calculation of
atmospheric dispersion performed within code.
- Factors (including algebraic signs) used in
t»ie resuspension rate equation.
- The resuspension rate RR (sec"^) during the
period of mechanical resuspension (between
years IRRES1 and IRRES2).
- The fraction of the year mechanical
disturbance occurs.
CARO 20 Atmospheric Stability (2F10.0,215)
RR
FTRR
IT
IS
- Oust loading for on-s :e reclaimer (g/nP)
- Fraction of year on-s:te reclaimer is
exposed to dust.
- Indicator variable for the type of atmos-
pheric stability class formation. Suggested
formation is Pasquill-G1fford, IT ¦ I.
- Stability category indicator. Values of
I to 6 correspond to stability categories
of A-F. A single value represents the most
common stability category from nearest
meteorology station to site of interest.
CARD 21 Precipitation Parameters (6F10.0)
RAINF
ERODF
STPLNG
COVER
CONTRL
- The rainfall factor (R/yr).
- The soil-erodib1Hty factor has units of
tons/acre-R, where R ¦ RAINF given above.
- The slope steepness-length factor.
- The crop management factor.
- The erosion control practices factor.
B-9
-------�
table B-l
(Continued)
Card Variable (Input ForiaO Oescriot^ on
SEDEL3 - The sediment delivery ratio. This ratio is
intended to apply to fouling of waterways
from construction activity.
CARD 22 Soil and Surface Water (5F10.0)
PORS - °orosity of the surface soil. Must be
nonzero.
80ENS - Sulk density of the soil (g/cm^). Must be
nonzero.
STFLOW - Annual flow rate of the nearest stream
(;rvyr). Must be nonzero.
EXTENT - The cross slope extent of the surface region
contaminated by operational spillage (m).
Must be nonzero.
AOEPTH - The active depth of soil in the surface-
contaminated region. Used for the calcula-
tion of radionuclide concentration in both
surface soil and surface water. Must be
nonzero.
CARD 23 Surface Water Runoff (4F10.0)
PO - Distance from the trench to nearest stream
(m). Must be nonzero. If PD is greater
than XG, the adjacent farming option will
be triggered.
PPN - Total annual precipitation (m). Calculated
internally 1f SEEP ¦ 0 and ID ISP • 1.
RUNOFF - Fraction of the annual precipitation that
runs off.
SEEP - Fraction of the total annual precipitation
(PPN) that ultimately becomes deep Infiltra-
tion. This variable is zero unless one is
conducting parametric studies for the
shallow land burial option.
CARD 24 Agricultural Data (7F10.0)
Yl, Y2 - Agricultural productivity for pasture grass
and other consumed vegetation respectively
((cg/m2 j
B-10
-------�
TABLE B-l
I Continued)
Card Variable (Input Por-iat^ Oescn pti on
PP - Surface density of soii (kg/m2). Assumes a
15 cm plow depth. For farming scenario,
this value should be in agreement witi the
value of 39ENS, CARD 20. Must be nonzero.
XAMBWE - The weathering removal decay constant for
atmospheric deposition onto foodcrops
' hr'M.
TA - Not used.
TE1, TE2 - Period of time that pasture grass or crops
and leafy vegetables, respectively, are
exposed to contaminated air during each
growing season (hr).
CARO 25 Agricultural Pel ay Times and Fractions (8F10.0)
TH1 - TH6 - These six variables represent the delay
time between harvest and consumption by
animal or man of pasture grass, stored
feed, leafy vegetables for maximum
individual doses, produce for maximum
individual doses; and leafy vegetables and
produce for general population exposures,
respectively (hr).
FP - Fraction of each year that animals graze on
pasture grass.
FS - Fraction of an animal's dally feed that 1s
fresh grass for the period of time animals
are in pasture.
CARD 26 Animal Feed Data (7F10.0)
QFC - The amount of feed consumed daily by cattle
(kg).
QFG - The amount of feed consumed dally by dairy
goats (kg).
TF1, TF2 - The transport time (hr) from animal feed
into milk and Into the receptor human for
the maximum individual and the general
population exposures, respectively.
B-ll
-------�
-able b-i
(Continued)
.. Description
,'&ri Van able '!*out -or-ia. ____________
„ . length of time between slaughter of animals
and human consumption of the resultant -neat
(hr).
¦n^H _ The absolute humidity of the atmosphere
B rg/m*l. Used for specific activity food-
chain calculations for tritium concentra-
tions in foodstuffs. Must be nonzero.
. The fractional equilibrium ratio for C-U.
CARO 27 Plant 3oot Parameters (2F10.0)
XRTM - Maximum root depth for on-site faming
scenario (m).
qjQP - Root growth rate constant (yr M.
CARO 28 Irrigation Water Data (6F10.0.)
- Not used.
WIRATE
FI - Fraction of the year that crops are
1rr1 gated.
- Irrigation rate (l/m^-hr). Application time
1s set equivalent to the number or frost-
free days for the area.
OCW OGW QBW - Values for the amount of water (L/d) con-
QQ * g sumed by milk cows, milk goats, and beef
cattle, respectively.
CARO 29 Human Food Uptake (8F10.0)
ulEAFY - The human uptake of leafy vegetables (kg/yr).
UPR00 - The human uptake of produce (kg/yr).
UCMILK - The human uptake of cow milk (L/yr).
UGMILK * The human uPtake goat nr,llt
umEAT - The human uptake of meat (kg/yr).
UWAT . The human uptake of drinking water (L/yr).
B-12
-------�
TABLE B-l
(Continued)
Card
Description
Variable (Input Fomat)
UAIR - The inhalation rate
POP - Local population.
CARD 30 Release Fractions (7F10.01
RELFRC{1)
*£LFRC(2)
RELFRC(3)
RELFRCU)
RELFRC(5)
FTRAB
FRTRSH
- The release fraction for the absorbing
waste. This array elements is currently
not used and is set equal to 0.0.
- The release fraction for the activated
metals.
- The release fraction for the trash.
- The release fraction for the solidified
waste.
- The release fraction for the incinerated/
solidified waste.
- The fraction of trash waste that will be
leached as absorbing material. The
complement of trash waste will be subject
to leaching by a user specified leaching
rate.
- The fraction of waste that is not in water-
tight containers.
CARO 31 Spillage Fractions (SF10.0)
SPLAW
SPLAM
SPLTR
SPLSW
1 SPUS
- Spillage fraction for absorbing waste
(fraction of CIAW(I)).
- Spillage fraction for activated metals
(fraction of CIAM(I)).
- Spillage fraction for trash (fraction of
CITR(I)).
- Spillage fraction for solidified waste
(fraction of CISH(I)).
- Spillage fraction for incinerated solidified
waste (fraction of CIIS(D).
B-13
-------�
TABLc B-l
(Continued^
Card Vanish's fl^out rjnat^
Oescri pf on
CARO 32 Nuclide Specific Jata fAS, 2X, 5F1O.0)
NUCUIO(I)
CIAWfI)
CI AMU)
CITR(I)
CISW(I)
CIISU)
- The name of the radionuclide used in t^e
code. Must be le't justified and w:h "0
embedded blanks and with a hyphen separat-
ing the alphameric for the element and tne
numeric for the isotope.
- Amount of the radionuclide in the absorbing
waste fCi).
- Amount of the radionuclide in the activat2d
metals (Ci).
- Amount of the radionuclide in the trash
(Ci).
- Amount of the radionuclide in the solidified
waste.(C1).
- Amount of the radiorjclide 1n the incin-
erated/solidified waste (Ci).
NOTE: CARO 32 1s repeated NONCLD times.
CARO 33 Nuclide Specific Oata (A8, Tl, 8A1, 2X, 7F10.0)
NUCUD(I) - Radionuclide name.
NUCL(I ,K)• K»l,8 - Not used.
DUMMY1
DUMMY2
STAHU)
ATAM(I)
• Not used.
- Not used.
- The amount of radioactivity 1n the stream
nearest the site at the beginning of the
simulation (C1).
- The amount of radioactivity of each radio-
nuclide suspended in the air directly above
the trench at the beginning of the simula-
tion (Ci).
B-14
-------�
TABLE B-l
(Continued)
Carl Variable (Input comat^ Description
DECAY(I) - T'ne radiological decay constant (yr":). ~ne
constant is equal to 0.5931 divided by the
radiological half-life in years.
Sol'I) - The solubility of the radionuclide stored
in the trench (mg/1). Used with leaching
options 3 and 4.
CON(11 - Conversion factor for health effects for
regional population (health effects/Ci
releasedl.
CARD 34 Nuclide Transport 9arametars (A8, 2X, 4F10.0)
NU - Radionuclide name (same as on Card 32).
XKD(l.I) - Surface K
-------�
Table B-2 INFIL Subroutine Input File
Card Variable Description
1. cap Geometry and Soil Properties (10F7.3)
Trench cap width (m)
Average slope of trench cover (m/m)
Hydraulic conductivity of the cap (ra/hr)
Component of porosity for gravity water
Component of porosity for pellicular water
Trench cap thickness (m)
2
Equivalent upward diffusivity (m /hr)
2
Equivalent upward conductivity (m /hr)
Initial pellicular water deficiet (m)
Initial gravity water deficiet (m)
2. Monthly Dav Length (12F5.1)
DTH(I) Monthly day length (hr)
3. Daily Mean Temorature (12F6.2)
TMP(I) Daily mean temperature (degree C)
4. Hourly Precipitation (2I3,24F3.0)
MO(I) Month
IDA(J) Day
P(K) Hourly precipitation (O.lmm/hr)
TWT
SLOP
XKI
EPSG
EPSP
YGMAX
XDE
XKE
YPI
l'GI
B-16
-------�
TABLE B-3
DOSIMETRIC INPUT OATA
Card
Variaole (Input Format)
Description
Card 1 Red Marrow 0CF(»)(A8.3X.4( 1PE11.4.2X))
NUCLID(I)
DCFCTR(1,1,1)
DCFCTR(1,1,2)
0CFCTR( M.3)
DCFCTR(I.M)
Card 2 Endosteum 0CF(A8.3x.4(lPE11.4.2x)
NUCLID(I)
DCFCTR(I,2,1)
DCFCTR(I,2,2)
- The name of the
radionuclide.
- Dose conversion factor
for the ingestion
exposure patnway
(mrem/pCi)
- Dose conversion factor
for the inhalation
exposure pathway
(mrem/pC1)
- Dose conversion factor
for the air Immersion
exposure pathway
( 2ES2I / ci/m3 )
yr
- Dose conversion factor
for the ground surface
exposure pathway
(
mrem
yr
/ C1/m )
- The name of the
radionucl1de.
- Oose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the Inhalation
exposure pathway
(mrem/pC1)
B-17
-------�
TA8LE B-3
(Continued)
Card
Variable (Input Format)
Description
DCFCTR(1,2,3)
DCFCTR(1,2,4)
Card 3 Thyroid 0CF(A8.3x.4(lP£ll.4.2x)
OCFCTR(l)
0CFCTR(I,3,1)
DCFCTR(I,3,2)
DCFCTR(1,3,3)
DCFCTR(1,3,4)
Dose conversion factor
for the air immersion
exposure pathway
3
mrein
y
/ Ci/mJ )
Dose conversion factor
for the ground surface
exposure patnway
( / Ci/m2 )
yr
The name of the
radionuclide.
Dos* conversion factor
for the ingestion
exposure pathway
(mrem/pCI)
Dose conversion factor
for the Inhalation
exposure pathway
(mrem/pCI)
Dose conversion factor
for the air Immersion
exposure pathway
( JH£S£ / C1/m3 )
yr
Dose conversion factor
for the ground surface
exposure pathway
(
mrern
yr
/ Ci/m )
B-18
-------�
TABUE B-3
(Continued)
Card Variable (Input Format)
Card 4 Breast 0CF(A8.3x,4(1P£1I.4,2x)
DCFCTR(I)
0CFCTR(I,4,1)
» t
0CFCTR(1,4,2)
0CFCTR(I.4,3)
0CFCTR([.4,4)
Card 5 Pulmonary DCFfAS.Sx^dPEll.Q^x)
DCFCTR(I)
OCFCTR(I,5,l)
DCFCTR(I,5,2)
Oescn ption
- The name of tne
radionuclide.
- Dose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the inhalation
exposure pathway
(mrem/pCI)
- Dose conversion factor
for the afr Immersion
exposure pathway
( 2£22L f C1/m3 )
yr
- Dose conversion factor
for the ground surface
exposure pathway
( J2£2L / Ci/m2 )
y
- The name of the
radionuclide.
- Dose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
- Dose conversion factor
for the inhalation
exposure pathway
(mrem/pCi)
B-19
-------�
TA8LE B-3
(Continued)
Card Variable (Input Format)
DCFC7R(1,5,3)
DCFC7R{I,5,4)
Card 6 Stomach Wall DCF(A8.3x.&(lPSll,4.2x)
DCFCTR(I)
0CFCTR(1,6,1)
DCFCTR(I,6,2)
DCFCTR(1,6,3)
0CFCTR(1,6,4)
Description
- Dose conversion factor
for the air immersion
exposure pathway
( IHES2L / ci/m3 )
y
- Dose conversion factor
fir the ground surface
exposure pathway
( 21ES21 / ci/m2 )
yr
- The name of the
radioruclide.
- Dose conversion factor
for the ingestion
exposure pathway
("irefli/pC1)
- Dose conversion factor
for the Inhalation
exposure pathway
(mrem/pCi)
• Dose conversion factor
for the air immersion
exposure pathway
( SES2L / C1 /m3 )
yr
- Dose conversion factor
for the ground surface
exposure pathway
( 2E22L f ci/m2 )
y
B-20
-------�
TABLE B-3
(Continued)
Card Variable (Input Format)
Card 7 Intestine 0CF(A8.3x.4(lPE11.4.2x)
DCFCTR(I)
0CFCTR(1,7,1)
0CFCT3(1,7,2)
DCFCTR(1,7,3)
DCFCTR(1,7,4)
Card 8 Liver 0CF(A8.3x.4(lPE11.4.2x)
OCFCTR(I)
DCFCTR(1,8,1)
DCFCTR(I,8,2)
B-21
Description
- The name of tne
radtonuclide.
- Oose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the inhalation
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the air immersion
exposure pathway
( EES™ / ci/m3 ')
yr
- Oose conversion factor
for the ground surface
exposure pathway
( / C1/m2 )
yr
- The name of the
radionuclide.
- Dose conversion factor
for the Ingestion
exposure pathway
(mrem/pC1)
- Oose conversion factor
for the inhalation
exposure pathway
(mrem/pCi)
-------�
TABLE B-3
(Continued)
Card Variable (Input Format)
DCFCTR(1,8,3)
0CFCTR(1,8,4)
Card 9 Pancreas 0CF(A8.3x.4(lPS11.4.2x)
OCFCTR(I)
0CFCTR(1,9,1)
0CFCTR(I,9;2)
0CFCTR(I,9,3)
0CFCTR(1,9,4)
Description
- Oose conversion factor
for the air immersion
exposure pathway
( ES! / ci/m3 )
yr
- Oose conversion factor
for the ground surface
exposure pathway
( IUCSSl / Ci/m2 )
yr
- The name of the
radionuclide.
- Oose conversion factor
for the Ingestion
exposure pathway
(mrem/pC1)
- Oose conversion factor
for the inhalation
exposure pathway
(mrem/pC1)
- Oose conversion factor
for the air immersion
exposure pathway
( 2CS2L / C1/m3 )
yr
- Oose conversion factor
for the ground surface
exposure pathway
( J2E2L / ci/m2 )
y
B-22
-------�
TABLE B-3
(Continued)
Card Variable (Input Format)
Card 10 Kidney 0CF(A8.3x.4(lP£ll.*.2x)
OCFCTR(I)
OCFCTR(1,10,1)
OCFCTR(1,10,2)
DCFCTR(1,10,3)
DCFCTR(I,10,4)
Card 11 Other 0CF(A8.3x.4(lPEll.».2x)
OCFCTR(I)
OCFCTR(1,11,1)
0CFCTR(I,11,2)
Description
- The name of the
radionuclide.
- Dose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
- Dose conversion factor
for the inhalation
exposure pathway
(mrem/pCi)
- Dose conversion factor
for the air immersion
exposure pathway
; 1HCS2L / ci/m3 )
y
- Dose conversion factor
for the ground surface
exposure pathway
( JHESIL / C1/m2 )
y
- The name of the
radionuclide.
- Oose conversion factor
for the Ingestion
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the Inhalation
exposure pathway
(mrem/pCi)
B-23
-------�
TABLE B-3
(Continued)
Card
Variable (Input Format)
Description
OCFCTR(1,11,3)
0CFCTR(1,11,4)
Card 12 Whole Body 0CF(A8.3x.4(LPEU.4,2x)
DCFCTR(I)
DCFCTR(I,12,1)
DCFCTR(1,12,2)
OCFCTR(1,12,3)
0CFCTR{I.12,4)
Oose conversion factor
for the air immersion
exposure pathway
(
mreffl
y
/ Ci/m )
- Oose conversion factor
for the ground surface
exposure pathway
(innsn, / ci/*2 )
yr
- The name of the
radionuclide.
- Dose conversion factor
for the ingestion
exposure pathway
(mrem/pCi)
• Oose conversion factor
for the inhalation
exposure pathway
(mrem/pCi)
- Oose conversion factor
for the air immersion
exposure pathway
( incsn / C1/m3 )
yr
- Dose conversion factor
for the ground surface
exposure pathway
{ USES" / C1/ni2 )
yr
NOTE: Cards 1 through 12 are repeated, in sequence, NONCLD times.
a OCF * Oose Conversion Factors
B-24
-------�
APPENDIX C
SAMPLE INPUT AND OUTPUT FILES
C-l
-------�
Table C-l
Environmental and Nuclide-Specific Input File
C-2
-------�
SOUTHEAST
1000' 40
00 -1
0.0
C
C
SOUTHEAST
C
C. . .2/9/89
C
c
100
100
300 -1
0 0
0.0
1
1
0.5
AS IS: SOL: SOL: SOL:
1000 100 0 0
1.0 0.0
LLW-BRONARM
0 1
0.0
1000 1
0.0
1.11E+05
7.0
2.0
0.437
1. 331
0.0
0.17
2.2
20.
0.0
20.
50.
0.0
14.6
267.
27.8
30.5
0.3
0.39
0. 35
0.0
0.0
1.0
0.0
0.0
0.0
1.0
0.01
2.01
0.01
1107.
300.
0.01
0.09
0.0
1.0E-6
-0. 15
l.OE-11
0.
0.
0.0
0.0
1 4
250.
0.23
0. 27
0.30
0.3
1.0
0.39
1.6
3.57E+5
332.04
0.1
627.
0.
0.29
0.67
0.65
240.
0.0021
0.
720.
1440.
0.0
2160.
24.
1440.
336.
336.
1.0
50.
6.
48.
96.
480.
9.9
1.0
0.0
0.0
0.0
0.4
0.015
60.
8.
50.
14.
88.5
89. 4
0.
62.8
481.9
8035.
0.
4.0E-4
0.
4.0E-4
4.0E-4
1.0
0.555
1.0E-7
0.0
1.0E-7
0.0
0.0
H-3
1.15E+03
O.OOE+OO
3.45E+03
1.98E+05
O.OOE+OO
C-14
5.20E+01
4.71E+01
1.95E+02
3.74E+02
O.OOE+OO
FE-55
7.32E+03
4.06E+05
6.30E+03
3.24E+04
0.OOE+OO
NI-59
8.26E+00
2.53E+02
7.42E+00
3.41E+01
O.OOE+OO
C0-60
1.35E+04
2.91E+05
1.24E+04
5.51E+04
O.OOE+OO
NI-63
1.72E+03
3.49E+04
2.09E+03
2.13E+03
O.OOE+OO
SR-90
7.60E+01
O.OOE+OO
6.71E+01
3.32E+02
O.OOE+OO
NB-94
2.62E-01
1.49E+00
2.35E-01
1.07E+00
O.OOE+OO
TC-99
3.05E-01
O.OOE+OO
8.84E-02
2.43E+00
O.OOE+OO
RU-106
8.11E+00
O.OOE+OO
2.36E+00
6.42E+01
O.OOE+OO
SB-125
1.07E+02
O.OOE+OO
9.62E+01
4.41E+02
O.OOE+OO
1-129
8.75E-01
O.OOE+OO
2.54E-01
6.77E+00
O.OOE+OO
CS-134
8.11E+03
O.OOE+OO
2.36E+03
6.42E+04
O.OOE+OO
CS-135
3.05E-01
O.OOE+OO
8.88E-02
2.41E+00
O.OOE+OO
CS-137
8.14E+03
O.OOE+OO
2.53E+03
6.42E+04
O.OOE+OO
BA-137M
8.14E+03
O.OOE+OO
2.53E+03
6.42E+04
O.OOE+OO
EU-154
1.08E+01
O.OOE+OO
9.64E+00
4.42E+01
O.OOE+OO
TL-208
0.00E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.OOE+OO
PO-210
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
PB-210
0.00E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
PB-212
0.00E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
BI-214
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
PB-214
0.00E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
RA-226
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
TH-228
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
AC-228
0.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
RA-228
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
TH-232
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
U-234
3.61E-01
O.OOE+OO
1.70E-01
1.94E+00
O.OOE+OO
-235
5.78E-03
O.OOE+OO
2.73E-03
3.11E-02
O.OOE+OO
MP-237
1.10E-03
O.OOE+OO
3.34E-04
3.13E-03
O.OOE+OO
0.43
2.2
0.83
1.0
C-3
-------�
PU-238
1.75E+01
PU-239
1.01E+01
PU-241
4.54E+02
AM-241
2.40E+01
PU-242
2.16E-02
AM-243
6.98E-01
CM-243
1.19E-02
CM-244
1.14E+01
H-3
1.
H-3
O.Ol
H-3
0.20
C-14
1.
C-14
0.01
C-14
0.20
FE-55
1.
FE-55
6000.
FE-55
0.20
NI-59
1.
NI-59
150.
NI-59
0.20
CO-60
1.
CO-60
55.
CO-60
0.20
NI-63
1.
NI-63
150.
NI-63
0.20
SR-90
1. .
SR-90
150.
SR-90
0.20
NB-94
1.
NB-94
350.
NB-94
0.20
TC-99
1.
TC-99
0.5
TC-99
0.20
RU-106
1.
RU-106
220.
RU-106
0.20
SB-125
1.
SB-125
45.
SB-125
0.20
1-129
1.
1-129
3.
1-129
0.20
CS-134
1.
CS-134
100.
CS-134
0.20
CS-135
1.
CS-135
100.
CS-135
0.2
CS-137
1.
CS-137
100.
CS-137
0.20
BA-137M
1.
BA-137M
100.
BA-137M
0.20
EU-154
1.
EU-154
4000.
EU-154
0.20
TL-208
1.
TL-208
60000.
O.OOE+OO
4 . 80C. + UU
O.OOE+OO
4.89E+00
O.OOE+OO
2.14E+02
O.OOE+OO
9.75E+00
0.OOE+OO
1.07E-02
O.OOE+OO
1.93E-01
O.OOE+OO
2.59E-03
O.OOE+OO
2.17E+00
0.
0.
0.01
0.01
0.25
0.
0.
0.
0.01
0.01
0.25
0.
0.
0.
50.
6000.
0.25
4.0E-3
0.
0.
50.
150.
0.25
6.0E-2
0.
0.
50.
55.
0.25
2.0E-2
0.
0.
50.
150.
0.25
6.0E-2
0.
0.
30.
150.
0.25
2.5E+0
0.
0.
70.
350.
0.25
2.0E-2
0.
0.
0.5
0.5
0.25
9.5E+0
0.
0.
70.
220.
0.25
7.5E-2
0.
0.
45.
45.
0.25
2.0E-1
0.
0.
3.
3.
0.25
1.5E-1
0.
0.
100.
1000.
0.25
8.0E-2
0.
0.
100.
1000.
0.25
8.0E-2
0.
0.
100.
1000.
0.25
8.0E-2
0.
0.
100.
1000.
0.25
8.0E-2
0.
0.
2000.
4000.
0.25
1.0E-2
0.
0.
60000.
60000.
2.99E+01 O.OOE+OO
1.33E+03 O.OOE+OO
6.95E+01 O.OOE+OO
6.47E-02 O.OOE+OO
1.99E+00 O.OOE+OO
1.94E-02 O.OOE+OO
2.34E+01
0.OOE+OO
0.
5.64E-2
0.01
0.9
0.
0.
0.
1.21E-4
0.01
0.75
0.
0.
0.
2.57E-1
6000
0.0025
1.0E-3
2.5E-4
0.
8.66E-6
150.
0.0025
6.0E-2
l.OE-3
0.
1.32E-1
55.
0.0025
7.0E-3
2.0E-3
0.
7.53E-3
150.
0.0025
6.0E-2
l.OE-3
0.
2.42E-2
20.
0.0025
2.5E-1
1.5E-3
0.
3.47E-5
350.
0.0025
5.0E-2
2.0E-2
0.
3.25E-6
0.5
0.01
1.5E+0
1.0E-2
0.
6.89E-1
220.
0.01
2.0E-2
6.0E-7
0.
2.50E-1
45.
0.0025
3.0E-2
1.0E-4
0.
4.08E-8
3.
0.01
5.0E-2
1.0E-2
0.
3.36E-1
500.
0.0025
3.0E-2
7.0E-3
0.
2.3E-7
500.
0.0025
3.0E-2
7.0E-3
0.
2.31E-2
500.
0.0025
3.0E-2
7.0E-3
0.
2.31E-2
500.
0.0025
3.0E-2
7.0E-3
0.
8.15E-2
4000.
0.0025
4.0E-3
2.0E-5
0.
4.92E-11
60000.
0.0025
0.
5.36E-b
0.
0.
0.
5.39E-3
0.
0.
0.
3.98E-4
1.3E-4
0.
2.0E-2
1.95E-5
6.7E-3
100.
6.0E-3
4.85E-4
l.OE-3
0.
2.0E-2
4.8IE-5
6.7E-3
0.
6.0E-3
2.70E-4
1.4E-2
0.
3.0E-4
8.41E-2
2.5E-3
0.
2.5E-1
1.44E-4
2.5E-2
0.
8.5E-.
6.8IE-4
1.3E-4
0.
2.0E-3
4.10E-7
1.5E-3
0.
l.OE-3
5.64E-3
3.0E-1
300.
7.0E-3
7.81E-2
3.0E-1
0.
2.0E-2
8.01E-3
3.0E-1
300.
2.0E-2
5.35E-2
3.0E-1
300.
2.0E-2
5.35E-2
3.0E-1
0.
2.0E-2
1.34E-4
2.0E-5
0.
5.0E-3
1.09" '
-------�
ru-6iu
i. •
u .
-------�
CM-243 0.20
CM-244 1.
CM-244 3300.
CM-244 0.20
0.25 8.5E-4
0. 0.
700. 3300.
0.25 8.5E-4
1.5E-5 2.0E-5
0. 3.94E-2
3300. 0.0025
1.5E-5 2.0E-5
0. 3.5E-6
0. 8.81E-3
0. 3.5E-6
C-6
-------�
Table c-2
INFIL Subroutine Input File
C-7
-------�
-.30.5
10.8 11.
8.88
8.48
7.05
15.27
6.13
8.84
15.54
15.54
15.54
15.54
15.54
15.54
15.54
15.54
15.54
15.54
15.54
8. 78
12.54
16.73
15.27
6.46
8.41
5.96
7.04
2.14
-1.54
5.18
7.55
11.00
16.16
1 0
3 0
4
13
14
19
20
23
31
1
2
3
9
12
16
17
26
27
1
7
17
24
1
3
5
8
12
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
0
0
0
0
0.01 0.02
2 12.0 12.8 13.
10.16 6.00 20.
6.81 8.76 19.
7.79 12.65 20.
13.93 14.35 16.
12.14 17.74 11.
13.12 16.25 12.
6.94 10.90 8.
9.23 4.41 8.
13.06 7.93 12.
8.44 13.33 11.
8.13 17.32 12.
4.59 18.87 15.
7.46 21.13 17.
8.97 19.19 20.
14.71 19.25 20.
19.33 12.33 20.
16.27 17.60 21.
8.03 17.04 16.
10.02 20.02 14.
11.90 23.06 19.
14.61 23.56 20.
8.04 17.91 16.
10.49 15.05 11.
16.75 13.29 13.
12.71 16.55 16.
1.94 13.24 20.
2.03 6.57 18.
3.65 6.58 17.
11.19 15.
16.00 15.
16.25
0 0 0 0 0
0 0 0 23 0
0 0 0 23 47
0 0 0 0 0
23 23 23 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 23 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
23 0 0 0 0
0 0 0 0 0
0 23 0 0 23
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0.25 0.24
4 13.7 13.6
92 17.80 25.
34 19.45 26.
bl 20.04 25.
68 20.37 23.
78 11.90 25.
02 20.78 24.
20 20.90 23.
60 21.38 26.
57 20.27 27.
21 20.66 25.
79 21.81 24.
35 22.07 23.
93 15.08 23.
56 25.52 23.
36 25.06 26.
93 24.61 26.
36 23.36 21.
86 22.95 22.
26 21.02 25.
05 22.92 26.
29 23.55 26.
27 24.74 24.
65 23.82 24.
41 23.58 23.
35 24.17 24.
59 24.16 24.
13 23.39 24.
02 25.76 25.
51 27.44 25.
75 23.84 27.
24.13
0 0 0 0
23 23 70 23
23 23 47 0
0 0 0 0
23 0 0 0
0 0 0 0
0 0 0 23
0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0
0 47 0 0
0 0 0 0
0 0 0 0
23 0 0 0
0 0 0 23
0 0 0 0
0 0 0 0
0 0 0 0
0 0 47 0
0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0
0 0 23 0
1.20 3.5E-4 1.4E-6 0.1 1.20
13.0 12.3 11.6 10.9 10.6
34 26.30 24.99 21.89 13.96 19.89 19.77
79 25.79 25.92 22.43 19.38 19.56 19.15
34 27.73 25.28 22.71 20.17 19.56 19.73
45 28.48 26.23 18.00 18.79 19.56 19.23
40 25.39 23.77 16.67 20.95 19.56 20.96
17 22.78 23.78 15.04 22.37 19.56 13.86
86 18.01 25.78 15.87 22.63 19.56 11.56
07 12.58 25.85 16.54 21.47 19.56 11.70
60 21.33 25.12 18.09 22.77 19.56 13.60
60 24.66 25.61 19.68 21.45 19.56 8.13
10 25.09 24.93 21.19 17.03 19.56
99 25.93 24.71 21.44 19.06 19.56
10 23.91 24.22 24.27 19.10 19.56
70 24.89 25.27 24.12 15.71 19.56
20 24.26 24.69 25.82 12.18 19.56 13.68
46 24.17 25.35 25.74 12.97 19.56 13.17
95 24.74 24.29 25.48 10.93 19.56 4.78
49 25.83 22.87 24.45 12.78 19.56
70 25.59 24.17 23.35 17.31 19.56
07 26.55 25.24 21.76 18.55 15.42
62 27.56 26.62 21.76 18.82 17.86
69 27.67 25.99 21.76 13.71 16.34
88 24.88 27.02 21.76 10.64 16.61
50 25.21 27.62 21.76 8.38 16.83 14.85
63 26.21 25.31 21.76 9.97 9.64 17.31
98 28.02 18.80 21.76 13.11 12.35 15.14
05 29.36 20.31 21.76 11.43 15.29 16.79
13 27.35 25.31 21.76 12.19 13.85 18.56
97 24.49 20.37 21.76 12.27 19.11 13.72
27 25.53 20.49 20.81 14.62 15.48 7.34
5.07
9.71
7.16
0.08
4.30
1.99
2.85
6.18
5.16
4. 64
8.33
24.50 20.24
0 0 0 0 0
0
0
0
0 0
0 0
0 0
47 23 23
0 0 23
0
0
0
0
0
0
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
23
47 23 23
0 0 0
0
0
0
23
23
0
23 23
0 0
23
0
23
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
0
0
0
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
17. 46
0 0 0
0
0
0
0
0
0
23 47 47
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
0
23 23 23
0 0 0
23
0
23
0
0
0
0
93
0
0
0
0
0
0
23 23 23
0 0 0
0 0
0 0
23 23 70 23 0
0 23 0 23 47
0 0 0 0 0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
0
47
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
23
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
C-8
-------�
4 17
4 20
4 25
4 26
4 27
5 1
5 17
5 19
5 24
5 27
5 30
6 1
6 3
6 12
6 13
6 16
6 17
6 22
6 26
6 27
6 28
7 1
7 4
7 5
7 7
7 9
7 13
7 14
7 15
7 16
7 19
7 20
7 23
7 24
7 27
7 29
8 1
8 5
8 6
8 7
8 8
8 9
8 12
8 18
9 1
9 10
9 18
9 19
9 21
9 26
10 1
10 9
10 10
10 24
10 25
10 26
10 27
11 1
11 16
11 20
00000000000000 47 0 0140 0 0 0 23 0
000000 23 93 23 00000000000000
0 0 0 0 0 0 0 0 0 0 0 0 0 0 23 70 93 93 23 23 0 0 0
0000 23 23 47 23 000000000 0350 0 0 0 0
00 23 00000000000 23 00000000
ooooooooooooooooooooooo
0000000000000000 70 23 00 23 0 23
000000000 47 23 000000000000
0000000000000000 47117 23 0 0 0 0
0000000000000000 0326186 23 0 0 0
0000000000000 47 000000000
ooooooooooooooooooooooo
00000000000000000 23 23 0000
000000000000000000 0163 0 0 0
00000 23 00 93 47 00 23 0000000000
00000000000000000000 93 00
00000000000000 47 23 0000000
000000000000 23 47 000000000
OOOOOOOOOOOOOOOOOOOOOOO
0000000000000000 70 000 23 00
00000000000000 70 00000000
OOOOOOOOOOOOOOOOOOOOOOO
OOOOOOOOOOOOOOOOOOOOOOO
0 23 000000000 0# 00000000000
000000000000000 23 0000000
00000000000 0117 70 23 00000000
0000000000 23 00 47210 00000000
00000000000000000 23 23 0000
00000 23 0000000000 23 0 23 0000
000000000000000 70 23 000000
000000000000000 0280163 0 0 0 0 0
0000000000000000000 0117 0 0
000000000000000000 0210 23 23 0
00000000000000000 23 00000
000000000 23 0000000000000
0000000000 23 000000000000
ooooooooooooooooooooooo
OOOOOOOOOOOOOOOOOOO 0419 93 0
ooooooooooooooooooooooo
23 0 23 0000000000000000000 0
0000000000000000000000 23
000 23 OOOOOOOOOOOOOOOOOOO
00000000000000000 23 000 0 0
300000000000000 93 47 23 000 23 0
OOOOOOOOOOOOOOOOOOOO OOO
00000000 23 23 23 00000000 0 23 0 0
000000000000000000 0140233 0 0
000000 23 000000000 47 000000
0 0 0 o 0 o 0 0 0 47 0 23 0 23 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 23 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
ooooooooooooooooooooooo
0000000000000000000000 23
23 0 0 23 23 0 23 0 0 0 0 0 23 23 23 23 23 0 0 0 0 0
" °0 S o 0 0 0 0 0 0 0 0 0 0 0 0 0 o 23 23 23 (> 0
0 23 0000000 23 0 23 70 47 000000000
00000000 23 00000000000000
0000 47 00 47 000000000000000
ooooooooooooooooooooooo
000000000000000000 23 000 47
000000 23 23 000000000000000
23
C-9
-------�
11
24
0
0
0
0
0
23
0
0
23
0
11
30
0
0
0
0
0
0
0
0
0
0
12
1
0
0
0
0
0
0
0
0
0
0
12
2
0
0
0
23
0
0
0
0
0
0
12
6
0
0
0
0
0
0
0
0
0
0
12
14
0
0
0
0
0
0
0
0
23
23
12
15
0
0
0
0
0
23
23
23
93117
12
18
0
23
23
47
0
23
0
23
0
0
12
24
0
0
23
0
0
0
0
0
0
0
12
25
0
0
0
23
47
23
23
23
0
23
12
27
0
0
0
0
0
0
0
0
0
0
12
28
0
0
0
0
0
0
0
0
0
0
12
29
0
23
47
0
0
0
0
0
0
0
12
31
0
0
0
47
23
23
47
70
47
70
99
0000 23 0000000
23 0 23 0000 23 0000
0 0 0 0 23 0 23 70 93 0 0 23
000000000000
oooooooooooo
47 23 0 23 0 0 0 0 0 0 0
00000000000.
oooooooooooo
0000000 23 000 23
oooooooooooo
oooooooooooo
0000000000 47163
oooooooooooo
47 70 47 47 23 0 0 0 0 0 0 0
0
23
0
0
23
47
23
0
0
23
23
0
0
47
10
-------�
Table C-3
Dosimetric Input File
C-li
-------�
H-3
8.2600E-08
1.2400E-07
0.0000E+00
0.OOOOE+OO
R
H-3
6.5600E-08
9.8500E-08
0.OOOOE+OO
0.OOOOE+OO
END
H-3
8.2800E-08
1.2400E-07
0.0000E+00
0.OOOOE+OO
THY
H-3
8.3000E-08
1.2500E-07
0.0000E+00
0.OOOOE+OO
BRE
H-3
8.3600E-08
1.2500E-07
0.OOOOE+OO
0.OOOOE+OO
*PU
H-3
1.0800E-07
1.2500E-07
0.OOOOE+OO
0.OOOOE+OO
s w
H-3
1.1870E-07
1.3400E-07
0.OOOOE+OO
0.OOOOE+OO
INT
H-3
8.2800E-08
1.2400E-07
0.OOOOE+OO
0.OOOOE+OO
LIV
H-3
8.0600E-08
1•2100E-07
0.OOOOE+OO
0.OOOOE+OO
PAN
H-3
8.5600E-08
1.2900E-07
0.OOOOE+OO
0.OOOOE+OO
KID
H-3
8.0600E-08
1.2100E-07
0.OOOOE+OO
0.OOOOE+OO
OTH
H-3
8.6110E-08
1.2433E-07
0.OOOOE+OO
0.OOOOE+OO
WH
C-14
3.3800E-06
2.4200E-08
0.OOOOE+OO
0.OOOOE+OO
R M
C-14
7.0500E-06
5.0800E-08
0.OOOOE+OO
0.OOOOE+OO
END
C-14
8.8900E-07
6.4800E-09
0.OOOOE+OO
0.OOOOE+OO
THY
C-14
1.9200E-06
1.4100E-08
0.OOOOE+OO
0.OOOOE+OO
BRE
C-14
8.9400E-07
6.1800E-09
0.OOOOE+OO
0.OOOOE+OO
*PU
C-14
1.2100E-06
7.3500E-09
0.OOOOE+OO
0.OOOOE+OO
S W
C-14
1.2300E-06
7.0600E-09
0.OOOOE+OO
0.OOOOE+OO
INT
C-14
1.2300E-06
8.8800E-09
0.OOOOE+OO
0.OOOOE+OO
LIV
C-14
1.0900E-06
7.8400E-09
0.OOOOE+OO
0.OOOOE+OO
PAN
C-14
1.0600E-06
7.9200E-09
0.OOOOE+OO
0.OOOOE+OO
KID
C-14
1.0900E-06
7.8400E-09
0.OOOOE+OO
0.OOOOE+OO
OTH
C-14
1.5403E-06.
1.0883E-08
0.OOOOE+OO
0.OOOOE+OO
WH
FE-55
4.0150E-07
6.7920E-07
2.1420E+03
4.1400E+00
R M
FE-55
3.8070E-07
6.4400E-07
1.0580E+04
2.0400E+01
END
FE-55
4.0180E-07
6.7990E-07
4.1440E+03
7.9500E+00
THY
FE-55
3.9510E-07
6.7080E-07
6.4750E+05
1.2470E+03
BRE
FE-55
4.0500E-07
6.0180E-06
6.5120E+03
1.2600E+01
•PU
FE-55
2.5450E-07
4.0890E-07
1.6830E+03
3.2400E+00
s w
FE-55
6 -4790E-07
6.1770E-07
1.3650E+03
2.6400E+00
INT
FE-55
1.2680E-06
2.1460E-06
8.0300E+01
1.5500E-01
LIV
FE-55
4.0560E-07
6.8630E-07
4.8100E+03
9.2900E+00
PAN
FE-55
3.9690E-07
6.7150E-07
9.8800E+00
1.9090E-02
KID
FE-55
4.0560E-07
6.8630E-07
4.8100E+03
9.2900E+00
OTH
FE-55
4.7315E-07
1.8869E-06
8.7269E+04
8.4035E+03
WH
NI-59
1.3960E-07
4.0970E-07
3.5960E+03
7.7700E+00
R M
NI-59
1.2990E-07
3.8120E-07
1.7800E+04
3.8500E+01
END
NI-59
1.3960E-07
4.0960E-07
6.9190E+03
1.5000E+01
THY
NI-59
1.3690E-07
4.0590E-07
1.0840E+06
2.3460E+03
BRE
NI-59
1.4090E-07
6.9350E-06
1.0950E+04
2.3700E+01
*PU
NI-59
1.0390E-07
2.5550E-07
2.8270E+03
6.1000E+00
s w
NI-59
5.6230E-07
4.9950E-07
2.2980E+03
4.9500E+00
INT
NI-59
1.3560E-07
3.9800E-07
1.3500E+02
2.9100E-01
LIV
NI-59
1.4090E-07
4.1360E-07
8.1030E+03
1.7500E+01
PAN
NI-59
3.3660E-10
9.8780E-10
1.6600E+01
3.5890E-02
KID
NI-59
1.4090E-07
4.1360E-07
8.1030E+03
1.7500E+01
OTH
NI-59
1.4941E-07
1.7432E-06
1.4613E+05
1.5810E+04
WH
CO-60
4.8690E-06
6.3660E-05
1.1620E+10
2.0390E+06
R M
C0-60
2.7390E-06
4.9100E-05
1.2320E+10
2.1610E+06
END
C0-60
4.0010E-06
6.0970E-05
1.4360E+10
2.5200E+06
THY
CO-60
4•5710E-06
6.8950E-05
1.3580E+10
2.3790E+06
BRE
CO-60
3.6990E-06
1.6040E-03
1.1510E+10
2.0200E+06
*P(J
CO-60
6.2750E-06
1.0110E-04
1.0660E+10
1.8650E+06
S W
CO-60
2.6300E-05
2.9920E-05
1.0830E+10
1.8950E+06
INT
CO-60
8.5300E-06
1.2390E-04
1.0880E+10
1.9050E+06
LIV
CO-60
4.8800E-06
1.1760E-04
9.4350E+09
1.6500E+06
PAN
CO-60
5.4140E-06
5.8070E-05
1.1470E+10
2.0090E+06
KID
CO-60
4. 8800E-06
1.1760E-04
9.4350E+09
1.6500E+06
OTH
C-12
-------�
CO.-60
5.7760E-06
3.9976E-04
NI-63
3.2560E-07
9.5510E-07
NI-63
3.2560E-07
9.5510E-07
NI-63
3.2560E-07
9.5510E-07
NI-63
3.2560E-07
9.5510E-07
NI-63
3.2560E-07
1.7700E-05
NI-63
2.3660E-07
5.1730E-07
NI-63
1.8400E-06
1.3480E-06
NI-63
3.2560E-07
9.5510E-07
NI-63
3.2560E-07
9.5510E-07
NI-63
9.4880E-10
2.7830E-09
NI-63
3.2560E-07
9.5510E-07
NI-63
3.6915E-07
4.3850E-06
SR-90
2.1700E-05
1.1460E-03
SR-90
4.9250E-05
2.6000E-03
SR-90
1.7760E-07
9.4330E-06
SR-90
1.7760E-07
9.4330E-06
SR-90
1.7760E-07
1.4970E-05
SR-90
9.6530E-07
4.8840E-06
SR-90
4.7930E-05
1.0200E-05
SR-90
1.9040E-07
1.0710E-05
SR-90
1.7760E-07
9.4330E-06
SR-90
1.7760E-07
9.4330E-06
SR-90
1.7760E-07
9.4330E-06
SR-90
5.6197E-06
1.9581E-04
NB-94
3.8190E-06
9.8320E-05
NB-94
2.0070E-05
1.7580E-04
NB-94
5.3100E-07
9.2070E-05
NB-94
1.3260E-06
9.2500E-05
NB-94
6.2200E-07
2.3570E-03
NB-94
2.8350E-06
1.3070E-04
NB-94
2.7730E-05
3.5710E-05
NB-94
1.0450E-06
1.6080E-04
NB-94
1.3480E-06
1.6660E-04
NB-94
2.5870E-06
7.8050E-05
NB-94
1.3480E-06
1.6660E-04
NB-94
2.7217E-06
5.8285E-04
TC-99
2.3120E-07
1.5480E-07
TC-99
2.3120E-07
1.5480E-07
TC-99
5.9760E-06
4.0000E-06
TC-99
2.3120E-07
1.5480E-07
TC-99
2.3120E-07
9.9200E-05
TC-99
1.2550E-05
8.3330E-06
TC-99
2.2030E-06
1.1600E-06
TC-99
3.0350E-07
2.0320E-07
TC-99
2.3120E-07
1.5480E-07
TC-99
2.3120E-07
1.5480E-07
TC-99
2.3120E-07
1.5480E-07
TC-99
1.9159E-06
2.1817E-05
RU-106
5.6350E-06
6.7340E-06
RU-106
5.4070E-06
6.0970E-06
RU-106
5.5300E-06
6.6530E-06
RU-106
5.5970E-06
6.8730E-06
RU-106
5.4680E-06
5.8890E-03
RU-106
9.1090E-06
9.0610E-06
RU-106
1.4310E-04
7•6650E-05
RU-106
5.5730E-06
8.7740E-06
RU-106
5.5480E-06
9.2850E-06
RU-106
5.6540E-06
6.3570E-06
RU-106
5.5480E-06
9.2850E-06
1.1568E+10
1.0139E+08
WH
0.OOOOE+OO
0.OOOOE+OO
R M
0.OOOOE+OO
0.OOOOE+OO
END
0.0000E+00
0.OOOOE+OO
R T
0.OOOOE+OO
0.OOOOE+OO
BRE
0.OOOOE+OO
0.OOOOE+OO
*PU
0.OOOOE+OO
0.OOOOE+OO
S W
0.OOOOE+OO
0.OOOOE+OO
INT
0.OOOOE+OO
0.OOOOE+OO
LIV
0.OOOOE+OO
0.OOOOE+OO
PAN
0.OOOOE+OO
0.OOOOE+OO
KID
0.OOOOE+OO
0.OOOOE+OO
OTH
0.OOOOE+OO
0.OOOOE+OO
WH
0.OOOOE+OO
0.OOOOE+OO
R M
0.OOOOE+OO
0.OOOOE+OO
END
0.OOOOE+OO
0.OOOOE+OO
THY
0.OOOOE+OO
0.OOOOE+OO
BRE
0.OOOOE+OO
0.OOOOE+OO
*PU
0.OOOOE+OO
0.OOOOE+OO
S W
0.OOOOE+OO
0.OOOOE+OO
INT
0.OOOOE+OO
0.OOOOE+OO
LIV
0. OOOOE+OO
0.OOOOE+OO
I
PAN
0.OOOOE+OO
0.OOOOE+OO
j
KID
0.OOOOE+OO
0.OOOOE+OO
!
OTH
0.OOOOE+OO
0.OOOOE+OO
j
WH
7.3260E+09
1.4240E+06
I
R M
8.0290E+09
1.5540E+06
I
END
9.1020E+09
1.7650E+06
1
THY
8.6210E+09
1.6760E+06
!
BRE
7.2150E+09
1.4020E+06
!
*PU
6.6970E+09
1.2990E+06
!
S W
6.6900E+09
1.2980E+06
!
INT
6.7710E+09
1.3130E+06
j
LIV
5.8460E+09
1.1320E+06
!
PAN
7.1040E+09
1.3800E+06
!
KID
5.8460E+09
1.1320E+06
!
OTH
7.2637E+09
7.0512E+07
1
WH
1.5320E+03
3.6200E-01
!
R M
3.6480E+03
8.6200E-01
!
END
3.0670E+03
7.2500E-01
THY
3.6220E+03
8.5500E-01
BRE
2.0900E+03
4.9200E-01
*PU
1.8200E+03
4.2900E-01
S W
1.7630E+03
4.1700E-01
INT
1.8870E+03
4.4400E-01
LIV
1.3990E+03
3.3000E-01
PA
1.9310E+03
4.5500E-01
KID
1.3990E+03
3.3000E-01
OTH
2.1288E+03
2.5108E+01
WH
0.OOOOE+OO
0.OOOOE+OO
R M
0.OOOOE+OO
0.OOOOE+OO
END
0.OOOOE+OO
0.OOOOE+OO
THY
0.OOOOE+OO
0.OOOOE+OO
BRE
0.OOOOE+OO
0.OOOOE+OO !
*PU
0.OOOOE+OO
0.OOOOE+OO
S W
0.OOOOE+OO
0.OOOOE+OO
INT
0.OOOOE+OO
0.OOOOE+OO
LIV
0.OOOOE+OO
0.OOOOE+OO
PAN
0.OOOOE+OO
0.OOOOE+OO
KID
0.OOOOE+OO
0.OOOOE+OO
OTH
C-13
-------�
RU-106
1.1218E-05
1.2308E-03
SB-125
0. OOOOE+OO
2.2050E-06
SB-125
0.OOOOE+OO
6.3730E-06
SB-125
0.OOOOE+OO
1.2590E-06
SB-125
0.OOOOE+OO
1.5850E-06
SB-125
0.OOOOE+OO
1.2450E-04
SB-125
0.OOOOE+OO
2.3130E-06
SB-125
0.OOOOE+OO
7.4380E-06
SB-125
0.OOOOE+OO
3.1650E-06
SB-125
0.OOOOE+OO
2.7170E-06
SB-125
0.OOOOE+OO
1.2750E-05
SB-125
0.OOOOE+OO
2.7170E-05
SB-125
0.OOOOE+OO
2.7773E-05
1-129
7.8920E-07
5.2550E-07
1-129
6.3100E-07
4.2150E-07
1-129
8.6750E-03
5.7630E-03
1-129
1.1950E-06
7.9620E-07
1-129
5.8280E-07
1.5080E-06
1-129
5.8100E-07
2.3250E-07
1-129
6.5850E-07
2.5620E-07
1-129
4.8180E-07
3.2360E-07
1-129
4.9970E-07
3.3090E-07
1-129
5.0100E-07
3.3280E-07
1-129
4.9970E-07
3.3090E-07
1-129
8.5680E-04
5.6947E-04
CS-134
6.6400E-05
4.4140E-05
CS-134
4.4210E-05
2.9410E-05
CS-134
8.0330E-05
5.3430E-05
CS-134
7.1250E-05
4.7380E-05
CS-134
6.1490E-05
4.4680E-05
CS-134
6.3400E-05
4.1550E-05
CS-134
4.6180E-05
2.9990E-05
CS-134
7.0640E-05
4.7040E-05
CS-134
6.1680E-05
4.1010E-05
CS-134
7.7360E-05
5.1410E-05
CS-134
6.1680E-05
4.1010E-05
CS-134
6.6090E-05
4.4658E-05
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
5.6720E-06
CS-135
3.7320E-06
2.3340E-06
CS-135
3.8010E-06
2.3500E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.9030E-06
4.5860E-06
CS-135
6.5155E-06
4.5351E-06
CS-137
4.3650E-05
2.9010E-05
CS-137
3.0520E-05
2.0290E-05
CS-137
5.0800E-05
3.3780E-05
CS-137
4.7990E-05
3.1900E-05
CS-137
4.4380E-05
3.3940E-05
CS-137
3.5680E-05
2.3110E-05
CS-137
2.9280E-05
1.8710E-05
CS-137
4•7860E-05
3.1840E-05
CS-137
4.4400E-05
2.9520E-05
CS-137
5.0550E-05
3.3590E-05
CS-137
4.4400E-05
2.9520E-05
0.OOOOE+OO
0.OOOOE+OO
WH
1.8830E+09
3.8850E+05
R M
2.1830E+09
4.5140E+05
END
2.3240E+09
4.8100E+05
THY
2•3460E+09
4.9210E+05
BRE
1.8500E+09
3.8110E+05
*PU
1.6980E+09
3.5040E+05
S W
1.6880E+09
3.4780E+05
INT
1.7200E+09
3.5480E+05
LIV
1.4800E+09
3.0490E+05
PAN
1.8020E+09
3.7370E+05
KID
1.4800E+09
3.0490E+05
OTH
1.8725E+09
1.9368E+07
WH
7.8070E+06
4.0330E+03
R M
3.6220E+07
1.8720E+04
END
4.1440E+07
2.1680E+04
THY
8.8800E+07
4.7360E+04
BRE
2.0570E+07
1.0660E+04
*PU
1.5100E+07
7.8070E+03
S W
1.4440E+07
7.4590E+03
INT
1.6460E+07
8.4360E+03
LIV
9.7680E+06
5.0690E+03
PAN
3.3850E+07
1.7720E+04
KID
9.76.80E+06
5.0690E+03
OTH
2.6989E+07
7.0864E+05
WH
7.1780E+09
1.4130E+06
R M
7.9180E+09
1.5580E+06
END
8.8430E+09
1.7390E+06
THY
8.5100E+09
1.6760E+06
BRE
7.0300E+09
1.3870E+06
*PU
6.5120E+09
1.2800E+06
S W
6.4900E+09
1.2790E+06
INT
6.5860E+09
1.2950E+06
LIV
5.6610E+09
1.1170E+06
PAN
6.9190E+09
1.3620E+06
KID
5.6610E+09
1.1170E+06
OTH
7.0864E+09
6.9802E+07
WH
0.OOOOE+OO
0.OOOOE+OO
R M
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*PU
S W
I W
LIV
PAN
KID
OTH
WH
R M
END
THY
BRE
*PU
S W
INT
LIV
PAN
KID
OTH
WH
R M
END
THY
BRE
*PU
S W
INT
LIV
PAN
KID
OTH
C-17
-------�
U^235
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
NP-237
U-238
U-238
U-238
U-238
U-238
U-238
U-238
U-238
U-238
U-238
U-238
U-238
PU-238
PU-Z38
PU-238
PU-238
PU-238
PU-238
PU-238
PU-238
PU-238
PU-238
PU-238
PU-238
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-239
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
PU-241
8.5988E-06
7.5094E-03
9.2771E-02
1.1583E-04
1.1601E-04
1.1617E-04
1.1957E-04
2.215 7E-04
1.8364E-02
1.1639E-04
1.1631E-04
1.1639E-04
3.1489E-03
1.1467E-05
1.485SE-04
3.4612E-07
3.5378E-07
3.4721E-07
3.9851E-06
9.1403E-05
2.9807E-07
3.5201E-07
5.9154E-05
3.5201E-07
7.9042E-06
6.7647E-03
8.3428E-02
1.038SE-04
1.0385E-04
1.0386E-04
1.0612E-04
2.1697E-04
1.7112E-02
1.038SE-04
1.0385E-04
1.0385E-04
2.8852E-03
8.0906E-04
9.9627E-03
1.2403E-05
1.2403E-05
1.2403E-05
1.6765E-05
1.1890E-04
1.9B15E-03
1.2403E-05
1.2403E-05
1.2403E-05
3.4337E-04
1.8709E-04
2.3064E-03
2.8682E-06
2.8692E-06
2.8708E-06
2.8780E-06
3.3990E-06
4.2516E-04
2.8715E-06
2.8711E-06
2.8715E-06
8028E-01
1023E-01
1248E+01
4039E-02
4058E-02
0936E-01
3959E-02
4018E-02
2.2241E+00
1.4105E-02
1.4095E-02
1.4105E-02
4.0097E-01
3.1000E-04
3.7993E-03
1.0719E-05
1.1584E-05
8.3275E-01
1.8654E-05
1.7166E-04
1.2997E-05
1.2323E-05
1.5145E-03
1.2323E-05
1.7290E-01
3.1823E-01
3.9204E+00
4.8866E-03
4.8868E-03
1.0699E+00
4.8664E-03
4.9310E-03
8.1549E-01
4.8867E-03
4.8866E-03
4.8867E-03
3.5737E-01
3.6423E-01
4.7 403E+00
5.8884E-03
5.8S85E-03
0215E+00
8643E-03
9247E-03
5647E-01
8885E-03
8885E-03
5.8885E-03
3.7296E-01
9.6116E-03
1.1839E-01
1.620SE-04
1.6211E-04
2.0994E-03
1.6135E-04
1.6168E-04
2.2745E-02
1.6 224E-04
1.6221E-04
1.6 224E-0 4
1.
5.
S,
9,
5,
5,
5.5395E+08
6.6970E+07
1.4980E+08
1.2910E+08
1.6610E+08
8.8060E+07
7.6590E+07
7.4520E+07
7.9180E+07
5.9940E+07
8.3620E+07
5.9940E+07
9.1999E+07
1.4130E+05
4.5140E+05
3.7740E+05
1.5500E+06
2.5050E+05
1.9870E+05
1.8260E+05
2.0650E+05
1.4870E+05
2.1900E+05
1.4870E+05
3.8658E+05
5.2910E+04
2.0900E+05
1.7090E+05
1.8050E+06
1.1770E+05
7.8440E+04
6.6750E+04
7.1410E+04
6.7710E+04
8.0290E+04
6.7710E+04
3 -1370E+05
1.9500E+05
3.9960E+05
3.3850E+05
9.9900E+05
2.4200E+05
2.0720E+05
2.0180E+05
2.0500E+05
1.7320E+05
2.0830E+05
1.7320E+05
3.2278E+05
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
7.2682E+06
1.6060E+04
3.7370E+04
3.2490E+04
6.1420E+04
2.1900E+04
1.8720E+04
1.8140E+04
1.9170E+04
1.4690E+04
2.1090E+04
1.4690E+04
1.2659E+06
5.5500E+01
2.0900E+02
1.5700E+02
2.9670E+03
1.2100E+02
7.2100E+01
6.0500E+01
5.6600E+01
7.5500E+01
5.8500E+01
7.5500E+01
2.3160E+04
4.5100E+01
2.0500E+02
1.5100E+02
4.0700E+03
1.2200E+02
S.6600E+01
3.9800E+01
2.6300E+01
7.6200E+01
2.6700E+01
7.6200E+01
2.9953E+04
5.5900E+01
1.4700E+02
1.1700E+02
1.6170E+03
8.9500E+01
6.0300E+01
5.3700E+01
4.8500E+01
6.1400E+01
4.8500E+01
6.1400E+01
1.3619E+04
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
C-18
! WH
! R M
! END
! THY
! BRE
! *PU
! S W
! INT
! LIV
! PAN
! KID
! OTH
! WH
! R A
! END
! THY
! BRE
! *PU
! S W
! INT
! LIV
! PAN
! KID
! OTH
! WH
1 R M
! END
! THY
r BRE
! *PU
! S H
! INT
! LIV
! PAN
! KID
I OTH
! WH
I R A
! END
! THY
! BRE
! *PU
! S W
! INT
! LIV
! PAN
! KID
! OTH
! WH
! R A
1 END
! THY
I BRE
! *PU
! S W
! INT
! LIV
! PAN
! KID
1 OTH
-------�
PU-241
7.5568E-05
4.3716E-03
AM-241
8.1916E-0 3
9.9282E-01
AM-241
1.0100E-01
1.2244E+01
AM-241
1.2564E-04
1.5226E-02
AM-241
1.2570E-04
1.5232E-02
AM-241
1.2576E-04
1.2449E-01
M-241
1.3001E-04
1.5165E-02
aM-241
2.4185E-04
1.5223E-02
AM-241
2.0209E-02
2.4411E+00
AM-241
1.2581E-04
1.5245E-02
AM-241
1.2579E-04
1.5243E-02
AM-241
1.2581E-04
1.5245E-02
AM-241
3.4490E-03
4.4015E-01
PU-242
7.6748E-04
3.6444E-01
PU-242
9.5069E-03
4.5204E+00
PU-242
1.1805E-05
5.6066E-03
PU-242
1.1806E-05
5.6068E-03
PU-242
1.1806E-05
9.6889E-01
PU-242
1.5957E-05
5.5804E-03
PU-242
1.1302E-04
5.6369E-03
PU-242
1•8808E-03
9.0789E-01
PU-242
1.1806E-05
5.6067E-03
PU-242
1.1805E-05
5.6067E-03
PU-242
1.1806E-05
5.6067E-03
PU-242
3.2605E-04
3.5395E-01
AM-243
8.2868E-03
1.0044E+00
AM-243
1.0244E-01
1.2409E+01
AM-243
1.2763E-04
1.5469E-02
AM-243
1.2801E-04
1.5508E-02
AM-243
1.2839E-04
1.2090E-01
AM-243
1.3191E-04
1.5425E-02
AM-243
2.4649E-04
1.5498E-02
M-243
2.0322E-02
2.4675E+00
.M-243
1.2887E-04
1.5614E-02
AM-243
1.2876E-04
1.5600E-02
AM-243
1.2887E-04
1.5614E-02
AM-243
3.4794E-03
4.4306E-01
CM-243
4.6605E-03
5.6396E-01
CM-243
5.7817E-02
6.9869E+00
CM-243
7.1838E-05
8.6930E-03
CM-243
7.1998E-05
8.7044E-03
CM-243
7.2065E-05
1.2384E-01
CM-243
7.7245E-05
8.6597E-03
CM-243
2.0588E-04
8.7252E-03
CM-243
1.2494E-02
1.5121E+00
CM-243
7.2271E-05
8.7370E-03
CM-243
7.2235E-05
8.7324E-03
CM-243
7.2271E-05
8.7 370E-03
CM-243
2.0516E-03
2.7145E-01
CM-244
3.4723E-03
4.1963E-01
CM-244
4.3083E-02
5.2004E+00
CM-244
5.3425E-05
6.4566E-03
CM-244
5.3426E-05
6.4567E-03
CM-244
5.3427E-05
1.2113E-01
CM-244
5.8123E-05
6.4264E-03
CM-244
1.7301E-04
6.4848E-03
CM-244
9.6808E-03
1.1701E+00
CM-244
5.3426E-05
6.4567E-03
^M-244
5.3426E-05
6.4567E-03
-244
5.3426E-05
6.4567E-03
-4-244
1.S608E-03
2.1183E-01
C-19
0. OOOOE-t-OO
0.0000E+00
WH
3.7370E+07
1.0770E+04
R M
1.2730E+08
3.6930E+04
END
1.0990E+08
3.1750E+04
THY
1.4690E+08
5.5500E+04
BRE
6.9190E+07
2.0090E+04
*PU
5.6980E+07
1.6 350E+04
S W
5.2540E+07
1.5070E+04
INT
6.2160E+07
1.7 800E+04
LIV
3.8850E+07
1.1280E+04
PAN
6.9190E+07
1.9760E+04
KID
3.8850E+07
1.1280E+04
OTH
7.1069E+07
1.1112E+06
WH
4.9950E+04
3.7700E+01
R M
1.9170E+05
1.6900E+02
END
1.5800E+05
1.2500E+02
THY
1.4540E+06
3.2190E+03
BRE
1.0730E+05
1.0100E+02
*PU
7.4000E+04
4.8100E+01
S W
6.3860E+04
3.4400E+01
INT
6.9930E+04
2.4400E+01
LIV
6.1790E+04
6.2200E+01
PAN
7.7700E+04
2.5000E+01
KID
6.1790E+04
6.2200E+01
OTH
2.6240E+05
2.3832E+04
WH
1.2620E+08
3.1230E+04
R M
3.5260E+08
8.8060E+04
END
2.9750E+08
7.4370E+04
THY
3.6560E+08
1.0360E+05
BRE
1.9650E+08
4.8840E+04
*PU
1.6720E+08
4.1440E+04
S W
1.5820E+08
3.9330E+04
INT
1.7800E+08
4.4030E+04
LIV
1.2140E+08
3.0190E+04
PAN
1.8650E+08
4.6250E+04
KID
1.2140E+08
3.0190E+04
OTH
1.9934E+08
2.5600E+06
WH
4.8840E+08
1.0840E+05
R M
7.7330E+08
1.7350E+05
END
7.0670E+08
1.5760E+05
THY
7.9920E+08
1.9790E+05
BRE
5.2170E+08
1.1650E+0S
*PU
4.6990E+08
1.0470E+05
S W
4.6400E+08
1.0320E+05
INT
4.7730E+08
1.0580E+05
LIV
3.9590E+08
8.8430E+04
PAN
4.9210E+08
1.0910E+05
KID
3.9590E+08
8.8430E+04
OTH
5.3894E+08
6.1329E+06
WH
4.1810E+-04
4.4400E+01
R M
1.6870E+05
2.0500E+02
END
1.3840E+05
1.5900E+02
THY
1.7610E+06
3.8480E+03
BRE
9. 6940E+04
1.2400E+02
*PU
5.9570E+04
5.6200E+01
s w
4.8140E+04
3.6300E+01
INT
4.7730E+04
2.1200E+01
LIV
5.6610E+04
7.6200E+01
PAN
5.2540E+04
2.0700E+01
KID
5.6610E+04
7.6200E+01
OTH
2.9163E+05
2.8603E+04
WH
-------�
table C-4
Output File
C-20
-------�
1
** FRESTO-1
** INPUT DATA AS READ IN **
SOUTHEAST...SAMPLE RUN FOR CPG... SHALLOW LAND DISPOSAL
SOUTHEAST
1000 AO 2 100 300 -1 1 0 1000 100 0 0
00 -1 0 100 0 0 1
0.0 0.2 0.0 0.5 1.0 0.0
C
C
SOUTHEAST AS IS: SOL: SOL: SOL: . ..LLW-BRONARM
C
C. . .2/9/89
C
C
l.UE+05
7.0
2.0
O.A37
1.331
0.0
0.17
2.2
20.
0.0
20.
50.
0.0
1A.6
267.
27.8
30.5
0.3
0.39
0.0
0.0
1.0
0.0
0.0
0.0
1.0
0.01
2.01
0.01
1107.
300.
0.09
0.0
1.0E-6
-0.15
l.OE-11
0.
0.0
0.0
1 A
250.
0.23
0.27
0.30
0.3
1.0
0.39
1.6
3.57E+5
332.OA
0.1
627.
0.
0.29
0.67
0.65
2A0.
0.0021
0.
720.
0.0
2160.
2A.
1AA0.
336.
336.
50.
6.
A8.
96.
A80.
9.9
0.0
0.0
0.0
0. A
0.015
60.
8.
50.
1A.
88.5
89.A
0.
62.8
A81.9
0.
A.OE-A
0.
A.OE-A
A.OE-A
1.0
1.0E-7
0.0
1.0E-7
0.0
0.0
H-3
1.15E+03
0.00E+00
3.A5E+03
1.98E+05
O.OOE-t-OO
C-l A
5.20E+01
A.71E+01
1.95E+02
3.7AE+02
0.00E+00
FE-55
7.32E+03
A.06E+05
6.30E+03
3.2AE+0A
O.OOE-t-OO
NI-59
8.26E+00
2.53E+02
7.A2E+00
3.A1E+01
O.OOE-t-OO
C0-60
1.35E+04
2.91E+05
1.2AE+0A
5.51E+0A
0.00E+00
NI-63
1.72E+03
3.A9E+0A
2.09E+03
2.13E+03
0.00E+00
cd —on
7 dnr4.ni
rt nnr+nn
a 7 i p+m
-» i?f
n nnp+nn
i—CPG — PC/AT VERSION
0 1 1000 1
0.0 0.0
0. A3
0.3S 2.2
0.01
0.
1AA0.
1.0 0.83
1.0
8035. 1.0
0.555
-------�
NB-94
2.62E-01
TC-99
3.05E-0I
RU-106
8.UE+00
SB-125
I.07E+02
1-129
8.75E-01
CS-134
8.11E+03
CS-135
3.05B-01
CS-137
8.14E+03
BA-137M
8.14E+03
EU-154
1.08E+01
TL-208
0.00E+00
P0-210
-0.00E+00
PB-210
O.OOE+OO
PB-2L2
O.OOE+OO
BI-214
O.OOE+OO
PB-214
O.OOE+OO
RA-226
O.OOE+OO
TH-228
O.OOE+OO
AC-228
O.OOE+OO
RA-228
O.OOE+OO
TH-232
O.OOE+OO
U—234
3.61E-01
U-235
5.78E-03
NP-237
1.10E-03
U-238
1.06E-01
PU-238
1.75E+01
PU-239
1.01E+01
PU-241
4.54E+02
AM-241
2.40E+01
PU-242
2.16E-02
AM-243
6.98E-01
CM-243
1.19E-02
CM-244
1.14E+01
H-3
1.
H-3
0.01
H-3
0.20
C-14
1.
C-14
0.01
C-14
0.20
FE-55
1.
FE-55
6000.
FE-
0.20
NI-
1.
MT-SQ
i sn. ¦
1.49E+00
2.3SE-01
O.OOE+OO
8.84E-02
O.OOE+OO
2.36E+00
O.OOE+OO
9.62E+01
O.OOE+OO
2.54E-01
O.OOE+OO
2.36E+03
O.OOE+OO
8.88E-02
O.OOE+OO
2.53E+03
O.OOE+OO
2.53E+03
O.OOE+OO
9.64E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
1.70E-01
O.OOE+OO
2.73E-03
O.OOE+OO
3.34E-04
O.OOE+OO
4.98E-02
O.OOE+OO
4.86E+00
O.OOE+OO
4.89E+00
O.OOE+OO
2.14E+02
O.OOE+OO
9.75E+00
O.OOE+OO
1.07E-02
O.OOE+OO
1.93E-01
O.OOE+OO
2.59E-03
O.OOE+OO
2.17E+00
0.
0.
0.01
0.01
0.25
0.
0.
0.
0.01
0.01
0.25
0.
0.
0.
50.
6000.
0.25
4.0E-3
0.
0.
srf.
150.
1.07E+00
O.OOE+OO
2.43E+00
O.OOE+OO
6.42E+01
O.OOE+OO
4.41E+02
O.OOE+OO
6.77E+00
O.OOE+OO
6.42E+04
O.OOE+OO
2.41E+00
O.OOE+OO
6.42E+04
O.OOE+OO
6.42E+04
O.OOE+OO
4.42E+01
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
1.94E+00
O.OOE+OO
3.11E-02
O.OOE+OO
3.13E-03
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1 PRESTO - A MODEL FOR PREDICTING THE MAXIMUM INDIVIDUAL DOSE AS A RESULT OF THE
MIGRATION OF RADIONUCLIDES FROM LOU-LEVEL RADIOACTIVE WASTE DISPOSAL SITES
0
SOUTHEAST...SAMPLE RUN FOR CPG...SHALLOW LAND DISPOSAL
*** CONTROL INFORMATION ***
0 THE BURIAL SITE IS LOCATED AT SOUTHEAST
THE MODE OF DISPOSAL IS SHALLOW LAND BURIAL
THE SIMULATION WILL RUN FOR 1000 YEARS AND WILL INCLUDE 40 NUCLIDES
LEACHING OPTION NUMBER 2 WILL BE USED
IN YEAR 100 , .00 OF THE CAP WILL BE ASSUMED TO FAIL
THIS WILL CONTINUE UNTIL .20 HAS FAILED IN YEAR 300
CAP MAY ALSO FAIL BY SURFACE EROSION
PERMEABILITY WILL BE USED FOR MINIMUM VERTICAL WATER VELOCITY
LENGTH OF VERTICAL SATURATED ZONE WILL BE SET TO THE TRENCH TO AQUIFER DISTANCE
POPULATION INDICATOR IS 0
MAXIMUM INDIVIDUAL EXPOSURE WILL BE USED TO CALCULATE HEALTH EFFECTS
.000 OF IRRIGATION WATER WILL BE GOTTEN FROM WELL
.500 OF DRINKING WATER FOR ANIMALS WILL BE GOTTEN FROM WELL
1.000 OF DRINKING WATER FOR HUMANS WILL BE GOTTEN FROM WELL
.000 OF IRRIGATION WATER WILL BE GOTTEN FROM STREAM
.000 OF DRINKING WATER FOR ANIMALS WILL BE GOTTEN FROM STREAM
.000 OF DRINKING WATER FOR HUMANS WILL BE GOTTEN FROM STREAM
-------�
THE FACILITY HAS AN AREA OF . 11IOE+06 SQUARE METERS AND A DEPTH OF .7000E+01 METERS
WASTE/BACKFILL POROSITY IS .44
ANNUAL INFILTRATION FOR THE WATERSHED IS .4300 METERS
*** AQUIFER INFORMATION ***
GROUNDWATER VELOCITY IS 27.600 METERS PER YEAR
WASTE-TO-AQUIFER DISTANCE IS 14.6 METERS
DISTANCE TO WELL IS 267.00 METERS
AQUIFER THICKNESS IS 30.50 METERS
AQUIFER DISPERSION ANGLE IS .3000 RADIANS
POROSITY OF AQUIFER REGION IS .39000
POROSITY BENEATH TRENCH IS .35000
PERMEABILITY BENEATH TRENCH IS 2.20E+00 METERS/YEAR
AQUIFER DISPERSIVITY IS .300 METERS
THE DISPERSIVITY IN THE CONFINING STRATUM IS .300 METERS
n FRACTION OF ABSORBING MATERIAL IS 1.00
I
N>
O
1 *•* ATMOSPHERIC INFORMATION ***
SOURCE HEIGHT IS 1.0 METERS
VELOCITY OF GRAVITATIONAL FALL IS .010 METERS/SECOND
WIND VELOCITY IS 2.010 METERS/SECOND
DEPOSITION VELOCITY IS .01 METERS/SECOND
GAUGE DISTANCE FROM SOURCE IS 1107.00 METERS
LID HEIGHT IS 300.00 METERS
HOSKER ROUGHNESS FACTOR IS .010
TYPE OF STABILITY FORMULATION IS 1
STABILITY CLASS IS 4
FRACTION OF TIME WIND BLOWS TOWARD POPULATION IS .090000
RESUSPENSION FACTOR PARAMETERS .1000E-05 -.1500E+00 .lOOOE-lG
FROM YEAR 0 TO YEAR O THE RESUSPENSION RATE DUE TO MECHANICAL DISTURBANCES WILL BE O.OOOOE+OO
THIS WILL OCCUR DURING .000 OF EACH YEAR
DUST LOADING FOR ON-SITE RECLAIMER WILL BE O.OOOOE+OO
THIS WILL OCCUR DURING .000 OF THE YEAR
* SURFACE INFORMATION +*+
-------�
PARAMETERS FOR UNIVERSAL LOSS EQUATION
RAINFALL 250.00
ERODIBILITY .23
STEEPNESS-SLOPE .27
COVER .30
EROSION CONTROL .30
DELIVERY RATIO 1.00
SOIL POROSITY IS .39000
SOIL BULK DENSITY IS 1.60000 G/CC
RUNOFF FRACTION IS .29000
STREAM FLOW RATE IS 3.S700E+05 CUBIC METERS PER YEAR
CROSS SLOPE EXTENT OF SPILLAGE IS 332.04 METERS
ACTIVE SOIL DEPTH IS .10 METERS
AVERAGE DOWN SLOPE DISTANCE TO STREAM IS 627.00 METERS
1 *** AIR-FOODCHAIN INFORMATION ***
O
I
AGRICULTURAL PRODUCTIVITY FOR GRASS .67 KG/M**2
AGRICULTURAL PRODUCTIVITY FOR VEGETATION .65 KG/M**2
SURFACE DENSITY FOR SOIL 240.00 KG/M**2
WEATHER DECAY CONSTANT .0021 1/HOURS
PERIOD PASTURE GRASS EXPOSURE GROWING SEASON 720.00 HOURS
PERIOD CROP/VEGETATION EXPOSURE GROWING SEASON 1440.00 HOURS
PERIOD BETWEEN HARVEST PASTURE GRASS AND INGESTION BY ANIMAL
PERIOD BETWEEN STORED FEED AND INGESTION BY ANIMAL 2160.00 HOURS
PERIOD BETWEEN HARVEST LEAFY VEGETABLES AND INGESTION BY MAN(M.I.E.) 24.00 HOURS
PERIOD BETWEEN HARVEST PRODUCE AND INGESTION BY MAN(M.I.E.) 1440.00 HOURS
PERIOD BETWEEN HARVEST LEAFY VEG AND INGESTION BY MAN(G.P.E.)
PERIOD BETWEEN HARVEST PRODUCE AND INGESTION BY MAN(G.P.E.)
FRACTION OF YEAR ANIMALS GRAZE ON PASTURE 1.00
.00 HOURS
336.00 HOURS
336.00 HOURS
FRACTION OF DAILY FEED THAT IS FRESH GRASS
AMOUNT OF FEED CONSUMED BY CATTLE 50.00 KG
AMOUNT OF FEED CONSUMED BY GOATS 6.00 KG
TRANSPORT TIME FEED-MILL-RECEPTOR FOR M.I.E.
TRANSPORT TIME FEED-MILL-RECEPTOR FOR G.P.E.
TIME FROM SLAUGHTER OF MEAT TO CONSUMPTION
ABSOLUTE HUMIDITY OF THE ATMOSPHERE
FRACTIONAL EQUILIBRIUM RATIO FOR C-14
WATER-FOODCHAIN INFORMATION ***
.83
48.00 HOURS
96.00 HOURS
480.00 HOURS
9.90 G/M**3
1.00
FRACTION OF YEAR CROPS ARE IRRIGATED
IRRTfiATTON RATF .OIS
.40
-------�
AMOUNT OP WATER CONSUMED B¥ COWS 60.00 L/D
AMOUNT OF WATER CONSUMED BY GOATS 8.00 L/D
AMOUNT OP WATER CONSUMED BY BEEF CATTLE 50.00 L/D
*** HUMAN INGESTION AND INHALATION RATE INFORMATION
O
I
K>
GO
ANNUAL INTAKE OF LEAFY VEG 14.00 KILOGRAMS PER YEAR
ANNUAL INTAKE OF PRODUCE 86.50 KILOGRAMS PER YEAR
ANNUAL INTAKE OF COW'S MILK 89.40 LITERS PER YEAR
ANNUAL INTAKE OF GOAT'S MILK .00 LITERS PER YEAR
ANNUAL INTAKE OF MEAT 62.80 KILOGRAMS PER YEAR
ANNUAL INTAKE OF DRINKING WATER 481.90 LITERS PER YEAR
ANNUAL INHALATION RATE OF AIR 8035.00 CUBIC METERS PER YEAR
A POPULATION OF
*** NUCLIDE INFORMATION
1. WILL BE CONSIDERED
INFORMATION ON INDIVIDUAL NUCLIDES
NUCLIDE
AMT IN WASTE
SPILLAGE
STREAM AMT
AMT IN AIR
DECAY CONST
SOLUBILITY 1
CI
CI
CI
CI
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G/ML
H-3
1.2496E+05
4.6000E-04
0.OOOOE+OO
0.OOOOE+OO
5.6400E-02
0. OOOOE+OO
C-14
6.6810E+02
2.4 700E-05
0.OOOOE+OO
0.OOOOE+OO
1.2100E-04
0.OOOOE+OO
FE-55
9.9688E+04
1.3620E-03
0.OOOOE+OO
0.OOOOE+OO
2.5700E-01
0.OOOOE+OO
NI-59
3.0278E+02
1.5680E-06
0.OOOOE+OO
0.OOOOE+OO
8.6600E-06
0.OOOOE+OO
CO—60
1.3988E+05
2.5900E-03
0.OOOOE+OO
0.OOOOE+OO
1.3200E-01
1.0000E+02
NI-63
3.8057E+04
3.8100E-04
0.OOOOE+OO
0.OOOOE+OO
7.5300E-03
0.OOOOE+OO
SR-90
3.8123E+02
1.4310E-05
0.OOOOE+OO
0.OOOOE+OO
2.4200E-02
0.OOOOE+OO
NB-94
3.0570E+00
4.9 700E-08
0.OOOOE+OO
0.OOOOE+OO
3.4700E-05
0. OOOOE+OO
TC-99
2.8234E+00
3.9340E-08
0.OOOOE+OO
0.OOOOE+OO
3.2500E-06
0.OOOOE+OO
RU-106
7.7995E+00
1.0470E-06
0.OOOOE+OO
0.OOOOE+OO
6.8900E-01
0.OOOOE+OO
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1.4539E+02
2.0320E-05
0.OOOOE+OO
0.OOOOE+OO
2.5000E-01
0.OOOOE+OO
1-129
7.8990E+00
1.1290E-07
0.OOOOE+OO
0.OOOOE+OO
4.0800E-08
0.OOOOE+OO
CS-134
1.3190E+04
I.04 70E—03
0.OOOOE+OO
0.OOOOE+OO
3.3600E-01
3.0000E+02
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2.8038E+00
3.9380E-08
0.OOOOE+OO
0.OOOOE+OO
2.3000E-07
0. OOOOE+OO
CS-137
6.0655E+04
1.0670E-03
0.OOOOE+OO
0.OOOOE+OO
2.3100E-02
3.0000E+02
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6.0655E+04
1.0670E-03
0.OOOOE+OO
0.OOOOE+OO
2.3100E-02
3.0000E+02
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3.3222E+01
2.0440E-06
0.OOOOE+OO
0.OOOOE+OO
8.1500E-02
0.OOOOE+OO
TL-208
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
4.9200E-U
0.OOOOE+OO
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0.OOOOE+OO
0.OOOOE+OO
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4.3300E-04
0.OOOOE+OO
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0.OOOOE+OO
0.OOOOE+OO
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0. OOOOE+OO
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4.9200E-11
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0.00 30
4.3300E—04
0. OOOOE+OO
OPERATIONS DECAY FACTOR
6.1680E-01
l.OOOOE+OO
2.2054E-01
1 .OOOOE+OO
3.7603E-01
9.3185E—01
8.0241E-01
l.OOOOE+OO
l.OOOOE+OO
1.0445E-01
2.2569E-01
1 .OOOOE+OO
1.7665E-01
1.OOOOE+OO
8.1014E-01
8.1014E-01
5.1395E-01
1 .OOOOE+OO
1 .OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1 .OOOOE+OO
-------�
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4710E+00
5.3100E-08
O.OOOOE+OO
U-235
3.9610E-02
8.5100E-10
O.OOOOE+OO
NP—237
4.5640E-03
1.4340E-10
O.OOOOE+OO
U-238
7.2280E-01
1.5S80E-08
O.OOOOE+OO
PU-238
6.1998E+01
2.2360E-06
O.OOOOE+OO
PU-239
4.4890E+01
1.4990E-06
O.OOOOE+OO
PU-241
1.2700E+03
6.6800E-05
O.OOOOE+OO
AM-241
1.0178E+02
3.3750E-06
O.OOOOE+OO
PU-242
9.7000E-02
3.2300E-09
O.OOOOE+OO
AM-243
2.8810E+00
8.9100E-08
0.OOOOE+OO
CM-24 3
2.7794E-02
1.4490E-09
O.OOOOE+OO
CM-244
2.6092E+01
1.3570E-06
O.OOOOE+OO
0
1
to
vO
DISTRIBUTION COEFFICIENTS
NUCLIDE SURFACE WASTE VERTICAL
H-3
L.00E-02
1.00E-02
1.00E-02
C-14
1.00E-02
1.00E-02
1.00E-02
FE-55
6.00E+03
5.00E+01
6.00E+03
NI-59
1.50E+02
5.00E+01
1.50E+02
CO-60
5.50E+01
5.00E+01
5.50E+01
NI-63
1.50E+02
5.00E+01
1.50E+02
SR-90
1.50E+02
3.00E+01
1.50E+02
NB-94
3.50E+02
7.00E+01
3.50E+02
TC-99
5.00E-01
5.OOE-Ol
5.OOE-Ol
RU-106
2.20E+02
7.00E+01
2.20E+02
SB-125
4.50E+01
4.50E+01
4.50E+01
1-129
3.00E+00
3.00E+00
3.00E+00
CS-13A
1.00E+02
1.00E+02
1.00E+03
CS-135
1.00E+02
1.00E+02
1.00E+03
CS-137
1.00E+02
1.00E+02
1.00E+03
BA-137M
1.00E+02
1.00E+02
1.00E+03
EU-154
4.00E+03
2.00E+03
4.00E+03
TL-208
6.00E+04
6.00E+04
6.OOE+04
P0-210
2.20E+02
2.20E+02
2.20E+02
PB-210
2.20E+02
2.20E+02
2.20E+02
0.OOOOE+OO
O.OOOOE+OO
0.0000E+00
O.OOOOE+OO
0.0000E+00
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.3300E-04
4.9200E-11
4.9200E-11
4.9200E-11
4.9200E-11
1.5S00E-10
9.8500E-10
3.3000E-07
1.5500E-10
7.9000E-03
2.8 700E-0S
5.2500E-02
I.5100E-03
1.8300E-06
9.4000E-05
2.1700E-02
3.9400E-02
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1. OOOOE+OO
1. OOOOE+OO
1. OOOOE+OO
1. OOOOE+OO
1.OOOOE+OO
9.2866E—01
I.OOOOE+OO
6.3565E-OI
9.8580E-0I
1.OOOOE+OO
1 .OOOOE+OO
8.2013E-01
7.0575E-01
ML/G
AQUIFER
1.00E-02
1.00E-02
6.00E+03
1.50E+02
5.50E+01
1.50E+02
2.00E+01
3.50E+02
5.00E-01
2.20E+02
4.50E+01
3.00E+00
5.00E+02
5.00E+02
5.00E+02
5.00E+02
4.00E+03
6.00E+04
2.20E+02
2.20E+02
-------�
PB-212
6.00E+04
6.00E+04
6.00E+04
6.00E+04
BI-214
2.20E+02
2.20E+02
2.20E+02
2.20E+02
PB-2I4
2.20E+02
2.20E+02
2.20E+02
2.20E+02
RA-226
2.20E+02
2.20E+02
2.20E+02
2.20E+02
TH-226
6.00E+04
6.00E+04
6.00E+04
6.00E+04
AC-228
2.20E+02
2.20E+02
2.20E+02
2.20E+02
RA-228
2.20E+02
2.20E+02
2.20E+02
2.20E+02
TH-232
6.00E+04
6.00E+04
6.00E+04
6.00E+04
U-234
7.50E+02
7.50E+02
7.50E+02
7.50E+02
U-235
7.50E+02
7.50E+02
7.50E+02
7.50E+02
NP-237
5.OOE+OO
5.OOE+OO
5.OOE+OO
5.OOE+OO
U-23B
7.50E+02
7.S0E+02
7.50E+02
7.50E+02
PU-238
3.50E+03
7.00E+02
3.50E+03
3.50E+03
PU-239
3.50E+03
7.00E+02
3.50E+03
3.50E+03
PU-241
3.50E+03
7.00E+02
3.50E+03
3.50E+03
AM-241
8.00E+04
8.00E+OL
8.00E+04
8.OOE+04
PU-242
3.50E+03
7.00E+02
3.50E+03
3.50E+03
AM-243
8.00E+04
8.00E+01
8.OOE+04
8.00E+04
CM-243
3.30E+03
7.00E+02
3.30E+03
3.30E+03
CM-244
3.30E+03
7.00E+02
3.30E+03
3.30E+03
ABSORBING MATERIAL RELEASE FRACTION i O.OOE+OO
ACTIVATED METAL RELEASE FRACTION t 4.00E-04
TRASH RELEASE FRACTION t 0.00E+00
SOLIDIFIED WASTE RELEASE FRACTION t 4.00E-04
INCIN./SOLID. WASTE RELEASE FRACTION i 4.00E-04
NUCLIDE ABS.MATL.
WASTE STREAM INVENTORIES
ACT.METAL TRASH SOLIDIFIED
H-3
C-14
FE-55
NI-59
CO-60
NI-"
SR
NB- .
2.84E+03
2.47E+02
3. OOE+03
I.S7E+01
9.74E+03
3.S5E+03
1.15E+02
4 %97E-Oi
O.OOE+OO
4.7IE+01
8.95E+04
2.53E+02
1.09E+05
3.25E+04
O.OOE+OO
1.49E+Q0
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
1.22E+05
3.74E+02
7.15E+03
3.A1E+01
2.07E+04
1.98E+03
2.66F
1.07
INCIN./SOLID
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.OOE+OO
-------�
RU-106
SB-125
1-129
CS-134
CS-135
CS-137
BA-137M
EU-154
TL-208
P0-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-243
CM-243
CM-244
NUCLIDE
H-3
C-14
FE-55
NI-59
C0-60
NI-63
SR-90
NB-Qt
1.09E+00
4.59E+01
1.13E+00
I . 85E+03
3.94E-01
8.64E+03
8.64E+03
1.05E+01
0. OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.OOE+OO
0.00E+00
O.OOE+OO
O.OOE+OO
0.OOE+OO
O.OOE+OO
5.31E-01
B.51E-03
1.43E-03
1.56E-01
2.08E+01
1.50E+0I
4.25E+02
3.33E+01
3.23E-02
8.91E-01
1.19E-02
9.58E+00
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.OOE+OO
0.OOE+OO
O.OOE+OO
O.OOE+OO
P.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.00E+-00
O.OOE+OO
0.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
RETENTION
IN AIR
2.00E-01
2.00E-0I
2.00E-01
2.OOE-OI
2.00E-01
2.00E-01
2.OOE-OI
? nrtp-m
RETENTION
IN WATER
2.50E-01
2.50E-01
2.50E-01
2.50E-01
2.50E-01
2.50E-01
2.50E-01
•» inp-nt
TRANS COEFF
SOIL-V CROP
D/KG
O.OOE+OO
O.OOE+OO
4.00E-03
6.00E-02
2.OOE-02
6.00E-02
2.50E+00
¦» nnp-m
6.71E+00
9.95E+01
6.77E+00
1.13E+04
2.41E+00
5.20E+04
5.20E+04
2.27E+01
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
1.94E+00
3.11E-02
3.13E-03
5.67E-OI
4.12E+01
2.99E+01
8.4SE+02
6.8SE+01
6.47E-02
1.99E+00
1.59E-02
1.65E+01
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
0.OOE+OO
TRANS COEFF
TRANS COEFF
TRANS COEFF
TRANS COEFF
SOIL-R CROP
VEG-COU MILK
VEG-GOAT MILK VEG-MEAT
D/KG
D/KG
D/KG
D/KG
O.OOE+OO
O.OOE+OO
O.OOE+OO
0. OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
O.OOE+OO
1.00E-03
2.50E-04
1.30E-04
2.OOE-02
6.OOE-02
l.OOE-03
6.70E-03
6.00E-03
7.00E-03
2.00E-03
l.OOE-03
2.OOE-02
6.OOE-02
i.OOE-03
6.70E-03
6.00E-03
2.50E-01
1.50E-03
1.40E-02
3.OOE-OA
* nnp-ni
•> nnp-ni
i tnr-ni
*> cnn r\ i
-------�
TC-99
2.00E-01
RU-106
2.00E-0I
SB-125
2.00E-01
1-129
2.00E-0I
CS-134
2.00E-01
CS-135
2.00E-01
CS-137
2.00E-01
BA-137M
2.00E-01
EU-154
2.00E-0I
TL-208
2.00E-01
P0-210
2.00E-0I
PB—210
2.OOE-Ol
PB-212
2.00E-01
BI-214
2.00E-01
PB-214
2.00E-01
RA-226
2.00E-01
TH-228
2.00E-01
AC-228
2.00E-01
RA—228
2.00E-01
TH-232
2.OOE-Ol
U-234
2.00E-01
U-235
2.00E-01
NP-237
2.OOE-Ol
U-238
2.OOE-Ol
PU-23B
2.OOE-Ol
PU-239
2.OOE-Ol
PU-241
2.OOE-Ol
AM-241
2.OOE-Ol
PU-242
2.OOE-Ol
AM-243
2.OOE-Ol
CM-243
2.OOE-Ol
CM-244
2.OOE-Ol
2.50E-01
9.50E+00
2.50E-01
7.50E-02
2.50E-01
2.OOE-Ol
2.50E-01
1.50E-01
2.50E-01
8.00E-02
2.50E-01
8.00E-02
2.50E-01
8.00E-02
2.50E-01
8.00E-02
2.50E-01
1.00E-02
2.50E-01
4.50E-02
2.50E-01
4.50E-02
2.50E-01
4.50E-02
2.50E-01
4.50E-02
2.50E-01
4.50E-02
2.50E-01
4.50E-02
2.50E-01
1.50E-02
2.50E-01
8.50E-04
2.50E-01
3.50E-03
2.50E-01
1.50E-02
2.50E-01
8.50E-04
2.50E-01
8.50E-03
2.50E-01
8.S0E-03
2.50E-01
1.OOE-Ol
2.50E-01
8.50E-03
2.50E-01
4.50E-04
2.50E-01
4.50E-04
2.50E-01
4.50E-04
2.50E-01
5.50E-03
2.50E-01
4.50E-04
2.50E-01
5.50E-03
2.50E-01
8.50E-04
2.50E-01
8.50E-04
1.50E+00
1.00E-O2
2.00E-02
6.00E-07
3.00E-02
1.00E-04
5.00E-02
1.00E-02
3.00E-02
7.00E-03
3.00E-02
7.OOE-03
3.00E-02
7.00E-03
3.00E-02
7.00E-03
4.00E-03
2.00E-05
9.00E-03
2.OOE-03
9.00E-03
5.00E-04
9.00E-03
5.00E-04
9.00E-03
2.00E-03
9.00E-03
5.00E-04
9.00E-03
5.00E-04
1.50E-03
4.50E-04
8.50E-05
5.00E-06
3.50E-04
2.00E-05
1.50E-03
4.50E-04
8.50E-05
5.00E-06
4.00E-03
6.00E-04
4.00E-03
6.00E-04
1.00E-02
5.00E-06
4.00E-03
6.00E-04
4.50E-05
1.00E-07
4.50E-05
1.00E-07
4.50E-05
1.00E-07
2.50E-04
4.00E-07
4.50E-05
1.00E-07
2.50E-04
4.00E-07
1.50E-05
2.00E-05
1.50E-05
2.00E-05
INITIAL CALCULATIONS
NUCLIDE MASS
2.50E-02
8.S0E-03
1.30E-04
2.OOE-03
1.50E-03
1.00E-03
3.OOE-Ol
7.00E-03
3.OOE-Ol
2.00E-02
3.OOE-Ol
2.00E-02
3.OOE-Ol
2.00E-02
3.OOE-Ol
2.00E-02
2.00E-05
5.00E-03
O.OOE+OO
4.00E-02
O.OOE+OO
4.00E-04
O.OOE+OO
4.00E-04
O.OOE+OO
4.00E-02
O.OOE+OO
4.00E-04
O.OOE+OO
4.00E-04
5.00E-06
2.50E-04
O.OOE+OO
6.00E-06
O.OOE+OO
2.50E-05
O.OOE+OO
2.50E-04
O.OOE+OO
6.00E-06
5.00E-04
2.00E-04
5.00E-04
2.00E-04
5.00E-06
5.50E-05
5.00E-04
2.00E-04
1.50E-06
5.00E-07
1.50E-06
5.00E-07
1.50E-06
5.00E-07
O.OOE+OO
3.50E-06
1.50E-06
5.00E-07
O.OOE+OO
3.50E-06
O.OOE+OO
3.50E-06
O.OOE+OO
3.50E-06
H-3
C-14
FE-55
NI-59
C0-60
NI-63
SR-9(
NB-94
3.
14.
55.
59.
60.
63.
90.
94.
-------�
TC-99
RU-106
SB-125
1-129
CS-134
CS-135
CS-137
BA-137M
EU-154
TL-208
P0-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-243
CM-243
CM-244
OUTPUT FROM SUBROUTINE INFIL
INPUT DATA AS READ IN
30.500 .010 .020 .250
DAILY SUNSHINE BY MONTH (HOURS)
10.8 11.2 12.0 12.8
.240 1.200 .350E-03 .140E-05
13.4 13.7 13.6 13.0
99.
106.
125.
129.
134.
135.
137.
137.
154.
208.
210.
210.
212.
214.
214.
226.
228.
228.
228.
232.
234.
235.
237.
238.
238.
239.
241.
241.
242.
243.
243.
244.
.100 1.200
12.3 11.6
10.9
10.6
-------�
DAILY TEMPERATURES (DEGREES CELSIUS)]
MONTH- JAN FEB MAR APR HAY J UN JUL
DAY
1 8.88 10.16 6.00 20.92 17.80 25.34 26.30
2 8.48 6.61 8.76 19.34 19.45 26.79 25.79
3 7.05 7.79 12.65 20.61 20.04 25.34 27.73
4 15.27 13.93 14.35 16.68 20.37 23.45 28.48
5 6.13 12.14 17.74 11.78 11.90 25.40 25.39
6 8.84 13.12 16.25 12.02 20.78 24.17 22.78
7 15.54 6.94 10.90 8.20 20.90 23.86 18.01
Q 15.54 9.23 4.41 8.60 21.38 26.07 12.58
9 15.54 13.06 7.93 12.57 20.27 27.60 21.33
10 15.54 8.44 13.33 11.21 20.66 25.60 24.66
11 15.54 8.13 17.32 12.79 21.81 24.10 25.09
12 15.54 4.59 18.87 15.35 22.07 23.99 25.93
13 15.54 7.46 21.13 17.93 15.08 23.10 23.91
14 15.54 8.97 19.19 20.56 25.52 23.70 24.89
15 15.54 14.71 19.25 20.36 25.06 26.20 24.26
16 15.54 19.33 12.33 20.93 24.61 26.46 24.17
17 15.54 16.27 17.60 21.36 23.36 21.95 24.74
18 8.78 8.03 17.04 16.86 22.95 22.49 25.83
19 12.54 10.02 20.02 14.26 21.02 25.70 25.59
2u 16.73 ,11.90 £3.06 19.05 22.92 26.07 26.55
AUG
SEP
OCT
NOV
DEC
24.99
25.92
25.28
26.23
23.77
23.78
25.78
2S.85
25.12
25.61
24.93
24.71
24.22
25.27
24.69
25.35
24.29
22.87
24.17
24
21.89
22.43
22.71
18.00
16.67
15.04
15.87
16.54
18.09
19.68
21.19
21.44
24.27
24.12
25.82
25.74
25.48
24.45
23.35
21.76
13.96
19.28
20.17
18.79
20.95
22.37
22.63
21.47
22.77
21.45
17.03
19.06
19.10
15.71
12.18
12.97
10.93
12.78
17.31
18.55
19.89
19.56
19.56
19.56
19.56
19.56
19.56
19.56
19.S6
19.56
19.56
19.56
19.56
19.56
19.56
19.56
19.56
19.56
19.56
15.42
19.77
19.15
19.73
19.23
20.96
13.86
11.56
11.70
13.60
8.13
9.71
7.16
.08
4.30
13.68
13.17
4.78
1.99
2.85
6.18
-------�
0
1
OJ
U1
21
22
23
24
25
26
27
28
29
30
31
15.27 14.61 23.56 20.29 23.55 26.62 27.56 26.62 21.76 18.82 17
6.46 8.04 17.91 16.27 24.74 24.69 27.67 25.99 21.76 13.71 16
8.41 10.49 15.05 11.65 23.82 24.88 24.88 27.02 21.76 10.64 16
5.96 16.75 13.29 13.41 23.58 23.50 25.21 27.62 21.76 8.38 16
7.04 12.71 16.55 16.35 24.17 24.63 26.21 25.31 21.76 9.97 9
2.14
-1.54
5.18
7.55
11.00
16.16
1.94 13.24 20.59 24.16 24.98 28.02 18.80 21.76 13.11 12
2.03 6.57 18.13 23.39 24.05 29.36 20.31 21.76 11.43 15
3.65 6.58 17.02 25.76 25.13 27.35 25.31 21.76 12.19 13
.00 11.19 15.51 27.44 25.97 24.49 20.37 21.76 12.27 19
.00 16.00 15.75 23.84 27.27 25.53 20.49 20.81 14.62 15
.00 16.25
.00 24.13
.00 24.50 20.24
.00 17.46
.86 5.16
.34 4.64
.61 8.33
.83 14.85
.64 17.31
.35 15.14
.29 16.79
.85 18.56
.11 13.72
.48 7.34
.00 5.07
MONTH,DAY,& RAINFALL AS READ IN (0.1MM/HR):
1
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9
18
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10
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16
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20
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11
24
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11
30
0.
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12
1
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117. 23.
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18
0.
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47.
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0. 0.
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24
0.
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0.
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23. 23.
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27
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0. 23.
0.
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0
12
28
0.
0.
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0.
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0. 0.
0.
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29
0.
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0.
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12
31
0.
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47.
70. 47.
47.
70.
47
TRENCH CHARACTERISTICS:
SNOWMELT COEFFICIENT «* 3 .05MM/DEG-DAY
THICKNESS OF TRENCH COVER = 1.20 M
TOTAL WIDTH OF TRENCH COVER => 30. SO M
AVERAGE SLOPE OF TRENCH COVER = .01 M/M
PERMEABLITY OF TRENCH CAP » .200E-01M/HR
0.
0.
0.
0.
0.
0.
419.
93.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
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0.
0.
0.
23.
0.
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0.
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47.
23.
0.
0.
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23.
0.
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140.
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0.
0.
0.
0.
0.
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0.
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0.
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0.
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0.
0.
23.
23.
23.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
23.
0.
0.
0.
47.
0.
0.
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93.
0.
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0.
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0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
23.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
23.
0.
0.
0.
23.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
47.
163.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
47.
23.
0.
0.
0.
0.
0.
0.
0.
0.
-------�
POROSITY FOR PELLIC WATER - .2« (UNITLESS)
POROSITY FOR GRAVITY WATER - ,25
-------�
1.03E-03 1.20E+00 O.OOE+OO
CHANGE OF TOTAL ANNUAL INFILTRATION- 2.38E-02
YEAR- 3
~~•~~CUMULATIVE ANNUAL VALUES («)**~~•*
PRECIP EVAP RUNOFF INFIL
I 1.11E+00 8.99E-01
OJ
PELLICULAR GRAVITY
DEFICIT DEFICIT
1.03E-03 1.20E+00 O.OOE+OO
CHANGE OF TOTAL ANNUAL INFILTRATION- O.OOE+OO
3.A8E-02 1.72E-01
SNOW
DEGREE OF SATURATION
RESIDUAL SATURATION
1
NUCLIDE
H-3
C-14
FE-55
NI-59
C0-60
NT-A1
VERTICAL
RETARDATION
1.0580E+00
1.0580E+00
3.4773E+OA
8.7029E+02
3.197AE+02
R 7n?OF+n?
.789
.486
VERTICAL
TIME Y
I.606AE+01
1.606AE+01
S.2800E+05
I.3215E+OA
A.8551E+03
I T?|SF+OA
INITIAL CALCULATIONS
VERTICAL
DDETA
1.0170E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
HORIZONTAL
RETARDATION
1.0410E+00
1.OA 1OE+OO
2.A616E+0A
6.1638E+02
2.266AE+02
6. 1638E+02
HORIZONTAL
TIME Y
9.9983E+00
9.9983E+00
2.36A2E+05
5.9200E+03
2.1767E+03
5.9200E+03
HORIZONTAL
DDETA
1.0003E+00
l.OOOAE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
I.OOOOE+OO
DDETA
1.017AE+00
1.0004E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
l.ooooE+on
BREAK THRU
TIME Y
2.6063E+01
2.6063E+01
7.6AA3E+05
1.9135E+OA
7.0318E+03
I .913 5E+0A
-------�
o
SR-90
NB-94
TC-99
RU-106
SB-125
1-129
CS-134
CS-135
CS-137
BA-137M
EU-154
TL-208
P0-210
PB-210
PB-212
B1-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-243
CM-243
CM-244
8.7029E+02
2.0293E+03
3.8976E+00
1.2760E+03
2.6179E+02
1.8386E+01
5.7962E+03
5.7962E+03
5.7962E+03
5.7962E+03
2.3182E+04
3.4772E+05
1.2760E+03
1.2760E+03
3.4772E+05
1.2760E+03
1.2760E+03
1.2760E+03
3.4772E+05
1.2760E+03
1.2760E+03
3.4772E+05
4.3474E+03
4.3474E+03
2.9976E+01
4.3474E+03
2.0284E+04
2.0284E+04
2.0284E+04
4 .6362E+05
2.0284E+04
4 .6362E+05
1.9125E+04
1.9125E+04
1.3215E+04
3.0814E+04
5.9183E+01
1.9375E+04
3.9751E+03
2.7918E+02
8.8013E+04
8.8013E+04
8.8013E+04
8.8013E+04
3.5201E+05
5.2799E+06
1.9375E+04
1.9375E+04
5.2799E+06
1.9375E+04
1.9375E+04
1.9375E+04
5.2 799E+06
1.9375E+04
1.9375E+04
5.2799E+06
6.6014E+04
6.6014E+04
4.5517E+02
6.6014E+04
3.0801E+05
3.0801E+05
3.0801E+05
7.0398E+06
3.0801E+05
7.0398E+06
2.9041E+05
2.9041E+05
1.0000E+00
1.0000E+00
1.OOOOE+OO
1.0000E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
B.3051E+01
1.4369E+03
3.0S13E+00
9.0356E+02
1.8562E+02
1.3308E+01
2.0523E+03
2.0523E+03
2.0S23E+03
2.0523E+03
1.6411E+04
2.461SE+OS
9.0356E+02
9.03S6E+02
2.4615E+0S
9.0356E+02
9.03S6E+02
9.0356E+02
2.4615E+05
9.0356E+02
9.03S6E+02
2.4615E+05
3.0779E+03
3.0779E+03
2.1513E+01
3.0779E+03
1.4360E+04
1.4360E+04
1.4300E+04
3.2821E+0S
1.4360E+04
3.2821E+05
1.3539E+04
1.3539E+04
7.9765E+02
1.3800E+04
2.9305E+01
8.6781E+03
1.7827E+03
1.2781E+02
1.97UE+04
1.9711E+04
I.9711E+04
1.9711E+04
1.5762E+05
2.3641E+06
8.6781E+03
8.6781E+03
2.3641E+06
8.6781E+03
8.6781E+03
8.6781E+03
2.3641E+06
8.6781E+03
8.6781E+03
2.3641E+06
2.9561E+04
2.9S61E+04'
2.0662E+02
2.9561E+04
. 3792E+05
. 3792E+05
. 3792E+05
.1522E+06
.3792E+05
.1522E+06
.3004E+05
.3004E+05
1.0150E+00
1.OOOOE+OO
1.0001E+00
1.OOOOE+OO
I.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.0001E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.0150E+00
1.OOOOE+OO
1.0001E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1 .OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1 .OOOOE+OO
1.OOOOE+OO
1.0001E+00
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
1.OOOOE+OO
I.OOOOE+OO
1 .OOOOE+OO
1.OOOOE+OO
1.4013E+04
4.4615E+04
8.8489E+01
2.8053E+04
5.7578E+03
4.0699E+02
1.0772E+05
1.0772E+05
1 .07 72E+05
1.0772E+05
5.0963E+05
7.6440E+06
2.8053E+04
2.8053E+04
7.6440E+06
2.8053E+04
2.8053E+04
2.8053E+04
7.6440E+06
2.8053E+04
2.8053E+04
7.6440E+06
9.5575E+04
9.5575E+04
6.6179E+02
9.5575E+04
4.4593E+05
4.4593E+05
4.4593E+05
1.0192E+07
4.4593E+05
1.0192E+07
4.2045E+05
4.2045E+05
ANNUAL SOIL LOSS IS 3.1315E-01 KILOGRAMS PER SQUARE METER
OR 1.9572E—04 METERS IS REMOVED FROM THE SURFACE
ANNUAL INFILTRATION INTO TRENCH IS .1721 METERS
VERTICAL WATER VELOCITY IS .9615 METERS PER YEAR
NORMALIZED DOWN WIND ATMOSPHERIC EXPOSURE PER UNIT SOURCE RELEASE IS .S388E-05 CI/M**3 PER CI/StC
Miir*t rnr nr»SF r
-------�
NUCLIDE
INGESTION
INHALATION
AIR IMMERS.
SURFACE
H-3
8.6110E-08
1.2A33E-07
O.OOOOE+OO
O.OOOOE+OO
C-l A
1.5A03E-06
1.0883E-08
O.OOOOE+OO
O.OOOOE+OO
FE-55
A.7315E-07
1.8869E-06
8.7269E+OA
8.A035E+03
NI-59
1.A9A1E-07
1.7A32E-06
1.A613E+OS
1.5810E+0A
C0-60
5.7760E-06
3.9976E-0A
1.1568E+10
1.0139E+08
NI-63
3.6915E-07
A.3850E-06
O.OOOOE+OO
O.OOOOE+OO
SR-90
5.6197E-06
1.9581E-0A
O.OOOOE+OO
O.OOOOE+OO
NB-9A
2.7217E-06
5.8285E-0A
7.2637E+09
7.0512E+07
TC-99
1.9159E-06
2.1817E-05
2.1288E+03
2.5108E+01
RU-106
1.1218E-05
1.2308E-03
O.OOOOE+OO
O.OOOOE+OO
SB-125
O.OOOOE+OO
2.7773E-05
1.8725E+09
1.9368E+07
I—129
8.5680E-0A
5.69A7E-OA
2.6989E+07
7.086AE+0S
CS-13A
6.6090E-05
A.A658E-05
7.086AE+09
6.9802E+07
CS-135
6. 5155E-06
A.5351E-06
O.OOOOE+OO
O.OOOOE+OO
CS-13 7
A.AA56E-05
3.039AE-05
O.OOOOE+OO
O.OOOOE+OO
BA-137M
O.OOOOE+OO
1.A212E-09
2.7039E+09
2.6966E+07
EU-15A
O.OOOOE+OO
3.3638E-OA
5.7592E+09
5.3510E+07
TL-208
O.OOOOE+OO
O.OOOOE+OO
I.OOA2E+09
2.7162E+06
P0-210
6.3950E-0A
1.7187E-02
3.932 7E+0A
7.6290E+00
PB-210
3.8373E-03
9.8236E-03
A.7A60E+06
2.1623E+03
PB-212
2.A38AE-05
1.9A98E-OA
6.2901E+08
1.3995E+05
BI-21A
3.0A85E-07
2.A26AE-07
7.239AE+09
1.25A3E+06
PB-21A
3.7591E-07
7.7888E-07
1.0809E+09
2.3258E+05
RA-226
7.397 IE-OA
2.0818E-0A
2.9160E+07
6.AS-UE+03
TH-228
7.7262E-05
5.5089E-01
8.1287E+06
2.2ZjJE+03
AC-228
O.OOOOE+OO
A.A 722E-05
A.28A6E+09
8.0668E+0S
RA-228
1.7681E-03
A.0595E-03
2.A263E-01
5.0867E-0A
TH-232
2.1566E-OA
2.A778E-01
7.1962E+05
A.9288E+02
U-23A
8.A352E-06
1.9A78E-01
5.812AE+05
2.9120E+0A
U-235
8.5988E-06
1.8028E-01
6.5395E+08
7.2682E+06
NP-237
3.1A89E-03
A.0097E-01
9.1999E+07
1.2659E+06
U-238
7.90A2E-06
1.7290E-01
3.8658E+05
2.3160E+0A
PU-238
2.8852E-03
3.5737E-01
3.1370E+05
2.9953E+OA
PU-239
3.A337E-0A
3.7296E-0I
3.22 78E+05
1.3619E+OA
PU-2A1
7.5568E-05
A.3 716E-OJ
O.OOOOE+OO
O.OOOOE+OO
AM-2A1
3.AA90E-03
A.A015E-01
7.1069E+07
1.1112E+06
PU-2A2
3.2605E-0A
3.5395E-01
2.62A0E+05
2.3832E+OA
AM-2A3
3.A 79AE-03
A.A 306E-01
1.993AE+08
2.S600E+06
CM-2A3
2.0516E-03
2.71A5E-01
5.389AE+08
6.1329E+06
CM-2 AA
1.5608E-03
2.1183E-01
2.9 16JE+05
2.8603E+0A
-------�
WATER OUTFLOW FROM THE WASTE IS APPROACHING DILUTION VOLUME IN AQUIFER FOR YEAR
ANNUAL SUMMARY FOR YEAR I OF THE SIMULATION
THE TRENCH CAP HAS HAD .00 PER CENT FAILURE mftfrs
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .04 METERS
1.9103E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
H-3
C-14
FE-55
NI-59
C0-60
NI-63
SR-90
NB-94
TC-99
RU-106
SB-125
1-129
CS-134
CS-13S
CS-137
BA-137M
EU-154
TL-208
PO-210
PB-2I0
PB
B1
pp-
AMOUNT IN
FACILITY
CI
1.1811E+05
6.6743E+02
7.7096E+04
3.0278E+02
1.2258E+05
3.7771E+04
3.7211E+02
3.0569E+00
2.8230E+00
3.9160E+00
i . 1323E+02
7.8987E+00
9.A261E+03
2.8038E+00
5.9270E+04
5.9270E+04
3.0622E+01
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
o.nonnF+no
FACILITY
OVERFLOW
CI
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
FACILITY
DRAINAGE
CI
6.4663E+00
S.858JE-Ol
3.7A93E-02
2.5169E-04
1.3673E-01
5.6368E-02
2.9665E-03
5.6789E-06
3.8183E-04
0.27o7E-06
6.3245E-04
2.7269E-04
1.0591E-02
3.1555E-06
6.7682E-02
6.7682E-02
3.8855E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AMOUNT AT
WELL
CI
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.00' 00
0.00 30
-------�
RA-226
TH-228
AC-228
RA-228
TH-232
U-23A
U-235
NP-237
U-238
PU-238
PU-239
PU-2A1
AM-2^1
PU-2A2
AM-2A3
CM-2A3
CM-2AA
0.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
2.A710E+00
3.9610E-02
A.5638E-03
7.2280E-01
6.1510E+01
A.A889E+01
1.2051E+03
1.0163E+02
9.7000E-02
2.8807E+00
2.7197E-02
2.508AE+01
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
S.6838E-07
9.1091E-09
2.1602E—07
1.6677E-07
2.3610E-05
1.7179E-05
A.617AE-0A
3.319AE—OA
3.7018E-08
8.9026E-06
1.3323E—08
1.0551E-05
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
n
I
4*
CJ
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOLUBLE TO
SOIL CONC
UATER CONC
STREAM
FACILITY
CI/M**3
CI/M**3
CI
CI
H-3
2.6393E-1A
2.6393E-09
1.7619E-0A
2.3627E-OA
C-1A
1.A992E-15
1.A992E-10
1.0008E-05
1.3A21E-05
FE-55
3.1595E-11
5.2660E-12
3.515AE-07
A.71A2E-07
NI-59
A.5572E-1A
3.0382E-13
2.0282E-08
2.71iflE-08
C0-60
6.2527E-11
1.1369E-09
7.589AE-05
1.Oi/7E-0A
NI-63
1.0990E-11
7.3270E-11
A.8913E-06
6.5592E-06
SR-90
A.0596E-13
2.7065E-12
1.8067E-07
2.A229E-07
NB-9A
1.A712E-15
A.2035E-15
2.8061E-10
3.7631E-10
TC-99
I.086AE-16
2.1728E-13
1.A505E-08
1.9A52E-08
RU-106
1.5A35E-1A
7.0159E-1A
A.6836E-09
6.2807E-09
SB-125
A.2812E-13
9.51A0E-12
6.3512E-07
8.5171E-07
1-129
1.2813E-15
A.2712E-13
2.8513E-08
3.8236E-08
CS-13A
2.1A05E-11
2.1A05E-10
1.A290E-05
1.9162E-05
CS-135
1.1266E-15
1.1266E-1A
7.5209E-10
1.0086E-09
CS-137
2.9828E-11
2.9829E-10
1.9913E-05
2.6703E-05
BA-137M
2.9828E-11
2.9829E-10
1.9913E-05
2.6703E-05
EU-15A
5.6A89E-1A
1.A123E-1A
9.A277E-10
1.26A3E-09
TL-208
O.OOOOE+OO
0.OOOOE+UU
O.OUUUE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
DO_111
n nnnnp^nn
n r\nnr»F+nn
n nnnnF+nn
n nnnnF+nn
ATMOSPHERE
AT SPILLAGE
CI/M**3
A.8782E-19
2.7710E-20
5.8398E-16
8.A232E-19
1.1557E-15
2.031AE-16
7.5035E-18
2.7193E-20
2.0080E-21
2.8528E-19
7.9131E-18
2.3683E-20
3.9563E—16
2.0823E-20
5.5132E-16
5.5132E-16
1.OAA IE-18
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
o.ooooF+nn
ATMOSPHERE
DOWN UIND
CI/M**3
2.3657E-25
1.3A38E-26
2.8320E-22
A.08A8E-25
5.60A6E-22
9.8512E-2 3
3.6388E-2A
1.3187E-26
9.7380E-28
1.3835E-25
3.8375E-2A
1.1A85E-26
1.9186E-22
1.0098E-26
2.6736E-22
2.6736E-22
5.063AE-25
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
n.nnnoE+no
WELL WATER
CONC
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+UO
0.OOOOF+OO
O.OOOOE+OO
O.OOOOE+OO
n nnnnF+nn
SOCON
PCI/M**2
1.0716E+02
6.0869E+00
5.05SAE+03
7. J0J4E+00
1 . 00'• <»E+04
1 . 7tol JE+OJ
6 . S05S)E4 0l
2.3S^oE-01
2.S857E-02
2 . A723E+00
6 . 88 71E+01
2.2167E-01
3. A332E+03
1.8069E-01
A.784IE+03
A . 7841E+03
9.0 18UE+00
O.OOUiiE+OO
o.uuuot+uu
O.OOOOE+OO
n nnnnF+nn
-------�
BI-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-2A1
PU-242
AM-243
CM-243
CM-244
0.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5837E-1S
2.5380E-17
2.1665E-18
4.6466E-16
6.6503E-14
4.4936E-14
1.9001E-12
1.0116E-13
9.6829E-17
2.6744E-15
4.2S02E-17
3.9105E-14
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.1116E-15
3.3841E-17
4.3330E-16
6.1955E-16
1.9001E-14
1.2839E-14
5.4290E-13
1.2645E-15
2.7666E—17
3.3430E-17
1.2880E-I7
1.1850E-14
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4096E-10
2.2591E-12
2.8926E-1I
4.1359E-11
1.2685E-09
8.5709E-10
3.6242E-08
8.4415E-U
1.8469E-12
2.2317E-12
8.S980E-13
7.9108E-10
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.8903E-10
3.0295E-12
3.8790E-11
5.5463E-11
1.7010E-09
1.1494E-09
4.8601E-08
1.1320E-10
2.4767E-12
2.9927E-12
1.1530E-12
1.0609E-09
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.9271E-20
4.6911E-22
4.0043E-23
8.5884E-21
1.2292E-1B
8.30S6E-19
3.5120E-17
1.8697E-18
1.7897E-21
4.9431E-20
7.8557E-22
7.2279E-19
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.419SE-26
2.2750E-28
1.9419E-29
4.1650E-27
5.9610E-25
4.0278E-25
1.7032E-23
9.0674E-25
8.6793E-28
2.3972E-26
3.8097E-28
3.S052E-2S
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.5347E-01
4.0622E-03
3.6353E-04
7.4369E-02
1.0641E+01
7.1902E+00
3.0404E+02
1.6186E+01
1.5494E-02
4.2790E-01
6.8008E-03
6.2573E+00
0
1
it*
ib
ORGAN DOSE/EXPOSURE SUMMARY
INT WALL LIVER
PANCREAS KIDNEYS
*** SELECTED INDIVIDUAL ***
DOSE RATES:
ORGANSt R MAR ENDOST THYROID BREAST *PUL* S WALL
OTHER UT. SUM
DOSE EQUIVALENT (MREM/YR)
4.740E-08 2.103E-07 3.976E-08 J.750E-08 4.915E-08 3.043E-08 3.226E-08 6.956E-08 2.887E-08 3.438E-08
2.887E-08 I.059E-06
ANNUAL SUMMARY FOR YEAR 100 OF THE SIMULATION
THE TRENCH CAP HAS HAD .00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .04 METERS
1.9103E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIL .RANSPORT INFORMATION
-------�
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
4.3810E+02
O.OOOOE+OO
9.0985E-02
8.3200E-02
C-14
5.8635E+02
O.OOOOE+OO
8.0051E-01
8.7430E-01
FE-55
6.87A3E-07
0.OOOOE+OO
1.3433E-12
O.OOOOE+OO
NI-59
3.0247E+02
O.OOOOE+OO
7.7137E-04
O.OOOOE+OO
C0-60
2.S881E-01
O.OOOOE+OO
7.8714E-07
O.OOOOE+OO
NI-63
1.7918E+04
O.OOOOE+OO
6.6173E-02
O.OOOOE+OO
SR-90
3.3858E+01
O.OOOOE+OO
5.2882E-04
O.OOOOE+OO
NB-94
3.0455E+00
O.OOOOE+OO
1.2214E-05
O.OOOOE+OO
TC-99
2.7638E+00
O.OOOOE+OO
7.5129E-04
3.1200E-04
RU-106
9.3124E-30
O.OOOOE+OO
3.3240E-35
O.OOOOE+OO
SB-125
2.0174E-09
O.OOOOE+OO
2.1978E-14
O.OOOOE+OO
1-129
7.8551E+00
O.OOOOE+OO
5.8664E-04
O.OOOOE+OO
CS-134
3.3719E-11
O.OOOOE+OO
8.4400E-17
O.OOOOE+OO
CS-135
2.8032E+00
O.OOOOE+OO
7.02S6E-06
O.OOOOE+OO
CS-137
6.0196E+03
O.OOOOE+OO
1.5258E-02
O.OOOOE+OO
BA-137M
6.0196E+03
O.OOOOE+OO
1.52S8E-02
O.OOOOE+OO
EU-154
9.5922E-03
O.OOOOE+OO
2.3768E-09
O.OOOOE+OO
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
RA-228
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4709E+00
O.OOOOE+OO
1.1690E-06
O.OOOOE+OO
U-235
3.9609E-02
O.OOOOE+OO
1.8735E-08
O.OOOOE+OO
NP-237
4.5315E-03
O.OOOOE+OO
4.1350E-07
O.OOOOE+OO
U-238
7.2277E-01
O.OOOOE+OO
3.4282E-07
O.OOOOE+OO
PU-238
2.8136E+01
O.OOOOE+OO
2.0956E-05
O.OOOOE+OO
PU-239
4.4759E+01
O.OOOOE+OO
3.3248E-05
O.OOOOE+OO
PU-241
6.6641E+00
O.OOOOE+OO
4.9556E-06
O.OOOOE+OO
AM-241
8.7475E+01
O.OOOOE+OO
5.554IE-04
O.OOOOE+OO
PU-242
9.6976E-02
O.OOOOE+OO
7.1856E-08
O.OOOOE+OO
AM-24 3
2.852 7E+00
O.OOOOE+OO
1.7245E-05
O.OOOOE+OO
CM-24 3
3.1732E-03
O.OOOOE+OO
2.946IE-09
O.OOOOE+OO
CM-244
5.0740E-01
O.OOOOE+OO
4.1023E-07
O.OOOOE+OO
-------�
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
CI/M**3
CI/M**3
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
8.3I9SE-02
C—14
O.OOOOE+OO
O.OOOOE+OO
8.7425E-01
FE-55
2.6069E-22
4.3449E-23
2.9005E-18
NI-59
2.1684E-15
'1.4456E-14
9.6503E-10
C0-60
4.1304E-20
7.5099E-19
5.0133E-14
NI-63
2.4835E-13
1.6557E-12
1.1053E-07
SR-90
1.7612E-15
1.1742E-14
7.8383E-10
NB-94
3.9259E-16
1.1217E-15
7.4881E-11
TC-99
O.OOOOE+OO
O.OOOOE+OO
3.1198E-04
RU-106
5.6052E-45
2.5223E-44
1.6838E-39
SB-125
4.3708E-28
9.7129E-27
6.4840E-22
1-129
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
CS-134
8.2686E-28
8.2686E-27
5.S198E-22
CS-135
1.2163E-17
1.2163E-16
8.1197E-12
CS-137
3.2713E-14
3.2713E-13
2.1838E-08
BA-137M
3.2713E-14
3.2713E-13
2.1838E-08
EU-154
1.5752E-17
3.9380E-18
2.6288E-13
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+O0
U-234
8.5408E-16
1.1388E-15
7.6020E-11
U-235
1.3688E-17
1.8250E-17
1.2183E-12
NP-23 7
1.4013E-45
1.4854E-43
9.9159E-39
U-238
2.5059E-16
3.3412E-16
2.2305E-U
PU-238
2.6635E-14
7.6101E-15
S.0802E-10
PU-239
3.923IE-14
1.1209E-14
7.4827E-10
PU-241
9.2004E-15
2.6287E-15
1 .7548E-10
AM-241
8.6S82E-14
1.0823E-1S
7.2249E-11
PU-242
8.4762E-17
2.4218E-17
1.6167E-12
AM-24 3
2.6335E-15
3.2918E-17
2.197 5E-12
SOLUBLE TO
FACILITY
CI
O.OOOOE+OO
O.OOOOE+OO
3.8896E-18
1.2941E-09
6.7229E-14
1.4822E-07
1.0S11E-09
1.0042E-10
O.OOOOE+OO
2.2580E-39
8.6951E-22
O.OOOOE+OO
7.4021E-22
1.0B89E-11
2.928SE-08
2.9285E-08
3.5253E-13
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0194E-10
1.6338E-12
1.3297E-38
2.9911E-11
6.8126E-10
1.0034E-09
2.3532E-10
9.6887E-11
2.1680E-12
2.9469E-12
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
3.8254E-28
3.1819E-21
6.0609E-26
3.6443E-19
2.5844E-21
5.7609E-22
O.OOOOE+OO
O.OOOOE+OO
6.4137E-34
O.OOOOE+OO
1.2133E-33
1.7848E-23
4.8003E-20
4.8003E-20
2.3114E-23
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.2533E-21
2.0085E-23
O.OOOOE+OO
3.6772E-22
3.9084E-20
5.7568E-20
1.3501E-20
1.2705E-19
1.2438E-22
3.8643E-21
ATMOSPHERE
DOWN UINO
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
1.8551E-34
1.5431E-27
2.9393E-32
I.7673E-25
1.2533E-27
2.7938E-28
O.OOOOE+OO
O.OOOOE+OO
3.1103E-40
O.OOOOE+OO
5.8841E-40
8.6555E-30
2.3279E-26
2.3279E-26
1.1209E-29
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.0778E-28
9.7404E-30
O.OOOOE+OO
1.7833E-28
1.8954E-26
2.7918E-26
6.5472E-27
6.1613E-26
6.0318E-29
1.8740E-27
WELL WATER
CONC
CI/M**3
6.0792E-07
6.3883E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.2797E-09
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
4.1713E-08
3.4751E-01
6.6380E-06
3.9801E+01
2.8226E-01
6.28S9E-02
O.OOOOE+OO
8.9781E-31
7.0312E-14
O.OOOOE+OO
1.3262E-13
1.9508E-03
5.2469E+00
5.2469E+00
2.5204E-03
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.3670E-01
2.1908E-03
2.3000E-31
4.0108E-02
4.2619E+00
6.2775E+00
1.4722E+00
1.3853E+01
1.3563E-02
4.2136E-01
-------�
CM-243 4.3073E-18 1.3052E-18 8.7133E-14 1.1685E-13 6.3204E-24 3.0651E-30 O.OOOOE+OO 6.8921E-04
CM-244 6.8709E-16 2.0821E-16 1.3899E-11 1.8639E-11 1.0082E-21 4.8894E-28 O.OOOOE+OO 1.0994E-01
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
ORGANS: R MAR ENDOST THYROID BREAST *PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
OTHER UT. SUM
DOSE EQUIVALENT (MREM/YR)
10.A 21.7 2.77 5.94 2.78 3.77 3.82 3.81 3.38 3.29
3.38 4.77
1
ANNUAL SUMMARY FOR YEAR 200 OF THE SIMULATION
THE TRENCH CAP HAS HAD 10.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .06 METERS
2.9466E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
1.4997E+00
O.OOOOE+OO
7.8650E-04
6.9650E-04
C-14
4.8092E+02
O.OOOOE+OO
1.0420E+00
1.0570E+00
FE-55
4.7389E-18
O.OOOOE+OO
3.3743E-23
O.OOOOE+OO
NI-59
3.0205E+02
O.OOOOE+OO
2.5608E-03
O.OOOOE+OO
C0-60
4.7867E-07
O.OOOOE+OO
4.5937E-12
O.OOOOE+OO
NI-63
8.4327E+03
O.OOOOE+OO
9.3446E-02
O.OOOOE+OO
SR-90
3.0027E+00
O.OOOOE+OO
1.1997E-04
O.OOOOE+OO
NB-94
3.0328E+00
O.OOOOE+OO
3.3535E-05
O.OOOOE+OO
TC-99
2.6417E+00
O.OOOOE+OO
1.6672E-03
8.6050E-04
RU-106
2.8026E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SB-125
2.7966E-20
O.OOOOE+OO
7.7713E-25
O.OOOOE+OO
T 1 Ort
t hk rxnn
r> nnnnp-t-nn
1
n nnnnr+nn
-------�
CS-134
8.6176E-26
O.OOOOE+OO
6.0782E-31
O.OOOOE+OO
CS-I35
2.B019E+00
O.OOOOE+OO
1.9783E-0S
O.OOOOE+OO
CS—137
5.9723E+02
O.OOOOE+OO
4.2557E-03
O.OOOOE+OO
BA-137M
5.9723E+02
O.OOOOE+OO
4.2557E-03
O.OOOOE+OO
EU-IS4
2.7695E-06
O.OOOOE+OO
1.7553E-12
O.OOOOE+OO
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO—210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI—214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4707E+00
O.OOOOE+OO
3.1152E-06
O.OOOOE+OO
U-235
3.9605E-02
O.OOOOE+OO
4.9929E-08
O.OOOOE+OO
NP-237
4.4617E-03
O.OOOOE+OO
1.0153E-06
O.OOOOE+OO
U-238
7.2271E-01
O.OOOOE+OO
9.1326E-07
O.OOOOE+OO
PU-238
1.2768E+01
O.OOOOE+OO
2.4191E-05
O.OOOOE+OO
PU-239
4.4625E+01
O.OOOOE+OO
6.4349E-05
O.OOOOE+OO
PU-241
3. 4965E-02
O.OOOOE+OO
6.615SE-08
O.OOOOE+OO
AM-241
7.5134E+01
O.OOOOE+OO
1.2145E-03
O.OOOOE+OO
PU-242
9.6946E-02
O.OOOOE+OO
1.8283E-07
O.OOOOE+OO
AM-243
2.8231E+00
O.OOOOE+OO
4.3671E-05
O.OOOOE+OO
CM—243
3.6226E-04
O.OOOOE+OO
8.3842E-10
O.OOOOE+OO
CM-244
9.8666E-03
0.OOOOE+OO
2.0131E-08
O.OOOOE+OO
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
FACILITY
CI/M**3
CI/M**3
CI
CI
H-3
O.OOOOE+OO
0.OOOOE+OO
6 .964oE-04
O.OOOOE+OO
C-14
O.OOOOE+OO
0.OOOOE+OO
1.0560E+00
O.OOOOE+OO
FE-55
I.6625E-33
2.7708E-34
1.8497E-29
2.4805E-29
NI-59
1.0007E-16
6.6713E-16
4.4535E-11
5.9722E—11
C0-60
2.2043E-29
4.0078E-28
2.675SE-23
3.5879E-23
NI-63
5.4024E-15
3.60I6E-K
2.404 JE-09
3.2242E-09
SR-90
7.2337E-18
4.8225E-17
3.219iE-l2
4.3171E-12
NB-94
1-0339E-16
2.95ME-16
1.9 72IE-I1
2.6446E-11
TC
O.OOOOE+OO
O.OOOOE+OO
8.6045E-04
0. 0C" 00
RU
1.4013E-45
5.6052E-4S
3.74I8E-40
5.01 40
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
2.4392E-39
1.4684E-22
3.2346E-35
7.9274E-21
1.0615E-23
1.5172E-22
O.OOOOE+OO
O.OOOOE+OO
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
1.4013E-45
7.1211E-29
1.5686E-41
3.8444E-2 7
5. 1476E-30
7.3577E-29
O.OOOOE+OO
O.OOOOE+OO
WELL WATER
CON C
CI/M**3
5.0891E-09
7.7232E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.2875E-0
-------�
0
1
*-
VO
SB-125
1-129
CS-134
CS—135
CS—137
BA-137M
EU-154
TL—208
P0-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH—228
AC-228
RA-228
TH-232
U-234
U-235
NP-23 7
U-238
PU-238
PU-239
PU-241
AM-2A1
PU-242
AM-243
CM-243
CM-244
3.1529E-43
0.0000E+00
2.1019E-44
1.2547E-19
3.3496E-17
3.3496E-17
4.0445E-21
0.0000E+00
0.0000E+00
O.OOOOE+OO
0.0000E+00
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.5783E-16
7.3373E-18
1.4013E-45
1.3433E-16
1.0571E-14
3.4210E-14
4.2221E-17
7.4002E-14
7.4112E-17
2.5932E-15
4.2661E-19
1.1591E-17
6.9967E-42
O.OOOOE+OO
2.1440E-43
1.2547E-18
3.3496E-16
3.3496E-16
1.0111E-21
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.1044E-16
9.7831E-18
1.4433E-43
1.7911E-16
3.0204E-15
9.7744E-15
1.2063E-17
9.2503E-16
2.1175E-17
3.2415E-17
1.2928E-19
3.5126E-18
4.6707E-37
O.OOOOE+OO
1.4313E-38
8.3758E-14
2.2361E-11
2.236 IE—11
6.7500E—17
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.0751E-U
6.5309E-13
9.6352E-39
1.1957E-11
2.0163E-10
6.525IE-10
8.0530E-13
6.1752E-11
1.4136E-12
2.1639E-12
8.6300E-15
2.3449E-13
6.2635E-37
O.OOOOE+OO
1.9193E-38
1.1232E-13
2.9986E—11
2.9986E-11
9.0518E-17
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.4647E—11
8.7580E-13
1.2921E-38
1.6034E-11
2.7039E-10
8.7502E-10
1.0799E-12
8.2810E-U
1.8956E-12
2.9019E-12
1.157JE-14
3.1445E-13
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.8411E-25
4.9152E-23
4.9152E-23
5.9349E-27
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.7181E-22
1.0767E-23
O.OOOOE+OO
1.9712E-22
1.5512E-20
S.0200E-20
6.1955E-23
1.0859E-19
1.0875E-22
3.8053E-21
6.2600E-25
1.7009E-23
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
8.9285E-32
2.3837E-29
2.3837E-29
2.8781E-33
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.2580E-28
5.2214E-30
O.OOOOE+OO
9.5592E-29
7.5228E-27
2.4345E-26
3.0045E-29
5.2661E-26
5.2739E-29
1.8454E-27
3.0358E-31
8.2487E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0. OOOOE+OO
5.0720E-29
O.OOOOE+OO
3.3715E-30
2.0124E-05
5.3725E-03
5.3725E-03
6.4716E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
7.3276E-02
1.1744E-03
2.2984E-31
2.1500E-02
1.6915E+00
5. 4 741E+00
6. 7559E-0J
1.1840E+01
1.1859E-02
4.1492E-01
6.8262E-05
1.8548E-03
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
ORCANS! R MAR ENDOST THYROID BREAST *PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
OTHER WT. SUM
DOSE EQUIVALENT (MREM/YR)
\2'Jt \6'2 3-33 7*15 3'33 4. 58 4.58 4.06 3.95
A.06 5.74
1
ANNUAL SUMMARY FOR YEAR 300 OF THE SIMULATION
-------�
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
0.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
5.0200E-03
0.OOOOE+OO
3.0717E-06
3.2160E-06
C-14
3.9136E+02
0. OOOOE+OO
5.9031E-01
7.3080E-01
FE-55
3.2644E-29
0.OOOOE+OO
5.6372E-34
0.OOOOE+OO
NI-59
3.0138E+02
0.OOOOE+OO
5.9178E-03
0.OOOOE+OO
CO-60
8.8449E-13
0.OOOOE+OO
1.9093E-17
0. OOOOE+OO
NI-63
3.9646E+03
0. OOOOE+OO
9.5849E-02
0.OOOOE+OO
SR-90
2.6546E-01
0.OOOOE+OO
2.0579E-05
0.OOOOE+OO
NB-94
3.0173E+00
0.OOOOE+OO
6.8807E-05
0.OOOOE+OO
TC-99
2.4410E+00
0.OOOOE+OO
2.2005E-03
1.7630E-03
RU-106
2.8026E-4S
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
SB-125
3.8683E-31
0.OOOOE+OO
2.0842E-35
0.OOOOE+OO
1-129
7.53d7E+00
0.OOOOE+OO
2.8863E-03
0.OOOOE+OO
CS-134
2.2019E-40
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
CS-135
2.7988E+00
0.OOOOE+OO
4.1421E-05
0.OOOOE+OO
CS-137
5.9218E+01
0.OOOOE+OO
8.8313E-04
0.OOOOE+OO
BA-137M
5.9218E+01
0.OOOOE+OO
8.8313E-04
0.OOOOE+OO
EU-154
7.9958E-10
0. OOOOE+OO
9.8790E-16
0.OOOOE+OO
TL-208
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
P0-210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-212
0.OOOOE+OO
O.OOdOE+OO
0.OOOOE+OO
0.OOOOE+OO
BI-214
0.OOOOE+OO
0. OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-214
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
RA-226
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
TH-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
AC-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
RA-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
TH-232
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
U-234
2.4 702E+00
0.OOOOE+OO
6.2759E-06
O.OP'",9+00
-------�
U-235
NP-237
U-238
PU-230
PU-239
PU-241
AM-2A1
PU-2A2
AM-2A3
CM-2A3
CM-2AA
3.9598E-02
A.320AE-03
7.2258E-01
5.7929E+00
A.AA85E+01
1.83A3E-OA
6.4453E+01
9.6902E-02
2.790AE+00
A.13A8E-05
1.9183E-OA
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0059E—07
1.0232E-O6
1.8393E-06
2.1297E-05
1.6319E-0A
6.73A9E-10
2.0195E-03
3.5475E-07
8.A033E-05
1.82A7E-10
7.5A25E—10
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
FACILITY
CI/M**3
CI/M**3
CI
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
3.2158E-06
O.OOOOE+OO
C-1A
O.OOOOE+OO
O.OOOOE+OO
7.3076E-01
O.OOOOE+OO
FE-55
8.A078E-A5
1.A013E-A5
9.35A6E-A1
1.25A5E-AO
NI-59
A.6181E-18
3.0787E-17
2.0553E-12
2.756 IE—12
CO-60
1.176AE-38
2.I389E-37
1.A279E-32
1.91A8E-32
NI-63
1.1752E-16
7.83AAE-16
5.2300E-11
7.013AE-11
SR-90
2.9710E-20
1.9807E-19
1.3222E-1A
1 .773 IE—IA
NB-9A
2.7230E-17
7.7800E-17
5.I936E-12
6.96A7E-12
TC-99
O.OOOOE+OO
O.OOOOE+OO
1.7629E-03
O.OOOOE+OO
RU-106
1.A013E-A5
5.6052E-A5
3.7A18E-AO
5.0178E-AO
SB-125
2.8026E-A5
5.6052E-AA
3.7A18E-39
5.0178E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
CS-13A
1.A013E-A5
1.A013E-AA
9.35A6E-A0
1.25A5E-39
CS-135
1.29A3E-21
1.29A3E-20
8.6A00E-16
1.1586E-15
CS-137
3.A298E-20
3.A299E-19
2.2897E-1A
3.070AE-1A
BA-137M
3.A298E-20
3.A299E-19
2.2897E-1A
3.070AE-IA
EU-15A
1.0385E-2A
2.5962E-25
1.7332E-20
2.32A2E-20
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-2I2
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-21A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-21A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.7765E-2A
O.OOOOE+OO
1.72AAE-22
A.3596E—26
3.9957E—23
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.8992E-27
5.0329E-26
5.0329E-26
1.5239E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
3.2863E-30
O.OOOOE+OO
8.3626E-29
2.1142E-32
1 .9377E-29
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
9.2101E-3A
2.AA07E—32
2.AA07E-32
7.3901E-37
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
WELL WATER
CONC
CI/M**3
2.3A98E-11
S.3398E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.2882E-08
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1.3A53E-30
7.A009E-0A
1.8906E-2A
1.8833E-02
A . 761AE-06
A. 3598E-03
O.OOOOE+OO
2.2AA3E-31
A.5060E-31
O.OOOOE+OO
2.2A75E-31
2.0759E-07
5.5011E-06
5.5011E-06
I.6617E-10
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
-------�
TH-232
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
U-234
2.4542E-16
3.2723E-16
2.1844E-11
2.9294E-11
3.6012E-22
1.7464E-28
0.OOOOE+OO
3.9280E-02
U—235
3.9332E-18
5.2442E-18
3.5009E-13
4.6947E-13
5.7715E-24
2.7989E-30
0.OOOOE+OO
6.2951E-04
NP-237
1.4013E-45
1.4433E-43
9.63S2E-39
1.2921E-38
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
2.29B4E-31
U-238
7.2008E-17
9.6011E-17
6.4093E-12
8.S950E-12
1.0566E-22
S.1242E-29
0.OOOOE+OO
1.1525E-02
PU-238
4.1957E-15
1.1988E-15
8.0027E-1I
1.0732E-10
6.1568E-21
2.9858E-27
0.OOOOE+OO
6 . 7137E-01
PU-239
2.9832E-14
8.5234E-15
5.6900E-10
7.6303E-10
4.3775E-20
2.1229E-26
0.OOOOE+OO
4.7735E+00
PU-241
1.9376E-19
5.5359E-20
3.6956E-15
4.9558E-15
2.8432E-25
1.3788E-31
0.OOOOE+OO
3.1003E-05
AM-241
6.3250E—14
7.9063E-16
5.2780E-11
7.0778E-11
9.2813E-20
4.5010E-26
0.OOOOE+OO
1.0120E+01
PU-242
6.4801E-17
I.8514E-17
1.2360E-12
1.6574E-12
9.5088E-23
4.6113E—29
0.OOOOE+OO
1.0369E-02
AM-243
2.5536E-15
3.1920E-17
2.1309E-12
2.8575E-12
3.7471E-21
1.8172E—27
0.OOOOE+OO
4.0858E-01
CM-243
4.2253E-20
1.2804E-20
8.5475E-16
1.1462E-15
6.2002E-26
3.0068E-32
0. OOOOE+OO
6.7610E-06
CM-244
1.9555E-19
5.9258E-20
3.9559E-15
5.3049E-15
2.8695E-25
1.3916E-31
0.OOOOE+OO
3.1291E-05
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL
DOSE RATES:
n ORGANS: R MAR ENDOST THYROID BREAST *PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
^ OTHER WT. SUM
M DOSE EQUIVALENT (MREM/YR)
B. 70 18.1 2.32 4.94 2.30 3.19 3.18 3.17 2.81 2.73
2.81 3.98
1
ANNUAL SUMMARY FOR YEAR 400 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
0.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE AMOUNT IN FACILITY FACILITY AMOUNT AT
FACILITY OVERFLOW DRAINAGE WEI*
CI CI CI
-t »• n nnooF+nn 7 T7n9F-n
-------�
C-1A
3.5281E+02
0.OOOOE+OO
2.069SE-01
FE-55
2.2A85E-AO
O.OOOOE+OO
O.OOOOE+OO
NI-59
3.00A7E+02
O.OOOOE+OO
7.0737E-03
C0-60
1.6330E-18
O.OOOOE+OO
A.1A81E-23
NI-63
1.8623E+03
0.OOOOE+OO
5.190AE-02
SR-90
2.3A18E-02
O.OOOOE+OO
1.9112E-06
NB-9A
2.9996E+00
O.OOOOE+OO
7.5767E-05
TC-99
2.261lE+OO
O.OOOOE+OO
1.A762E-03
RU-106
2.8026E-A5
O.OOOOE+OO
O.OOOOE+OO
SB-125
5.3558E-A2
O.OOOOE+OO
O.OOOOE+OO
1-129
7.2A66E+00
O.OOOOE+OO
2.79A5E-03
CS-13A
2.8026E-A5
O.OOOOE+OO
O.OOOOE+OO
CS-135
2.79AAE+00
O.OOOOE+OO
A.6393E-05
CS-137
5.8688E+00
O.OOOOE+OO
9.8075E-05
BA-137M
5.8688E+00
O.OOOOE+OO
9.8075E-05
EU-15A
2.3084E-13
O.OOOOE+OO
3.02A0E-19
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-21A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH—228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-23A
2.A696E+00
O.OOOOE+OO
6.8353E-06
U-235
3.9587E-02
O.OOOOE+OO
1.0956E-07
NP-237
A.1A21E-03
O.OOOOE+OO
1.7A13E-06
U-238
7.2239E-01
O.OOOOE+OO
2.0028E-06
PU-238
2.6281E+00
O.OOOOE+OO
1.0202E-05
PU-239
A.A3A1E+01
O.OOOOE+OO
1.7179E-OA
PU-241
9.6220E-07
0.OOOOE+OO
3.7309E-12
AM-2A1
5.52A2E+01
O.OOOOE+OO
1.82AAE-03
PU-2A2
9.68A7E-02
O.OOOOE+OO
3.7A53E-07
AM-2A3
2.7557E+00
O.OOOOE+OO
8.7791E-05
CM-2A3
A.7189E-06
O.OOOOE+OO
2.1659E-11
CM-2A4
3.7293E-06
O.OOOOE+OO
1.5392E-11
NUCLIDE
SURFACE
SOIL CONC
SURFACE SOLUBLE TO
WATER CONC STREAM
2.5100E-01
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.0810E-03
O.OOOOE+OO
O.OOOOE+OO
1.7A90E-0A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOUOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOLUBLE TO ATMOSPHERE
FACILITY AT SPILLAGE
ATMOSPHERE
DOWN WIND
WELL WATER SOCON
CONC
-------�
0
1
Ui
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
BA-137M
EU-154
TL-208
PO-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP—237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-243
CM—243
CM-244
CI/M**3
O.OOOOE+OO
0.OOOOE+OO
8.4078E-45
2.1312E-19
5.6052E-45
2.5563E-18
1.2203E-22
7.1713E-18
O.OOOOE+OO
1.4013E-45
2.8026E-45
O.OOOOE+OO
1.4013E-45
1.335IE-23
3.5120E-23
3.5120E-23
2.6665E-28
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
1.3156E-16
2.1084E-18
1.4013E-45
3.8600E-17
1.6653E-15
2.6014E-14
8.8916E-22
5.4061E-14
5.6659E-17
2.5146E-15
4.1849E-21
3.2990E-21
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
1.4013E-45
1.4208E-18
9.3887E-44
1.7042E-17
8.1350E-22
2.0489E-17
O.OOOOE+OO
5.6052E—45
5.6052E—44
O.OOOOE+OO
1.4013E-44
1.3351E-22
3.5120E-22
3.5120E-22
6.6663E-29
O.OOOOE+OO
O.OOOOE-+OO
O.OOOOE+OO
O.OOOOE-+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0. OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.754 IE—16
2 .8112E-18
1.4433E-43
5.1466E-17
4.7579E—16
7 .4326E—15
2.5405E-22
6.7576E-16
1.6188E-17
3. 1432E-17
1.2682E-21
9.9971E-22
CI
7.9505E-09
2.5099E-01
9.3546E-41
9.4847E-14
6.2676E-39
1.1377E-12
5.4307E-17
1.3678E-12
2.0809E-03
3.7418E-40
3.7418E-39
1.7489E-04
9.3546E-40
8.9125E-18
2.3445E—17
2.3445E-17
4.4502E-24
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.1710E-11
1.8766E-13
9.6352E-39
3.4357E-12
3.1762E-11
4.9617E-10
1.6959E-17
4.5111E~11
1.0807E-12
2.0983E-12
8.4657E-17
6.6737E-17
CI
O.OOOOE+OO
O.OOOOE+OO
1.2545E-40
1.2719E-13
8.4049E-39
1.5256E-12
7.2826E-17
1.8342E-12
O.OOOOE+OO
5.0178E-40
5.0178E-39
O.OOOOE+OO
1.2545E-39
1.1952E—17
3.1440E—17
3.1440E—17
5.9677E-24
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5703E-11
2.5166E-13
1.2921E-38
4.6073E-12
4.2594E-11
6.6537E-10
2.2743E-17
6.0495E-11
1.4492E-12
2.8139E-12
1.1353E-16
8.9495E-17
ORGAN DOSE/EXPOSURE SUMMAI
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.1273E-25
O.OOOOE+OO
3.7511E-24
1.7906E-28
1.0523E-23
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.9591E-29
5.1534E-29
5.1534E-29
3.9128E-34
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.9304E-22
3.0938E-24
O.OOOOE+OO
5.6641E-23
2.4436E-21
3.8173E-20
1.3047E-27
7.9328E-20
8.3141E-23
3.6899E-21
6.1409E-27
4.8410E-27
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5166E-31
O.OOOOE+OO
1.8191E-30
8.6835E-35
5.1032E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
9.5006E-36
2.4992E-35
2.4992E-35
1.8975E-40
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
9.3618E-29
1.5004E-30
O.OOOOE+OO
2.7468E-29
1.1850E-27
1.8512E-26
6.3274E-34
3.8470E-26
4.0320E-29
1.7894E-27
2.9780E-33
2.347 7E-33
CI/M**3
5.8096E-14
1.8340E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5205E-08
O.OOOOE+OO
O.OOOOE+OO
1.2779E-09
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1.3453E-30
3.4154E-05
9.0049E-31
4.0967E-04
1.9556E-08
1.1482E-03
O.OOOOE+OO
2.2443E-31
4.5060E-31
O.OOOOE+OO
2.2475E-31
2.1413E-09
5.6329E-09
5.6329E-09
4.2667E-14
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.1056E-02
3.3745E-04
2.2984E-31
6.1780E-03
2.6646E-01
4. 1625E+00
1.4228E-07
8.6497E+00
9.0661E-03
4.0233E-01
6.6963E-07
5.2 7B9E-07
-------�
**+ SELECTED INDIVIDUAL ***
DOSE RATES:
ORGANS: R MAR ENDOST
OTHER UT. SUM
DOSE EQUIVALENT (MREM/YR)
2.99 6.23
.965 1.90
1
THYROID BREAST
6.17
1.70
*PUL*
.792
S WALL INT WALL LIVER
PANCREAS KIDNEYS
1.16
1.10
1.09
.965
.939
ANNUAL SUMMARY FOR YEAR 500 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE-t-OO CUBIC METERS OF WATER OVERFLOWED TRENCH
.00 METERS
n
i
in
in
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
5.7842E-08
0.0000E+00
2.3462E-11
2.4320E-11
C-14
3.3207E+02
0.OOOOE-t-OO
1. A285E-01
1.5070E-01
FE-55
8.4078E-45
O.OOOOE-t-OO
0 .OOOOE-t-OO
0. OOOOE-t-OO
NI-59
2.9945E+02
O.OOOOE-t-OO
8.1648E-03
0. OOOOE-t-OO
C0-60
3.0138E-24
O.OOOOE-t-OO
8.752 IE—29
O.OOOOE-t-OO
NI-63
8.7444E-I-02
O.OOOOE-t-OO
2.7455E-02
0. OOOOE-t-OO
SR-90
2.0651E-03
O.OOOOE-t-OO
1.7661E-07
O.OOOOE-t-OO
NB-94
2.9813E4-00
O.OOOOE-t-OO
8.2310E-05
O.OOOOE-t-OO
TC-99
2.1328E+00
O.OOOOE-t-OO
1.1203E-03
1.4210E-03
RU-106
2.8026E-45
O.OOOOE-t-OO
O.OOOOE-t-OO
O.OOOOE-t-OO
SB-125
5.6052E-45
0.0000E+00
0 .OOOOE-t-OO
O.OOOOE-t-OO
1-129
6.9717E+00
O.OOOOE-t-OO
2.702 7E-03
6.6420E-04
CS-134
2.8026E-45
0. OOOOE-t-OO
O.OOOOE-t-OO
0 .OOOOE-t-OO
CS-135
2.7894E+00
O.OOOOE-t-OO
5.1128E-05
O.OOOOE-t-OO
CS-137
5.8152E-01
O.OOOOE-t-OO
1.0720E-05
O.OOOOE-t-OO
BA-137M
5.8152E-01
O.OOOOE-t-OO
1.0720E-05
O.OOOOE-t-OO
EU-154
6.6642E-17
0. OOOOE-t-OO
9.2068E-23
O.OOOOE+OO
TT 1 A O
n nnnnpinn
n r»nnnF4-nn
o nnnnF+nn
n nnnnF+no
-------�
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB—210
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+-OO
O.OOOOE+OO
O.OOOOE+OO
B1-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB—214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4689E+00
O.OOOOE+OO
7.3721E-06
O.OOOOE+OO
U-235
3.9576E-02
O.OOOOE+OO
1.1816E-07
O.OOOOE+OO
NP-237
3.9718E-03
O.OOOOE+OO
1.6638E-06
O.OOOOE+OO
U-238
7.2218E-01
O.OOOOE+OO
2.1597E-06
O.OOOOE+OO
PU-238
1.1923E+00
O.OOOOE+OO
4.8639E-06
O.OOOOE+OO
PU-239
4.4197E+01
O.OOOOE+OO
1.7998E-04
O.OOOOE+OO
PU-241
5.04 72E-09
O.OOOOE+OO
2.0568E-14
O.OOOOE+OO
AM—241
4.7339E+01
O.OOOOE+OO
1.6403E-03
O.OOOOE+OO
PU-242
9.6791E-02
O.OOOOE+OO
3.9349E-07
O.OOOOE+OO
AM-243
2.7211E+00
O.OOOOE+OO
9.1235E-05
O.OOOOE+OO
CM-243
5.3854E-07
O.OOOOE+OO
2.S632E—12
O.OOOOE+OO
CM-244
7.2497E-08
O.OOOOE+OO
3.1285E—13
O.OOOOE+OO
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
FACILITY
CI/M**3
CI/M**3
CI
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
2.4319E—11
O.OOOOE+OO
C-14
0.OOOOE+OO
O.OOOOE+OO
1.5069E-01
O.OOOOE+OO
FE-55
8.4078E-45
1.4013E—45
9.3546E-41
1.2545E-40
NI-59
9.8352E-21
6.5568E—20
4.377 IE—15
5.8697E-15
C0-60
5.6052E-45
9.3887E—44
6.2676E-39
8.4049E-39
NI-63
5.5606E-20
3.707 IE—19
2.4747E-14
3.3186E-14
SR-90
5.0118E-2S
3.3412E-24
2.2305E-19
2.9911E-19
NB-94
1.8886E-18
5.396IE—18
3.6023E-13
4.8307E-13
TC-99
O.OOOOE+OO
O.OOOOE+OO
1.4209E-03
O.OOOOE+OO
RU-106
1.4013E-45
5.6052E—45
3.7418E-40
5.0178E-40
SB-125
2.8026E-4S
5.6052E—44
3.7418E-39
5.0178E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
6.6416E-04
O.OOOOE+OO
CS-134
1.4013E-45
1.4013E-44
9.3546E-40
1.2545E-39
CS-135
1.3772E-25
1.3772E-24
9.1936E-20
1.2329E-19
cs-
3.5961E-26
3.5961E—25
2.4006E-20
3.21c 0
Ri- 1
¦\ SQMF-Pfi
1 SQftlF-25
2 .4(in6E-20
3.21S 0
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4432E-26
0*OOOOE+OO
8.1S95E-26
7.3543E-31
2.7714E-24
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.0209E-31
5.2768E-32
5.2768E-32
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.9989E-33
O.OOOOE+OO
3.9570E-32
3.5665E-37
1.3440E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
9.8003E-38
2.5590E-38
2.5590E-38
WELL WATER
CONC
CI/M**3
1.7770E-16
i.1011E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
I.O303E-O8
0.OOOOE+OO
O.OOOOE+OO
4.8531E-09
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
o.ooonR+on
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1.3453E-30
1 .5762E-06
9.0049E-31
8.9114E-06
8.0319E-I1
3.0239E-04
O.OOOOE+OO
2. 2443E-3 L
4.5060E-3I
O.OOOOE+OO
2 . 24 75E-JI
2.2089E-Ii
5.7677
5 . 76 7/
-------�
Ul
vj
EU-154
TL-208
P0-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH-22B
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-2A3
CM-243
CM-244
6.8467E-32
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.0000E+00
0.0000E+00
0.0000E+00
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
7.0521E-17
1.1302E-18
1.4013E-4 5
2.069 IE-17
6.6094E-16
2.2685E-14
4.0804E-24
4.6206E-14
4.9540E-17
2.4762E-15
4.1449E-22
5.5656E-23
1.7117E-32
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
9.4028E-17
1.S069E-18
I.4433E-43
2.7589E-17
1.8884E-16
6.48I3E-15
1.1658E-24
5.7758E-16
1.4154E-17
3.0952E-17
1.2560E-22
1.6866E-23
1.1426E—27
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.2770E-12
1.0060E-13
9.6352E-39
1.8417E-12
1.2606E-11
4.3267E-10
7.7827E-20
3.8557E-11
9.4490E-13
2.0663E-12
8.3848E-18
1.1259E-18
1.5323E-27
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
8.4175E-12
1.3490E-13
1.2921E-38
2.4698E-12
1.6905E-11
5.8022E-10
1.0437E-19
5.1705E-11
1.2671E-12
2.7709E-12
1.1244E-17
1.5098E-18
1.0047E-37
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0348E-22
1.6584E-24
O.OOOOE+OO
3.0362E-23
9.6986E-22
3.3287E-20
5.9876E-30
6.7802E-20
7.2695E-23
3.6335E-21
6.0822E-28
8.1669E-29
4.9045E-44
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.0184E-29
8.0426E-31
O.OOOOE+OO
1.4724E-29
4.7034E-28
1.6143E-26
2.9037E-36
3.2881E-26
3.5254E-29
1.7621E-27
2.9496E-34
3.9606E-35
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0955E-17
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.1287E-02
1.8089E-04
2.2984E-31
3.3117E-03
1 .0576E-01
3.6298E+00
6.5291E-10
7.3930E+00
7.92 70E-03
3. 9619E-01
6.6323E-08
8.9057E-09
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATESt
ORGANS: R MAR
OTHER
DOSE EQUIVALENT (MREM/YR)
1.80
.581
ENDOST THYROID BREAST *PUL*
WT. SUM
3.74
2.83
20.8
1.02
.477
S WALL INT WALL LIVER PANCREAS KIDNEYS
.706
.665
.655
.581
.565
ANNUAL SUMMARY FOR YEAR 600 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
-------�
NUCLIDE
AMOUNT IN
FACILITY
CI
H-3
1.9740E-10
C-14
3.1478E+02
FE-55
8.4078E-45
NI-59
2.9832E+02
C0-60
5.5602E-30
NI-63
4.1046E+02
SR-90
1.8203E-04
NB-94
2.9625E+00
TC-99
2.0303E+00
RU-106
2.8026E-45
SB-125
5.6052E-45
1-129
6.7060E+00
CS-134
2.8026E-45
CS-I35
2.7840E+00
CS—137
5.7611E-02
BA-137M
5.761 IE—02
EU-154
1.9239E-20
TL-208
O.OOOOE+OO
PO—210
O.OOOOE+OO
PB-210
O.OOOOE+OO
PB—212
O.OOOOE+OO
BI-214
O.OOOOE+OO
PB-214
O.OOOOE+OO
RA-226
O.OOOOE+OO
TH-228
O.OOOOE+OO
AC-228
O.OOOOE+OO
RA—228
O.OOOOE+OO
TH-232
O.OOOOE+OO
U-234
2.4681E+00
U-235
3.9564E-02
NP-237
3.8090E-03
U-238
7.2195E-01
P' 9
5.4088E-01
Pv )
4.4052E+01
FACILITY
OVERFLOW
CI
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0. OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NUCLIDE TRANSPORT INFORMATION
FACILITY
DRAINAGE
CI
7.9163E-14
1.2747E-01
O.OOOOE+OO
9.1941E-03
1.8078E-34
1.4269E-02
1.6249E-08
8.8454E-05
9.3703E-04
O.OOOOE+OO
O.OOOOE+OO
2.6114E-03
O.OOOOE+OO
5.5637E-05
1.1571E-06
1.I571E-06
2.7902E-26
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
7.8872E-06
1.2642E-07
1.5904E-06
2.3102E-06
2.3092E-06
1.8776E-04
i i imp-1 f>
AMOUNT AT
WELL
CI
8.1490E-14
I.2990E-0I
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
I.0920E-03
O.OOOOE+OO
O.OOOOE+OO
1.5240E-03
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.4800E-08
O.OOOOE+OO
O.OOOOE+OO
O.O' t^OO
n n<. +nn
-------�
AM-241 4.056IE+01
PU-242 9.6733E-02
AM-243 2.6864E+00
CM-243 6.1459E-08
CM-244 1.4093E-09
O.OOOOE+OO 1.4687E-03
O.OOOOE+OO 4.1167E-07
O.OOOOE+OO 9.438IE-OS
O.OOOOE+OO 3.0254E-13
O.OOOOE+OO 6.3361E-15
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
CI/M**3
CI/M"3
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
8.1485E-14
C-1A
0.OOOOE+OO
O.OOOOE+OO
1.2989E-01
FE-S5
8.4078E-AS
1.4013E-45
9.3546E-A1
NI-59
A.5388E-22
3.0259E-21
2.0200E-16
C0-60
S.6052E-A5
9.3887E-44
6.2676E—39
NI-63
1.2096E-21
8.0638E-21
5.3831E-16
SR-90
2.0584E-27
1.3723E-26
9.1610E-22
NB-94
A.9739E-19
1.4211E-18
9.4869E-14
TC-99
O.OOOOE+OO
O.OOOOE+OO
1.0919E-03
RU-106
1.A013E-45
5.6052E-45
3.7A18E-A0
SB-125
2.8026E-A5
5.6052E-44
3.7A18E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
1.5239E-03
CS-13A
1.A013E-A5
1.4013E-44
9.35A6E-40
CS-135
1.4206E-27
1.4206E-26
9.4836E-22
CS-137
3.6822E-29
3.6822E-28
2.4581E-23
BA-137M
3.6822E-29
3.6822E-28
2.4581E-23
EU-154
1.7580E-35
4,3950E-36
2.9339E-31
TL-208
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
3.7803E-17
5.0404E-17
3.3648E-12
U-23 5
6.0584E-19
8.0779E-19
5.3925E-14
NP-23 7
I.4013E-45
1.4433E-43
6.4796E-08
U-238
1.1092E-17
1.4789E-17
9.8725E-13
D1I-11O
7 4950E-17
5.0034E-12
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOLUBLE TO
FACILITY
CI
O.OOOOE+OO
O.OOOOE+OO
1.2545E-AO
2.7088E-16
8.40A9E-39
7.2189E-16
1.228SE-2I
1.2722E-I3
O.OOOOE+OO
S.0178E-40
5.0I78E-39
O.OOOOE+OO
1.2S45E-39
1.2718E-21
3.2963E—23
3.2963E-23
3.9344E-31
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.5122E-12
7.2314E-14
1.2921E-38
1.3239E-12
6.7096E—12
ATMOSPHERE
AT SPILLAGE
CI/h**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.6602E-28
O.OOOOE+OO
1.7749E-27
3.0205E-33
7.2987E-25
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.0846E-33
5.4032E-35
5.4032E-35
2. 5703E-41
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.5471E-23
8.8900E-25
O.OOOOE+OO
1.6276E-23
3.8493E-22
ATMOSPHERE
DOUN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.2299E-34
O.OOOOE+OO
8.6075E-3A
1.46A8E-39
3.5395E-31
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0109E-39
2.6203E-A1
2.6203E-A1
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.6901E-29
4.3113E-31
O.OOOOE+OO
7.8930E-30
I .8667E-28
WELL WATER
CONC
CI/M**3
5.9543E-19
9.4915E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
7.9790E-09
O.OOOOE+OO
O.OOOOE+OO
1.1135E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4 . 7148E-1 1
O.OOOOE+OO
O.OOOOE+OO
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1 . 3453E-30
7.2739E-08
9.0049E-31
1.9385E-07
3.2989E-13
7.9638E-05
O.OOOOE+OO
2.2A43E-31
4 . S>060E-31
O.OOOOE+OO
2.24 7SE-31
2.2785E-13
5.905BE-15
5.9058E-1 5
2.8130E-21
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.0504E-03
9.6906E-05
2.2984 E-31
1.7 752E-03
4 . I 975E-0
-------�
PU-239
1.9781E-14
5.6518E-15
3.7730E-10
S.0596E-10
2.9027E-20
1.4077E-26
O.OOOOE+OO
3.1652E+00
PU-241
1.8725E-26
5.350IE-27
3.5715E-22
4.7895E-22
2.7477E-32
I.3325E-38
O.OOOOE+OO
2.9962E-12
AM—241
3.9493E-K
4.9366E-16
3.2955E-11
4.4193E-11
5.7951E-20
2.8104E-26
O.OOOOE+OO
6.3189E+00
PU-242
4.3316E-I7
1.2376E-17
8.2618E-13
1.1079E-12
6.3561E-23
3.0824E-29
O.OOOOE+OO
6.9310E-03
AM-243
2.4383E-15
3.0479E-17
2.0347E-12
2.7285E-12
3.5780E-21
1.7352E-27
O.OOOOE+OO
3.9013E-01
CM-243
4.1052E-23
1.2440E-23
8.3046E-19
1.1137E-18
6.0240E-29
2.9214E-35
O.OOOOE+OO
6.5689E-09
CM-244
9.3894E-25
2.8453E-25
1.8994E-20
2.5471E-20
I.3778E-30
6.6817E-37
O.OOOOE+OO
1.5024E-10
ORGAN DOSE/EXPOSURE SUMMARY'
*•* SELECTED INDIVIDUAL ***
DOSE RATESi
ORGANSt R MAR
OTHER
DOSE EQUIVALENT (MREM/YR)
1.55
.S02
ENDOST THYROID BREAST
UT. SUM
3.25
5.31
47.0
.866
*PUL*
. A13
S WALL INT UALL LIVER PANCREAS KIDNEYS
.605
.575 .571
.502 .488
n
i
o
o
ANNUAL SUMMARY FOR YEAR 700 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE UATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
H-3
C-14
FE-55
NI-59
'0-60
AMOUNT IN
FACILITY
CI
6.7379E-13
2.9873E+02
8.4078E-45
2.9709E+02
1.0254E-35
i rtTtnpa.ni
FACILITY
OVERFLOW
CI
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
n nnnnF+oo
FACILITY
DRAINAGE
CI
2.6972E-16
1.I977E-01
0.OOOOE+OO
1.0164E-02
3.9069E-40
7.3150E-03
AMOUNT AT
WELL
CI
2.7730E-16
1.2120E-0I
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.r "OE+OO
-------�
NB-94
2.9431E+00
0.OOOOE+OO
9.4217E-05
O.OOOOE+OO
TC-99
1.9415E+00
0.OOOOE+OO
8.3S10E-04
9.2180E-04
RU-106
2.8026E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SB-125
5.6052E-45
O.OOOOE+OO
O.OOOOE+OO
0.OQOOE+OO
1-129
6.4494E+00
O.OOOOE+OO
2.5211E-03
2.5S10E-03
CS-134
2.8026E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
CS-135
2.7782E+00
O.OOOOE+OO
S.9928E-05
O.OOOOE+OO
CS-137
5.7066E-03
O.OOOOE+OO
1.2364E-07
O.OOOOE+OO
BA-I37M
5.7066E-03
O.OOOOE+OO
1.2364E-07
O.OOOOE+OO
EU-154
5.5542E-24
O.OOOOE+OO
8.4219E-30
O.OOOOE+OO
TL-208
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
B1-2I4
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4673E+00
O.OOOOE+OO
8.3814E-06
O.OOOOE+OO
U-235
3.9551E-02
O.OOOOE+OO
1.3434E-07
O.OOOOE+OO
NP-237
3.6534E-03
O.OOOOE+OO
1.S208E-06
2.8490E-07
U-238
7.2172E-01
O.OOOOE+OO
2.4546E-06
O.OOOOE+OO
PU-238
2.4537E-01
O.OOOOE+OO
1.0923E-06
O.OOOOE+OO
PU-239
4.3906E+01
O.OOOOE+OO
1.9516E-04
O.OOOOE+OO
PU-241
1.3886E-13
O.OOOOE+OO
6.1762E-19
O.OOOOE+OO
AM-241
3.474 7E+01
O.OOOOE+OO
1.3102E-03
O.OOOOE+OO
PU-242
9.6673E-02
O.OOOOE+OO
4.2909E-07
O.OOOOE+OO
AM-243
2.6S17E+00
O.OOOOE+OO
9.7247E-05
O.OOOOE+OO
CM-243
7.0137E-09
O.OOOOE+OO
3.S626E-14
O.OOOOE+OO
CM-244
2.7396E-11
O.OOOOE+OO
1.2792E-16
O.OOOOE+OO
NUCLIDE
H-3
C-14
FE-55
NI-59
r*r\ c r%
SURFACE
SURFACE
SOLUBLE TO SOLUBLE TO ATMOSPHERE
SOIL CONC WATER CONC
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
8.4078E-4 5
2.0946E-23
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
1.4013E-45
1.3964E-22
o 1A(|7F-41
STREAM
CI
2.7728E-I6
1.2119E-01
9.3546E-41
9.3220E-18
f\ 767AF-1Q
FACILITY AT SPILLAGE
CI
O.OOOOE+OO
O.OOOOE+OO
1.2 54 5E-40
1 .2501E-17
R 4fU<)F-iq
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.0736E-29
o.ononF+nn
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4906E-35
O.OOOOE+OO
WELL WATER SOCON
CONC
CI/M**3
2.0262E-21
B.85S8E-07
O.OOOOE+OO
O.OOOOE+OO
o nnnnnno
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1 .3453E-30
3 . J568E-09
9 .004<)E-1I
-------�
NI-63
SR-90
NB-94
TC-99
RU-106
SB-125
1-129
CS-134
CS-135
CS-137
BA-137M
EU-154
TL-208
P0-210
PB-210
PB-212
BI-214
PB-214
RA-226
TH-228
AC-228
RA-228
TH-232
U-234
U-235
NP-237
U-238
PU-238
PU-239
PU-241
AM-241
PU-242
AM-243
CM-243
CM-244
2.6311E-23
8.4544E-30
1.3099E-19
0.OOOOE+OO
1.4013E-45
2.8026E-45
O.OOOOE+OO
1.4013E-45
1.4654E-29
3.7703E-32
3.7703E-32
4.5142E-39
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.0264E—17
3.2476E-19
1.4013E-45
5.9456E-18
1.0412E-16
1.7250E-14
8.5931E-29
3.3755E-14
3.7874E-17
2.4011E-15
4.0660E-24
1.5840E-26
1.7S41E-22
5.6363E-29
3.7427E-19
O.OOOOE+OO
5.6052E-45
5.6052E-44
O.OOOOE+OO
1.4013E-44
1.4654E-28
3.7703E-31
3.7703E-31
1.1286E-39
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.7019E-17
4.3301E-19
1.4433E-43
7.927SE-18
2.9747E-17
4.9285E-15
2.4552E-29
4.2193E-16
1.0821E-17
3.0013E-17
1.2321E-24
4.B001E-27
1.1710E-17
3.7626E-24
2.4985E-14
9.2175E-04
3.7418E-40
3.741BE-39
2.5509E-03
9.3546E-40
9.7828E-24
2.5170E-26
2.5170E-26
7.5339E-3S
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.8037E-12
2.8906E-14
2.8488E-07
5.2922E-13
1.9858E-12
3.2901E-I0
1.6390E-24
2.8167E-11
7.2238E-13
2.0036E-12
8.2252E-20
3.2044E-22
1.5703E-17
5.0457E-24
3.3505E-14
O.OOOOE+OO
5.017BE-40
5.017BE-39
O.OOOOE+OO
1.2545E-39
1.3119E-23
3.3753E-26
3.3753E-26
1.0103E-34
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.4188E-12
3.8764E-14
1.2921E-38
7.0968E-13
2.6630E-12
4.4120E-10
2.1979E-24
3.7772E-11
9.6871E-13
2.6868E-12
1.1030E-19
4.2971E-22
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
ORGANS: R MAR ENDOST THYROID BREAST
OTHER WT. SUM
3.8609E-29
1.2406E-3S
1.9222E-25
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.1504E-35
5.S326E-38
S.5326E-38
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.9735E-23
4.7655E-25
O.OOOOE+OO
8.7246E-24
1.5278E-22
2.5312E-20
1.2609E-34
4.9531E-20
5.5575E-23
3.5233E-21
5.9664E-30
2.3244E-32
1.8724E-35
6.01S8E-42
9.3217E-32
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0428E-41
2.6625E-44
2.6625E-44
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4420E-29
2.3110E-3I
O.OOOOE+OO
4.2310E-30
7.4090E-29
1.2275E-26
6.11SOE-41
2.4020E-26
2.69S2E-29
1.7086E-27
2.8934E-36
1.1272E-38
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.7354E-09
O.OOOOE+OO
O.OOOOE+OO
1.8640E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.0817E-12
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4 .2167E-09
1 .3549E-15
2.0974E-05
O.OOOOE+OO
2.2443E-31
4.5060E-31
O.OOOOE+OO
2.2475E-31
2.3504E-15
6.0473E-18
6.0473E-18
7.2232E-25
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.2433E-03
5.1978E-05
2.2984E-31
9.5161E-04
1.6660E-02
2.7601E+00
1.3750E-14
5.4008E+00
6.0602E-03
3.8417E-01
6.506 IE-10
2.5346E-12
*PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
4S8
-------�
I
.471 8.36
ANNUAL SUMMARY FOR YEAR 800 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OP TRENCH
0.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
2.3000E-15
0.OOOOE+OO
9.2042E-19
9.4630E—19
C-14
2.8355E+02
0.OOOOE+OO
1.1350E-01
1.1470E-01
FE-55
8.4078E-45
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
NI-59
2.9577E+02
0.OOOOE+OO
1.1078E-02
0.OOOOE+OO
C0-60
1.8961E-41
0.OOOOE+OO
O.OOpOE+OO
0.OOOOE+OO
NI-63
9.0348E+01
0.OOOOE+OO
3.7093E-03
0.OOOOE+OO
SR-90
1.4129E-06
0.OOOOE+OO
1.3604E-10
0.OOOOE+OO
NB-94
2.9232E+00
0.OOOOE+OO
9.9618E-05
0.OOOOE+OO
TC-99
1.8608E+00
0.OOOOE+OO
7.7179E-04
8.2600E-04
RU-106
2.8026E-45
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
SB-125
5.6052E-45
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
1-129
6.2017E+00
0.OOOOE+OO
2.4323E-01
2.8000E—03
CS-13A
2.8026E-45
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
CS-135
2.7719E+00
0.OOOOE+OO
6.4009E-05
0.OOOOE+OO
CS-137
5.6517E-04
0.OOOOE+OO
1.3103E-08
0.OOOOE+OO
BA-137M
5.6517E-04
0.OOOOE+OO
I.3103E-08
0. OOOOE+OO
EU-154
1.6035E-27
0. OOOOE+OO
2.5331E-33
0.OOOOE+OO
TL-208
0.OOOOE+OO
0. OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
P0-210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-212
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
BI-214
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-214
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
- -~ ~
a ftftoftpi or*
nnnopirtn
-------�
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA—228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOQOE+OQ
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0-234
2.4664E+00
O.OOOOE+OO
e.esssE-oe
O.OOOOE+OO
U-235
3.9537E-02
O.OOOOE+OO
1.4194E-07
O.OOOOE+OO
NP-237
3.5045E-03
O.OOOOE+OO
1.4547E-06
7.2030E-07
U-238
7.2146E—01
O.OOOOE+OO
2.S932E-06
O.OOOOE+OO
PU-238
1.1131E-01
O.OOOOE+OO
5.1501E-07
O.OOOOE+OO
PU—239
4.3761E+OI
o.ooooE+ao
2.02192-04
O.OOOOE+OO
PU-241
7.2835E-16
O.OOOOE+OO
3.3672E-21
O.OOOOE+OO
AH-24L
2.9763E+01
O.OOOOE+QO
UL65LE-03
o.ooooE+aa
PU-242
9.6611E-02
O.OOOOE+OO
4.4579E-07
O.OOOOE+OO
AM-243
2.6171E+OO
O.OOOOE+OO
9.9848E-05
O.OOOOE+OO
CM-243
B.0040E-10
O.OOOOE+OO
4.1861E-15
O.OOOOE+OO
CM-244
5.325SE-13
O.OOOOE+OO
2.57S4E-18
O.OOOOE+OO
n
t
»
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
FACILITY
CI/M**3
CI/M**3
CI
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
9.4624E-19
O.OOOOE+OO
C-14
O.OOOOE+OO
O.OOOOE+OO
1.1469E-0J
O.OOOOE+OO
FE-55
8.4078E-45
1.4013E-45
9.3546E-41
1.254SE-40
NI-59
9.6664E-25
6.4443E-24
4.3020E-19
5.7690E—19
C0-60
5.6052E-45
9.3887E-44
6.2676E-39
B.4049E-39
Nl-63
5.7234E-25
3.8156E-24
2.54 72E-19
3.41S8E-19
SR-90
3.4724E-32
2.3149E-31
1.5454E-26
2 .07 2 3 E-2 6
NB-94
3.4499E-20
9.8568E-20
6.5800E-15
8.8239E-1S
TC-99
O.OOOOE+OO
O.OOOOE+OO
8.2S95E-04
O.OOOOE+OO
RU-106
1.4013E-45
5.6052E-45
3.7418E-40
5.0178E—40
SB-125
2.8026E-45
5.6052E-44
3.7418E-39
5.0178E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
2.7998E-03
O.OOOOE+OO
CS-134
1.4013E-45
1.4013E-44
9.3546E-40
1.2545E-39
CS-135
1.5117E-31
1.5117E-30
1.0091E-25
1.3533E-25
CS-137
3.8606E-35
3.8606E-34
2.5772E-29
3.4561E-29
BA-137M
3.8606E-35
3.8606E-34
2.5772E-29
3.4561E-29
EU-154
1.1547E-42
2.8867E-43
1.9270E-38
2.5842E-38
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO—210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
~ ~ -210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
n nnmp+nfl
O.OOOOE+OO
n.n- +oo
ATMOSPHERE
AT SPILLAGE
CI/M**3
0.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
1.4184E-30
0.OOOOE+OO
8.3985E—31
5.0954E-38
S.0623E-26
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.2182E-37
5.6547E-41
5.6547E-41
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
0 .OOOOE+OO
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.87B8E-37
O.OOOOE+OO
4.0729E-37
2.5223E-44
2.4550E-32
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.0790E-43
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
WELL WATER
CONC
CI/M**3
6.9144E-24
8.3808E-07
O.OOOOE+OO
O.OOOOE+OO
o.ooooe+oo
0.0000E+00
O.OOOOE+OO
O.OOOOE+OO
6.0354E-09
O.OOOOE+OO
O.OOOOE+OO
2.0459E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
SOCON
PCr/M**2
O.OOOOE+OO
O.OOOOE+OO
1 .3453E-30
1 .5491E-10
9.0049E-31
9.1724E-11
5.5648E-18
5.5236E-06
O.OOOOE+OO
2.2443E-31
4.5060E-31
O.OOOOE+OO
2.2475E-3I
2.4246E-17
6.1921E-21
6.1921E-21
1.84 76E-28
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOC "t
-------�
PB-214
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
RA-226
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA—228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
1.0863E-17
1.4483E-17
9.6687E-13
1.2966E-12
U-235
1.7409E-19
2.3212E-19
1.5495E-14
2.0779E-14
NP-237
1.4013E-45
1.4433E-43
7.2026E-07
1.2921E-38
U-23B
3.1872E-18
4.2496E-18
2.8369E-13
3.8043E-13
PU-238
4.1323E-17
1.1807E-17
7.8817E-13
1.0569E-12
PU-239
1.5042E-14
4.2977E-15
2.8690E-10
3.8474E-10
PU-241
3.9434E-31
1.1267E-31
7.5215E-27
1.0086E-26
AM-241
2.8850E-14
3.6063E-16
2.4074E-11
3.2284E-11
PU-242
3.3115E-17
9.4615E-18
6.3161E-13
8.4700E—13
AM-243
2.3644E-15
2.9555E-17
I.9730E-12
2.6458E-12
CM-243
4.0271E-25
1.2203E-25
8.1466E-21
I.0925E-20
CM—244
2.6723E-28
8.0980E-29
5.4059E-24
7.2494E-24
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5940E-23
2.5545E-25
O.OOOOE+OO
4.6768E-24
6.0637E-23
2.2072E-20
5.7866E-37
4.2335E-20
4.8S93E-23
3.4695E-21
5.9094E-31
3.9213E-34
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
7.7300E-30
1.2388E-31
0.0000E+OO
2.2680E-30
2.9406E-29
1.0704E-26
2.8026E-43
2.0530E-26
2.3565E-29
1. 6825E-27
2.8658E-37
1.9017E-40
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.2630E-12
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.7386E-03
2.7863E-05
2.2984E-31
5.1011E-04
6.6121E-03
2.4069E+00
6.3099E-17
4.6161E+00
5.2988E-03
3.7830E-01
6.4439E-11
4.2760E-14
0
1
o\
Ul
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATESi
ORGANSi R MAR
OTHER
DOSE EQUIVALENT (MREM/YR)
1.39
.446
ENDOST THYROID BREAST *PUL*
WT. SUM
3.09
9.08
85.9
. 788
.368
S WALL INT WALL LIVER PANCREAS KIDNEYS
.531
.510
.549
. 446
. 4 34
ANNUAL SUMMARY FOR YEAR 900 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF WATER LEFT BOTTOM OF TRENCH
O.OOOOE+OO CUBIC METERS OF WATER OVERFLOWED TRENCH
NUCLIDE TRANSPORT INFORMATION
-------�
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
FACILITY
OVERFLOW
DRAINAGE
CI
CI
CI
H-3
7.8511E-18
0. OOOOE+OO
3.1417E-21
C-14
2.691SE+02
0.OOOOE+OO
1.0771E-01
FE-55
8.4078E-45
0.OOOOE+OO
0.OOOOE+OO
NI-59
2.9437E+02
0.OOOOE+OO
1.1937E-02
C0-60
I.68I6E-44
0.OOOOE+OO
0.OOOOE+OO
NI-63
4.2369E+01
0.OOOOE+OO
1.8641E-03
SR-90
1.2441E-07
0.OOOOE+OO
1.2390E-11
NB-94
2.9029E+00
0.OOOOE+OO
1.0467E-04
TC-99
1.7854E+00
0.OOOOE+OO
7.2713E-04
RU-106
2.8026E-45
0.OOOOE+OO
0.OOOOE+OO
SB-125
5.6052E-45
0.OOOOE+OO
0.OOOOE+OO
1-129
5.9629E+00
0.OOOOE+OO
2.3452E-03
CS-134
2.8026E-45
0.OOOOE+OO
0.OOOOE+OO
CS-135
2.7652E+00
0.OOOOE+OO
6.789IE-OS
CS-137
5.5965E-05
0.OOOOE+OO
1.3790E-09
BA-137M
5.5965E-05
0.OOOOE+OO
1.3790E-09
EU-154
4.6290E-31
0.OOOOE+OO
7.5950E-37
TL-208
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PO—210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-210
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-212
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
BI-214
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
PB-214
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
RA-226
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
TH-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
AC-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
RA-228
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
TH-232
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
U-234
2.4655E+00
0.OOOOE+OO
9.3104E-06
U-235
3.9522E-02
0.OOOOE+OO
1.4923E-07
NP-237
3.3621E-03
0.OOOOE+OO
1.3919E-06
U- 238
7.2120E-01
0.OOOOE+OO
2.7262E-06
PU-238
5.0493E-02
0.OOOOE+OO
2.4213E-07
PU-239
4.361SE+01
0.OOOOE+OO
2.0887E-04
PU-241
3.8202E-18
0.OOOOE+OO
1.830SE-23
AM-241
2.5490E+01
0.OOOOE+OO
1.0330E-03
FU-242
9.6548E-02
0.OOOOE+OO
4.6180E-07
AM-243
2.S82SE+00
0.OOOOE+OO
1.0220E-04
CM-243
9.1339E-11
0.OOOOE+OO
4.9093E-16
"M-244
1.0352E-14
0.OOOOE+OO
5.1720E-20
AMOUNT AT
WELL
CI
3.2290E-21
1.0890E-01
0. OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
7.6560E-04
0.OOOOE+OO
0.OOOOE+OO
2.7090E-03
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0. OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
1.2720E-06
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
-------�
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
CI/M**3
CI/M**3
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
3.2288E-2I
C-14
O.OOOOE+OO
O.OOOOE+OO
1.0889E-0I
FE-55
8.4078E-45
1.4013E-4 5
9.3546E-41
NI-59
4.4609E-26
2.9740E-25
1.9853E-20
C0-60
S.6052E-45
9.3887E-44
6.2676E-39
NI-63
1.24SOE-26
8.3000E-26
5.5408E-2I
SR-90
1.4262E-34
9.5078E-34
6.3471E-29
NB-94
9.0856E-21
2.5959E-20
1.7329E-15
TC-99
O.OOOOE+OO
O.OOOOE+OO
7.6556E-04
RU-106
1.4013E-45
5.6052E-45
3.7418E-40
SB-125
2.8026E-45
5.6052E-44
3.7418E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
2.7088E-03
CS-134
1.4013E-4 5
1.4013E-44
9.3546E-40
CS-135
1.5593E-33
1.5593E-32
1.0410E-27
CS—137
3.9532E-3B
3.9532E-37
2.6390E-32
BA-137M
3.9532E-38
3.9532E-37
2.6390E-32
EU-154
2.2421E-44
5.6052E-45
3.7418E-40
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
5.8229E-18
7.7639E-18
5.1829E-13
U-235
9.3320E-20
1.2443E-19
8.3063E-15
NP-237
1.4013E-45
1.4433E-43
I.2719E-06
U-238
1.7085E-18
2.2780E-18
1.5207E-13
PU-238
1.6401E-17
4.6860E-18
3.1282E-13
PlI-239
1.3117E-14
3.7477E-15
2.5018E-10
PU-241
1.8097E-33
5.1705E-34
3.4516E-29
AM-241
2.4659E-14
3.0823E-16
2.0577E-11
PU-242
2.8954E-17
8,2 727E-18
5.5226E—13
AM-243
2.3283E-15
2.9103E-17
1.9428E-12
SOLUBLE TO
FACILITY
CI
O.OOOOE+OO
O.OOOOE+OO
I.2545E-40
2.6623E-20
8.4049E-39
7.4303E-21
8. 5H5E-29
2.3239E-1S
O.OOOOE+OO
5.0178E-40
5.0178E-39
O.OOOOE+OO
1.254SE-39
I.3959E-27
3.5390E-32
3.5390E-32
5.0I78E-40
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.9503E-13
1.1139E-14
I.2921E-38
2.0393E-13
A.1950E-13
3.3550E-10
4.6287E-29
2.7594E-1L
7.4058E-13
2.6054E-12
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.5459E-32
0.0000E+OO
1.B269E-32
2.0948E-40
1.3332E-26
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.2876E-39
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
8.5444E-24
1.3694E-25
O.OOOOE+OO
2.5070E-24
2.406 7E-23
1.924BE-20
2.6SS1E-39
3.6184E-20
4.2487E-23
3.4165E-21
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.1745E-38
O.OOOOE+OO
8.B596E-39
O.OOOOE+OO
6.4655E-33
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4013E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.1437E-30
6.6408E-32
O.OOOOE+OO
1.2158E-30
1.1671E-29
9.3342E-27
1.4013E-45
1.7548E-26
2.0604E-29
1.6568E-2 7
7 R384E-38
WELL WATER
CONC
CI/M**3
2. 3593E-26
7.9570E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.S940E-09
0.OOOOE+OO
O.OOOOE+OO
1.9794E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
9.2942E-12
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1.3453E-30
7 .149IE-12
9.004 9E-31
1.9952E-12
2.2856E-20
1.454 7E-06
O.OOOOE+OO
2.244 3E-31
4.5060E-31
O.OOOOE+OO
2.2475E-31
2.5010E-19
6.3406E-24
6.3406E-24
3 . 5875E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
9.3196E-04
1.4936E-05
2.2984E-31
2.7 34 5E-04
2.6243E-03
2.0988E+00
2.8957E-19
3.9454E+00
4.6330E-03
3 . 7252E-01
6.3823E-12
-------�
0
1
a*
co
CM-244 4.5083E-30 1.3662E-30 9.1200E-26 1.2230E-25 6.6155E-36 3.2076E-42 O.OOOOE+OO 7.21J8E-16
ORGAN DOSE/EXPOSURE SUMMARY
*•* SELECTED INDIVIDUAL •**
DOSE RATESi
ORGANSt R MAR ENDOST THYROID BREAST *PUL* S WALL INT WALL LIVER PANCREAS KIDNEY
OTHER WT. SUM
DOSE EQUIVALENT (MREM/YR)
1.34 3.13 81.1 .749 .350 .504 .4415 .5V> .42; .412
.424 0.78
ANNUAL SUMMARY FOR YEAR 1000 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THF «A-'"ir" FOSSIBir WATER DEPTH IN THfWII PUR INO Tilt" YFAR IS .OH mil"
1 M I! I ' ')1 Alt! 1111 Hi 11 in" lit 11*1 II
i lllh'j i)t WAIIh t»Vl I 1 I O'.il It I hi.'Jill
1
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
2.6800E-20
O.OOOOE+OO
1 .0724E-23
1.1020E-23
C-14
2.5549E+02
O.OOOOE+OO
1.0224E-01
1.0330E-01
FE-55
8.4078E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-59
2.9288E+02
O.OOOOE+OO
1.2745E-02
O.OOOOE+OO
C0-60
1.6816E-44
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-63
1.9863E+01
O.OOOOE+OO
9.2987E-04
O.OOOOE+OO
SR-90
1.0951E-08
O.OOOOE+OO
1.I253E-12
O.OOOOE+OO
NB-94
2.6821E+00
O.OOOOE+OO
1.0940E-04
O.OOOOE+OO
TC-99
1.7139E+00
O.OOOOE+OO
6.9178E-04
7.2240E-04
RU-106
2.8026E-4 5
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SB-125
5.6052E-45
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
1-129
5.7326E+00
O.OOOOE+OO
2.2601E-03
2.6170E-03
CS-134
2.8026E-45
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
-------�
CS-135
2.7582E+00
0.OOOOE+OO
7.1580E-05
CS-137
5.5411E-06
0.OOOOE+OO
1.4427E-10
BA-137M
5.5411E-06
O.OOOOE+OO
1.4427E-10
EU-154
1.3363E-34
O.OOOOE+OO
2.2325E-40
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4646E+00
O.OOOOE+OO
9.7467E-06
U-235
3.9507E-02
O.OOOOE+OO
1.5623E-07
NP-237
3.2259E-03
O.OOOOE+OO
1.3322E-06
U-238
7.2092E-01
O.OOOOE+OO
2.8537E-06
PU-238
2.2905E-02
O.OOOOE+OO
1.1354E-07
PU-239
4.3469E+01
O.OOOOE+OO
2.1521E-04
PU-241
2.0037E-20
O.OOOOE+OO
9.9252E-26
AM-241
2.1827E+01
O.OOOOE+OO
9.1360E-04
PU-242
9.6483E-02
O.OOOOE+OO
4.7714E-07
AM-243
2.5481E+00
O.OOOOE+OO
1.0432E-04
CM-243
1.0423E-11
O.OOOOE+OO
5.7473E-17
CM-244
2.0122E-16
O.OOOOE+OO
1.0363E-21
NUCLIDE
SURFACE
SOIL CONC
CI/M**3
H-3
O.OOOOE+OO
C-14
O.OOOOE+OO
FE-55
8.4078E-45
NI-59
2.0587E-27
C0-60
5.6052E-45
NI-63
2.7082E-28
SR-90
5.8575E-37
NB-94
2.3928E-21
TC-99
O.OOOOE+OO
RU-106
1.4013E-45
SURFACE SOLUBLE TO
WATER CONC STREAM
CI/M**3 CI
O.OOOOE+OO 1.1019E-23
O.OOOOE+OO 1.0329E-01
1.4013E-45 9.3546E-41
1.3725E-26 9.1620E-22
9.3887E-44 6.2676E-39
1.8055E-27 1.2053E-22
3.9050E-36 2.6069E-31
6.8365E-21 4.5638E-16
O.OOOOE+OO 7.2236E-04
5.6052E-45 3.7418E-40
- ' ac ip i > •% ¦»/ i fir ¦> n
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.6470E-06
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOLUBLE TO
FACILITY
CI
O.OOOOE+OO
O.OOOOE+OO
1.2545E-40
1.2286E-21
8.4049E-39
1.6163E-22
3.4958E-31
6.1202E-16
0.OOOOE+OO
5.0178E—AO
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.0209E-33
O.OOOOE+OO
3 .9740E-34
1.2850E-42
3.5111E-2 7
O.OOOOE+OO
O.OOOOE+OO
o rtnnnv+nn
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4650E-39
0. OOOOE+OO
1.9272E-40
O.OOOOE+OO
1.7027E-33
O.OOOOE+OO
O.OOOOE+OO
n nnnnF-t-nn
UELL WATER
CONC
CI/M**3
8 . 0520E-29
7 . 5479E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.2 784E-09
O.OOOOE+OO
o n/mDP+nn
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1 .3453E-30
3 .2992E-13
9.0044E-31
4.3402E-14
9.307JE-23
J.8J11E-07
O.OOOOE+OO
2.24A3E-J1
-------�
1-129
O.OOOOE+OO
O.OOOOE+OO
2.6168E-03
O.OOOOE+OO
CS-134
1.4013E-45
1.4013E-44
9.3546E-40
1.2545E-39
CS-135
1.6085E-35
1.6085E-34
1.0738E-29
1.4400E-29
CS-137
4.0486E-41
4.0486E-40
2.7027E-35
3.6244E-35
BA-137M
4.0486E-41
4.0486E-40
2.7027E-35
3.6244E-35
EU-154
2.2421E-44
5.6052E-45
3.7418E-40
5.0178E-40
TL—208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PO-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-2I4
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+QO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
- O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
3.1214E-18
4.16L8E-16
2.7783E-13
3.7257E-13
U-235
5.0024E-20
6.6699E-20
4.4526E-15
5.971OE-15
NP-237
1.4013E-45
1.4433E-43
I.6469E-06
1.2921E-38
U-238
9.1583E-19
1.2211E-18
8.1517E-14
1.0932E-13
PU-238
6.5095E-18
1.8599E-18
1.2416E-13
1.6650E-13
PU-239
1.1438E-14
3.2680E-15
2.1816E-10
2.9256E-10
PU-241
8.3047E-36
2.3728E-36
1.5840E-31
2.1241E-31
AM-241
2.1076E-14
2.634SE-16
1.7587E-11
2.3584E-11
PU-242
2.5317E-17
7.2333E-18
4.8287E-13
6.4753E-13
AM-243
2.2927E-15
2.8659E-17
1.9131E-12
2.5656E-12
CM-243
3.9505E-27
1.1971E-27
7.9915E-23
1.0717E-22
CM-244
7.6057E-32
2.3048E-32
1.5386E-27
2.0633E-27
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
ORGANS: R MAR ENDOST THYROID BREAST
OTHER WT. SUM
DOSE EQUIVALENT (MREM/YR)
1.28 3.11 BO.3 .711
.402 8.48
1
THE MAXIMUM INDIVIDUAL DOSE COMMITMENT IS
9.1S36 MREM
0.OOOOE+OO
O.OOOOE+OO
2.3133E-41
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.5802E-24
7.3405E-26
O.OOOOE+OO
1.3439E-24
9.5519E-24
1.6784E-20
1.1S66E-41
3.0927E-20
3.7I49E-23
3.3643E-21
5.7969E-33
1.1161E-37
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.2212E-30
3.5598E-32
O.OOOOE+OO
6.5172E-31
4.6323E-30
8.1396E-27
O.OOOOE+OO
1.4998E-26
1.8016E-29
1.6315E-27
2.8112E-39
5.4651E-44
1.9122E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.2034E-11
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
2.2475E-31
2.5799E-21
6.4936E-27
6.4936E-27
3.5875E-30
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.0000E+OO
4.9958E-04
8.0064E-06
2.2904E-31
1. 4658E-04
1.0416E-03
1 .8302E+00
1.3288E-21
3.3722E+00
4.0509E-03
3.6683E-0I
6.3212E-13
1.2170E-17
*PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
.332 .478 .460 .559 .402 .391
-------�
THE MAXIMUM INDIVIDUAL DOSE OCCURS IN THE 776 TH YEAR
1
ANNUAL SUMMARY FOR YEAR 7 76 OF THE SIMULATION
THE TRENCH CAP HAS HAD 20.00 PER CENT FAILURE
THE MAXIMUM POSSIBLE WATER DEPTH IN TRENCH DURING THE YEAR IS .08 METERS
3.9829E+04 CUBIC METERS OF UATER LEFT BOTTOM OF TRENCH
0.0000E+00 CUBIC METERS OF UATER OVERFLOUED TRENCH
NUCLIDE TRANSPORT INFORMATION
NUCLIDE
AMOUNT IN
FACILITY
FACILITY
AMOUNT AT
FACILITY
OVERFLOW
DRAINAGE
WELL
CI
CI
CI
CI
H-3
8.9900E-15
O.OOOOE+OO
3.5977E-18
3.6980E-18
C-l A
2.8712E+02
O.OOOOE+OO
1.1A95E-01
1.1630E-01
FE-55
8.A078E-A5
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-59
2.9610E+02
O.OOOOE+OO
1.0863E-02
O.OOOOE+OO
C0-60
A.5055E-A0
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-63
I.0835E+02
O.OOOOE+OO
A. 3697E-03
O.OOOOE+OO
SR-90
2.5313E-06
O.OOOOE+OO
2.A168E-10
O.OOOOE+OO
NB-9A
2.9280E+00
O.OOOOE+OO
9.835AE-05
O.OOOOE+OO
TC-99
I.8796E+00
O.OOOOE+OO
7.8A76E-OA
8.AA70E-0A
RU-106
2.8026E-A5
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SB-125
5.6052E-A5
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1-129
6.260AE+00
O.OOOOE+OO
2.453AE-03
2.8210E-03
CS-13A
2.8026E-A5
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
CS-135
2. 7 73AE+00
O.OOOOE+OO
6.30A8E-05
O.OOOOE+OO
CS-137
9.8AA5E-0A
O.OOOOE+OO
2.2A71E-08
O.OOOOE+OO
BA-137M
9.8AASE-0A
O.OOOOE+OO
2.2A71E-08
O.OOOOE+OO
EU-15A
1.1338E-26
0.OOOOE+OO
1 .77A2E-32
O.OOOOE+OO
TL-208
0.0000E+00
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-2 J 2
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-21A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-2IA
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
-
f> or* Ann . on
r\ nnnnrmn
n nrmnr i on
n onnnF+OO
-------�
TH-228
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
2.4667E+00
O.OOOOE+OO
8.7435E-06
U-235
3.9540E-02
O.OOOOE+OO
1.4015E-07
NP-237
3.5396E-03
O.OOOOE+OO
1.4702E-06
U-238
7.2153E-01
O.OOOOE+OO
2.560SE-06
PU-238
1.3456E-01
O.OOOOE+OO
6.1703E-07
PU-239
4.3796E+01
O.OOOOE+OO
2.0054E-04
PU—241
2.5680E-15
O.OOOOE+OO
1.1766E-20
AM-241
3.0890E+01
O.OOOOE+OO
1.1987E-03
PU-242
9.6626E-02
O.OOOOE+OO
4.4LB5E-07
AM-243
2.62S4E+00
O.OOOOE+OO
9.9247E-05
CM-243
1.3475E-09
O.OOOOE+OO
6.9998E-15
CM-244
1.3711E-12
O.OOOOE+OO
6.S768E-18
NUCLIDE
SURFACE
SURFACE
SOLUBLE TO
SOIL CONC
WATER CONC
STREAM
CI/M**3
CI/M**3
CI
H-3
O.OOOOE+OO
O.OOOOE+OO
3.6978E-18
C-14
O.OOOOE+OO
O.OOOOE+OO
1.1629E-01
FE-55
8.4078E-45
1,4013E-45
9.3546E-41
NI-59
2.0224E—24
1.3483E-23
9.0006E-19
C0-60
5.6052E-45
9.3887E-44
6.2676E-39
NI-63
1.4343E-24
9.5623E-24
6.3B3SE-19
SR-90
1.2983E-31
8.65S4E-31
5.7780E-26
NB-94
4.7519E-20
1.3577E-19
9.0635E-15
TC-99
O.OOOOE+OO
O.OOOOE+OO
8.4465E-04
RU-106
1.4013E-45
5.6052E-45
3.7418E-40
SB-125
2.8026E-45
5.6052E-44
3.74I8E-39
1-129
O.OOOOE+OO
O.OOOOE+OO
2.8208E-03
CS-134
1.4013E-45
1.4013E-44
9.3546E-40
CS-135
4.5312E-31
4.5312E-30
3.0249E-25
CS-137
2.0146E-34
2.0146E-33
1.3449E-28
BA-13 7M
2.0146E-34
2.0146E-33
1.3449E-28
EU-154
8.4302E-42
2.1076E-42
1.4069E-37
TL-208
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
-0 \ ">
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
5.8240E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SOLUBLE TO
FACILITY
CI
O.OOOOE+OO
O.OOOOE+OO
1.254SE-40
1.2070E-18
8.4040E-39
8.560JE-19
7.7484E-26
1.2154E-14
O.OOOOE+OO
5.0178E-40
5.0178E-39
O.OOOOE+OO
1.2545E-39
4.0564E-25
1.8035E-28
1.8035E-28
1.8867E-37
O.OOOOE+OO
0.OOOOB+OO
O.OOOOE+OO
O.OOOOE+OO
ATMOSPHERE
AT SPILLAGE
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
2.9677E—30
O.OOOOE+OO
2.1047E-30
1.9051E-37
6.9729E-26
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.6491E-37
2.9559E-40
2.9559E-40
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
n nnnnp+nr)
ATMOSPHERE
DOWN WIND
CI/M**3
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.4392E-36
O.OOOOE+OO
1.0207E-36
9.2486E-44
3.3815E-32
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
3.2230E-43
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
n nnnnE+oo
WELL WATER
CONC
CI/M**3
2.7020E-23
8.4977E-07
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
6.L720E-09
O.OOOOE+OO
O.OOOOE+OO
2.0612E-08
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OODOE+OO
SOCON
PCI/M**2
O.OOOOE+OO
O.OOOOE+OO
1 .3453E-30
3.2411E-10
9.0049E-31
2.2987E-10
2.0807E-17
7.6084E-06
O.OOOOE+OO
2.2443E-31
4.5060E-31
O.OOOOE+OO
2.2475E-31
7.2677E-17
3.2 U2E-20
3 . 2312E-20
I . 3409E-27
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOfJP^ 10
-------�
0
1
U)
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-23A
1.2616E-17
1.6821E-17
1.1229E-12
U-235
2.0219E-19
2.6959E-19
I.7997E-14
NP-237
I.4013E-A5
1.A433E-A3
5.8237E-07
U-238
3.7016E-18
4.9355E-18
3.2948E-13
PU-238
5.1583E-17
1.4738E-17
9.8387E-13
PU-239
1.55A5E-I4
4.4413E-15
2.9649E-10
PU-2A1
1.A357E-30
4.1020E-31
2.7383E-26
AM—2A 1
2.9958E-1A
3.7448E-16
2.4999E-11
PU-2A2
3.A200E-17
9.7713E-18
6.5230E-13
AM-2A3
2.3731E-15
2.966AE-17
1.9803E-12
CM-2A3
7.01A5E-25
2.1256E-2S
1.4190E-20
CM-2AA
7.1183E-28
2.1571E-28
1.AAOOE-23
UPTAKE/CONCENTRATIONS PASSED T(
NUCLIDE
INGESTION
PCI/YR
INHALATION
PCI/YR
AIR IMMERS.
PCI/M**3
H-3
1.3021E-11
O.OOOOE+OO
O.OOOOE+OO
C-14
A.0951E+05
O.OOOOE+OO
O.OOOOE+OO
FE-55
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-59
2.6178E-10
1.156AE-20
1.A392E-36
C0-60
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
NI-63
1.8A06E-10
8.201AE-21
1.0207E-36
SR-90
1.0761E-16
7.A312E-28
9.2486E-44
NB-9A
A.6962E-10
2.7171E-16
3.3815E-32
TC-99
2.97A3E+03
O.OOOOE+OO
O.OOOOE+OO
RU-106
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
SB—125
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1-129
9.9331E+03
O.OOOOE+OO
O.OOOOE+OO
CS-13A
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
CS—135
1.7515E-12
2.5897E-27
3.2230E-43
CS-137
7.5878E-16
O.OOOOE+OO
O.OOOOE+OO
BA-137M
7.5878E-16
O.OOOOE+OO
O.OOOOE+OO
Fll-I SA
Q 8A79F-17
n nnnnp+nn
o.nnnr>F+nn
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
I.SOS9E-12
2.4134E-14
1.2921E-38
4.4184E-13
1.3194E-12
3.9759E-IO
3.6722E-26
3.3524E-11
8. 7474E—13
2.6SS6E-I2
1.9029E-20
1.9310E-23
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.8S13E-23
2.9669E-2S
O.OOOOE+OO
5.4318E-2A
7.5693E-23
2.2810E-20
2.1067E-36
4.3960E-20
5.018AE-23
3.4823E-21
1.0293E-30
1.0445E-33
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
8.9778E-30
1.4388E-31
O.OOOOE+OO
2.6342E-30
3.6708E-29
1.1062E-26
1.0215E-42
2.1319E-26
2.4337E-29
1.6888E-27
4.9916E-37
5.0655E-40
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.2554E-12
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
2.0192E-03
3.2361E-05
2.2984E-31
5.92A6E-0A
8.2539E-03
2.A873E+00
2.2973E-16
A. 7933E+00
5. A 723E-03
3.7970E-01
1 . 122AE-10
1.1390E-13
DO STAB
SURFACE
PCI/h**2
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
4.3730E-20
O.OOOOE+OO
3.0782E-20
2.7402E-27
1.4980E-20
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
1.5689E—22
6.8163E-26
6.8163E-26
2.8026E-45
-------�
TL-208
O.OOOOE+OO
O.OOOOE+OO
0.OOOOE+OO
O.OOOOE+OO
P0-210
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PR-210
O.OOOOE+OO
O.OOOOE+OO
0. OOOOE+OO
O.OOOOE+OO
PB-212
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
BI-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
PB-214
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-226
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
AC-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
RA-228
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
TH-232
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-234
1.8301E-11
7.2137E-14
8.9778E-30
5.5335E-20
U-235
2.9330E-13
1.156 IE—15
1.4388E-31
8.8682E-22
NP-237
2.0507E+00
O.OOOOE+OO
O.OOOOE+OO
O.OOOOE+OO
U-238
5.3696E-12
2.1165E-14
2.6342E-30
1.6236E-20
PU-238
4.2621E-12
2.9495E-13
3.6708E-29
1.8164E-20
PU-239
1.2B56E-09
8.8882E-11
1.1062E-26
5.5169E-18
PU-241
1.1795E-25
8.2081E-27
1.0215E-42
4.8349E-34
AM-241
2.5539E-09
1.7130E-10
2.1319E-26
6.2848E-18
PU-242
2.8285E-12
1.9555E-13
2.4337E-29
1.2138E-20
AM-243
2.0235E-10
1.3569E-11
1.6888E-27
4.9856E-19
CM-243
5.7555E-20
4.0108E-21
4.9916E-37
2.5242E-28
CM-244
5.82S7E-23
4.0702E-24
5.0655E-40
2.5167E-31
ORGAN DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATESi
ORGANSt R MAR ENDOST THYROID BREAST *PUL* S UALL INT WALL LIVER PANCREAS KIDNEYS
OTHER WT. SUM
DOSE EQUIVALENT (MREK/YR)
1.41 3.08 86.6 .799 .373 .539 .517 .547 .452 HO
.452 9.15
PATHWAY DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
WEIGHTED SUMS OF ORGAN DOSE RATES
PATHWAYS.- INGESTION INHALATION AIR GROUND INTERNAL EXTERNAL TOTAL
IMMERSION SURFACE
-------�
DOSE EQUIVALENT (KREM/YR)
9.15 I.IA6E-10 1.856E-18 9.401E-12 9.15 9.AOIE-12 9.15
PATHWAY DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
WEIGHTED SUMS OF ORGAN DOSE RATES
PATHWAYS: INGESTION INHALATION AIR GROUND
IW1ERSION SURFACE
INTERNAL EXTERNAL TOTAL
DOSE EQUIVALENT (% OF TOT.)
100.
1.252E-09 2.027E-17 1.027E-10 100.
1.027E-10 100.
NUCLIDE DOSE/EXPOSURE SUMMARY
*** SELECTED INDIVIDUAL ***
DOSE RATES:
WEIGHTED SUMS OF ORGAN DOSE RATES
NUCLIDESi H-3
SB-125
PB-212
NP-237
TOTAL
DOSE EQUIVALENT (KREM/YR)
1
C-l A
1-129
BI-21A
U-238
12 IE-18
.000
.000
6. A57E-03
9.15
FE-55
CS-13A
PB-21A
PU-238
NI-59
CS-135
RA-226
PU-239
C0-60
CS-137
TH-228
PU-241
.631
8.51
.000
A.078E-15 1.182E-13 3.367E-11 4.479E-29
.000
.000
.000
7.305E-16
1.141E-17
.000
.000
3.3 73E-20
.000
NI-63
BA-137M
AC-228
AM-2AI
6.794E-17
1.838E-18
.000
9.105E-11
SR-90
EU-154
RA-228
PU-242
6.OA 7E-22
1.500E-3 7
.000
7.0A2E-1A
NB-94
TL-208
TH-232
AM-2A3
1.057E-12
.000
.000
7.997E-12
TC-99
P0-210
U-23A
CM-2A3
5 .699E-0j
.000
J
2
RU-106
PB-210
U-235
CM-2AA
.000
.000
582E-1A 6.657E-I
755E-21 9.603E-2
NUCLIDE DOSE/EXPOSURE SUMMARY - ALL PATHWAYS
*** SELECTED INDIVIDUAL
DOSE RATES:
WEIGHTED SUMS OF ORGAN DOSE RATES
NUCLIDES; H-3 C-14 FE-55 NI-59 CO-60 NI-63 SR-90 NB-9A T( -«#'» RU-106
SB-125 1-129 CS-13A CS-135 CS-137 BA-137M EU-1S4 TI.-200 PO-2I 0 PB-210
°r "-'H t.,-•»•»« '1!!-.> II-2V. 1I-23S
-------�
NP-237 U-238
TOTAL
DOSE EQUIVALENT (% OF TOT.)
1.225E-17 6.89
.000 93.0
.000 .000
7.054E-02 4.455E-
100.
14
PU-238
.000
.000
.000
1.292E-12
PU-239
PU-24|
AM-241
PU-242
AM-243
7.981E-15 .000 7.422E-16
1.24 7E—16 3.685E-19 2.008E-17
.000 .000 .000
3.678E—10 4.893E-28 9.946E-10
6.606E-21 1.155E-11
1.638E-36 .000
.000 .000
7.693E-13 8.736E-11
CM-243
6.226E-02
.000
1. 728E-13
3.009E-20
CM-244
.000
.000
' .272E-14
1.049E-23
INDIVIDUAL ORGAN DOSE EQUIVALENT RATES (MREK/YR)
FOR ORGAN:
NUCLIDES
PATHWAYS
R MAR
H-3
SB-125
PB-212
NP-237
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PH-214
PU-238
NI-59
CS-135
RA-226
PU-239
C0-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA-228
PU-242
NB-94
TL-20B
TH-232
AM-243
TC-99
P0-210
U-234
CM-243
RU-106
PB-210
U-235
CM-244
- INGESTION
1.076E-18 1.38 .000 3.654E-17 .000 5.993E-17 2.335E-21 1.79JE-15 6.877E-04 .000
.000 7.839E-03 .000 1.209E-17 3.312E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.983E-L6 3.187E-18
1.54QE-02 6.157E-17 2.883E-14 1.040E-12 2.207E-29 2.092E-11 2.171E-15 1.677E-12 2.682E-22 2.024E-2S
1.41
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
90.4
.000
.000
.000
23.5
100.
100.
.000
2.96
.000
100.
.000
21.9
100.
.000
.000
11.0
100.
.000
.000
2.96
100.
.000
.000
11 .0
100.
.000
90.9
10.6
.000
.000
90.6
10.6
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
10 0.
.000
54.4
.000
.000
.000
23.5
68.3
100.
.000
2.95
.000
100.
.000
21.9
100.
.000
.000
10.8
100.
.000
.000
2.96
.168
.000
.000
10.4
100.
.000
42 .1
6.88
.000
.000
5.376E-02
10.6
'» r *tt r\M
.rioo
.000
.000
4.738E-2 7 .000
7.833E-27 8.5ltoE-Jt 2.67IE-ao
nnn .mm
.000
.0^
.000
.000
-------�
.000 .000 .000 .000 .000 .000 .000 .000 1 .984E-17 3.288E-19
.000 6.561E-18 9.386E-1A 3.415E-11 7.889E-29 1.701E-10 7.127E-14 L.363E-11 2.262E-21 1.708E-24
2.180E-10
% OF INTERNAL .000 .000
.000 .000
.000 .000
.000 9.63
1.548E-06
% OF ALL PATHWAYS .000 .000
.000 .000
.000 .000
.000 S.80
1.548E-08
- AIR IMMERSION .000 .000
.000 .000
.000 .000
.000 3.722E-25
1.012E-18
% OF EXTERNAL .000 .000
.000 .000
.000 .000
.000 8.261E-07
1.928E-05
% OF ALL PATHWAYS .000 .000
.000 .000
.000 .000
.000 3.288E-07
7.189E-17
- GROUND SURFACE .000 .000
.000 .000
.000 .000
.000 4.505E-17
5.251E-12
% OF EXTERNAL .000 .000
.000 .000
non .ooo
.000 1.296E-08 .000 1.307E-08
.000 9.823E-U .000 .000
.000 .000 .000 .000
76.5 97.0 78.1 89.0
.000 8.8S0E-09 .000 1.307E-08
.000 9.823E-14 .000 .000
.000 .000 .000 .000
76.5 97.0 78.1 87.5
.000 5.I75E-33 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.942E-24 2.157E-21 .000 7.967E-19
.000 3.0A6E-14 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
4.7A2E-Q6 1.399E-05 .000 2.354E-OS
.000 9.667E-15 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.582E-09 6.127E-09 .000 4.099E-07
.000 1.699E-17 .000 .000
.000 .000 .000 1.854E-18
.000 .000 .000 .000
A.096E-I7 1.5A2E-1A .000 3.38AE-12
.000 100. .000 .000
.000 .000 .000 100.
.000 .000 .000 .000
3.6A7E-08 1.A90E-03 .000 .000
.000 .000 .000 .000
.000 .000 9.09 9,35
97.0 89.0 89.A 89.A
3.6A7E-08 2.501E-06 .000 .000
.000 .000 .000 .000
.000 .000 4.21 5.547E-03
97.0 8A.7 58.0 89.4
.000 2.A7 7E-22 .000 .000
.000 .000 .000 .000
.000 .000 2.A78E-24 8.7UE-2)
1.216E-2A 2.131 E— 19 2.A38E-28 2.118E-3'.
.000 2.323E-08 .000 .000
.000 .000 .000 .000
.000 .000 9.799E-07 1.474E-0<
5.313E-06 2.738E-05 1.782E-05 3.791E-0*
.000 2.319E-08 .000 .000
.000 .000 .000 .000
.000 .000 5.260E-07 l.A73E-0<
1.655E-09 1.325E-06 6.254E-06 1.108E-0'
.000 1.067E-12 .000 .000
1.49AE-3 7 .000 .000 .000
.000 .000 2.529E-I6 5.924E-1
2.288E-1 7 7. 78SE-1 J 1.368E-21 5.587E-2'
.000 100. .000 .000
100. .000 .000 .000
.000 .000 100. 100.
-------�
.000 100. 100. 100. .000 too. 100. 100. LOO. 100.
100.
X OF ALL PATHWAYS .000 .000 .000 31.7 .000 .000 .000 99.8 .000 .000
.000 .000 .000 .000 .000 100. 100. .000 .000 .000
.000 . 000 . 000 . 000 . 000 . 000 . 000 . 000 S3.7 99.9
.000 39.8 3.337E-02 4.380E-02 .000 1.74 3.U5E-02 4.84 35.1 2.924E-02
3.729E-10
- INTERNAL
1.076E-18 1.38 .000 3.654E-17 .000 5.993E-17 2.335E-21 1.793E-15 6.877E-04 .000
.000 7.839E-03 .000 1.209E-17 3.312E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.182E-16 3.515E-18
1.S40E-02 6.813E-17 1.227E-13 3.519E-U 1.010E-28 1.910E-10 7.344E-14 1.531E-11 2.530E-21 1.910E-24
1.41
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
60.2
.000
.000
.000
100.
68.3
100.
.000
100.
.000
100.
.000
100.
100.
.000
.000
98.3
100.
.000
.000
100.
.168
.000
.000
95.2
100.
.000
46.3
64.9
.000
.000
5.931E-02
100.
- EXTERNAL
.000 .000 .000 1.699E-17 .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 4.505E-17 4.096E-17 1.542E-14 .000
5.251E—12
.000 .000 1.067E-12 .000 .000
1.854E-I8 1.494E-37 .000 .000 .000
.000 .000 .000 2.529E-16 5.924E-15
3.384E-12 2.288E-17 7.785E-13 1.368E-21 5.587E-26
% OF ALL PATHWAYS
.000
.000
.000
.000
3.729E-10
.000 .000 31.7 .000 .000
.000 .000 .000 .000 100.
.000 .000 .000 .000 .000
39.8 3.337E-02 4.380E-02 .000 1.74
.000 99.8 .000 .000
100. .000 .000 .000
.000 .000 53.7 99.9
3.115E-02 4.84 35.1 2.924E-0.
TOTAL OVER ALL PATHWAYS
1.076E-18 1.38 .000 5.353E-17 .000 5.993E-17 2.335E-21 1.068E-12 6.877E-04 .000
.000 7.839E-03 .000 1.209E-17 3.312E-20 1.854E-18 1.494E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 4.71 IE-16 5.927E-1
1.540E-02 1.132E-16 1.227E-13 3.521E-U 1.010E-28 1.944E-10 7.346E-14 1.608E-11 3.898E-21 1.9UE-2
1.41
P0R ORGANs
UCLIDES
ENOOST
H-3
CO.
C-14
t-i
FE-55
rs-n
NI-59
CS-135
C0-60
CS-13 7
NI-63
BA-137M
SR-90
EU-154
NE-94
TL-208
TC-9'i
PO-2I 0
RU-106
PB-210
-------�
PATHWAYS
PB-212 BI-214 PB-214 RA-226 TH-228 AC-228 RA-22B TH-232 U-234 U-235
NP-237 U-238 PU-238 PU-239 PU-241 AM-241 PU-242 AM-243 CM-243 CM-244
TOTAL
- INGESTION
8.542E-19 2.89
.000 6.268E-03
.000 .000
.190
3.08
.000 3.401E-17 .000 5.993E-17 5.300E-21 9.425E-15 6.877E-04 .000
.000 1.209E-17 2.316E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 3.132E-15 4.858E-17
7.977E-16 3.556E-13 1.281E-11 2.720E-28 2.579E-10 2.689E-14 2.073E-11 3.328E-21 2.511E-24
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
90.8
.000
.000
.000
23.5
100.
100.
.000
2.95
.000
100.
.000
21.9
100.
.000
.000
11.0
100.
.000
.000
2.95
100.
.000
.000
11.0
100.
.000
90.9
10.6
.000
.000
90.9
10.6
% OF ALL PATHWAYS
0
1
100.
.000
.000
100.
100.
100.
100.
.000
76.1
.000
.000
.000
23.5
28.8
100.
.000
2.95
.000
100.
.000
21.9
100.
.000
.000
10.9
100.
.000
.000
2.95
.803
.000
.000
10.8
100.
.000
73.5
9.92
.000
.000
.527
10.6
- INHALATION
.000
.000
.000
.000
.000 .000 .000 4.408E-27 .000
.000 .000 .000 1.188E-32 .000
.000 .000 .000 .000 .000
.000 8.041E-17 1.156E-12 4.213E-10 9.718E-28 2.097E-09 8.840E-13 1.684E-10 2.802E-20 2.117E-23
2.689E-09
7.833E-27 1.932E-30 4.777E-20
.000 .000 .000
.000 .000 .000
3.133E-16 4.871E-U!
% OF INTERNAL
.000
.000
.000
.000
8.719E-08
.000 .000 1.296E-08 .000
.000 .000 9.823E-14 .000
.000 .000 .000 .000
9.16 76.5 97.0 78.1
1.307E-08 3.646E-08 5.068E-04 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 9.09 9.11
89.0 97.0 89.0 B9.4 89.4
% OF ALL PATHWAYS
.000
.000
.000
.000
8.719E-08
.000 .000 3.730E-09 .000
.000 .000 9.823E-14 .000
.000 .000 .000 .000
7.68 76.5 97.0 78.1
1.307E-08 3.646E-08 4.071E-06 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 7.35 5.28lE-0^
88.6 97.0 88.0 8J.5 89.4
- ATR TMMFRSIDN
nnn
.onn
.nnn
2.562E-32 .000
.000
.000
2.7 1SE-22 .000
.000
-------�
.000
.000
.000
3.314E-18
.000 .000 .000 .000
.000 .000 .000 .000
1.189E-24 7.672E-24 4.420E-21 .000
.000 .000 .000 .000 .000
.000 .000 .000 6.3 78E-24 1.34 7E-22
2 . 71AE—18 4.665E-24 5.955E-19 3.860E-28 8.546E-3S
OF EXTERNAL
.000
.000
.000
.000
2.207E-05
.OUO .000 3.043E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
7.008E-07 4.121E-06 1.090E-05 .000
.000 .000 i.lllE-OH .0(1(1 .000
.000 .000 .<)0<) .'IMII .000
.000 .000 .(Mill ~.HIM -U' I .4ol)L-Ut>
2.339E-05 4.549E-UO 2.71 H-"J i 1.7c IE-OS I.JIJL-Oo
X OF ALL PATHWAYS
.000
.000
.000
.000
1. 07 5E-16
.000 .000 2.168E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.135E-07 5.074E-10 1.018E-09 .000
.000 .000 2.3J4E-0B .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 1.496E-07 1.460E-06
1.147E-07 5.121E-10 3.113E-07 1.151E-0o 3.609E-10
0
1
00
o
- GROUND SURFACE
.000
.000
.000
.000
1.501E-11
.000 .000 8.416E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.697E-16 1.862E-16 4.055E-14 .000
.000 .000 1.164E-12 .000 .000
2.068E-1B 1.669E-37 .000 .000 .000
.000 .000 .000 8.162E-16 9.170E-15
1.160E-11 1.026E-16 2.195E-12 2.190E-21 2.580E-27
Z OF EXTERNAL
.000
.000
.000
.000
100.
.000
.000
.000
100.
.000
.000
.000
100.
100.
.000
.000
100.
.000
.000
.000
.000
.000
100.
.000
100.
.000
too.
.000
100.
100.
.000
.000
100.
.000
.000
100.
100.
.000
.000
100.
100.
X OF ALL PATHWAYS
.000
.000
.000
.000
4.868E-10
.000 .000 71.2 .000 .000
.000 .000 .000 .000 100.
.000 .000 .000 .000 .000
16.2 1.231E-02 9.339E-03 .000 .490
.000
100.
.000
99.2
.000
.000
1.126E-02 1.15
.000
.000
19.2
6.53
.000
.000
99.4
1 .089E-02
- INTERNAL
8.542E-19 2.89 .000 3.401E-17 .000 5.993E-17 5.300E-21 9.425E-15 6.877E-04 .000
.000 6.268E-03 .000 1.209E-17 2.316E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 3.446E-IS 5.J45E-I7
.190 8.781E-16 1.512E-12 4.341E-10 1.244E-27 2.355E-09 9.108E-13 1.891E-10 3.135E-20 2.368E-23
3.08
* OF ALL PATHUAYS
100.
100.
.000
28.8
.000
i no
100.
nnn
100.
.000
.803
.000
100.
.0'
.000
.000
-------�
.000 .000 .000 .000 .000
100. 83.8 100. 100. 100.
100.
.000 .000 .000 80.8 .580
99.5 100. 98.9 93.5 100.
- EXTERNAL
.000
.000
.000
.000
1.501E-11
.000 .000 8.418E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.697E-16 1.862E-16 4.05SE-14 .000
.000 .000 1.164E-12 .000 .000
2.068E-18 1.669E-37 .000 .000 .000
.000 .000 .000 8.162E-16 9.170E-J'
1.160E-11 1.026E-16 2.I95E-12 2.190E-21 2.580E-2,
% OF ALL PATHWAYS
.000
.000
.000
.000
4.868E-10
.000 .000 71.2 .000
.000 .000 .000 .000
.000 .000 .000 .000
16.2 1.231E-02 9.339E-03 .000
.000 .000 99.2 .000 .000
100.' 100. .000 .000 .000
.000 .000 .000 19.2 99.A
.A90 1.126E-02 1.15 6.53 1.089E-0
TOTAL OVER ALL PATHWAYS
8.542E-19 2.89 .000 1.182E-16 .000 5.993E-17 5.300E-21 1.173E-12 6.877E-04 .000
.000 6.268E-03 .000 1.209E-17 2.316E-20 2.068E-18 1.669E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 4.262E-15 9.223E-1
.190 1.048E-15 1.512E-12 4.342E-10 1.244E-27 2.367E-09 9.109E-13 1.913E-10 3.3S4E-20 2.368E-2
3.08
FOR ORGAN: THYROID
NUCLIDES
PATHWAYS
H-3
SB-125
PB-212
NP-23 7
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PB-214
PU-238
NI-59
CS-135
RA-226
PU-239
C0-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA-228
PU-242
NB-94
TL-208
TII-232
AM-243
TC-99
PO-210
U-234
CM-24J
RU-106
PB-210
U-235
CM-244
- INGESTION
1.078E-18 .364 .000 3.654E-17 .000 5.993E-17 1.9UE-23 2.494E-16 1.777E-02 .000
.000 86.2 .000 1.209E-17 3.B55E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.04 7E-18 1.I05E-
2.375E-04 1.859E-18 4.426E-16 1.595E-14 3.383E-31 3.209E-13 3.339E-17 2.583E-14 4.135E-24 3.U4E-
86.6
X OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
89.1
.000
.000
.000
23.5
100.
100.
.000
2.96
.000
100.
.000
20.3
100.
.000
.000
11 .0
100.
.000
.000
2.96
100.
.000
.000
11.0
100.
.000
90.8
10.6
.000
.000
85.5
10.6
-------�
% OF ALL PATHWAYS 100. 100. .000 52.7 .000 100. 100. 1.B86E-02 100. .000
.000 100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 . .000 .000 .000 1.09 1.328E-03
100. 1.43 21.9 2.79 20.3 2.49 2.77 1.24 .204 9.92
100.
- INHALATION
.000 .000 .000 4.737E-27 .000
.000 .000 .000 I.188E-32 .000 .000
.000 .000 .000 .000 .000 .000
.000 2.209E-19 1.441E-15 5.234E-13 1.330E-30 2.608E-12
3.344E-12
7.833E-27 7.010E-33 2.502E-20
.000 .000
.000 .000
1.096E-15 2.099E-13
.000 .000
.000 .000
7.109E-19 1.876E-20
3.487E-2J 2.628E-26
% OF INTERNAL
.000
.000
.000
.000
3.864E-12
.000
.000
.000
10,9
.000
.000
.000
76.5
1.296E-08
9.823E-14
.000
97.0
.000
.000
.000
79.7
1.307E-08 3.668E-08 1.003E-02
.000
.000
89.0
.000
.000
97.0
.000
.000
89.0
.000
.000
9.16
89.4
.000
.000
14.5
89.4
% OF ALL PATHWAYS
.000
.000
.000
.000
3.864E-12
.000
.000
.000
.175
.000
.000
.000
71.3
6.831E-09
9.823E-14
.000
91.6
.000
.000
.000
79.7
1.307E-08 3.668E-08
.000
.000
20.2
.000
.000
90.9
1.8ll2E-0c> .000
.000 .000
.000 .110
10.0 1.7,!
.000
.000
2.255E-04
83.7
- AIR IMMERSION
.000 .000 .000 9.958E-33 .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 9.941E-25 6.273E-24 3.744E-21 .000
2.850E-18
.000
.000
.000
.000
.000
.000
3.078E-22
.000
.000
.000
.000
5 .448E-24
.000
.000
1 .224E-22
2.343E-18 3.845E-24 5.024E-19 3.S26E-28 7.011E-3S
% OF EXTERNAL
.000
.000
.000
.000
2.160E-05
.000 .000 3.036E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
7.800E-07 4.574E-06 1.160E-05 .000
.000
.000
.000
.000
.000
.000
2.328E-08
.000
.000
.000
.000
8.524E-07
.000
.000
1.4 72E-06
2.348E-05 5.069E-06 2.710E-05 1.773E-05 3.504E-06
% OF ALL PATHWAYS
.000
.000
.000
.000
3.292E-18
.000 .000 1.436E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
7.675E-07 3.104E-07 6.551E-07 .000
.000
.000
.000
.000
.000
.000
2.328E-08
.000
.000
.000 .000
.000 .000
8.422E-07 1.472E-06
1.815E-05 3.189E-07 2.404E-05 1.7 39E-05 2.233E-07
-------�
- GROUND SURFACE
.000
.000
.000
.000
1.319E-11
.000 .000 3.280E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.275E-16 1.37IE-16 3.227E-14
.000
.000 .000 I.322E-12 .000 .000
2.295E-18 1.882E-37 .000 .000 .000
.000 .000 .000 6.391E-16 8.318E-1"
9.977E-12 ?.586E-17 1.854E-12 1.989E-21 2.001E-2
% OF EXTERNAL
.000
.000
.000
.000
100.
.000
.000
.000
100.
.000
.000
.000
100.
100.
.000
.000
100.
.000
.000
.000
.000
.000
100.
.000
100.
.000
100.
.000
100.
100.
.000
.000
100.
.000
.000
100.
100.
.000
.000
100.
100.
% OF ALL PATHWAYS
.000
.000
.000
.000
1.524E-11
.000
.000
.000
98.4
.000
.000
.000
6.79
47.3
.000
.000
5.65
.000
.000
.000
.000
.000
100.
.000
77.3
.000
100.
.000
6.29
100.
.000
.000
88. 7
.000
.000
98.8
98.1
.000
.000
100.
6.37
INTERNAL
1.078E-18 .364 .000 3.654E-17 .000 5.993E-17 1.911E-2J 2.494E-16 1.777E-02 .000
.000 86.2 .000 1.209E-17 3.85SE-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.758E-18 1.292E-1
2.37SE-04 2.085E-18 1.884E-15 5.393E-13 1.668E-30 2.929E-12 1.130E-15 2.357E-13 3.900E-23 2.939E-2'
86.6
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 52.7 .000 100. 100. 1.886E-02 100. .000
100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 1.20 1.553E-0
1.61 93.2 y4.4 100. 22.7 93.7 1 1.3 1.92 93.6
- EXTERNAL
.000
.000
.000
.000
1 .319E-11
.000 .000 3.280E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.275E-16 1.371E-16 3.227E-14 .000
.000 .000 1.322E-12 .000 .000
2.295E-18 1.882E-37 .000 .000 .000
.000 .000 .000 6.30 IE-lb 8.3I8E-1
9.977E-12 7.586E-17 1.8S4E-12 ].llU'iK-2l 2.001E-2
% OF ALL PATHWAYS
.000
.000
.000
.000
1. 524E-11
.000
.000
.000
98.4
.000
.000
.000
6.79
47.3
.000
.nwO
5.65
.000
.000
.000
.000
.000
100.
.000
77.3
.000
100.
.OOM
6.29
100.
.000
. Q-KF-17
nnn
s OCHF-17 t | i I
-------�
.000 86.2 .000 1.209E-17 3.855E-20 2.295E-18 1.882E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 6.469E-16 8.318E-1S
2.375E-04 1.29SE-16 2.021E-15 S.716E-13 1.668E-30 1.291E-II 1.206E-15 2.090E-12 2.028E-21 3.139E-26
86.6
FOR ORGAN) BREAST
NUCLIDES
PATHWAYS
H-3
SB-125
PB-2I2
NP-237
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PB-214
PU-238
NI-59
CS-135
RA-226
PU-239
CO-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA-228
PU-242
NB-94
TL-208
TH-232
AM-243
TC-99
P0-210
U-234
CM-243
RU-106
PB-210
U-235
CM-244
- INGESTION
0
1
00
1.08IE-18 .786 .000 3.584E-17 .000 5.993E-17 1.911E-23 6.227E-16 6.877E-04 .000
.000 1.187E-02 .000 1.209E-17 3.641E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.053E-18 1.356E-19
2.379E-04 I.900E-18 4.426E-16 1.595E-14 3.384E-31 3.210E-13 3.339E-17 2.590E-14 4.144E-24 3.I14E-27
.799
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
88.6
.000
.000
.000
23.5
100.
100.
.000
2.96
.000
100.
.000
20.3
100.
.000
.000
11.0
100.
.000
.000
2.96
100.
.000
.000
11.0
100.
.000
90.7
10.6
.000
.000
84.6
10.6
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 .694 .000 100. 100. 4.958E-02
100. .000 100. 100. .000 .000 .000
.000 .000 .000 .000 .000 .000 .000
7.880E-02 7.93 1.62 20.3 1.58 1.08 .919
100.
.000
7.106E-02
.163
.000
.000
I.392E-03
4.00
- INHALATION
.000
.000
.000
.000
3.346E-12
.000 .000 4.694E-27 .000 7.B33E-27 7.010E-33 2.513E-20 .000 .000
.000 .000 1.188E-32 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 7.218E-19 2.464E-20
2.452E-19 1.441E-15 5.234E-13 1.331E-30 2.609E-12 1.096E-15 2.104E-13 3.491E-23 2.628E-20
% OF INTERNAL
.000 .000 .000 1.310E-08 .000
.000 .000 .000 9.823E-14 .000
.000 .000 .000 .000 .000
.000 11.4 76.5 97.0 79.7
1.307E-08 3.668E-08 4.036E-01 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 9.28 15.4
89.0 97.0 89.0 89.4 89.4
-------�
% OF ALL PATHWAYS .000 .000 .000 9.087E-11
.000 .000 .000 9.823E-14
.000 .000 .000 .000
.000 1.017E-02 25.8 53.1
4.187E-10
- AIR IMMERSION
.000
.000
.000
.000
3.761E-I8
.000 .000
.000 .000
.000 .000
4.083E-24 6.629E-23
1.560E-30
.000
.000
1.10SE-20
% OF EXTERNAL
.000
.000
.000
.000
1.729E-05
.000 .000 3.041E-I4
.000 .000 .000
.000 .000 .000
1.695E-07 1.793E-06 2.478E-06
% OF ALL PATHWAYS
.000 .000 .000 3.020E-L4
.000 .000 .000 .000
.000 .000 .000 .000
.000 1.694E-07 1.188E-06 1.121E-06
4.707E-16
- GROUND SURFACE .000 .000 .000 S.130E-15
.000 .000 .000 .000
.000 .000 .000 .000
.000 2.409E-15 3.696E-15 4.460E-13
2.176E-11
% OF EXTERNAL .000 .000 .000 100.
.000 .000 .000 .000
.000 .000 .000 .000
.000 100. 100. too.
100.
% OF ALL PATHUAYS .000 .000 .000 99.3
.000 .000 .000 .000
.000 .000 .000 .000
.000 99.9 66.2 45.3
2.723E-09
.000 1.307E-08 3.668E-08
.000 .000 .000
.000 .000 .000
79.7 12.8 35.6
.000 .000 .000
.000 .000 .000
.000 .000 .000
.000 3.132E-18 3.539E-23
.000 .000 .000
.000 .000 .000
.000 .000 .000
.000 1.796E-05 1.811E-06
.000 .000 .000
.000 .000 .000
.000 .000 .000
.000 1.537E-05 1.148E-06
.000 .000 .000
.000 2.219E-L8 1.815E-37
.000 .000 .000
.000 1.7UE-1 1 1 . 954E- I 5
.000 .000 .000
.000 100. 100.
.000 .000 .000
.000 100. 100.
.000 .000 .000
.000 100. 100.
.000 .000 .000
.000 85.6 63.4
2.001E-06 .000 .000
.000 .000 .000
.000 7.271E-03 2.528E-04
7.47 1.38 13.8
2.915E-22 .000 .000
.000 .000 .000
.000 1.8J7E-23 1 . 373E-2;
6.174E-19 3.989E-28 8.920E-3'
2.322E-08 .000 .000
.000 .000 .000
.000 1.8S2E-07 1.409E-0i
2.391E-05 1.597E-OS I.842E-0.
2.321E-08 .000 .000
.000 .000 .000
.000 1.850E-07 1.409E-0
2.190E-05 1.573E-05 1.146E-0
1.255E-12 .000 .000
.000 .000 .000
.000 9.919E-15 9.746E-1
2.583E-1 2 2.49BE-21 4.842E-2
100. .01)0 .000
.OOU .000 .000
.000 100. 100.
100. 100. 100.
100. .000 .000
.000 .000 .000
.000 9'). <) 100.
91.6 SJH.S 62.2
-------�
- INTERNAL
1.081E-18 .786 .000 3.584E-17 .000 5.993E-17 1.911E-23 6.227E-16 6.877E-04 .000
.000 1.187E-02 .000 1.209E-17 3.641E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.775E-I8 1.603E-
2.379E-04 2.145E-18 1.884E-15 5.393E-13 1.669E-30 2.930E-12 1.130E-15 2.363E-13 3.906E-23 2.939E-
.799
X OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 .694 .000 100. 100.
100. .000 100. 100. .000 .000
.000 .000 .000 .000 .000 .000
8.897E-02 33.6 54.7 100. 14.4 36.6
4.958E-02 100. .000
.000 .000 .000
.000 7.833E-02 1.645E-
8.38 1.54 37.8
- EXTERNAL
X OF ALL PATHWAYS
.000
.000
.000
.000
2.176E-1I
.000
.000
.000
.000
2.723E-09
.000 .000 5.130E-15 .000
.000 .000 .000 .000
.000 .000 .000 .000
2.409E-15 3.696E-IS 4.460E-13 .000
.000
.000
.000
99.9
.000
.000
.000
66.2
99.3
.000
.000
45.3
.000
.000
.000
.000
.000 .000 1.255E-12 .000 .000
2.219E-18 1.815E-3 7 .000 .000 .000
.000 .000 .000 9.919E-15 9.746E-
1.744E-11 1.9S4E-15 2.583E-12 2.498E-21 4.842E-
.000
100.
.000
85.6
.000
100.
.000
63.4
100.
.000
.000
91.6
.000
.000
99.9
98. 5
.000
.000
100.
62.2
TOTAL OVER ALL PATHWAYS
1.08IE-18 .786 .000 5.165E-1S .000 5.993E-17 1.911E-23 1.256E-12 6.877E-04 .000
.000 1.187E-02 .000 1.209E-17 3.641E-20 2.219E-18 1.815E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 9.927E-1S 9.746E-!
2.379E-04 2.411E—15 5.580E-15 9.854E-13 1.669E-30 2.037E-11 3.083E-1S 2.819E-12 2.537E-21 7.701E-i
. 799
FOR ORCAN: *PUL*
NUCLIDES H-3 C-14 FE-55 NI-59 C0-60 NI-63 SR-90 NB-lK Tr-9'i RU-lOo
SB-125 1-129 CS-L34 CS-135 CS-137 BA-137M EI1-1S4 TL-20U FO-21II PB-210
PB-212 BI-214 PB-214 RA-226 TH-228 AC-228 RA-228 TII-232 U-234 U-235
NP-237 U-238 PU-238 PU-239 PU-241 AM-241 PU-242 AN-243 CM-243 CM-244
PATHWAYS
TOTAL
- INGESTION
1.089E-18 .366 .000
.000 5.789E-03 .000
.000 .000 .000
3.689E-17 .000 5.993E-17 I.91IE-2J 2.92IE-I6 6.fl7 7L"-iJ4 .000
1.209E-17 3.367E-20 .000 .000 .0110 .000 .000
.000 .000 .000 .000 .Ol)4i 7. IVi < 10 1.135E-1
-------�
2.382E-04 1.864E-18 4.427E-16 1.595E-14 3.386E-31 3.212E-13 3.339E-I7 2.598E-14 4.148E-24 3.U4E-27
.373
% OP INTERNAL
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
.000
.000
100.
100.
100.
100.
.000
1.058E-02
100.
100.
.000
1.052E-02
.000
.000
.000
.140
.000
.000
.000
.140
100. .000
100. 100.
.000 .000
1.7S6E-02 1.93
41.6 .000
100. 100.
.000 .000
1.756E-02 1.93
100.
.000
.000
1.48
100.
.000
.000
1.1S
100. 99.8
.000 .000
.000 .000
1.762E-02 1.56
100, .000
.000 .000
1.041E-02 1.130E-02
.828 .628
100.
.000
.000
1. 762E-02
2.781E-02
.000
.000
.901
100.
.000
1.034E-02
.210
.000
.000
. 582E-03
.626
- INHALATION
0
1
00
% OF INTERNAL
.000 .000 .000 8.019E-26 .000
.000 .000 .000 1 .-469E-32 .000
.000 .000 .000 .000 .000
.000 1.763E-14 3.156E-13 9.079E-11 1.723E-29 2.132E-11 1.89SE-13 1.641E-12 4.967E-22 4.930E-25
1.143E-10
1.452E-25 1.112E-32 6.404E-19 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 6.767E-14 1.004E-15
.000
.000
.000
.000
3.06 7E-08
.000 .000 2.174E-07 .000
.000 .000 1.215E-13 .000
.000 .000 .000 .000
100. 99.9 100. 98.1
2.422E-07 5.821E-08 .219 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 100. 100.
98.5 100. 98.4 99.2 99.4
% OF ALL PATHWAYS
.000
.000
.000
.000
3.067E-08
.000 .000 9.041E-08 .000
.000 .000 1.215E-13 .000
.000 .000 .000 .000
99.4 99.8 100. 98.1
2.422E-07 5.821E-08 6.097E-05 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 99.3 14.0
76.3 100. 56.9 25.2 99.1
- AIR IMMERSION
.000 .000 .000
.000 .000 .000
.000 .000 .000
.000 6.599E-25 4.320E-24 2.677E-21 .000
1.810E-18
1.576E-32 .000
.000 .000
.000 .000
.000 .000 2.440E-22 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 J.687E-24 9.103E-2
1.475E-18 2.611E-24 3.318E-19 2.604E-28 4.911E-3'
% OF EXTERNAL
.000 .000 .000
.000 .000 .000
.000 .000 .000
nnn ft 7IRF-07 I flqqF-nfi
3.041E-14 .000
.000 .000
.000 .000
i.084E-05 .nnn
.000 .000 2.323E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 7.O59E-07 1.476E-0I
2.337E-05 4.260E-06 2.726E-OS 1.77IF-OS 3.147E-0*
-------�
2.102E-05
% OF ALL PATHWAYS .000 .000 .000 1.777E-14 .000 .000 .000 2.323E-08 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 .000 .000
.000 . 000 . 000 . 000 . 000 . 000 . 000 . 000 5.409E-09 1.269E-06
.000 3.723E-09 1.367E-09 2.947E-09 .000 5.276E-06 1.378E-09 1.151E-05 1.321E-05 9.B67E-09
4.655E-16
- GROUND SURFACE
.000
.000
.000
.000
8.612E-12
.000 .000 5.182E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
9.823E-17 1.108E-16 2.469E-14 .000
.000 .000 1.050E-12 .000 .000
1.828E-1B 1.488E-37 .000 .000 .000
.000 .000 .000 4.814E-16 6.168E-15
6.313E-12 6.130E-17 1.2I7E-12 1.470E-21 1.560E-27
% OF EXTERNAL
0
1
00
00
% OF ALL PATHWAYS
.000
.000
.000
.000
100.
.000
.000
.000
.000
2.310E-09
.000
.000
.000
100.
.000
.000
.000
.55 4
.000
.000
.000
100.
100.
.000
.000
100.
.000
.000
.000
.000
.000 58.4 .000
.000 .000 .000
.000 .000 .000
3.505E-02 2.718E-02 .000
.000
100.
.000
100.
.000
100.
.000
22.6
.000
100.
.000
100.
100.
.000
.000
100.
.000 100.
100. .000
.000 .000
3.234E-02 42.2
.000
.000
100.
100.
.000
.000
.706
74 .6
.000
.000
100.
100.
.000
.000
86.0
.314
- INTERNAL
1.089E-18 .366 .000 3.089E-17 .000 5.993E-17 1.911E-23 2.927E-16 6.877E-04 .000
.000 5.789E-03 .000 1.209E-17 3.367E-20 .000 .000 .000 .000 .000
.000 . 000 . 000 . 000 . 000 . 000 . 000 . 000 6.768E-14 1.004E-15
2.382E-04 1.763E-I4 3.160E-13 9.081E-11 1.757E-29 2.165E-U 1.895E-13 1.666E-12 5.00UE-22 4.961E-25
.373
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 41.6 .000 100. 100. 2.787E-02 100. .000
100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 99.3 14.0
99.4 100. 100. 100. 77.4 100. 57.8 25.4 99.7
- EXTERNAL .000 .000 .000 5.182E-17 .000 .000 .000 1.050E-12 .000 .000
.000 .000 .000 .000 .000 1.828E-18 1.488E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 4.814E-16 6.168E-15
"" ~ " ""-i' 000 * TI1F-I2 6.I10E-I7 I.217E-I2 1.4" >-21 1.560E-27
-------�
8.612E-12
% OF ALL PATHWAYS
.000
.000
.000
.000
2.310E-09
.000 .000 58. A .000 .000
.000 .000 .000 .000 100.
.000 .000 .000 .000 .000
.554 3.505E-02 2.718E-02 .000 22.6
.000 100. .000 .000
100. .000 .000 .000
.000 .000 .706 86.0
3.234E-02 42.2 74.6 .314
TOTAL OVER ALL PATHWAYS
1.089E-18 .366 .000 8.871E-17 .000 5.993E-17 1.911E-23
.000 5.789E-03 .000 1.209E-17 3.367E-20 1.828E-18 1.488E-37
.000 .000 .000 .000 .000 .000 .000
2.382E-04 1.773E-14 3.161E-13 9.083E-U 1.757E-29 2.796E-11 1.896E-13
.373
1.050E-12 6.87 7E-04 .000
.000 .000 .000
.000 6.816E-14 7.172E-1
2.884E-12 1.971E-21 4.977E-2
FOR ORGAN: S WALL
NUCLIDES H-3 C-14 FE-55 NI-59 C0-60 NI-63 SR-90 NB-94 TC-99 RU-106
SB-125 1-129 CS-134 CS-135 CS-137 BA-137M EU-154 TL-208 P0-210 PB-210
PB-212 BI-214 PB-214 RA-226 TH-228 AC-228 RA-228 TH-232 U-234 U-235
NP-237 U-238 PU-238 PU-239 PU-241 AM-241 PU-242 AM-243 CM-243 CM-244
TOTAL
PATHWAYS
- INGESTION
i.406E-18 .496 .000 2.720E-17 .000 4.355E-17 1.039E-22 1.331E-15 3.733E-02 .000
.000 5.771E-03 .000 6.536E-18 2.707E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 8.238E-17 1.333E-1
2.452E-04 2.140E-17 4.608E-16 2.155E-14 3.395E-31 3.320E-13 4.514E-17 2.669E-14 4.446E-24 3.388E-2
.539
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
98.2
.000
.000
.000
24.3
100.
100.
.000
3.97
.000
100.
.000
20.4
100.
.000
.000
11.3
100.
.000
.000
3.97
100.
.000
.000
11.3
100.
.000
98.9
11.3
.000
.000
97.0
11.5
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
26 .6
.000
.000
.000
23.7
67.1
100.
.000
3.85
.000
100.
.000
20.4
100.
.000
.000
4.12
100.
.000
.000
3.87
.137
.000
.000
2. 10
100.
.000
21.1
. 327
.000
.000
2.389E-0
11.2
- INHALATION
.000 .000 .000 2.955E-27 .000
.000 .000 .000 6.04 4E-33 .000
4.243E-27 3.629E-3J 3.5SIK-20 .000 .000
.ooo .nun .ooo .noo .ooo
-------�
% OF INTERNAL
% OF ALL PATHWAYS
.000
.000
.000
.000
.000
.000
.000
.000
8.838E-19
.000
3.948E-I9
1.435E-15
5.212E-13
1.324E-30
2.590E-12
1.091E-1S
2.093E-13
3.473E-23
3.331E-12
.000
.000
.000
1.086E-08
.000
9.742E-09
3.494E-09
2.66 7E-03
.000
.000
.000
.000
9.247E-14
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
1.06
.000
1.81
75.7
96.0
79.6
88.7
96.0
88.7
88. 7
6. 181E-10
.000
.000
.000
7.289E-09
.000
9.742E-09
3.494E-09
3.645E-06
.000
.000
.000
.000
9.247E-14
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.226
.000
.492
73.7
93.2
79.6
32.2
93.6
16.5
2.55
6.181E-10
.000
.000
2.99
88.5
.000
.000
7.369E-04
86.5
- AIR IMMERSION
.000
.000
.000
.000
1.500E-18
.000 .000 4.069E-33 .000
.000 .000 .000 .000
.000 .000 .000 .000
5.234E-25 2.879E-24 2.292E-2! .000
.000 .000 2.265E-22 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 3.026E-24 8.198E-2.'
1.215E-18 1.801E-24 2.824E-19 2.346E-28 3.018E-3'
X OF EXTERNAL
.000
.000
.000
.000
2.093E-05
.000 .000 3.050E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
8.943E-07 5.601E-06 1.378E-05 .000
.000 .000 2.328E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 9.855E-07 1.470E-0<
2.364E-05 6.169E-06 2.733E-05 1.775E-05 4.267E-0<
% OF ALL PATHWAYS
.000
.000
.000
.000
2.783E-I6
.000 .000 1.004E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
6.516E-07 1.478E-07 4.097E-07 .000
.000 .000 2.324E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 7.753E-07 I.469E-0'
1.506E-05 1.54 5E-07 2.225E-05 1.724E-05 9.975E-0
- GROUND SURFACE
.000
.000
.000
.000
7.I66E-12
.000 .000 I.334E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
5.8S3E-17 5.UOE-17 1.663E-14 .000
.000 .000 9.729E-13 .000 .000
1.690E-18 1.374E-37 .000 .000 .000
.000 .000 .000 3.071E-16 5.578E-]
5.138E-12 2.919E-17 1.033E-12 I.J2IE-21 7.072E-2
% OF EXTERNAL
.000 .000 .000 100.
.000 .000 .000 .000
nnn .ooo .ooo .ooo
.000
.000
.000
.000 .000 100. .000 .000
100. 100. .000 .OOO .000
.000 .000 .000 1'" 100.
-------�
.000 100. 100. 100. .000 100. 100. 100. 100. 100.
100.
% OF ALL PATHWAYS .000 .000 .000 32.9 .000 .000 .000 99.9 .000 .000
.000 .000 .000 .000 .000 100. 100. .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 78.7 LOO.
.000 72.9 2.64 2.97 .000 63.7 2.50 81.4 97.1 2.34
1.330E-09
- INTERNAL
1.406E-18 .496
.000 5.771E-03
.000 .000
2.452E-04 2.179E-17
.539
.000 2.720E-17 .000
.000 6.536E-18 2.707E-20
.000 .000 .000
4.355E-17 1.039E-22 1.331E-15 3.733E-02
.000
.000
.000
.000
.000
.000
.000
.000
.000
8.326E-17 1.374E-18
1.896E-1S 5.428E-13 1.664E-30 2.930E-12 1.136E-15 2.360E-13 3.918E-23 2.954E-26
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
27.1
.000
.000
.000
97.4
67.1
100.
.000
97.0
.000
100.
.000
100.
100.
.000
.000
36.3
100.
.000
.000
97.5
.137
.000
.000
18.6
100.
.000
21.3
2.88
.000
.000
2.463E-02
97.7
- EXTERNAL
.000
.000
.000
.000
7.166E-12
.000 .000 1.334E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
5.853E-17 5.140E-17 1.663E-14 .000
.000 .000 9.729E-13
1.690E-18 1.3 74E-3 7 .000
.000 .000 .000
5.138E-12 2.919E-17 1.033E-12
.000 .000
.000 .000
3.071E-16 5.578E-15
1.321E-21 7.072E-28
% OF ALL PATHWAYS
.000
.000
.000
.000
1 .330E-09
.000
.000
.000
72.9
.000
.000
.000
2.64
32.9
.000
.000
2.97
.000
.000
.000
.000
.000
100.
.000
63.7
.000
100.
.000
2.50
99.9
.000
.000
81.4
.000
.000
78. 7
97. 1
.000
.000
100.
2.34
TOTAL OVER ALL PATHWAYS
1.406E-18 .496 .000 4.054E-17 .000 4.355E-17 1.039E-22 9.74JE-13 3.733E-02
.000 5.7 71E-03 .000 6.536E-18 2.707E-20 1.690E-18 1.374E-37 .000
.000 .000 .000 .000 .000 .000 .000 .000
2.452E-04 8.032E-17 1 .948E-15 5.594E-13 1.664E-30 8.068E-12 1.166E-15 1.269E-12 1.J6IE-21 3.025E-2(
.539
000
.000 .000
3 . 904E-16 5.S79E-1*)
FOR ORGAN: INT WALL
NIirr.TDFS H-3 C-14 FE-55 NI-59 C0-60 NI-63 SR-90 NB-^4 TC-99 RIJ-106
-------�
PATHWAYS
PB-212 BI-214 PB-214 RA-226 TH-228 AC-228 RA-228 TH-232 U-234 U-235
HP-237 U-23B PU-238 ' PU-239 PU-241 AM-241 PU-242 AM-243 CM-243 CM-244
TOTAL
- INGESTION
1.546E-18 .504 .000 1.472E-16 .000 .3.387E-I6 S.1S6E-21 1.302E-14 6.552E-03 .000
.000 6.541E-03 .000 6.6S7E-18 2.222E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.815E-1S 3.113E-17
4.544E-04 4.908E-16 9.247E-16 1.529E-13 4.009E-31 6.177E-13 3.197E-16 4.988E-14 1.185E-23 I.008E-26
.517
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
99.3
.000
.000
.000
38.9
ipo.
100.
.000
22.5
.000
100.
.000
23.2
100.
.000
.000
19.2
100.
.000
.000
22.5
100.
.000
.000
19.2
100.
.000
99.7
25.3
.000
.000
99.4
27.6
% OF ALL PATHWAYS
0
1
to
to
100.
.000
.000
100.
100.
100.
100.
.000
90.3
.000
.000
.000
38.3
93.2
100.
.000
22.0
.000
100.
.000
23.2
100.
.000
.000
7.76
10 0.
.000
.000
22.2
1.32
.000
.000
4.02
100.
.000
86.9
.878
.000
.000
.562
27.3
- INHALATION
1.106E-26 7.580E-33
.000 .000
.000 .000
9.703E-21
.000
.000
.000
.000
.000
.000
.000 .000 .000 5.776E-27 .000
.000 .000 .000 6.086E-33 .000
.000 .000 .000 .000 .000
.000 3.633E-18 1.454E-15 5.266E-13 1.327E-30 2.608E-12 1.102E-15 2.103E-13 3.499E-23 2.639E-26
3.34 7E-12
4.879E-18 2.017E-19
% OF INTERNAL
.000
.000
.000
.000
6.471E-10
.000 .000 3.924E-09 .000
.000 .000 9.141E-14 .000
.000 .000 .000 .000
.735 61.1 77.5 76.8
3.264E-09 1.470E-10 7.451E-05 .000 .000
.000 .000 .000 .000 .000
.000 .000 .GOO .26B .644
80.8 77.5 80.8 74.7 72.4
% OF ALL PATHWAYS
.000
.000
.000
.000
6.47 IE-10
.000 .000 3.655E-09 .000
.000 .000 9.14IE-14 .000
.000 .000 .000 .000
.668 60.2 75.8 76.8
3.264E-09 1.470E-10 9.848E-07 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 .2.14 3.639E-03
32.8 76.4 17.0 2.5
-------�
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 4.810E-25 2.450E-24 2.232E-21 .000
1.390E-18
.000 .000 .000 .000 .000
.000 .000 .000 2.861E-24 8.124E-23
1.120E-18 1.5S4E-24 2.672E-19 2.316E--28 2.439E-35
X OF EXTERNAL
.000
.000
.000
.000
2.072E-05
.000 .000
.000 .000
.000 .000
9.794E-07 6.779E-06
3.056E-14 .000 .000 .000 2.327E-08 .000 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 1.064E-06 1.474E-0t
1.507E-05 .000 2.365E-05 7.444E-06 2.725E-05 1.778E-05 5.339E-06
X OF ALL PATHWAYS
.000 .000 .000 2.093E-15
.000 .000 .000 .000
.000 .000 .000 .000
.000 8.849E-08 1.014E-07 3.215E-07
2.687E-16
.000 .000 .000 2.296E-08 .000 .000
.000 .000 .000 .000 .000 .000
.000 .000 .000 .000 1.370E-07 1.466E-Of
.000 1.407E-05 1.077E-07 2.154E-05 1.716E-OS 6.602E-0I
- GROUND SURFACE .000 .000 .000
O .000 .000 .000
u> .000 .000 .000
w .000 4.911E-17 3.615E-17
6.709E-12
% OF EXTERNAL .000 .000 .000
.000 .000 .000
.000 .000 .000
.000 100. 100.
100.
% OF ALL PATHWAYS .000 .000 .000
.000 .000 .000
.000 .000 .000
.000 9.04 1.50
I.297E-09
1.082E-17 .000 .000 .000 9.722E-13 .OOO .000
.000 .000 1.682E-18 1.382E-37 .000 .000 .000
.000 .000 .000 .000 .000 2.689E-16 5.512E-1'
1.481E-14 .000 4.736E-12 2.08BE-17 9.804E-13 1.303E-21 4.568E-2!
100. .000 .000 .000 100. .000 .000
.000 .000 100. 100. .000 .000 .000
.000 .000 .000 .000 .000 100. 100.
100. .000 100. 100. 100. 100. 100.
6.85 .000 .000 .000 98.7 .000 .000
.000 .000 100. 100. .000 .000 .000
.000 .000 .000 .000 .000 12.9 99.4
2.13 .000 59.5 1.45 79.0 96.5 1.24
- INTERNAL
1 .546E-18 .504 .000 1.472E-16 .000 3.387E-16 5.158E-21 1.302E-14 6.552E-03 .000
.000 6.541E-03 .000 6.657E-18 2.222E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.820E-15 3.133E-1
4.544E-04 4.944E-16 2.379E-15 6.795E-13 1.728E-30 3.225E-12 1.422E-15 2.602E-1J 4.684E-23 3.648E-2<
.517
% OF ALL PATHWAYS
100.
nnn
100.
i n n
.000
nnn
93.2
< nn
.000
100.
nnn
100.
nnn
1 .32
100.
fum
.000
nnn
-------�
.000 .000 .000 .000 .000 .000 .000 .000 87.1 .565
100. 91.0 98.5 97.9 100. 40.5 98.6 21.0 3.47 98.8
100.
- EXTERNAL
.000
.000
.000
.000
6.709E-12
.000 .000 1.062E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
4.911E-17 3.615E-17 1.481E-14 .000
.000 .000 9.722E-13 .000 .000
1.682E-18 1.382E-37 .000 .000 .000
.000 .000 .000 2.689E-16 5.512E-15
4.736E-12 2.088E-17 9.804E-13 1.303E-21 4.568E-28
% OF ALL PATHWAYS
.000
.000
.000
.000
1.297E-09
.000
.000
.000
9.04
.000
.000
.000
1.50
6.85
.000
.000
2.13
.000
.000
.000
.000
.000
100.
.000
59.5
.000
100.
.000
1.45
98. 7
.000
.000
79.0
.000
.000
12.9
96.5
.000
.000
99.4
1.24
TOTAL OVER ALL PATHWAYS
1.546E-18 .504 .000 1.580E-16 .000 3.387E-16 5.158E-21 9.8S2E-13 6.552E-03 .000
.000 6.541E-03 .000 6.657E-18 2.222E-20 1.682E-18 1.382E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.089E-15 5.543E-15
4.544E-04 5.435E-16 2.415E-15 6.943E-13 1.728E-30 7.961E-12 1.443E-15 1.241E-12 1.349E-21 3.694E-26
.517
FOR ORGAN:
NUCLIDES
PATHWAYS
LIVER
H-3
SB-125
PB-212
NP—237
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PB-214
PU-238
HI-59
CS-135
RA-226
PU-239
CO-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA-228
PU-242
NB-94
TL-208
TH-232
AM-243
TC-99
P0-210
U-234
CM-24 3
RU-106
PB-210
U-235
CM-244
- INGESTION
1.078E-18 .504 .000 3.550E-17 .000 5.993E-17 2.049E-23 4.908E-16 9.027E-04 .000
.000 4.786E-03 .000 1.209E-17 3.632E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.049E-I8 1.091E-1'
3.766E-02 1.60IE-I8 7.293E-14 2.548E-12 5.015E-29 5.161E-11 5.320E-X5 4.U2E-12 7.191E-22 5.643E-2'
.547
% OF INTERNAL
100.
too.
.000
100.
.000
100.
100.
100.
100.
.000
.000
100.
.000
100.
100.
.000
.000
• OOU
.000
.000
.000
.000
.000
.000
.000
.000
.000
. 000
90.8
77.2
100.
85.3
23.3
2.91
21.2
11.0
2.91
10.9
10.6
10.6
100.
-------�
% OF ALL PATHWAYS 100. 100. .000 98.2 .000 100. 100. 4.988E-02 100. .000
.000 100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.65 1.934E-03
100. 3.35 23.3 2.91 21.2 10.9 2.91 10.6 8.86 10.6
100.
- INHALATION
.000 .000 .000 4.602E-27 .000
.000 .000 .000 1.188E-32 .000
.000 .000 .000 .000 .000
.000 2.751E-19 2.A05E-13 0.5O1E-11 1.867E-28 4.182E-10 1.775E-13 3.348E-11 6.065E-2
5.371E-10
7.833E-27 7.959E-33 4.369E-20
.000 .000 .000
.000 .000 .000
.000 .000
.000 .000
7.165E-19 3.223E-20
4.762E-24
% OF INTERNAL
.000
.000
.000
.000
9.818E-08
.000 .000 1.297E-08 .000 1.307E-08 3.88SE-08 8.902E-03 .000 .000
.000 .000 9.823E-14 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 9.23 22.8
14.7 76.7 97.1 78.8 89.0 97.1 89.1 89.4 89.4
% OF ALL PATHWAYS
.000
.000
.000
.000
9.818E-08
.000
.000
.000
.575
.000
.000
.000
76.7
1.274E-08
9.823E-14
.000
97.1
.000
.000
.000
78.8
1.307E-08 3.885E-08 4.441E-06 .000
.000
.000
88.0
.000
.000
97. 1
.000
.000
86.5
.000
.270
74. 7
.000
.000
5.709E-04
89.4
- AIR IMMERSION
.000
.000
.000
.000
1 .628E-18
.000 .000 1.943E-34 .000
.000 .000 .000 .000
.000 .000 .000 .000
5.440E-25 2.621E-24 2.26BE-21 .000
.000 .000 2.290E-22 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 3.103E-24 8.305E-23
1.325E-18 1.702E-24 3.006E-19 2.383E-28 2.418E-3'.-
% OF EXTERNAL
.000
.000
.000
.000
2.116E-05
.000 .000 3.054E-14 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.184E-06 1.097E-05 1.695E-05 .000
.000 .000 2.328E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 1.203E-06 1.471E-0(
2.369E-05 1.149E-05 2.739E-05 1.784E-0S 9.063E-0*
% OF ALL PATHWAYS
.000
.000
.000
.000
2.97 7E-16
.000 .000 5.377E-16 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.137E-06 8.362E-10 2.589E-09 .000
.000 .000 2.327E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 1.lbflE-06 1.471E-0*
2.788E-07 9.307E-10 7.769E-07 2.934E-06 4.539E-U
-------�
- GROUND SURFACE
.000
.000
.000
.000
7.694E-12
.000 .000 6.363E-19 .000
.000 .000 .000 .000
.000 .000 .000 .000
4.595E-17 2.389E-17 1.338E-14 .000
.000 .000 9.834E-13 .000 .000
1.702E-18 i.395E-37 .000 .000 .000
.000 .000 .000 2.579E-16 5.645E-15
5.593E-12 1.481E-17 1.098E-12 1.335E-21 2.668E-28
% OF EXTERNAL
.000
.000
.000
.000
100.
.000
.000
.000
100.
.000
.000
.000
100.
100.
.000
.000
100.
.000
.000
.000
.000
.000
100.
.000
100.
.000
100.
.000
100.
100.
.000
.000
100.
.000
.000
100.
100.
.000
.000
100.
100.
X OF ALL PATHWAYS
.000
.000
.000
.000
1. 406E-09
.000
.000
.000
96.1
.000
.000
.000
1.76
.000
.000
7.619E-03 1.528E-02
.000
.000
.000
.000
.000
100.
.000
1.18
.000
100.
.000
100.
.000
.000
8.098E-03 2.84
.000
.000
97.1
16.A
.000
.000
100.
5.008E-03
n
i
vo
- INTERNAL
3.550E-17 .000 5.993E-17 2.049E-23 4.908E-16 9.027E-04 .000
1.209E-17 3.632E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 7.765E-18 1.414E-19
3!766E-02 1.876E-18 3.135E-13 8.756E-11 2.368E-28 4.698E-10 1.829E-13 3.759E-11 6.784E-21 5.327E-24
547
1.078E-18 .504
.000 4.786E-03
.000 .000
.000
.000
.000
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
3.92
.000 98.2 .000 100. 100. 4.988E-02 100. .000
.000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 2.92 2.505E-03
100. 100. 100. 98.8 100. 97.2 83.6 100.
- EXTERNAL
.000 .000 .000 6.363E-19 .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 4.595E-17 2.389E-17 1.338E-14 .000
7.694E-12
.000 .000 9.834E-13 .000 .000
1.702E-18 1.395E-37 .000 .000 .000
.000 .000 .000 2.579E-16 5.645E-15
5.593E-12 1.481E-17 1.098E-12 1.335E-21 2.668E-28
% OF ALL PATHWAYS
.000
.000
.000
.000
1.406E-09
.000 .000 1.76 .000
.000 .000 .000 .000
.000 .000 .000 .000
96.1 7.619E-03 1.528E-02 .000
.000 .000 100. .000 .000
100. 100. .000 .000 .000
.000 .000 .000 97.1 100.
1.18 8.098E-03 2.84 16.4 5.008E-03
1.1 i i
C 001P-I 7 5 nt.ar.0 1 O A1QP-I1 Q
nnn
-------�
.000 4.786E-03 .000 1.209E-17 3.632E-20 1.702E-1B 1.395E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.656E-16 5.645E-1'
3.766E-02 4.782E-17 3.135E-13 8.757E-11 2.36BE-28 4.754E-10 1.829E-13 3.869E-11 8.119E-21 5.327E-2'
.517
FOR ORGAN: PANCREAS
NUCLIDES
PATHWAYS
H-3
SB-125
PB-212
NP-237
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PB-214
PU-238
NI-59
CS-135
RA-226
PU-239
C0-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA—228
PU-242
NB-94
TL-208
TH-232
AM-24 3
TC-99
P0-210
U-234
CM-24 3
RU-106
PB-210
U-235
CM-244
- INCESTION
0
1
SO
1.050E-18 .446 .000 3.6B9E-17 .000
.000 4.964E-03 .000 1.209E-17 3.369E-20
.000 .000 .000 .000 .000
2.387E-04 1.890E-18 4.426E-16 I.595E-14 3.387E-31
.452
% OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
87.9
.000
.000
.000
23.5
100.
100.
.000
2.96
.000
100.
.000
20.3
5.993E-17 1.911E-23 6.330E-16 6.877E-04 .000
.000 . 000 . 000 . 000 . 000
.000 .000 .000 7.050E-1B 1.374E-1
3.213E-13 3.339E-17 2.608E-14 4.160E-24 3.114E-2
100.
.000
.000
11 .0
100.
.000
.000
2.96
100.
.000
.000
11.0
100.
.000
90.8
10.6
.000
.000
80.1
10.6
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 49.1 .000 100. 100. 7.461E-02 100. .000
100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 2.24 2.887E-0
2.98 22.7 2.87 20.3 4.96 2.86 2.63 .360 10.3
- INHALATION
7.010E-33 4 . 52 7E-20
.000 .000
.000
.000
.000
.000
.000 .000 .000 4.783E-27 .000 7.833E-27
.000 .000 .000 1.188E-32 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000
.000 2.608E-19 1.441E-15 5.234E-13 1.332E-30 2.611E-12 1.096E-15 2.119E-13 3.504E-23 2.628E-
3.349E-12
7.121E—19 3.410E-?
% OF INTERNAL
.000
.000
.000
.000
7.406E-10
.000 .000 1.297E-08 .000
.000 .000 9.823E-14 .000
.000 .000 .000 .000
12.1 76.5 97.0 79.7
1.307E-08 3.668E-08 7.150E-0J .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 9.17 19.9
89.0 97.0 89.0 89.4 89.4
-------�
% OF
ALL PATHUAYS
.000
.000
.000
6.364E-09
.000
1.307E-08
3.668E-08
5.335E-06
.000
.000
.000
.000
.000
9.823E-14
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.226
7.166E-04
.000
.411
73.8
94.1
79.7
40.3
93.9
21.4
3.03
86.6
7.406E-10
- AIR
IMMERSION
¦" .000
.000
.000
1.166E-32
.000
.000
.000
1.977E-22
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
2.375E-24
6.974E-23
.000
3.917E-25
2.485E-
-24
1.916E-21
.000
8.282E-19
1.504E-24
2.0S0E-19
1.976E-28
2.868E-35
1.035E-18
X OF
EXTERNAL
.000
.000
.000
3.048E-14
.000
.000
.000
2.332E-08
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
7.732E-07
1 .466E-06
.000
6.391E-07
3.591E-
-06
1.131E-05
.000
2.337E-05
3.984E-06
2.724E-05
1.771E-05
2.991E-06
2.004E-05
% OF
ALL PATHWAYS
.000
.000
.000
1.552E-14
.000
.000
.000
2.330E-08
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
7.542E-07
1.466E-06
.000
6.174E-07
1.273E-
•07
3.444E-07
.000
1.279E-05
1.288E-07
2.070E-05
1.711E-05
9.448E-08
2.290E-16
- GROUND SURFACE
.000
.000
.000
3.826E-17
.000
.000
.000
8.4 78E-13
.000
.000
.000
.000
.000
.000
.000
1.463E-18
1.203E-37
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
3.071E-16
4.758E-15
.000
6.129E-17
6.921E-
17
1.694E-14
.000
3.545E-12
3. 775E-17
7.526E-13
1.116E-21
9.589E-28
5.167E-12
% OF
EXTERNAL
.000
.000
.000
100.
.000
.000
.000
100.
.000
.000
.000
.000
.000
.000
.000
100.
100.
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
100.
100.
.000
100.
100.
100.
.000
100.
100.
100.
100.
100.
100.
% OF
ALL PATHUAYS
.000
.000
.000
50.9
.000
.000
.000
99.9
.000
.000
.000
.000
.000
.000
.000
100.
100.
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
97.5
100.
.000
96.6
3.54
3.04
.000
54.7
3.23
76.0
96.6
3.16
1. 14 3E-09
-------�
- INTERNAL
3.6B9E-17 .000 5.993E-17 1.911E-23 6.331E-16 6.877E-04
1.209E-17 3.369E-20 .000 .000 .000 .000
.000
.000
1.050E-18 .446 .000
.000 4.964E-03 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.762E-18 1.714E-19
2.387E-04 2.151E-18 1.884E-15 5.393E-13 1.670E-30 2.933E-12 1.130E-15 2.379E-13 3.920E-23 2.939E-26
.452
X OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 49.1 .000 100. 100. 7.461E-02 100. .000
100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 2.47 3.603E-03
3.39 96.5 97.0 100. 45.3 96.8 24.0 3.39 96.8
- EXTERNAL
.000
.000
.000
.000
5.167E-12
.000 .000 3.826E-17 .000
.000 .000 .000 .000
.000 .000 .000 .000
6.129E-17 6.921E-17 1.694E-14 .000
.000 .000 8.478E-13 .000 .000
1.463E-18 1.203E-37 .000 .000 .000
.000 .000 .000 3.07 IE-16 4.758E-11
3.545E-12 3.775E-17 7.526E-13 1.116E-21 9.589E-2?
% OF ALL PATHWAYS
.000
.000
.000
.000
1.143E-09
.000
.000
.000
96.6
.000
.000
.000
3.54
50.9
.000
.000
3.04
.000
.000
.000
.000
.000
100.
.000
54.7
.000
100.
.000
3.23
99.9
.000
.000
76.0
.000
.000
97.5
96.6
.000
.000
100.
3.16
TOTAL OVER ALL PATHWAYS
1.050E-18 .446 .000 7.515E-17 .000 5.993E-17 1.911E-23 8.485E-13 6.877E-04 .000
.000 4.964E-03 .000 1.209E-17 3.369E-20 1.463E-18 1.203E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 3.149E-16 4.75BE-1'
2.387E-04 6.344E-17 1.953E-15 5.563E-13 1.670E-30 6.477E-12 1.168E-15 9.905E-13 1.155E-21 3.035E-2t
.452
FOR ORGAN: KIDNEYS
NUCLIDES
PATHWAYS
H-3
SB-125
PB-212
NP-237
TOTAL
C-14
1-129
BI-214
U-238
FE-55
CS-134
PB-214
PU-238
NI-59
CS—135
RA-226
PU-239
CO-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
Eli-154
RA-228
PU-242
NB-94
TL-208
TII-232
AM-243
TC-99
P0-210
U-234
CM-243
RU-106
PB-210
U-235
CM-2U
- INGESTION
1.115E-18 .434 .000 8.812E-20 .000 1.746E-19 1.9I1E-23 1.2 I5E-15 6.877E-04 .000
.000 4.976E-03 .000 1.209E-17 3.836E-20 .000 .000 .000 .000 .000
-------�
2.385E-04 3.176E-16 4.426E-16 1.595E-14 3.387E-31 3.213E-I3 3.339E-17 2.606E-1A A.157E-2A 3.11AE*-27
.A AO
% OF INTERNAL 100. 100. .000 100. .000 100. 100. 100. 100. .000
.000 100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 90.8 90.8
100. 90.8 23.5 2.96 20.3 11.0 2.96 11.0 10.£ 10.6
100.
X OF ALL PATHWAYS 100. 100. .000 52.9 .000 100. 100. .117 100. .000
.000 100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 75.2 .310
100. 80.0 23.2 2.89 20.3 3.51 2.92 1.87 .29A 10.5
100.
- INHALATION
0
1
o
o
X OF INTERNAL
2.282E-29 7.010E-33 2.121E-20
.000
.000
.000 .000 .000 1.1A2E-29 .000
.000 .000 .000 1.188E-32 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000
.000 3.206E-17 1.441E-15 5.23AE-13 1.331E-30 2.6UE-12 1.096E-15 2.117E-13 3.502E-23
3.349E-12
.000
.000
1.22 IE-16 1.820E-I8
2.628E-26
.000
.000
.000
.000
7.611E-10
.000 .000 1.296E-08 .000
.000 .000 9.823E-1A .000
.000 .000 .000 .000
9.17 76.5 97.0 79.7
• 1.307E-08 3.668E-08
.000 .000
.000 .000
89.0 97.0
1.7A6E-03 .000 .000
.000 .000 .000
.000 9.16 9.18
89.0 89.A 89.A
X OF ALL PATHWAYS
.000
.000
.000
.000
7.611E-10
.000 .000 6.857E-09 .000
.000 .000 9.823E-U .000
.000 .000 .000 .000
8.07 75.5 9A.7 79.7
1.307E-08 3.668E-08 2.0A9E-06 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 7.59 3.131E-02
28.6 95.8 15.2 2.A7 88.6
- AIR IMMERSION
.000
.000
.000
.000
1.793E-18
.000 .000 2.389E-35 .000
.000 .000 .000 .000
.000 .000 .000 .000
5.769E-25 2.9A7E-2A 2.30AE-21 .000
.000 .000 2.A02E-22 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 3.355E-2A 8.518E-23
1.A75E-18 1.891E-2A 3.150E-19 2.A56E-28 2.661E-35
X OF EXTERNAL
.000 .000 .000 3.0AAE-1A .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 1.215E-06 1.215E-05 1.722E-05 .000
.000 .000 2.32AE-08 .000 .000
.000" .000 .000 .000 .000
.000 .000 .000 1.213E-06 1.A71E-06
2.376E-05 1.2A6E-05 I. 712E-05 1.70AE-OS I.022E-0S
-------�
2.130E-05
X OF ALL PATHWAYS .000 .000 .000 1.434E-14 .000 .000 .000 2.321E-08 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.084E-07 1.466E-0(
.000 1.452E-07 1.545E-07 4.169E-07 .000 1.614E-05 1.652E-07 2.265E-05 1.735E-05 8.975E-01'
4.074E-16
- GROUND SURFACE
.000
.000
.000
.000
8.415E-12
.000 .000 7.847E-20 .000
.000 .000 .000 .000
.000 .000 .000 .000
4.749E-17 2.425E-17 1.338E-14 .000
.000 .000 1.034E-12 .000 .000
I.791E-18 1.473E-37 .000 .000 .000
.000 .000 .000 2.767E-16 5.791E-1'
6.209E-12 1.517E-17 1.153E-12 1.377E-21 2.605E-2I
% OF EXTERNAL
0
1
% OF ALL PATHWAYS
.000
.000
.000
.000
100.
.000
.000
.000
.000
1.913E-09
.000
.000
.000
100.
.000
.000
.000
12.0
.000
.000
.000
100.
.000
.000
.000
1.27
100.
.000
.000
100.
47.1
.000
.000
2.42
.000
.000
.000
.000
.000
.000
.000
.000
.000
100.
.000
100.
.000
100.
.000
67.9
.000
100.
.000
100.
.000
100.
.000
1.33
100.
.000
.000
100.
99.9
.000
.000
82.9
.000
.000
100.
100.
.000
.000
17.2
97.2
.000
.000
100.
100.
.000
.000
99.7
.878
- INTERNAL
.000 8.812E-20 .000 1.746E-19 1.911E-23 1.21SE-1S 6.877E-04 .000
.000 1.209E-17 3.836E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 1.333E-15 1.982E-1
2.385E-04 3.497E-16 1.884E-15 5.393E-13 1.670E-30 2.932E-12 1.130E-15 2.377E-13 3.918E-23 2.939E-2'
.440
1.115E-18 .434
.000 4.976E-03
.000 .000
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
88.0
.000
.000
.000
98.7
52.9
100.
.000
97.6
.000
100.
.000
100.
100.
.000
.000
32.1
100.
.000
.000
98.7
.117
.000
.000
17.1
100.
.000
82.8
2 . 77
.000
.000
.341
99.1
- EXTERNAL
.000 .000 .000 7.847E-20 .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 .000 1.034E-12
1 . 791E-18 1 .473E-37 .000
.000 .000 .000
.000
.000
.000
.000
2.767E-16 5.791E-1
-------�
8.415E-12
X OP ALL PATHWAYS
.000
.000
.000
.000
1.913E-09
.000
.000
.000
12.0
.000
.000
.000
1.27
47.1
.000
.000
2.42
.000
.000
.000
.000
.000
100.
.000
67.9
.000
100.
.000
1.33
99.9
.000
.000
82.9
.000
.000
17.2
97.2
.000
.000
99.7
.878
TOTAL OVER ALL PATHWAYS
1.115E-IB .434 .000 1.666E-19 .000 1.746E-19 1.911E-23 1.035E-12 6.877E-04 .000
.000 4.976E-03 .000 1.209E-17 3.836E-20 1.791E-18 1.473E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.61 OE-15 5.811E-15
2.385E-04 3.972E-16 1.908E-1S 5.527E-13 1.670E-30 9.142E-12 1.14SE-15 1.391E-12 1.416E-21 2.965E-26
.440
FOR ORGAN: OTHER
NUCLIDES H-3 C-14 FE-55 NI-59 C0-60 NI-63 SR-90 NB-94 TC-99 RU-106
SB-125 1-129 CS-134 • CS-135 CS-137 BA-137M EU-154 TL-208 PO-210 PB-210
PB-212 BI-214 PB-214 RA-226 TH-228 AC-228 RA-228 TH-232 U-234 U-235
NP-237 U-238 PU-238 PU-239 PU-241 A11-241 PU-242 AM-243 CM-243 CM-244
PATHWAYS
TOTAL
- INGESTION 1.050E-18 .446 .000 3.689E-17 .000 5.993E-17 1.911E-23 6.330E-16 6.B77E-04 .000
.000 4.964E-03 .000 1.209E-17 3.369E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 7.050E-18 1.374E-19
2.387E-04 1.890E-18 4.426E-16 1.595E-14 3.387E-31 3.213E-13 3.339E-17 2.608E-14 4.160E-24 3.114E-27
.452
X OF INTERNAL
100. 100.
.000 100.
.000 .000
100. 87.9
100.
.000 100.
.000 100.
.000 .000
23.5 2.96
.000 100.
100. .000
.000 .000
20.3 11.0
100. 100.
.000 .000
.000 .000
2.96 11.0
100. .000
.000 .000
90.8 80.1
10.6 10.6
% OF ALL PATHWAYS 100. 100. .000 49.1 .000 100. 100. 7.461E-02 100. .000
.000 100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 2.24 2.887E-03
100. 2.98 22.7 2.87 20.3 4.96 2.86 2.63 .360 10.3
100.
mhsi«TrnN .000 .000 .000 783E-27 .000 7.833E-27 7.010E-33 4.527E-20 .000 .000
-------�
.000 .000 .000 .000 .000 .000 .000 .000 7.121E—19 3.410E-2<
.000 2.608E-I9 1.441E-1S 5.234E-13 1.332E-30 2.611E-12 I.096E-15 2.119E-13 3.504E-23 2.628E-2f
3.349E-12
% OF INTERNAL .000 .000
.000 .000
.000 .000
.000 12.1
7.406E-10
% OF ALL PATHWAYS .000 .000
.000 .000
.000 .000
.000 .411
7.406E-10
- AIR IMMERSION .000 .000
.000 .000
.000 .000
.000 3.917E-25
1.035E-18
% OF EXTERNAL .000 .000
.000 .000
.000 .000
.000 6.391E-07
2.004E-05
% OF ALL PATHWAYS .000 .000
.000 .000
.000 .000
.000 6.174E-07
2.290E-16
- GROUND SURFACE .000 .000
.000 .000
.000 .000
.000 6.129E-17
5.167E-12
% OF EXTERNAL .000 .000
.000 .000
nnn nnn
.000 1.297E-08 .000 1.307E-08
.000 9.823E-14 .000 .000
.000 .000 .000 .000
76.5 97.0 79.7 89.0
.000 6.364E-09 .000 1.307E-08
.000 9.823E-14 .000 .000
.000 .000 .000 .000
73.8 94.1 79.7 40.3
.000 1.166E-32 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
2.485E-24 1.916E-21 .000 8.282E-19
.000 3.048E-14 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
3.591E-06 1.13 IE-OS .000 2.337E-05
.000 1.552E-14 .000 .000
.000 .000 .000 .000
.000 .000 .000 .000
1.273E-07 3.444E-07 .000 1.279E-05
.000 3.826E-17 .000 .000
.000 .000 .000 1.463E-18
.000 .000 .000 .000
6.921E-17 1.694E-14 .000 3.545E-12
.000 100. .000 .000
.000 .000 .000 100.
.nnn .ooo .ooo .ooo
3.668E-08 7.150E-03 .000 .000
.000 .000 .000 .000
.000 .000 9.17 19.9
97.0 89.0 89.4 89.4
3.668E-08 5.33SE-06 .000 .000
.000 .000 .000 .000
.000 .000 .226 7.166E-0'
93.9 21.4 3.03 86.6
.000 1.97 7E-22 .000 .000
.000 .000 .000 .000
.000 .000 2.375E-24 6.974E-2
1.504E-24 2.050E-I9 1.976E-28 2.868E-3'
.000 2.332E-08 .000 .000
.000 .000 .000 .000
.000 .000 7.7 J2E-07 1.466E-0'
3.984E-06 2.724E-05 1.771E-05 2.991E-0'
.000 2.330E-08 .000 .000
.000 .000 .000 .000
.000 .000 7.542E-07 1.466E-0
1.288E-07 2.070E-0S 1.711E-05 9.448E-0
.000 8.4 78E-13 .000 .000
1.203E-3 7 .000 .000 .000
.000 .000 3.071E-16 4.7 58E-1
3 . 7 7SE-1 7 7 . 526E-11 I.H6E-21 9.589E-2
.000 mo. . OUO .000
100. .000 .000 .000
.000 .000 100. 100.
-------�
I OP ALL PATHUAVS
.000
100.
100,
100.
.000
100.
100.
100.
100.
100.
100.
.000
.000
.000
50.9
.000
.000
.000
99.9
.000
.000
.000
.000
.000
.000
.000
100.
100.
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
97.5
too.
.000
96.6
3.54
3.04
.000
54.7
3.23
76.0
96.6
3.16
1.143E-09
- INTERNAL
1.050E-18 .446
.000 4.964E-03
.000 .000
.000 3.689E-17 .000 5.993E-17 1.9UE-23 6.331E-16 6.877E-04 .000
.000 1.209E-17 3.369E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 7.762E-18 L.714E-19
2.387E-04 2.1SIE-18 1.884E-15 5.393E-13 1.670E-30 2.933E-12 1.130E-15 2.379E-13 3.920E-23 2.939E-26
.4S2
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
100. .000 49.1 .000 100. 100. 7.461E-02 100. .000
100. .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 2.47 3.603E-03
3.39 96.5 97.0 100. 45.3 96.8 24.0 3.39 96.6
- EXTERNAL
% OF ALL PATHWAYS
TOTAL OVER ALL PATHWAYS
000
.000
.000
3.826E-17
.000
.000
.000
8.4 78E-13
.000
.000
000 .
.000
.000
.000
.000
1.463E-18
1.203E-37
.000
.000
.000
000
.000
.000
.000
.000
.000
.000
.000
3.07 IE-16
4.758E-
000
6.129E-17
6.921E-
17
1.694E-14
.000
3.545E-12
3.7 75E-17
7.526E-13
1.116E-21
9. 589E-:
167E-12
000
.000
.000
50.9
.000
.000
.000
99.9
.000
.000
000
.000
.000
.000
.000
100.
100.
.000
.000
.000
000
.000
.000
.000
.000
.000
.000
.000
97.5
100.
000
96.6
3.54
3.04
.000
54.7
3.23
76.0
96.6
3. 16
143E-09
050E-18
.446
.000
7.515E-17
.000
5.993E-17
1.911E-23
8.485E-13
6.87 7E-04
.000
000
4.964E-03
.000
1.209E-17
3.369E-
-20
1.463E-18
I.203E-37
.000
.000
.000
000
.000
.000
.000
.000
.000
.000
.000
3.149E-16
4.758E-
3B7E-04
6.344E-17
1.953E-
15
5.563E-13
1.670E-
•30
6.477E-12
1.168E-15
9.905E-13
1.155E-21
3.035E-;
452
INDIVIDUAL DOSE EQUIVALENT RATES (MREM/YR)
-------�
~~•SUMMED OVER ALL ORGANS
NUCLIDES H-3 C-14 FE-55
SB-125 1-129 CS-134
PB-212 BI-214 PB-214
NP-237 U-238 PU-238
TOTAL
PATHWAYS
- INGESTION
1.12 IE-18 .631 .000
.000 8.51 .000
.000 .000 .000
6.457E-03 4.244E-17 1.230E-14
9.15
X OF INTERNAL
100.
.000
.000
100.
100.
100.
100.
.000
1.15
.000
.000
.000
10.A
X OF ALL PATHWAYS
100.
.000
.000
100.
100.
100.
100.
.000
1.04
.000
.000
.000
10.4
- DRINKING WATER 1.121E-18 .631 .000
.000 8.51 .000
.000 .000 .000
6.457E-03 .000 .000
9.15
X OF INTERNAL 100. 100. .000
.000 100. .000
.000 .000 .000
100. .000 .000
100.
X OF ALL PATHWAYS
100.
.000
100.
100.
.000
.000
NI-59
CS—135
RA-226
PU—239
C0-60
CS-137
TH-228
PU-241
NI-63
BA-137M
AC-228
AM-241
SR-90
EU-154
RA-228
PU-242
NB-94
TL-208
TH-232
AM-243
TC-99
P0-210
U-234
CM-243
RU-106
PB-210
U-235
CM-244
3.911E-17 .000 6.794E-17 6.047E-22 1.278E-15
1.141E-17 3.373E-20 .000 .000 .000
.000 .000 .000 .000 .000
4.414E-13 8.913E-30 8.808E-12 9.222E-16 7.042E-13
5.699E-03 .000
.000 .000
1.544E-16 2.522E-1
1.181E-22 9.098E-2
100.
100.
.000
1.31
5.35
100.
.000
1.31
.000
100.
.000
19.9
.000
100.
.000
19.9
100.
.000
.000
10.5
100.
.000
.000
9.67
100.
.000
.000
1.31
100.
.000
.000
1.31
100.
.000
.000
10.5
.121
.000
.000
8.81
100.
.000
1 .09
9. 78
100.
.000
.976
4.29
.000
.000
1.20
9.55
.000
.000
3.789E-0
9.47
.000 .000 .000 .000 .000 5.698E-03 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 100. .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 100. .000
.000 .000 .000 .000 .000 .000 .000
-------�
100. .000 .000 .000 .000 .000 .000 .000 .000 .000
100.
- NON-DRINKING WATER
.000
.000
.000
.000
3.757E-04
5.722E-06 .000 3.911E-17 .000 6.794E-17 6.047E-22 1.27BE-15 4.712E-07 .000
3.700E-04 .000 1.141E-17 3.373E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 1.544E-16 2.522E-18
4.244E-17 1.230E-14 4.414E-13 8.913E-30 8.808E-12 9.222E-16 7.042E-13 1.181E-22 9.098E-26
X OF INTERNAL
.000
.000
.000
.000
4 . 110E-03
9.072E-04 . .000 100. .000 100. 100. 100. 8.269E-03 .000
4.348E-03 .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 1.09 1.20
1.15 10.4 1.31 19.9 10.5 1.31 10.5 9.78 9.55
n
i
o
X OF ALL PATHWAYS
.000
.000
.000
.000
4.110E-03
9.072E-04 .000 5.35 .000 100. 100. .121 8.269E-03 .000
4.348E-03 .000 100. 100. .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .976 3.789E-02
1.04 10.4 1.31 19.9 9.67 1.31 8.81 4.29 9.47
- INHALATION
.000
.000
.000
.000
1.146E-10
.000
.000
.000
3.660E-15
.000
.000
.000
2.016E-26
1.174E-32
.000
.000
.000
.000
3.596E-26 1.455E-31 1.583E-19
.000
.000
.000
.000
.000
.000
.000 .000
.000 .000
1.405E-14 2.084E-16
1.054E-13 3.315E-11 3.588E-29 7.526E-11 6.921E-14 6.016E-12 1.089E-21 8.621E-25
X OF INTERNAL
.000
.000
.000
.000
1.252E-09
.000 .000 5.154E-08 .000
.000 .000 1.029E-13 .000
.000 .000 .000 .000
98.9 89.6 98.7 80.1
5.293E-08 2.406E-08 1.239E-02 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 98.9 98.8
89.5 98.7 89.5 90.2 90.5
X OF ALL PATHWAYS
.000
.000
.000
.000
1.252E-09
.000 .000 2.759E-09 .000
.000 .000 1.029E-13 .000
.000 .000 .000 .000
89.7 89.1 98.5 80.1
5.293E-08 2.406E-08 1.497E-05 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 88.8 3.13
82.7 98.3 75.2 39.5 89.8
*«» IMMERSION
.000
.000 .000 2.103E-31 .000 .000
nnn r\rtn 000 .000
.000 2.456E-22 .000 .000
.000 .000 .000 .000
-------�
.000 1.018E-24 1.152E-23 3.571E-21
1.856E-18
.000
1. 515E-I8 6.386E-24 3.367E-19 2.&90E-28 1. A 7 7E—34i
% OF EXTERNAL
.000 .000 .000 3.0411-14 .000
.000 .000 .000 .000 .000
.000 .000 .000 .000 .000
.000 . 2.709E-07 2.117E-06 4.7S2E-06 -000
1.974E-05
.000 .000 2.326E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 3.238E-07 1.460E-06
2.170E-0S 2.207E-06 2.638E-0S 1.738E-05 2.058E-06
% OF ALL PATHWAYS
.000
.000
.000
.000
2.027E-17
.000 .000 2.879E-14 .000
.000 . .000 .000 .000
.000 .000 .000 .000
2.497E-08 9.741E-09 1.061E-08 .000
.000 .000 2.323E-08 .000 .000
.000 .000 .000 .000 .000
.000 .000 .000 3.299E-08 1.413E-06
1.664E-06 9.068E-09 4.210E-06 9.766E-06 1.538E-08
GROUND SURFACE
0
1
o
X OF EXTERNAL
.000
.000
.000
.000
9.401E-12
.000
.000
.000
.000
100.
.000 .000 6.914E-16
.000 .000 .000
.000 .000 .000
3.759E-16 5.440E-16 7.515E-14
.000
.000
.000
100.
.000
.000
.000
100.
100.
.000
.000
100.
.000
.000
.000
.000
.000
.000
.000
.000
.000 .000 1.056E-12 .000 .000
1 .838E-18 1.500E-3 7 .000 .000 .000
.000 .000 .000 L.M2E-15 6.446E-15
6.983E-12 2.893E-16 1.276E-12 1.548E-21 7.178E-27
.000
100.
.000
100.
.000
100.
.000
100.
100.
.000
.000
100.
.000
.000
100.
100.
.000
.000
100.
100.
% OF ALL PATHWAYS
.000
.000
.000
.000
1.027E-10
.000
.000
.000
9.22
.000
.000
.000
.460
94.6
.000
.000
.223
.000
.000
.000
.000
.000
100.
.000
7.67
.000
100.
.000
.411
99.9
.000
.000
16.0
.000
.000
10.2
56.2
.000
.000
96.8
.748
- INTERNAL
1.121E—18 .631 .000 3.911E-17 .000 6.794E-17 6.047E-22 1.278E-15 5.699E-03 .000
.000 a.51 .000 1.141E-17 3.373E-20 .000 .000 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.420E-14 2.U0E-16
6.457E-03 3.702E-15 1.177E-13 3.3S9E-11 4.479E-29 8.407E-11 7.014E-14 6.721E-12 1.207E-21 9.531E-25
9.15
% OF ALL PATHWAYS
100.
.000
.000
100.
100.
.000
.000
.000
.000
5.35
100.
.000
.000
100.
.000
100.
.000
.000
100.
.000
.000
. 121
.000
.000
100.
.000
89.0
.000
.000
3.17
-------�
- EXTERNAL
.000
.000
.000
.000
9.401E-12
.000
.000
.000
3.759E-16
.000
.000
.000
5.440E-16
6.914E-16 .000
.000 .000
.000 .000
7.515E-14 .000
.000 .000 1.056E-12 .000 .000
1.838E-18 1.500E-37 .000 .000 .000
.000 .000 .000 1.612E-15 6.446E-15
6.983E-12 2.893E-16 1.276E-12 1.54BE-21 7.178E-27
% OF ALL PATHWAYS
.000
.000
.000
.000
1.027E-1O
.000
.000
.000
9.22
.000
.000
.000
.460
94.6
.000
.000
.223
.000
.000
.000
.000
.000
100.
.000
7.67
.000
100.
.000
.411
99.9
.000
.000
16.0
.000
.000
10.2
56.2
.000
.000
96.8
.748
TOTAL OVER ALL PATHUAYS
1.121E-18 .631 .000 7.305E-16 .000 6.794E-L7 6.047E-22 1.057E-12 5.699E-03 .000
.000 8.51 .000 1.141E-17 3.373E-20 1.838E-18 1.500E-37 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.582E-14 6.657E-15
6.457E-03 4.078E-15 1.182E-13 3.367E-11 4.479E-29 9.105E-11 7.042E-14 7.997E-12 2.7S5E-21 9.603E-25
9.15
% OF TOTAL
1.225E-17 6.89 .000 7.981E-15 .000 7.422E-16 6.606E-21 1.155E-U 6.226E-02 .000
.000 93.0 .000 1.247E-16 3.685E-19 2.008E-17 1.638E-36 .000 .000 .000
.000 .000 .000 .000 .000 .000 .000 .000 1.728E-1 3 7.272E-14
7.054E-02 4.455E-14 1.292E-12 3.678E-10 4.893E-28 9.946E-10 7.693E-13 8.736E-U 3.009E-20 1.049E-23
***SUMMED OVER ALL NUCLIDES
ORGANS R MAR ENDOST THYROID 8REAST *PUL* S WALL INT WALL LIVER PANCREAS KIDNEYS
OTHER WT. SUM
PATHUAYS
- INGESTION 1.41 3.08 86.6 .799 .373 .539 .517 .547 .452 .440
.452 9.15
% OF INTERNAL 100. 100. 100. 100. 100. 100. 100. 100. 100. 100.
100. 100.
% OF ALL PATHUAYS 100. 100. 100. LOO. 100. 100. 100. 100. 100. 100.
100. 100.
rtf* r * f\*t
U6E-12 1.143E-10 3.331E-I2 3.347E-12 5.371K—IO 3.3' -J" 3.349E-12
-------�
% OP INTERNAL
X OF ALL PATHWAYS
- AIR IMMERSION
% OF EXTERNAL
% OF ALL PATHWAYS
I.548E-08 8.719E-08
7.406E-10 1.252E-09
1.548E-08 8.719E-08
7.406E-10 1.2S2E-09
1.012E-18 3.314 E-18
1.035E-18 1.856E-18
1.928E-05 2.207E-05
2.004E-05 1.974E-05
7.189E-17 1.075E-16
2.290E-16 2.027E-17
3.864E-12 4.187E-10
3.864E-12 4.187E-10
2.850E-18 3.761E-18
2.160E-05 1.729E-05
3.292E-18 4.707E-16
3.067E-08 6.181E-10
3.067E-08 6.181E-10
I.810E-18 1.500E-18
2.102E-05 2.093E-05
4.85SE-16 2.783E-16
6.471E-10 9.818E-08
6.47IE-10 9.818E-08
1.390E-18 1.628E-1B
2.072E-05 2.116E-05
2.687E-16 2.977E-16
7.406E-10 7.611E-10
7.406E-10 7 .61 IE-10
1.035E-18 1.793E-18
2.004E-05 2.130E-05
2.290E-16 4.074E-16
- GROUND SURFACE
5.251E-12 1.501E-11 1.319E-11 2.176E-11 8.612E-12 7.166E-12 6.709E-12 7.694E-12 5.167E-12 8.415E-12
5.167E-12 9.401E-12
X OF EXTERNAL
100.
100.
100.
100.
100.
100.
100.
100.
100.
100.
100.
100.
X OF ALL PATHWAYS
3.729E-10 4.868E-10 1.524E-1I 2.723E-09 2.310E-09 1.330E-O9 1.297E-09 1.406E-09 1.143E-09 1.913E-09
1.143E-09 1.027E-10
- INTERNAL 1.41 3.08 86.6 .799 .373 .539 .517 .547 .452 .440
.452 9.15
X OF ALL PATHWAYS 100. 100. 100. 100. 100. 100. 100. 100. 100. 100.
100. 100.
- EXTERNAL 5.251E-12 1.501E-11 1.319E-11 2.176E-11 8.612E-12 7.166E-12 6.709E-12 7.694E-12 5.I67E-12 B.415E-12
5.167E-12 9.401E-12
X OF ALL PATHWAYS 3.729E-10 4.868E-10 1.524E-11 2.723E-09 2.310E-09 1.330E-09 1.297E-09 1.406E-09 1.143E-09 1.913E-09
1.143E-09 1.027E-10
TOTAL OVER ALL PATHWAYS 1.41 3.08 86.6 .799 .373 .539 .517 .547 .452 .440
.452 9.15
-------�
SOUTHEAST...SAMPLE RUN FOR CPG... SHALLOW LAND DISPOSAL
4.266E-08
5.135E-08
4.241E-01
3.142E+00
3.346E+00
3.452E+00
3.804E+00
4.139E+00
4.448E+00
4.720E+00
4.757E+00
4.585E+00
4.425E+00
4.499E+00
4.784E+00
5.04 5E+00
5.271E+00
5.457E+00
5.597E+00
5.695E+00
5.739E+00
5.734E+00
5.686E+00
5.583E+00
5.443E+00
5.259E+00
5.041E+00
4.794E+00
4.525E+00
4.240E+00
3.946E+00
3.648E+00
3.350E+00
2.992E+00
2.706E+00
2.393E+00
2.236E+00
2.13^+00
5.360E-08
4.57 IE—08
4.205E-01
3.121E+00
3.336E+00
3.483E+00
3.837E+00
4.171E+00
4.477E+00
4.742E+00
4.743E+00
4.568E+00
4.414E+00
4.523E+00
4.812E+00
5.070E+00
5.291E+00
5.473E+00
5.608E+00
5.701E+00
5.744E+00
5.734E+00
5.675E+00
5.572E+00
5.425E+00
5.239E+00
5.018E+00
4.769E+00
4.497E+00
4.211E+00
3.916E+00
3.616E+00
3.319E+00
2.952E+00
2.6 73E+00
2.365E+00
2.2 IAE+00
2.112E+00
6.021E-08
4.099E-08
8.335E-01
3.491E+00
3.331E+00
3.519E+00
3.873E+00
4.203E+00
4.507E+00
4.758E+00
4.725E+00
4.551E+00
4.408E+00
4.553E+00
4.838E+00
5.093E+00
S.312E+00
5.489E+00
5.619E+00
5.706E+00
5.744E+00
5.729E+00
5.669E+00
5.562E+00
5.408E+00
5.218E+00
4.994E+00
4.742E+00
4.469E+00
4.182E+00
3.886E+00
3.586E+00
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