ML20072D315
ML20072D315 | |
Person / Time | |
---|---|
Site: | FitzPatrick |
Issue date: | 06/21/1983 |
From: | POWER AUTHORITY OF THE STATE OF NEW YORK (NEW YORK |
To: | |
Shared Package | |
ML20072D314 | List: |
References | |
PROC-830621, NUDOCS 8306230174 | |
Download: ML20072D315 (204) | |
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{{#Wiki_filter:JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL TABLE OF CONTENTS PAGE
1.0 INTRODUCTION
1 1.1 Purpose 1 1.2 Methodologies and Parameters 1 2.0 GLOSSARY OF TERMS 2 3.0 LIQUID EFFLUENT METHODOLOGY 5 3.1 Applicable Site Characteristics 5 3.2 10CFR 20 MPC Limits - Determination of the Fraction (FL) of Release Limits 5 3.2.1 Requirements 5 1
"L/ 3.2.2 Methodology 5 3.2.2.1 General Approach 6 3.2.2.2 Simplified Approach 7 3.2.2.3 Approach Selection Criteria 7 3.2.3 Calculational Process 7 3.3 Determination of Setpoints for
! Radioactive Liquid Effluent Monitors 8 l 1 3.3.1 Requirements 8 3.3.2 Methodology 8 3.3.3 Calculational Frocess 9 l 8306230174 830621 PDR ADOCK 05000333 p PDR
JAMES A. FITZPATRICK NUCLEAR POWER PLANT l OFFSITE DOSE CALCULATION MANUAL TABLE OF CONTENTS ( Continued) PAGE 3.4 Dose Determinations for Radioactive Liquid Effluents 11 3.4 1 Annual Dose Assessment - Radioactive Ef fluent Release Report Submittal 11 3.4.1.1 Requirements 11 3.4.1.2 Methodology 11 3.4.2 Monthly Dose Assessment - Verification of Compliance with 10CER50 Appendix I 12 3.4.2.1 Requiremento 12
,N 3.4.2.2 Methodology 13 V 3 'N J 3.4.2.2.1 General Approach 13 3.4.2.2.2 Limited Analysis Approach 14 3.4.2.2.3 Approach Selection Criteria 15 3.4.2.3 Calculational Method 15 3.5 Dose Projections - Determination of Need to Operate Liquid Radwaste Treatment System 16 3.5.1 Requirements 16
! 3.5.2 Calculational Methodology 16 l l l i l fx x; l
' JAMES A. FITZPATRICK NUCLEAR POWER PLANT l OFFSITE DOSE CALCULATION MANUAL I
TABLE OF CONTENTS (Continued) PAGE 4.0 GASCOUS EFFLUENT METHODOLOGY 18 4.1 Gaseous Waste Streams 18 4.2 Data Requirements For Gaseous Effluente 18 4.3 Instantaneous Release Rate and Setpoint Determination 19 4.3.1 Determining Instantaneous Noble Gas Release Rates 19 4.3.1.1 Requirements 19 4.3.1.2 Methodology 19 4.3.1.2.1 Limited Analysis Approach Instantaneous Noble Gas Release Rate 21 4.3.1.2.2 General Approach - Total Body and Skin Nuclide Specific Instantaneous Release Rate Calculations 23 4.3.1.3 Calculational Process 25 4.3.2 Setpoint Determination 27 4.3.2.1 Requirements 27 4.3.2.2 Methodology 27 4.3.3 Determining Radioiodine and 8 Day Particulate Instantaneous Release Rates 29 4.3.3.1 Requirements 29 4.3.3.2 Methodology 29 4.3.3.2.1 Limited Analysis Approach 31 4.3.3.2.2 Approach Selection. Criteria 32
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JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL l 1 1 TABLE OF CONTENTS (Continued) 1 PAGE 4.4 Dose Determination for Radioactive Gaseous Effluents 32 4.4.1 Annual Dose Assessment - Radioactive Effluents Release Submittal 32 4.4.1.1 Requirements 32 4.4.1.2 Methodology 32 4.4.1.2.1 Annual Dose Due to 33 Noble Gases 4.4.1.2.2 Annual Dose Due to Radioiodines and 8 Day Particulates 34 O 4.4.2 Monthly Dose Assessment - Verification of Compliance with 10CFR50, Appendix I 36 4.4.2.1 Determining the Gamma Air Dose For Radioactive Noble Gas Release Source (s) 36 4.4.2.1.1 Requirements 36 4.4.2.1.2 Methodology 36 (a) Limited Analysis Approach 37 (b) Approach Selection Criteria 38 4.4.2.2 Determining the Beta Air Dose for Radioactive Noble Gas Release Source (s) 39 4.4.2.2.1 Requirements 39 4.4.2.2.2 Methodology 39 4.4.2.3 Determining the Radioiodine and 8 Day Particulate Dose to Any Organ From Cumulative Releases 40 L O
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, . - . - . - - - . , , . - - . . - - . - . . ~ . , - . - - - . - , , . . . - , , , -
h JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL TABLE OF CONTENTS (Continued) PAGE 4.4.2.3.1 Requirements 40 4.4.2.3.2 Methodology 40 (a) Limited Analysis Approach 42 (b) Approach Selection Criteria 43 4.5 Dose Projection - Determination of Need to Operate Off Gas Radwaste 43 4.5.1 Requirements 43 4.5.2 Methodology 43 4.5.2.1 Limited Analysis Approach and Selection Criteria 44 5.0 40 CFR 190 DOSE EVALUATION 5.1 Evaluation Bases 45 5.2 Doses From Liquid Releases 45 5.3 Doses From Atmospheric Releases 46 5.4 Doses From Direct Radiation 46 O m eum
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL TABLE OF CONTENTS (Continued) PAGE Appendix A - Liquid Dose Calculation Data Table L Unrestricted Area MPC's A-2 Table L Dose Factors, Limited Analysis Approach A-3 Table L Dose Factors, All Pathways A-7 Appendix B - Gaseous Dose Calculated Data Table G Unrestricted Area MPC's B-2 Table G Noble Gas Data Transfer Factors (Ki , L i) B-3 Table G Air Dose Transfer Factors (M i, N i) B-4 , Table G Ground Plane Deposition Environmental {"'s)/
- s. Pathway - Dose Conversion Factors (Pi ) -
Instantaneous B-5 Table G Inhalation Environmental Pathway - Dose Conversion Factors (Pi ) - Instantaneous B-7 Table G Cow's Milk (Contaminated Forage) Environmental Pathway - Dose Conversion Factors (P i) Instantaneous B-9 Table G Limited Analysis Approach - Gaseous Discharge Environmental Pathway - l Dose Conversion Factors (Ri ) B-ll Table G Environmental Pathway - Dose Conversion Factors (R i ) for All Pathways B-25 i Appendix C - Meteorological Data Table M chi /Q, D/Q, and (chi /Q) Depleted and 8-Day Decayed C-2 Table M Ground Level Release Meteorological Data C-3 l O) (, Table M Elevated Release Meteorological Data C-4
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JAMES A. FITZPATRICK NUCLEAR POWER PLANT j ( OFFSITE DOSE CALCULATION MANUAL TABLE OF CONTENTS (Continued) PAGE Appendix D - Limited Analysis Dose Assessment for Liquid Radioactive Effluents D-1 Appendix E - Technical Bases For Effective Dose Factors E-1 Appendix F - Ef fluent Monitor Sampling Locations and Descriptions Table F Atmospheric Gaseous Release Point Data F-1 Table F Liquid Release Point Data F-2 Appendix G - Unrestricted Area Map G-1 Appendix H - Environmental Sample Locations H-1 Appendix I - Summary Tables I-l (~~')\ \s, Table I-l - Radioactive Effluent. Release Limits
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JAMES A. FITZPATRICK NUCLEAR POWER PLANT O k) OFFSITE DOSE CALCULATION MANUAL (ODCM)
1.0 INTRODUCTION
1.1 Purpose ~ This manual provides the methodology to calculate radiation doses to individuals in the vicinity of the James A. Fitzpatrick Nuclear Power Plant. It also provides methodology for calculating effluent monitor setpoints and allowable release rates to ensure compliance with the Technical Specifications, Appendix B f of the New York Power Authority, James A. Fitzpatrick Nuclear Power Plant, Docket No. 50-333, and 10CFR Part 20 release criteria. 1.2 Methodologies and Parameters The ODCM follows the methodology and models suggested by the " Guidance Manual For Preparation of Radiological Ef fluent Technical Specifications for Nuclear Power Plants" (NUREG-0133, Rev. 1, dated November, 1978) and
" Calculation of Annual Doses to Man From Routine Releases of Reactor Ef fluents for the Purpose of Evaluating Compliance with 10CFR PART 50, Appendix I" ( Regulatory Guide 1.109 Rev.1 dated October,1977). / Simplifying assumptions have been made and justified where applicable to
(%) provide a more workable document for implementing the Technical Specifications, Appendix B, requirements. Alternate calculational methods to those presented here may be used provided the overall methodology does not change or the results are not less conservative. Additionally, as available, the most up-to-date revision of the Regulatory Guide 1.109 dose conversion factors and site-specific environmental transfer factors may be substitued for those currently included and used in this document. n~-, v l 1 JAMES A. FITZPATRICK NUCLEAR POWER PLANT v/ OFFSITE DOSE CALCULATION MANUAL (ODO() 2.0 GIDSSARY OF TERMS BETA A beta particle (electron) . BETA Dose The dose component to skin dose due to beta-emitting radionuclides in air. CC Cubic Centimeter. Ci Curie. A unit of radioactivity equal to 3.7 x 1010 disintegrations per second. See also microcurie (uci). l Ci Activity or concentration of a nuclide in the release source. Units of pCi, pCi/cc, or p Ci/ml. CFR Code of Federal Regulations. Dose A measure of the radiation energy deposited per unit mass (in stem or arad), that the organ or the individual receives from (n exposure to radioactive effluents dispersed in the environment. Dose Commitment The total dose delivered to the organ or total body over a I 50-year period resulting from uptake of radioactive material. Dose Factor Normally, a factor that converts the ef fect of ingesting or inhaling radioactive material into the body, to dose to a specific organ. Body elimination, radioactive decay, and organ uptake are some of the factors that determine a dose factor for a given nuclide. Dose A specific path that radioactive material physically travels l Pathway through in the environment prior to exposing an individual to its emitted radiation. The contaminated forage / cow / milk pathway is a dose pathway. Dose Rate The dose received per unit time. (D/Q) A long-term relative deposition coefficient. A factor with units of 1/m 2 which describes the deposition of particulate matter from a plume at a point downrange from the source. It can be thought of as the part of the cloud that will fall out and deposit over one square meter of ground. l GAMMA A gamma photon. l l GAMMA Dose The dose component to skin or total body dose due to gamma-emitting radionuclides in air. l
JAMES A. FITZPATRICK NUCLEAR POWER PLANT
/ OFFSITE DOSE CALCULATION MANUAL (ODCM) b Ground Radioactive material deposited uniformly over the ground Plane emits radiation that produces an exposure pathway when an indiv_idual is present in the area. It is assumed that an adult receives the same exposure as an infant, regardless of the physical height differences. Only the total body is considered for the purpose of the ODCM.
H-3 Hydrogen-3, or Tritium. An isotope of hydrogen that is a low-energy BETA emitter. I&8DP Radioiodines and particulates with half-lives greater than 8 days. LLD Lower limit of detection. The smallest concentration of radioactive material in a sample that will yield a net count, above systems background that will be detected with 95% probability with only 5% probability of falsely concluding that a blank observation represents a "real" signal. LCO Limiting Condition for Operation in Technical Specifications, Appendix B. (N m3 Cubic meters. m2 Square meters. MPC Maximum Permissible Concentration. Nuclide For the purposes of the ODCM, a radioactive isotope. Nuclide (1) signifies a specific nuclide, the 1st, 2nd, 3rd, etc. one under consideration. If nuclide (i) is I-131, then the Mi (dose factor) under consideration should be M -131, I for example. Organ For the purpose of the ODCM, either the bone, liver, thyroid, kidney, lung, GI-LLI, skin, or the T. Body. T. Body (Total Body) is considered an organ for consistency with the ODCM nomenclature. Qi Qi (dotted) Denotes a release rate in C1/sec for nuclide (1). Qi Denotes Ci of nuclide (i) released over a specified time L interval. I I I i O l l
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l I, i JAMES A. FITZPATRICX NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODO4) k [! Receptor The individual receiving radiation exposure from effluent Il releases at JAFNPP at a given location, or who ingests food l products contained with trace amounts of radioactive materials. A receptor can receive doses from one or more j dose pathways. s Release A subsystem, tank, vent or stack where radioactive material Source (s) can be released independently of other radioactive release (! points. [ Restricted An area within the site boundary to which access is f Area controlled by NYPA for purposes of protection of ( individuals from exposure to radiation and radioactive materials. , I ! Technical The JAFNPP Radioactive Effluent Technical j Specifications, Specifications. ; Appendix B [ t uCi Microcuries. 1 Ci = 106 pCuries. The pCi is the standard h
- unit of radioactivity for all dose calculations in the JAFNPP l*
OD - (X/Q) A long-term relative atmospheric dispersion coefficient. It describes the physical dispersion characteristics of a ! semi-infinite cloud of noble gases as the cloud travels ! downwind from the release point. (X/Q)D A long-term depleted relative atmospheric dispersion I. coefficient. It describes the physical dispersion characteristics of a semi-infinite cloud of radioactive iodines and particulates as the cloud travels down wind. Since iodines and particulates settle (fallout of the cloud) on the ground, the (X/Q)D represents what physically remains of the cloud at a given location downrange from the release point. r Unrestricted An unrestricted area shall be any area at or beyond the site l Area boundary access to which is not controlled by NYPA t for i purposes of protection of individuals from exposure to I radiation and radioactive materials, or any area within the f site boundary used for residential quarters or for 3 industrial, commercial,' institutional, and/or recreational purposes. (Refer to Technical Specification Section 1.0, f Appendix By for expanded definition) . 4 l 4-
-g------c-. - ,,,. yy--.i-pe- w-ov-.-r-r =g'w--'r--*+r w w -- -- - -
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.0 LIQUID EFFLUENT METHODOLOGY 3.1 Apolicable Site Characteristics The JAFNPP Final Safety Analysis Report contains the official description of the site characteristics. The description that follows is a brief summary for dose calculation purposes: The James A. Fitzpatrick-Nuclear Power Plant is located on the eastern ? portion of the Nine Mile Point promontory on Lake Ontario in Oswego j County, NY. The site is approximately 7 miles northeast of the City of Oswego. All radioactive liquid releases enter Lake Ontario where the Circulating Water Discharge Tunnel terminates on the lake bottom approximately 1400 ft. from the shoreline. d 3.2 10CFR20 MPC Limits Determination of the Fraction (Ft ) of - Release Limits 3.2.1 Requirements In accordance with Technical Specification Section 2.2, Appendix B, the concentration of liquid radioactive material released to
\/ Unrestricted Areas (See Appendix G) shall not exceed the concentrations specified in 10CFR20, Appendix B, Table II, Column 2 for radionuclides other than dissolved or entrained noble gases. The concentration of radionuclides in liquid waste is
- determined by sampling and analyses in accordance with Technical Specifications Section 2.2, Appendix B.
In accordance with Technical Specification Section 2.2, Appendix B, for dissolved or entrained noble gases, the concentration i shall be limited to 2 x 10-4 uCi/ml. l 3.2.2 Methodology l ! This section presents the calculational method to be used for determining F L, the fraction of 10CFR20 limits, of release concentrations of liquid radioactive effluents. O
1 JAMES A. FITZPATRICK NUCLEAR POWER PLANT ~m i OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.2.2.1 General Approach This nethod addresses the calculation for a specific release source. Administrative controls are applied to assure that the summation of FL values for each release source does not exceed JAFNPP's 10CFR20 limit. Normally, all potentially radioactive liquid effluents are released to the unrestricted area through a single monitored release path as indicated in Appendix F. However, the service water system presents a potential release point for radioactive liquid effluents. To assure the combined releases do not exceed 10CFR20 limits, the alarm setpoint, as determined in Section 3.3 is normally multiplied by 0.5. The basic equation which determines the fraction FL of the 10CFR20 MPC limits ist [f h n l* E C' FL= l 3.2.2.1-1 ' O Where (f2/ 11 (MPC) ( FL = The fraction of 10CFR20 MPC limits resulting from the release source being discharged, dimensionless. fi
=
The undiluted release rate in of the release source as measured at the liquid effluent monitor location, in gpm. f2 = The discharge structure exit flow in gpm. (Summation of circulating water pump and service water pump discharge flow).
=
Ci The undiluted concentration of nuclide (i) in uCi/ml from sample assay. When a radionuclide concentration is below the lower limit of detection (LLD) for the analysis, it is not reported as being present in the sample. (MPC)1
=
Maximum Permissible Concentration of nuclide (1) from Appendix A, in uCi/ml. Using the general approach, the fraction of the 10 CFR 20 MPC limit may be determined by a nuclide-by-nuclide evaluation. p) (
6 o i JAMES A. FITZPATRICK NUCLEAR POWER PLANT
'~V]N ). OFFSITE DOSE CAICULATION MANUAL (ODCM) j i
5 3.2.2.2 Simplified Approach I For pprposes of simplifying the calculation, the value of 3 x 10-8 uCi/ml (unidentified 10CFR20 MPC value) should be substituted for (MPC)i in equation 3.2.2.1-1 and the cumulative concentration (Ctotal = sum of all identified radionuclide , concentrations) or the gross beta-gamma concentration should be 6 substituted for C t. 3.2.2.3 Approach Selection Criteria As long as the diluted concentration (Ctotal xif 2/f ) is equal to or [ less than 3 x 10-8 uCi/ml, the nuclide-by-nuclide calculation j is not required to demonstrate compliance with the 10 CFR 20 MPC i limit. i; 3.2.3 Calculational Process E The following section provides a procedure for determining the # minimum required dilution factor (f2/f l) to ensure that PL .6 1 during the actual release. With FL = 1, the minimum required ,]. dilution factor can be expressed as: ,~ fg = D I C 3.2.3-1 2 i I f i=1 l 1 min (MPC)1 f 3.2.3.1 Obtain (Ci ), the undiluted assay value of nuclide (i) , ; in uCi/ml. If a gross activity determination (simplified l approach) is used, the cumulative concentration i j (Ctotal) is used. 3.2.3.2 From Appendix A, Table L-1, obtain the corresponding (MPC)1 for nuclide (i) in uCi/al. The value of 3x10-8 uCi/ml should be used for the gross activity i method. : 3.2.3.3 Divide Ci by (MPC)i. I 3.2.3.4 If the gross activity method is used, then l _8 [f.M is given by Ctotal/3x10 I l sin i ; '~ If determining the MPC fraction by the nuclide-by-nuclide f evaluation, repeat steps 3.2.3.2 and 3.2.3.3 for each ! jf l ! nuclide and sum the totals. k w -. - - . . _ - - - - - -
JAMES A. FITZPATRICK NUCLEAR POWER PLANT v OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.2.3.5 Enter the total activity (C) and the minimum required dilution factor (f 2/fl ) min on the liquid release permit. 3.3 Determination of Setpoints for Radioactive Liquid Effluent Monitors 1 3.3.1 Requirements Technical Specification Section 2.1.a, Appendix B, requires that the radioactive. liquid effluent monitor be operable and set to initiate an alarm and/or trip in the event that the limits of Technical Specification Section 2.2, Appendix B,are approached. The alarm and/or trip setpoints shall be determined and adjusted by the methodology which follows. The setpoint values should be applied above normal background levels. The alarm setpoint for the liquid effluent radiation monitor is ' derived from the concentration limit provided in 10CFR PART 20, Appendix B, Table II, Column 2 applied at the unrestricted area boundary where the discharge tunnel flows into Lake Ontario. s- Methodology 3.3.2 The alarm setpoint does not consider dilution, dispersion, or decay of radioactive material beyond the unrestricted area boundary. That is, the alarm setpoint is based on a
-concentration limit at the end of the discharge tunnel.
A sample of each batch of liquid radwaste is analyzed for I-131 and other principal gamma emitters, or for total activity concentration prior to release. The fraction FL of 10CFR20 MPC limits and the minimum required dilution factor to achieve Fn= 1 is determined in accordance with the preceding section for the activity to be released. A conservative alarm and/or trip setpoint (uCi/ml) is determined ' in accordance with the following equation: S=.5 3.3.2-1 F i L 4 J
,r a
JAMES A. FITZPATRICK NUCLEAR POWER PLANT m . OFFSITE' DOSE CALCULATION MANUAL (ODCM) Where S . = The alarm and/or trip setpoint above background corresponding to the limiting concentration of undiluted liquid effluent (uCi/ml).
.5 = Conservatism factor to account for releases from multiple points.
C = Total gamma isotopic or gross activity concentration (uCi/ml) of sample as determined in the laboratory. FL = The fraction of 10CFR20 MPC limits for unrestriced areas resulting from the release source being discharged. 3.3.3 Calculational Process The following section provides a procedure for determining a liquid effluent monitor cetpoint. Typical parameter values are used for illustration. i
- 3. 3. 3.1 Determine f i , measured at the liquid effluent I monitor location. A typical value is 100 gym. f I
3.3.3.2 Determine f2 from pump curves and current plant ! operating configuration. A typical value is 3.?8 x 10 5 gp,, i~ 3.3.3.3 Determine C from laboratory analysis of the liquid effluent sample. For the purpose of this example, assume a value of 3 x 10-5 uCiAn1 in a gross [ beta gamma activity analysis. I 3.3.3.4 Determine the minimum required dilution f actor r I in accordance with equation 3.2.3-1: - [f 2h n Ci 1 in i 1 (" i 1 For a gross activity determination, the unidentified MPC of 3 x 10-8 uCihil is used. Therefore ?
!f 2, = 3x10-5 1 3x10-8 = 1000 4- I 1 min i
JAMES A. FITZPATRICK NUCLEAR POWER PLANT C)' g OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.3.2.5 A typical value of the dilution factor from current plant operating conditions is:
'[3.78 x 105 gpm] i 100 gpm = 3780, which is greater than 1000. Therefore the release can be made at the current release rates and concentrations maintained within the 10CFR20 limits.
3.3.2.6 Determine FL , the fraction of 10CFR20 MPC limits resulting from the release source being discharged at a dilution factor of 3780, in accordance with equation 3.2.2.1-1: [f__1_ .n c i y =i l
. I L
k 2) i=1 (MPC)1
= (100 1 3.78 x 105 ) x (3 x 10-51 3 x 10-8) = (2.65 x 10-4) x 1000 g
s,,) = .265 f 3.3.2.7 The liquid effluent monitor setpoint, S in uCi/ml, from equation 3.3.2.1-1 is: S = .5 - C FL
= . 5 . [ ( 3 x ' 10-5 ) + (.265)] = 5.66 x 10-5 uCi/ml.
3.3.2.8 Appropriate calibration factors are applied to this limiting concentration determined in step 3.3.2.7 to determine an effluent monitor alarm potentiometer setpoint. v i
JAMES A. FIT 2 PATRICK NUCLEAR POWER PLANT OFFSITE DG3E CALCULATION MANUAL (ODCM) 3.4 Dose Determination for Radioactive Liquid Effluents 3.4.1 _A_nnual Dose Assessment - Radioactive Effluent Release Report Submittal 3.4.1.1 Requirements Technical Specification Section 7.3, Appendix B, requires an annual Radioactive Effluent Release Report to be submitted that includes an assessment of the radiation doses to the public due to the radioactive liquid and gaseous effluents released from the unit during the previous calendar year. i- 3.4.1.2 Methodoloav This section provides the methodology to calculate the doses to all age groups and organs from all radionuclides identified in the liquid effluents. l The method is based on the methodology suggested by sections 4.3 and 4.3.1 of NUREG-0133, Rev.1, November,1978. The site-related dose factors for all viable pathways are listed in O- . Appendix B, Tables L-2 and L-3. Table L-3 dose factors are compiled by age groups, for all organs and radionuclides common to a BWR environment. The following equation provides for a dose calculation to the total body or any organ for a given age group based on actual release conditions during a specific time interval for radioactive liquid releases: Airati Qi1 D = * * (DF)1 where: D iy = Dose commitment in arem received by organ T of age group (to be specified) resulting from releases during time interval At i. O
JAMES A. FITZPATRICK NUCLEAK POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) V Ari
= The site-related dose commitment factor to the total body or any organ T for each identified radionuclide (1) . The Ai r values listed in Appendix A, Tables -L-2 and L-3 are site specific, in ares /hr per uCi/ml.
Dose commitment factors are compiled by age groups, for all organs and radionuclides common to a BWR environment. At1 = The number of hours of liquid effluent release during the calendar year. Qi .
= The total quantity of nuclide (i) released during the time period At i, in pCi.
(DF)1
= The total volume of dilution that occurred during the calendar year period Att (ie, the circulating water flow multiplied by the time) .
By entering the appropriate annual parameter values onto a form similar to that shown in Table 3.4.2, total body or organ doses may be calculated as outlined in Section 3.4.2.3. In addition, more realistic assumptions may be made concerning the dilution and ingestion of fish and potable water by individuals who live and fish in the area. 3.4.2 Monthly Dose Assessment - Verification of Compliance with 10CFR50 Appendix I Limits 3.4.2.1 Requirements Technical Specification Section 2.3, Appendix B, requires an assessment to be performed at least once every month in any quarter in which radioactive effluent is discharged, to verify that radioactive liquid effluents do not result in a cumulative dose in excess of 1.5 arem to the total body and 5 mrem to any organ in a calendar quarter. Q
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 4 3.4.2.2 Methodoloav This section presents the calculational method to be used for the 10CFR50 Appendix I compliance verification. The method is based on the models suggested by Sections 4.3 and 4.3.1 of NUREG-0133, Rev. 1, November, 1978. 3.4.2.2.1 General Approach The general-approach used is almost identical to that described in Section 3.4.1 for use in calculations for the annual Radioactive Effluent Release Report. The only difference is that the liquid effluent dose pathways considered are limited to the ingestion of fish and potable water. As discussed in Appendix D, these dose pathways are the only ones that need by considered for verifying compliance with the requirements specified in Section 3.4.2.1 above. The site-specific dose factors for the fresh water fish and potable water pathways are provided in Appendix A, Table L-2. For JAFNPP, the adult is the most limiting age group, but the ( dose for child, and teenager may also be calculated by this ! method using the appropriate dose factors from Appendix A, Table L-3. The following equation is used to determine a dose to the total body or any organ for a given age group based on actual release conditions during a specified time interval for radioactive liquid releases. The equation is: l l ! Ait A ti Q11 3.4.2.1-1
,1,,
(DF)1 where:
= Dose commitment in mrem received by organ T of age D17 group (to be specified) from release time interval At l.
l l 0 13 -
- - -..r., - ,vw-- ---- .-.-g - - , , - - - - , . , - , - - + , a , ,,e_--,,.-,---.---- ,o, w - .-- - - - -- - - -e
I JAMES A. FITZPATRICK NUCLEAR POWER PLANT O
'd i OFFSITE DOSE CALCULATION MANUAL (ODCM)
Ar i
= The composite dcse factor for the fresh water fish pathway and potable water pathway for nuclide (i) for organ T of age group (to be specified) . The Ai7 values listed in Appendix A, Table L-2 in this manual have the units mrem-ml .
Ci-hr atl = The number of hours over which the release occurs. Q11
= The total quantity of nuclide (i) released during the time periodatl in pCi.
(DF)1= The total volume of dilution that occurred during the release time period At1 (ie, the circulating water flow multiplied by the time) . 3.4.2.2.2 Limited Analysis Approach Based on the radionuclide distribution typical in radioactive
> effluents at JAFNPP, the calculated dose to individuals are dominated by the radionuclides, Cs-134, Cs-137, Zn-65, Kn-54 and Co-60. These nuclides typically contribute over 95% of the total O- body dose and over 95% of the liver dose, which is the critical organ. Therefore, the dose commitment due to radioactivity in liquid effluents may be reasonably evaluated by limiting the dose calculational process to these radianuclides for the adult total body and adult liver dose. To allow for any unexpected variability in the radionuclide distribution a conservatism factor of 0.9 is introduced into the equation. After calculating the dose based on these 5 nuclides, the cumulative dose should therefore be divided by 0.9. (Refer to Appendix D for a detailed l evaluation and explanation of this limited analysis approach) .
If the limited analysis approach is used, the calculation should be limited to the adult total body dose and adult liver dose from l l the fish and potable water pathways. Only the 5 previously specified nuclides need be evaluated. l l 0
r JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 1 E 3.4.2.2.3 Approach Selection Criteria The limited analysis approach fully satisfies the requirements specified in Section 3.4.2.1 and can thus be used at all times. The more general approach may be used for more refined calculations. 3.4.2.3 Calculational Method The methodology that follows is a step-by-step breakdown to calculate doses based on equation 3.4.2.1-1. If the limited analysis approach is used, the calculation should be limited to the adult total body dose and adult liver dose from the fish and , potable water pathways. Only the 5 previous specified I radionuclides need to be evaluated. ,
?
Note: Table 3.4.2 provides a convenient form for compiling the f-dose accounting information. ! 3.4.2.3.1 Determine the time intervalAt$ over which the release took place. i
)
'V 3.4.2.3.2 Obtain (DF)1 for the time period a ti for the release source (s) of interest. DF1 is the total volume of i 5 dilution, (i.e., the circulating water flow multiplied by the time.) 3.4.2.3.3 Obtain Qig (uC1) for nuclide (i) for the time period At$. 3.4.2.3.4 Obtain Ai T from the appropriate Liquid Dose Factor Table: Appendix A, Table L-2 for the fish and potable f water pathwayss Appendix A, Table L-3 for all other [ pathways. f
?
3.4.2.3.5 Solve for Dose (1) } D = 11' l' iT , iT (DF)
JAMES A. FITZPATRICK NUCLEAR POWER PLANT A OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.4.2.3.6 Repeat steps 3. 4.2.3.3 through 3. 4. 2. 3.5 for each nuclide reported and each organ required. If the
. limited analysis method is used, limit the radionuclides to Co-60, Mn-54, Zn-65, Cs-134 and Cs-137 and determine the adult total body dose and the adult liver dose.
3.4.2.3.7 Sum the D i r values to obtain the total dose to organ i f rom the fish and potable water pathways. If the limited analysis method is being used, divide the cumulative dose by a conservatism factor of 0.9 to account for any unexpected variability in radionuclide distribution.
- 3. 5 Dose Projections - Determination of Need to Operate Liquid Radwaste Treatment System 3.5.1 nequirements Technical Specification Section 2.4, Appendix B, requires that t
g- s appropriate subsystems of the liquid radwaste treatment system be used to reduce radioactive material in untreated liquid effluents (' when the projected monthly dose due to liquid releases to unrestricted areas, when averaged over 31 days, would exceed 0.06 mrem to the total body or 0.2 mrem to any organ. Doses are to be projected at least once per month. 3.5.2 Calculational Methodology The method is based on total body dose and critical organ dose (liver) as calculated in Section 3.4.2. The adult is the critical age group to be used for the dose projection. The following calculational methodology is provided for performing this dose projection. 3.5.2 1 Obtain the latest result of the monthly calculation of the adult total body and adult liver dose (Section 3.4.2). 3.5.2.2 Divide this dose by the number of batch releases from the plant during the month. 1
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 3.5.2.3 Multiply the quotient by the number of batch releases from the plant projected for the next month. The product is the projected dose for the next month. This value should be adjusted as needed to account for any changes in failed fuel or other identifiable operating conditions that could significantly alter the actual releases. 3.5.2.4 If the projected dose is greater than .06 mrem to the total body or 0.2 mrem to the liver, the appropriate subsystems of the liquid radwaste system shall be used to reduce the radioactivity levels prior to release. A 1 i 4 g
TABLE 3.4.2 FISH PATHWAY TIME /DATE START: TIME /DATE STOP: ti hours TOTAL DILUTION VOLUME: als AGE GROUP: ORGAN: DOSE FACTOR TABLE f Nuclide (i) Cg (pCi) A it Dose (i) mrem Mn-57 e e Co b E Zn-65 l Cs-134 d j Cs-137 Others: N l l Total Dose = mrem If based on limited analysis-i- 0. 9 I mrem A -
- ~ . . -
p_ 4 N *
'JAMESA. FIT 3PATdICKNUC'2ARPOWERPLANT
~ OFFSITE DOSE CALCULATION MANUAL (ODCM) 4.0 GASEOUS EFFLUENT METHODOLOGY l 4.1 Gaseous Waste Streann James A. Fitzpatrick Nuclear Power Plant discharges gaseous effluents through a stack, and discharges' ventilation air from the Reactor
. Building, Turbine Building, Radweste Building, and Refuel Floor through ! separately monitored vent release poir.ts. Normal gaseous effluent streams, and effluent discharge points are tabulated in Table F-1.
l (Appendix F). f' For the purpose of estimating offsite radionuclide concentrations and radiation doses, radionuclide concentrations are first measured in gaseous effluents and ventilation air exhausted from the plant'. , Technical Specifications Table 3.2-1, Appendix B, identifies the l specific radionuclides in gaseous dischargea for which sampling and l analysis is done. When a radionuclide concentration is below the LLD for the analysis, it is not reported as being present in the sample. ! 4.2 Data Requiremento for Gaseous Effluent Calculations; Dose calculations to demonstrate compliance'with Technical Specification Sections 3.2.a, 3.3.a and 3.4.a Appendix B,are normally . l performed using historical meteorolcgical data and receptor location (s) ! which yield calculated doses no lower than-those received by real l receptor (s). Historical meterclogical da'ta for use in performing dose
- calculations are provided in Appendix C. Dose calculations to show i conformance with Technical Specifications, Ippendix B, dose, limits may l be performed using real meteorological data,' real receptor locations, and sector wind frequency distribution if desired. ,
i Real meteorological data factors are calculated and used in dose
! calculations for the annual Radioactive Effluent Release Report.
! Historical information and conservative receptor assumptions, are only i used for ease of Technical Specifications, Appendix B, Limiting Condition of Operation (LCO) dose limit calculations. Any dose calculations i performed with real data should note the source of the data in the Annual Report. Real meteorological data modelling should be performed in accordance with Regulatory Guide 1-111, Rev. 1. JAFNPP uses an l- elevated release model for stack discharges and ground level release ! model for Reactor, Turbine, Radweste and Refuel Floor vents. ,
, e ~ '
lO
/ . , - 1g -
i
~ JAMES A. FITZPATRICK NUCLEAR POWER PLANT (O j- OFFSITE DOSE CALCULATION MANUAL (ODCM) n , l Those radionuclides that appear in the gaseous ef fluent dose factor tables are representative of BWR isotopes that may be considered in any i dose calculations.
4.3 Instantaneous Release Rate and Setpoint Determination 4.3.1 Determining Instantaneous Noble Gas Release Rates
. 4.3.1.1 Requirements Technical Specification Section 3.2.a.1, Appendix B, limits the instantaneous dose rate from noble gases in airborne releases to less than 500 ares /yr - total body, and less than 3000 mrem /yr - skin.
The results of the sampling and analysis program of Technical Specification Table 3.2-1, Appendix Be are used to demonstrate compliance with these limits. 4.3.1.2 Methodology The instantaneous dose rates to the total body and skin from noble [)
\~ /
gases are evaluated to determine gaseous effluent release rates and alarm and/or trip setpoints. The following calculational method is provided for determining the ! instantaneous dose rates to the total body and skin from noble gases in all airborne release paths from JAFNPP. However, for ease of calcialation and without unduly reducing the conservatism of the
- calculation, all releases may be treated as if discharged from two (2) release points; an elevated stack for condenser of f-gas releases and a ground-level vent for the combined discharge of the Reactor Building, i Turbine Building, Radwaste Building and Refuel Floor vents. Appendix F, Table F-1 provides a summary of gaseous effluent release sources and pathways for JAFNPP. Table E-6 provides a summary of the fraction of each isotope to the total release for the two (2) release points; elevated and ground.
The calculational meth 42 are in accord (ce with Section 5.1 and 5.2 of NUREG-0133, Rev. 1, November 1978. O 1
JAMES A. FITZPATRICK NUCLEAR POWER PLANT p OFFSITE DOSE CALCULATION MANUAL (ODO() The equations for computing instantaneous dose rates are: Total Body Dose Rate n . DRTB E Ei . (X/Q) .Qi 4.3.1.2-1 i=1 Skin Dose Rate n
- DRSKIN " E ILi + 1.1 Mi ] .(X/Q).Qi 4.3.1.2-2 i=1 where
= Total body dose rate from noble gases in airborne DRTB releases, in mrem /sec. = Skin dose rate from noble gases in airborne releases in DRSKIN mrem /sec.
Ki = The total body dose factor due to gamma emissions for , [T each noble gas nuclide (i) reported in the release
\-- source, in mrem-m 3/uci-sec.
Li = The skin dose f actor due to beta emissions for each noble gas nuclide (i) reported in the assay of the release 3 source in mremem /uci-sec.
= The air dose factor due to gamma emissions for each noble Mi gas nuclide (i) reported in the assay of the release source. The constant 1.1 converts ' mrad' to ' mrem' since 3
the units of Mi are in: [ mrad-m /uCi-sec) (X/Q) vent = For ground level releases, the highest calculated annual long term historic relative dispersion coefficient for any of the 16 sectors, at or beyond the unrestricted area boundary, in sec/m 3. s_ 7
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (GDCM) (X/Q) stack = For elevated releases, the highest calculated annual long term historic relative dispersion coefficient for any of the 16 sectors, at or beyond tne unrestricted area boundary, in sec/m 3.
= The release rate of noble gas nuclide (i) from the Qi release source of interest, in uCi/sec.
4.3.1.2.1 Limited Analysis Approach - Instantaneous Noble Gas Release Rate The above methodology can be simplified to provide for a rapid determination of cumulative noble gas release limits based on the requirements specified in Section 4.3.1.1. Beginning with equation 4.3.1.2-1, the simplification proceeds as follows: From an evaluation of past releases, an effective total body dose factor (K,gg) can be derived. This dose factor is, in effect, a weighted average total body dose factor (i.e., weighted by the radionuclide distribution typical of past operation) . See Appendix 'E' for a detailed explanation and evaluation of K,gg. O' K,gg has been derived from the radioactive noble gas effluents for The value of the years 1980, 1981, and 1982 for the plant. The value is: K,gg = 7.68 x 10-5 [ mrem-m3 /uCi-sec] (Ground Level Releases) i Kegg = 1.41 x 10-4 [ mrem-m 3
/uci-sec] (Elevated Releases)
Either of these values, as appropriate, may be used in conjunction with the total noble gas release rate (2 Q i ) to verify that the instantaneous dose rate is within the allowable limits. To compensate for any unexpected variability in the radionuclide distribution a conservatism factor of 0.8 is introduced into the calculation. The simplified equation is n . TB eff" 1"1 i 4.3.1.2.1-1 0.8
l l l l JAMES A. FITZPATRICK NUCLEAR POWER PIANT \ OFFSITE DOSE CALCULATION MANUAL (ODCM) l l Where: DRTB
~ = Total body dose rate from noble gases in airborne releases, in arem/sec.
X/Q = For ground level or elevated releases, the highest calculated annual long term historic relative concentration for any of the 16 sectors, at or beyond the unrestricted area boundary, in sec/m 3, Q = The total release rate of all noble gas nuclides from the release source of interest, in uCi/sec. A single cumulative (or gross) noble gas release rate limit for elevated releases and ground level releases may be derived by rearranging equation 4.3.1.2.1-1 as follows: DR *(* ' Q. = TB 4.3.1.2.1-2 Keff x (X/Q) These limits may be determined by taking the highest calculated annual long term historic relative concentration, for elevated and ground level releases, at any of the 16 land based sectors, at or beyond the unrestricted area. From Appendix C, Table M-1, these values are:
= 6.8 x 10" (Elevated Releases) !O stack a = 8.3 x 10 (Ground Level Releases) !O vent m Also, the dose limit of 500 mrem /yr = 1.585 x 10-5 mrom/see may be substituted for DRTB in equation 4.3.1.2.1-2.
o T JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) In addition, from a review of gaseous effluent releases as reported in the JAFNPP semi-annual Effluent Release Reports for the years 1980, 1981, and 1982, it was determined that, on the average, approximately 90% of the annual total body dose from noble gases is due to elevated releases. These data are presented in Appendix E. In accordance with this, the release limit is split as follows: 904 - Elevated Release 104 - Ground Level Release Making these substitutions in equation 4.3.1.2.1-2 yields the following cumulative (or gross) noble gas release rate limits: Elevated Release Rate Limit = 1.34 x 108 uCi/see Ground Level Release Rate Limit = 2.25 x 106 uCi/sec As long as the noble gas release rates do not exceed these values (1.34 x 108 uCi/sec for elevated releases, and 2.25 x 106 uCi/sec for ground level releases) no additional dose rate calculations are needed O to verify compliance with the instantaneous release rate limits of Technical Specification Section 3.2.a.1, Appendix B. 4.3.1.2.2 General Approach - Total Body and Skin Nuclide-Specific Instantaneous Release Rate Calculations The methods described herein need only be used if the actual releases exceed the values of: Elevated Release = 1.34 x 108 uCi/sec Ground Level Release = 2.25 x 106 uCi/sec Total Body Dose Rate l l n n DRTB = I DRTBi
=
I K. i (X/Q) . Qi 4.3.1.2.2-1 f i=1 i=1 l where: DRTB = Dose rate to the total body due to gamma emissions from noble gas nuclide (i) , arem/sec. i l
, , . .--,-_.___,._.,.,.n , . . . _ . - . . , . - , , - - , . . - - . . . . , - - . . , -
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM)
= Dose rate to the total body due to gamma emissions from DRTBi nuclide (i) , arem/sec. = The total body dose factor due to gamma emissions from Ki noble gas radionuclide (i), in arem-m3 /uCi-sec. (See Table G-2, Appendix B).
X/Q = Calculated annual longterm historic value of CHI /Q for the most limiting land sector at the unrestricted area boundary, in sec/m 3. (See Table M-1, Appendix C) . Elevated Release X/Qstack = 6.8 x 10-10 sec/m 3 Ground Level Release X/Qvent = 8.3 x 10-9 sec/m3 Qi = Release rate of the ith nuclide, in uCi/sec. Total Skin Dose Rate n n
= 4.3.1.2.2-2 DRSKIN E DRSKIN " E ILi + 1.1 Mi ] (X/Q) Qi i=1 i=1 where:
DRSKIN
= Dose rate to skin due to beta and gamma radiation from noble gas nuclide (i) [ mrem /sec].
Li = The skin dose factor due to beta emissions from noble gas nuclide (i) , in arem-m 3 /uCi-sec (See Table G-2, Appendix B). Mi
= The air dose factor due to gamma emissions from noble gas nuclide (i) , in mrad-m3 /uci-cec. (See Table G-3, Appendix B).
O
JAMES A. FITZPATRICK NUCLEAR POWER PLANT p OFFSITE DOSE CALCULATION MANUAL (ODCM) 1.1 = Conversion factor for Mi from arad to arem. X/Q . = Calculated annual long term historic value of CHI /Q [sec/m3 ] for the most limiting land sector at the unrestricted area boundary, in sec/m 3. (See Table M-1, Appendix C) . Qi
= Release rate of the ith nuclide in uCi/sec.
The dose rate contribution of this release source shall be added to all other simultaneous gaseous release sources, if any, to determine overall total dose rate to the total body and skin from noble gas effluents. 4.3.1.3 Calculational Process The following outline provides a step-by-step explanation of how the total body and skin dose rates are calculated on a nuclide-by-nuclide basis to evaluate compliance with Technical Specification Section 3.2.a.1, Appendix B. This method is only used if the actual releases exceed the value specified in ODCM Section 4.3.1.2.1. 4.3.1.3.1 The X/Q value = sec/m3 and is the most limiting sector at the unrestricted area. 4.3.1.3.2 Enter the release rate in ft / 3min of the release source and convert it to cc/ sect 3
= ( )ft . 2.8317 x 10 cc . min min ft3 60 sec = cc/sec volume release rate 4.3.1.3.3 Determine Qi for nuclide (i) by obtaining the uCi/cc assay value of the release source and multiplying it by the release rate computed in the previous steps.
l
)ce t )uci (
Qi = ( . cc sec O b JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) Qi= uCi/sec for nuclide (1). 4.3.1.3.4 To evaluate the total body dose rate obtain the Ki value for nuclide (1) from Appendix B Table G-2. 4.3.1.3.5 Solve for.DRTBi8 3 DR k . (X/Q)
- Q = mrem-m sec , uCi TBi ,
uCi yr m3 ,,e DR ~ TBi release source in mrem /yr. 4.3.1.3.6 To evaluate the skin dose rate obtain the Li and Mi values from Appendix B Table G-2 for nuclide (1). 4.3.1.3.7 Solve for DRSKIN 18 DRSKIN i " (Li + 1.1 M i ) . (X/Q) .Qi DRSKIN i = Skin dose from nuclide (1) for the specified release source, in mrem /yr. 4.3.1.3.8 Repeat steps 4.3.1.3.1 through 4.3.1.3.7 for each noble gas nuclide (i) reported in the assay of the release source. 4.3.1.3.9 The dose rate to the total body from radioactive noble gas gamma radiation from the specified release source is: n DRTB
= DRTBi i=1 4.3 1.3.10 The dose rate to the skin due to noble gas radiation from the specified release source is :
n DRSKIN = E DRSKIN i i=1 v l ! L
r it w I JAMES A. FITZPATRICK NUCLEAR POWER PLANT {'
; a f d OFFSITE DOSE CALCULATION MANUAL (ODCM) i f
1l i The dose rate contribution of this release source shall be added to all .; l other gaseous release sources that are in progress at the time of I
~
interest. l i, Y 4 Technical Specification Section 3.2.a.1, Appendix Bj requires the ((> following: ') . 1 DRTS 1500 mres/yr (1.585 x 10-5 area /sec) { d DRSKIN 1 3000 arem/yr (9.513 x 10-5 area /sec) { i Where: ; i DRTB
= The sum of the total body dose rate contributions f (ares /sec) from all noble gas nuclides from all {
concurrent releases. } f* DRggry = The sum of skin dose rate contributions (arem/sec) p from all noble gas nuclides frun all concurrent releases. J 4.3.2 Setpoint Determination b 4.3.2.1 Requirements i II To comply with Technical Specification Section 3.1, Appendix B, the alare/ trip setpoints are established to ensure that the noble gas b releases do not exceed the appropriate cumulative (or gross) noble gas J release rate limit specified in ODCM Section 4.3.1.2.1. it 4.3.2.2 Methodology j l This section describes the methodology for determing alarm / trip set $ points for the stack and vent gaseous release pathways. Tb allow for j-multiple sources of releases from different or common release points, [ the allowable operating setpoints will be administratively controlled i to allocate a percentage of the total allowable release to each of the j release sources. The cumulative noble gas release rate limit for a { stack (elevated) release (1.34 x 108 uC1/sec) is based on allocating l 90% of the total body dose limit to the stack release point. The 4 individual release rate limits for the four other gaseous release { points (assumed to be ground level releases), are based upon an ; allocated rcentage of the cumulative ground level release rate limit i (2.25 x 10 uCi/sec). [ T i O , i
-l 1 r
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) The method that follows establishes a procedure for determining setpoints. 4.3.2.2.1 ~ Determine the maximum volume release rate potential for the release source under consideration. 4.3.2.2.2 Based upon that release rate [FT3 / MIN or other units of Vol/ Time] determine the equivalent activity concentration in [uCi/CC] that.would produce a release of: 1.34 x 108 uCi/sec - Elevated Release i 2.25 x 106 uCi/sec - Ground Level Release 4.3.2.2.3 Referring to the calibration curve [uci/CC vs. CPM] for the release source's gaseous effluent monitor, determine the CPM value (C) corresponding to the value of activity concentration determined in step 4.3.2.2.2.
- 4.3.2.2.4 For an elevated release the setpoint is equal to the CPM value, (or corresponding potentiometer setting), as follows
SP = (C) CPM 4.3.2.2-1 4.3.2.2.5 For a ground level release, (C) corresponds to 100% of the ground level release rate limit assuming no other ground level release sources at the time. To obtain an operational setpoint value SP, take (C) in (CPM) and multiply it by the allocated fraction for the individual ground release point. j fraction i allocated for 4.3.2.2-2 SP = (C) CPM . a particular l ground releas The total body dose is more limiting than the calculated skin dose. (See Appendix 'E' for a detailed evaluation.) Therefore, the skin dose
- rate calculations are not required if the simplified dose rate l calculation is used (i.e., using K,gg to determine release rate i limits) .
O l
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) i The calculational. processes of section (4. 3.1. 2) are to be used if the actual releases of noble gases exceed the predetermined limits of 1.34 x 108 uCi/sec for elevated releases or 2.25 x 10 6uCi/sec for ground level-releases. Under these conditions, a nuclide-by-nuclide evaluation is required to evaluate compliance with the dose rate limits of Technical Specification Section 3.2.a.1, Appendix B. 4.3.3 Determinino the Radioiodine and 8 Day Particulate Instantaneous Release Rates 4.3.3.1 Requirements ,
- Technical Specification Section 3.2.a.2, Appendix B, limits the instantaneous dose rate from radioiodines and particulates with half-lives greater than 8 days to 1,500 ares /yr to any organ.
4.3.3.2 Methodology fN The following calculational method is provided for determining the dose ( rate from radioiodines and particulates. It is based on NUREG-0133, Rev.1, November,1978; Sections 5.2.1, and 5.2.1.1 through 5.2.1.3. i Based on an analysis of doses to all organs from all atmospheric release pathways and age groups (EDS Nuclear RG109 Computer Analysis, EDS Version 2, Rev. 0) the infant was determined to be the. controlling
-age group for the contaminated forage / cow / milk pathway. There is no controlling age group for the ground plane deposition pathway. The child is the controlling age group for the inhalation pathway. These three pathways are the only ones that'need be considered for instantaneous releases. The long-term (X/Q) Depleted and (D7Q) values are based on historical meteorological data. Dose factors for nuclides listed in Appendix B, Table G-4 will be used.
Inhalation Pathway n . l DRI68DP t
= I pit . (X/Q) D
- Qi 4.3.3.2-1 i=1 Ground Plane Deposition Pathway l n .
l DR I&8DP " Pi . (D/Q) . Qi 4.3.3.2-2 T , 1=1 i [ 5
JAMES A. FITZPATRICK NUCLEAR POWER PIANT
\
OFFSITE DOSE CALCULATION MANUAL (ODCM) Contaminated Forage / Cow / Milk Pathway
- n ,
E DRI&8DP
= .(D/Q) .
Qi 4.3.3.2-3 T i=1 Pi7 Total Dose Rate From I&8DP DR 7 = g DRI&8DP 4.3.3.2-4 Z where: T = The organ of interest for the age group of interest. z = All the applicable pathways. Qi = Release rate of nuclide (1), [uCi/sec].
- f-'g DRI&BDP t Dose rate to the organ T for the age group of interest from iodines and 8 day
(_ ) particulates via the pathway of interest in [ mrem /yr ) . DRT = Total dose rate to organ T from all applicable pathways for the age group of interest in [ mrem /yr]. (X/Q)D = The long-term depleted and 8-Day decayed CHI /Q value based on historical , meteorological data (see Table M-1, I Appendix C) [in sec/m 3) (D/Q) = The long-term relative deposition value based on historical data (in m-2], (see Table M-1, Appendix C) . ' = Pi The dose factor for applicable environmental pathway in [ units vary with pathway). (See Tables G-4 through G-6, Appendix B) JAMES A. FITZPATRICK NUCLEAR POWER PLANT (-~) OFFSITE DOSE CALCULATION MANUAL (ODCM) 4.3.3c.2.1 Limited Analysis Approach
- From an evaluation of the radioactive zelesce and environmental pathways, the contaminated forage / cow / milk pathway has been identified as the most limiting pathway with infant's thyroid being the most critical organ. This . pathway contributes, on the average, greater than 85% of the total dose received by the infant's thyroid and the radioiodines contribute essentially all of this dose.
Therefore, it is possible to demonstrate compliance with the release rate limit of Technical Specification Section 3.2.a.2, Appendix B,for radioiodines and particulates by only evaluating the infant's thyroid dose for the release of radioiodines via the contaminated forage / cow / milk pathway. A conservatism factor of 0.8 is applied to the equation. If this limited analysis approach is used, the dose calculations for other radioactive particulate matter and other pathways need not be performed. Only the calculation for radioiodines from the contaminated forage / cow / milk pathway need be performed to demonstrate dose rate () compliancewiththeTechnicalSpecification,IN7 limit. %y The limiting iodine release rate is then determined by the following relationships:
. DRThyroid Q = x 0.8 4.3.3.2.1-1 I
(D/Q) Pi (Thyroid) Whe re DRThyroid = Dose rate to the infant's thyroid f rom the contaminated forage / cow / milk pathway set equal to the Technical Specification Section 3.2.a.2, Appendix B ilimit of 1,500 mrem / year, or 4.78 x 10-5 m rem /sec. Pi (Thyroid) = The instantaneous dose factor for nuclide i for the infant's thyroid for the contaminated forage / cow / milk pathway. O
4 JAMES A..FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) D/Q = The relative deposition value for a specific location where the receptor is located, in a-2 (See Table M-1, Appendix C). Or
= Limiting iodine release rate, in uCi/sec.
0.8 = A conservatism factor of 0.8 for a typical radioisotope distribution and dose contribution. 4.3.3.2.2 Approach Selection Criteria Only the limited analysis approach need be used for verifying compliance with release rate limits for radioiodines and eight day particulates. 4.4 Dose Determination for Radioactive Gaseous Ef fluents 4.4.1 Annual Dose Assessment - Radioactive Ef fluent Release Report Submittal 4.4.1.1, Requi rement s
- Technical Specification Section 7.3, Appendix B, requires an annual Radioactive Effluent Release Report to be submitted that includes an assessment of the radiation doses to the public due to the radioactive liquid and gaseous effluents released from the unit during the previous calendar year.
4.4.1.2 Methodology The section provides the methodology to calculate the doses to all age groups and organs f rom all radionuclides identified in the gaseous effluents. The method is based on the methodology suggested by sections 5.3 and
- 5. 3.1 of NUREG-0133, Rev. 1, Novembe r, 197 8. The site-related dose
! f actors for all viable pathways are listed in Appendix B, Tables G-1 through G-8. Dose factors are compiled by age groups, for all organs and radionuclides common to a BWR environment. The following equations provide for a dose calculation to the total body or any organ for a given age group based on actual release rates during a specific time interval for radioactive gaseous release sources: I
. , ._ _ _ _ _ . . _ _ _ - __ _ . _ . _ . - _ _. ~ _ _ _ . _ _ . - _ . _ . _ _
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 4.4.1.2.1 Annual Dose Due to Noble Gases 4.4.1.2.1-1 DGamma-Air = j,Mi x (X/Q) x Qi Where: DGamma-Air = The gamma air dose f rom radioactive noble gases, in arad. Mi = The gamma air dose factor for radioactive noble gas nuclide 'i', in arad-m 3/uci-sec. (See Table G-3, Appendix B). (X/Q) = The long-term atmospheric dispersion factor for ground level or elevated releases (annual average) for the year of interest. Actual meteorological data and sector wind frequency distributions will be used to determine annual X/Q for the year of interest. r~N = The number of uCi of nuclide 'i' released during the f Qi ( year of interest. n DBeta-Air = al Ni x (X/Q) xQi 4.4.1.2.2-2 s' t l Where: DBeta-Air = Beta air dose f rom radioactive noble gases (in mrad). Ni = The beta air dose factor for radioactive noble gas nuclide (i) in arad-m3 /uCi-sec. (See Table G-3, Appendix B). (X/Q) = The long-term atmospheric dispersion factor for ground level or elevated releases (annual average) for the year of interest. Actual meteorological data and sector wind f requency dis.tributions will be used to determine annual X/Q for the year of interest. Qi = The number of uCi of nuclide 'i' released during the year of interest.
-s
JAMES A. FITZPATRICK NUCLEAR POWER PIANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 4.4.1.2.2 Annual Dose Due to Radioiodines and 8-Day Pa rticulates Inhalation Pathways n l DRI&8DP i
= I Ri . (X/Q) p . Qi 4.4.1.2.2-1 i
i=1 Ground Plane Deposition Pathway n DRI&8DP T
=
I Ri .(D/Q) T
. Qi 4.4.1.2.2-2 i=1 Contaminated Forage / Cow / Milk Pathway n
DRI&8DP 7 ",I Rt . (D/Q) . Qi 4.4.1.2.2-3 i=1 Contaminated Forage / Goats Milk Pathway n DRI&BDP t
=
IRi .(D/Q) . Qi 4.4.1.2.2-4 [V'} 1,1 Contaminated Forage / Meats n DRI&8DP T =I Ri T. (D/Q) . Qi 4.4.1.2.2-5 i=1 Stored Fruits and Vegetables n DRI&8DP 7
=
IRi . (D/Q) . Qi 4.4.1.2.2-6 i=1 T ' Fresh Fruits and Vegetables I n DR I&8DP = IRt . (D/Q) . Qi 4.4.1.2.2-7 7 i=1 T Total Annual Dose n D7 = E DR I&8DP i=1 I l l t O
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) where: 1f ,= The organ of interest for the age group of interest. z = All the applicable pathways. DRI&8DP
= Dose rate to the organ if for the age group of interest f rom iodines and 8 day particulates via the pathway of interest in [arem/yr).
DR = Total dose rate to organ 2f f rom all applicable pathways for the age group of interest in (mres/yr]. Q = The number of uCi of nuclide 'i' released during the year of interest. Ri y = The dose factor for nuclide (i) for organ f for the pathway specified [unita vary with pathway]. (See Table G-8, Appendix B) (D/Q) = A long-term relative deposition value for elevated and ground level releases. A factor with units of m-2 O which describes the deposition of particulate matter f rom a plume at a point downrange f rom the source. Actual meteorological data and sector wind f requency distribution will be used to determine annual average D/Q for the year of interest. (X/Q), = A long-term depleted and 8-day decayed relative concentration value for elevated and ground level release. It describes the physical dispersion characteristics of a semi-infinite cloud travels downrange. Since iodines and particulates settle out (fallout of the cloud) on the ground, the (X/Q) g represents what physically remains of the cloud at a given location downrange f rom the release point. Actual meteorological data and sector wind f requency distributions will be used to determine annual average (X/Q), for the year of interestd. Total body and organ doses will be calculated for pathway and age group on an annual basis using the above described methodology. n v
k 1 JAMES A. FITZPATRICK NUCLEAR POWER PLANT
! OFFSITE DOSE CALCULATION MANUAL (ODCM) ~
Meteorological Data - (X/Q, X/QD, D/Q) will be determined f rom actual Leteorological data and sector wind f requency distributions for the year of inte rest. Release rates (uCi/ year) will be based on total activity released through elevated and ground level (total of all vent pathways) as reported in the semi-annual effluent report. 4.4.2 Monthly Dose Assessment - Verification of Compliance with 10 CFR ' 50,' Appendix I 4.4.2.1 Dete rmining the Gamma Air Dose for Radioactive Noble Gas Release Source (s) 4.4.2.1.1 Requirement
- Technical Specification Section 3.3.a.2, Appendix B, limits the yearly dose due to noble gases in the gaseous effluent to less than 10 mrem to the whole body from gamma. This is equivalent to a yearly air dose 4
_p/
\,, limit of less than.10 mrad.
1 4.4.2.1.2 Methodology .
- The following calculation method is provided for determining the noble l gas gamma air dose and is based on Section 5.3.1 of NUREG-0133, Rev.1, i November 1978. The dose calculation is independent of any age group.
The equation may be used for Technical Specification, Appendix B, dose calculations, the dose calculation for the annual report, or for projecting dose, provided that the appropriate value ot (X/Q) is used. I The equation for gamma air dose is: i n Mi * (X/Q) Qi 4.4.2.1.2-1 DGamma-Air i=1 where: D = The gamma ali se f rom radioactive noble Gamma -Air gases in arad. t i i I !O I l
4-1 JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCN) l
= The gamma air dose factor for radioactive noble gas Mi nuclide 'i', in arad-m 3 /uci-sec (See Table G-3 in . Appendix 'A')
(X/Q) = The long term atmospheric dispersion factor for round level or elevated releases (worst case) in sec/m . (See Appendix C, Table M-1.) Qi
= The number of uCi of nuclide 'i' released (or projected) during the dose calculation exposure period. (e.g. , month, qua rte r, or yea r) ,
i (a) Limited Analysis Approach The following limited analysis approach is used to establish monthly release objectives (uCi/ month) that will ensure compliance with the 10 CFR 50, Appendix I, yearly whole body gamma dose limit of 10 mrea. From an evaluation of past releases, a single effective gamma air l dose factor (Megg) has been derived, which is representative of O the radionuclide abundances and corresponding dose contributions typical of past operation. explanation and evaluation of M,gg). (See Appendix C for a detailed The value of M,gg has been derived from the radioactive noble gas effluents for the years 1980,1981, and 1982. The value is M,gg = 8.17 x 10-5 mrad-m3/uCi-sec .(GROUND RELEASE) 1.37 x 10-4 mead-m3 /uCi-sec M,gg = (ELEVATED RELEASE) The ef fective gamma air dose factor may be used in conjunction with the total noble gas-release (1 Q i ) to simplify the dose evaluation and to verify that the cumulative gamma air dose is within the equivalence of the limits of Technical Specification 3.3.a.2. To compensate for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.8 is introduced into the calculation. The simplified equation is f n ' (Mef f) (X/Q) g Qi
= 0.8 4.4.2.1.2-2 DGamma-Air i-1
( 1
JAMES A. FITZPATRICK NUCLEAR POWER PLANT
'OFFSITE DOSE CALCULATION MANUAL (ODCM)
For purposes of calculations, the appropriate meteorological dispersion (X/Q) should be used.
~
Solving equation 4.4.2.1.2-2 for Qi yields the following: n D Gamma-Ai r x ( . 8)
- 2. 9, = 4.4.2.1.2-3
(Me gg) x (X/Q)
Technical Specifications Section 3.3.a, Appendix B, states that the doses must be evaluated once per month. The yearly dose limit is 10 mrads, which corresponds to a monthly allotment of 0.83 mrads. If the .83 mRads is substituted for DGamma-Air in equation 4.4.2.1.2-3, a cumulative noble gas monthly release objective can be calculated for elevated and ground level re leases. As described in Section 4.3, 90% of the dose will be allocated to elevated releases and 10% to ground level releases in accordance with release source terms for the year 1980, 1981, and 1982 (Appendix E). Thus, X/Q values of 8.3 x 10-9 sec/m3 for ground level releases and 6.8 x 10-10 ,,cy,3 for elevated releases can be used, along with the corresponding Meff values, to calculate the following cumulative noble gas monthly release objectives: Q (ground level release) = 8.8 x 1011 uCi/ month
'Q (elevated release) = 7.13 x 1011 uCi/ month As long as this value is not exceeded in any month, no additional calculations are needed to verify compliance with the quarterly noble gas release limits of Technical Specification Section 3.3.a.1, Appendix B.
(b) Approach Selection Criteria The gamma air dose is more limiting than the beta air dose. Therefore, the beta air dose determined in accordance with Section l 4.4.2.2 need not be calculated if the M,gg dose factor is used to determine the gamma air dose (i.e. , the limited analysis approach) . See Appendix 'E' for a detailed evaluation and explanation. O 1 l
l i JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 4.4.2.2 Determinino the Beta Air Dose for Radioactive Noble Gas Release Sources
~
The beta air dose calculations of Section 4.4.2.2 need only be performed if the radionuclide specific dose analysis is perfo rmed. The radionuclide specific dose analysis is performed if the monthly release objectives of Section 4.4.2.2 are exceeded and for calculations in the annual Radiological Effluent Release Report. 4.4.2.2.1 ' Requirement TechnicalSpecification3.3.a.2finitstheyearlydoseduetonoble gases in the gaseous effluents to less than 20 mrads to the skin from beta. - The beta air dose-need not be evaluated if the more conservative and limiting noble gas gamma air dose is evaluated by the use of the effective gamma air dose factor (M,gg) in accordance with Section 4.4.2.1. However, if the nuclide specific dose calculation is used to evaluate compliance with the gamma air dose limits (Section 4.4.2.1), 4 then the beta air dose should also be evaluated on a nuclide specific basis using the methodology presented below. 4.4.2.2.2 Methodoloav The following calculational method is provided for determining the beta air dose and is based on Section 5.3.1 of NUREG-0133, Rev.1, November 1978. The dose calculation is independent of any age group. The equation may be used for dose calculations for annual Radiological Ef fluent Release Reports, or for projecting dose, provided that the appropriate value of (X/Q) is used.' The equation for beta air dose is i'
=
Ni '(X/Q)* Qi 4.5-1 DBeta-Air i=1 where,- ,
= Beta air dose f rom radioactive noble gases in (mrad).
DBeta-Air 1 i
. ,- y-w. , , , , - . -, w-w..,,------ , ,- -- .
_, , - ~ , . . _ - . ., ...-.,,..-,,..--,o____ , - - - ----,w.,-,----.--
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) l
, Ni = The beta air dose factor for radioactive noble gas nuclide 'i' in arad-m /uCi-sec 3 (See Table G-3 in Appendix A).
(X/Q) = _ The long term atmosphetic dispersion factor for ground level or elevated releases, in sec/m 3, (See Appendix C.)
= The number of uCi of nuclide 'i' released (or Qi projected) . during the dose calculation exposure period.
4.4.2.3 Determinina the Radioiodine and 8 Day Pa rticulate Dose to any Oraan f rom Cumulative Releases 4.4.2.'3.1 Requirement A 3 Technical Specification 3.4.a.1,p.6 limits the dose to the total body or any organ resulting from the release of radioiodines and particulates with half-lives greater than 8 days to less tbon 7.5 mrea/ quarter. 4.4.2.3.2 Methodoloav
~ The following calculational method is provided for determining the critical organ dose due to releases of radioiodines and particulates.
It is based on Section 5.3.1 of NUREG-0133, Rev.1, November 1978. The equation can be used for any age group provided that the appropriate dose f actors are used and the total dose reflects only those pathways that are apal,icable to the age group. The symbol (X/Q}p_ represents a dggleted (X/Q) which is different from the Noble Gas (X/Q) in that (X/Q) D takes into account the loss of iodines, 8 day particulates and tritium f rom the plume as the semi-infinite cloud travels over a given distance. The dispersion f actor, (D/Q) , represents the rate of fallout from the cloud that affects a square meter of ground at various distances from the site. The total dose to an organ can then be determined by summing the pathways that apply to the receptor in the secto r. The equations are: O e l .-._- . _. . . . _ _ , _ ________ _ _ _ _ _ _ _ __ _
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) Inhalation Pathway n (DI6 8DP IT = (3.17 x 10-8)i"1 I Ri7 (X/Q)D - Qi 4.4.2.3.2-1 Inhalation Ground Plane Pathway n l (DIE 8DPIT = (3.17 x 10-8) I Rit. (D/Q) . Qi i=1 4.4.2.3.2-2 Contaminated Forage / Cow / Milk Pathway n (DIE 8DP)
= (3.17 x 10-8) I R17 (D/Q) . Qi 4.4.2.3.2-3 T 1=1 Total Dose i
n D = I 4.4.2.3.2-4 i z _ DIE 8DP t where t
= Tne organ of interest in a specified age group.
z = All the applicable pathways for the age group of i interest. i DI&8DP I
= Dose in mrem to the organ T of a specified age group from radioiodines and 8 day particulates due to a i particular pathway.
Dr = Total dose in mrem to the organ T of a specified age group from gaseous iodine and particulate effluents. 3.17x10-8 = The inverse of the number of seconds per year in [ years /sec) l
i i *AMES
, A.' FITEPATRICK NUCLEAR POWER PLANT i p OFFSITE DOSE CALCULATION MANUAL (ODCM)
! RiT = The dose factor for nuclide (i) for pathway z to , organ 7 of the specified age group. The ,
~
3 units are either, aren -m for pathways yr -uci using (X/Q)g or arem ,2 ~8'C fer pathways yr -uCi using (D/Q) . (See Tables G-5 thru G-8, Appendix B) (X/Q)D
= The depleted (X/Q) value for a specific location where the receptor is located. The units are
[ sec/m 3]. (See Table M-2 or M-3, Appendix B) (D/Q) = The deposition value for a specific location where the receptor is located. The units are [a-2),
' (See Table M-2 or M-3, Appendix B) ~
Qi = The number of micro-curies of nuclide (i) released ! (or projected) during the dose calculation exposure period. (a) Limited Analysis Approach
, As discussed in Section 4.3.3 above, the contaminated forage / cow / milk pathway has been identified as the most limiting
, pathway with the infant's thyroid being the most critical organ l and age group. This pathway contributes, on average, over 85% of the total dose received by infant's thyroid and the radioiodines contribute essentially all of this dose. Therefore, it is possible to demonstrate complianeg with the dose limit of Technical Specification 3.4.a.1,Tial radioiodines and particulates by only evaluating the infant's thyroid dose due to the release of radioiodines via the contaminated forage /cus/ milk pathway. l The calculational method to be used includes a conservatism factor of 0.8 which assures that the calculated dose is always greater than or equal to the actual dose despite possible atypical distributions of radionuclides in the gaseous effluent.The simplified dose equation reduces to: I
- DT = [3.17 x 10-8 (D/Q) iodines Ri . Qi ) /0.8 4.4.2.3.2-5 I
i
4 i i JAMES A. FIT 5 PATRICK NUCLEAR POWER PLANT ; I~ OFFSITE DOSE CALCULATION MANUAL (ODCN) (b) Approach Selection Criteria { I The limited analysis may be used in all cases to demonstrate
~
l
- compliance with the dose limit.of Technical Specification 3.4.2.k App. B, (7.5 ares /qtr) for radioiodines and particulates.
1 However, for the dose assessment included in the annual Radioactive Effluent Release Report, doses will be evaluated for all designated age groups and organs via all designated pathways from radioiodines and particulates measured in the gaseous effluents according to sampling and analyses required by Technical Specification. 1 4.5 Dome Proiection - Determination of Need to Operate Offeas Radwaste 4.5.1 Requirement Technical Specification Section 3.6.a, Appendix B, requires that the offgas radweste treatment system be used to reduce radioactive material in waste prior to discharge when the projected dose due to gaseous effluents would exceed 0.2 mrad for gamma radiation and 0.4 mrad for beta radiation in a 31 day period. , A S .- I 4.5.2 Nothodology The following calculation method is provided for determining the projected doses. PDY = ji . DY . X 4.5.2-1 x PD g = R. DS . X 4.5.2-2 j x ; l where: PDy = Projected air dose due to noble gas gamma radiation during the current quarter (arad) PD = Projected air dose due to noble gas beta radiation during the current quarter (arad) 9 91 = Number of days in a quarter } O b t
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) X = Number of days to date during current quarter Dy = Ai~r dose due to noble gas gamma radiation during the quarter to date (arad) D = Air dose due to noble gas beta radiation during the quarter-to-date (arad) A formal dose projection would be based on the latest results of the monthly calculations of the gamma air dose (Section 4.4.2.1) and the beta air dose, if performed (Section 4.4.2.2) . The doses calculated would be divided by the number of days that the plant was operational during that month. The per-day doses (gamma and beta) would be multiplied by the number of days the plant is projev ed to be operational during the coming month. The product is the projected dose for the coming month. Its value may need to be adjusted to account for any changes in operating conditions that could significantly alter the actual releases, such as failed fuel. 4.5.2.1 Limited Analysis Approach and Selection Criteria A simpler approach, a linear extrapolation of the most recent three-month's dose for the coming month, could be used as long as the limits of Technical Specification Section 3.6.a, Appendix B jare not reached. 1 I l l l l 0 i
JAMES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) 5.0 40 CFR 190 DOSE EVALUATION Technical Specification Section 5.1.a, Appendix B, requires that the annual (calendar' year) dose or dose commitment to any member of the public f rom uranium fuel cycle sources be limited to i 25 mrem to the total body or any organ (except the thyroid which is limited to i 75 mrom). The following approach should be used to demonstrate compliance with these dose limits. 5.1 Evaluation Bases Dose evaluation to demonstrate compliance with the 40 CFR 190 dose limits need only be performed if the quarterly doses calculated in Sections 3.4, 4.4 and 4.6 exceed twice the dose limits of Technical Specifications Sections 2.3.a, 3.3.a and 3.4.a Appendix B, respectivelyi 1.e., quarterly doses exceeding 3 arem to the total body (liquid releases),10 aren to any organ (liquid releases),10 mrada equivalent gamma air dose,. 20 mrads equivalent beta air dose, or 15 area to the thyroid or any organ from radioiodines and particulates (atmospheric releases) . The dose evaluation includes dose contributions to a maximally exposed real individual f rom the calander O quarter in which the quarterly limits were exceeded in addition to plant offsite dose contributions during the balance of the current calendar year. For purposes of the evaluation, if required, it may be assumed that the dose commitment to the maximally exposed real individual f rom other uranium fuel cycle sources is negligible. However, dose contributions from other nuclear fuel cycle facilities at the same site or within a radius of 8 km must be considered. 5.2 . Doses From Liould Releases
~
For the evaluation of doses to real individuals f rom liquid releases, the same calculational method as employed in Section 3.4 will be used. However, more realistic assumptions will be any current field data or updated estimates may be used, if available, concerning the dilution and ingestion of fish and potable water by individuals who live and fish in the area. Also, the results of the Radiological Environmental Monitoring program will be included in determining more refined
. estimates of doses to'real individuals by providing data on actual measured levels of plant-related radionuclides in the environment.
i I
7
- ~
?' ?
JAMES A. FITZPATRICK NUCLEAR POWER PLANT
- OFFSITE DOSE CALCULATION MANUAL (DOCM)
.,_t 5.3 Doses From Atmos tric Releases <
l l For the evaluation of do'ses to real; individuals f rom the atmospperic .; releases, the same calculational methods as employed in Section' 4.4 y will be used. In Section 4.4, the total body dose factor (K i ) should be substituted for the gamma air dose factor (M )i - to determine the total body dose. Otherwise the same calculational sequence applies. However, any current field data or updated estimates may be used, if available, concerning the actual location.of real individuals, the meteorological conditions, and the consumption ef food (eg, milk, meat
' and vegetation) . Data obtained from the latest land use census (Technical Specifications Section 6.2,' Appendix B) should be used to ' deterr.ine locations for evaluating doses. ' Also, the results of the Radiological Environmental Monitoring program 1will be included in determining more* refined dose estimates to real individuals by providing data on actual measured levels'of radioactivity and radiation " '
4 at locations of interest. 4 5.4 Doses f rom Direct Radiatior[ , . Because 40 CFR 190 requirements include consideratio'n of the offsite dose contribution from direct radiation, an'"estfmate must be provided ' O$ in the evaluation. Direct radiation dose contribution'f rom turbine shine and f rom outdoor facilities containing radioactive material, if applicable, may be estimate" by shielding calculations or f rom the results of the environmental monitoring program for direct radiation. b I
+
l. l i l i - f - ' - - l
\ ' ~ ;I I
- a ,
/ ' ,l < +
4
,/ ^
JAMES A. FITZPATRICK NUCLEAR POWER PLANT , . -p 9 OFFSITE DOSE CALCULATION MANUAL (ODCM)
.m APPENDIX A ' ' LIQUID DOSE CALCULATION DATA TABLE. TITLE PAGE L-1 Unrestricted Area MPC's A-1 f.
L-2 Dose Factors, Limited Analysis Approach A-2 L-3 Dose Factors, All Pathways A-6 F' A 1 J W q - l y >
> 1 l
f e f
~
g - e
- i. -g>
1 i I f 4 9 l
~, .
I
. 1 . r. 1 .' TABLE L-1 Haximum Permissible Concentrations in Water in Unrestrfeted Areas Nuclide MPC(,uci /el) 9uclide MPC(pCi/ml) Neclide MPC(uCi/ml) ~
Y-90 2 E-5 Te-129 8 E-4 N-3 3 E-3 Te-131m 4 E-5 3 E-5 Y-91m 3 E-3 N -24 3 E-5 Te-131 None P 2 E-5 Y-91 Y-92 6 E-5 Te-132 2 E-5 Cr-51 2 E-3 I-130 3 E-6 3 E-5 Mn-54 1 E-4 Y-93 Zr-95 6 E-5 I-131 3 E-7 Mn-56 1 E-4 1-132 8 E-6 8 E-4 Zr-97 2 E-5 Tc-55 I-133 1 E-6 Ta-59 5 E-5 Nb-95 1 E-4 Nb-97 9 E-4 I-134 2 E-5 Co-57 4 E-4 I-135 4 E-6 9 E-5 Mo-99 4 E-5 Co-58 Cs-134 9 E-6 Co-60 3 E-5 TC-99m 3 E-3 Tc-101 None Cs-136 6 E-5 Ni-65 1 E-4 Cs-137 2 E-5 Cu-64 2 E-4 Ru-103 8 E-5 1 E-4 Cs-138 None Zn-65 1 E-4 Ru-105 1 E-5 Ba-139 None 2n-69 2 E-3 Ru-106 Ag-110m 3 E-5 Ba-140 2 E-5 Br-82 4 E-5 Ba-141 None 3 E-6 Sn-113 8 E-5 Br-83 None None2 In-113m 1 E-3 Ba-142 Br-84 2 E-5 Sb-122 3 E-5 La-140 Br-85 None None Sb-124 2 E-5 La-142 Rb-86 2 E-5 9 E-5 Sb-125 1 E-4 Ce-141 Rb-88 None 4 E-5 Te-125M 1 E-4 Ce-143 r Rb-89 None 1 E-5 Te-127m 5 E-5 Ce-144 ( jr-89 3 E-6 2 E-4 Pr-144 None
' Sr-90 3 E-7 Te-127 Te-129m 2 E-5 W-187 6 E-5 Sr-91 5 E-5 Np-239 1 E-4 Sr-92 6 E-5 (1) If a nuclide is not listed, refer to 10 CTR 20, Appendix B, and use the most conservative insoluble / soluble MPC where they are given in Table II, Colu=n 2.
(2) None-(As per 10 CFR 20, Appendix B)'No MPC limit for any single radionuclide not listed above with decay mode other than apha emission nr spontaneous fission and I with radioactive half-life less than 2 hours'. i l l l l O m A-1
TAIEE_Ld e3f e.in. 4 4WIRv44f mf at painWa v.SnSC C0gvta SION F ACIO8S F 04 L l e'J I) DISCwaasts
\
PafMwat - PolaNLr waffe AGE G a Qu' - 4 0J L I NUCLIOL 0eGaN D0SC F aCT0R gmatefue pra gCgf.Ls RiNr Livf 4 TMYa010 KIDNCf LUNG St-LLI %K i m to get to), M...-3 7. 4. m 3r -01 4.s 3r.cl 4.R3C-31 4.est.31 4.P3'-01 3. 4.s 3r J 3 C===14 3. C. O. O. O. f. c. *. F --14 9. -
- 1. P. 4. 9. !.
- Na. 2a 6 14r.;1 6 18r.91 6.lat-01 6 18C-01 6.18r-01 6.180-01 L. 6.16..s1
*==-12 1. 9. C. 1. F. ?. I. 2.
Co-.51 0. 3. 6.91r- r 3 - 2.55C-03 1 54r.C 2 2.91t.;g :. g.147.;; nN. 54 1. 2 99t.21 C. 6 2 3C .J O r. 6.41r.01 d. 3.99r.03 mm .- 54 S. 3. O. 3. C. 3. 4. s. FC==55 J. 3. C. 1. O. C. O.
- et-.59 1.93C.C1 4.53C.01 C. *
.. 1.27C+01 1 51E .0 2 3. 1.74:.01 CD--57 3. 3. 3. G. D. O. ?. s.
CO--54 4. 3 35r .?3 3. 8. C. 6.80C+31 3. 7.52Ces CO.-6? S. 9.R4C.30 C. C. Q. 1.85C.02 0. 2.1Fr.;1 NI--43 8 S. C. O. O. p. . O. 45--65 3. 3. O. 2. 3. C. J. O. CU-.64 3. 3. O. O. C. f. *. 2. 2N--65 2 23r+01 7. 3 4t *? 1 0. 9.71C+01 P. 4.44C.01 3. 3 19C. 31 24 -69 . C. ?. J. C. O. 3. 7. 98--92 3. ?. J. 2. O. J. *. 3. 88-*93 9. 4 C. S. O. C. 7. G. MR..n4 3. P. O. O. O. O. ?.' 1. 88--95 3. . G. 3. 9. C. 3. C. a9-.36 ?. ;. G. 3. O. O. 3. 3.
*Ba-84 0. J. 4. P. c. C. 2. 3.
R9--19 1 3FC+03 3. 7. C. 3. 2.2LC+02 e. 3.94 .;1 KR-93M 1 O. C. O. O. C. J. J. 59--99 *
?. . O. 2. O. O. 3. 3.
SP--43 1.77t+44 C. C. O. 1 22C+33 1. 4.F4C.C3 SR=-91 3. .C. . n. ~.
- 3. 3. a. ;.
SR--92 3. 3. S. O. C. O. J. 4. Y.--93 5. . ?. C. C. C. 3. ;. (/\d]j T==*14 Y- -91 Y===92 3. 3. 0. 3. 3. P. 2. 3. 3. 3. G. O.
. G.
C. 3. 3.
- 3. .. 3. C. C. 3. 3.
T---93 3. 3. *
. C. C. 8. O. 3.
24*-95 1 3%!= 31 4.4*t-CP 1. 6.94C-02 6. 1 43C+02 0. 3 30?-12 2R--97 3. C. 3. O. 1. O. C. 3. Mm. 9% g. 3. g. p. e. 3. C. ;. NM--97 . . C. 9. O. C. ?. .. M0==99 s.11C=J4 1 11r.C1 C. 2 52C+01 8.46C-04 2 60C+91 0. 2 14C.2 TC--99 3. 3. 1. C. C. O. O. C. TC-99M 3. J. C. O. C. O. D. 3. TC -101 J. 2. 3. C. c. ?. 3. 3. RU-133 3. C. C. O. O. O. O. 3. a u-1
- 5 3. 3. C. O. O. O. J. 3.
( RU-136 0. O. O. D. C. O. 1. 3. t AM113R 1. ?. 4. 4. O. 4. O. 3. 481144 T. 32 C-01 6.??C-01 ?. 1. 3 3C + 0 9 0. 2.7&C.02 0. 4 32C-21 as-110 C. C. C. 8. O. C. C. 3. Sh=122 9. 4. O. O. O. O. O. J. 59-124 1 26'+G1 2.3FC-31 3. 0 5C- 3 2 0. 9.78t+00 3.5FC+02 0. 4.98I.51 SM-125 O. C. e. O. O. c. O. G. TC1294 3. C. O. O. *
- 0. *. J. 3.
TC12FM 3. 3. C. 3. O. C. 3. 4. TC-127 0. 3. e. 3. c. p. O. J. SASCO ON 1 UCt / SCC R!LC A SC RaiC 08 CaCH I SOf 0PC IN OfSCMARGE FLOW OF 1 CCFSCC d!TM NO 40DIf!04aL O! Lull 34 l l l 1
- Ref. EDS @ Computer Code RGl.109 version 2, Rev. O, Date June 11, 1982 O v i
i A-2
TABLE L-2 83134124 (cont.) ENvitemmtgiat saTMwaf.00SC C04WERSlow F ACTORS F04 LIGJI3 DISCnascEs
-j AGE GR1U* - ADULT #AT4W47 - POTABLE WATER NJCLIDE OeS4 4 00$E F A CT0p (maEMfMR PER UCI/4LS ---------------------------------------------------- =
BONE LIVER TMTe0ID Kt04ET LUNG GI-LLI SKI 4 T074L 3 33v 9 C. O. 6. 2. C. 3. TE129M 0. TE-129 1.
~
- 3. O. 3. O. C. 3. i.
T[1314 1 57e+21 2 25C+G1 F . 3f E +0 3 3. 8 5E + 01 C. 5.9 X .0 0 0. 1.29i+51
- c. O. O. p. C. 1.
TE-131 2. 3. TE-132 P. O. C. C. C. C. 3. J.
- 1. 4. O. O. O. C. O. G.
I--129
- O. C. O. O. . 3.
1--133 1. 9. c. 1--131 0. 3. O. . O. 3. v. O. S. I--132 c. *
. O. C. C.
C. 5.59*-31 I--133 1 06E*3W 1.84t+P3 2 70E+02 3.20!+00 C. 1 65F+C0 I--134 0. C. G. a. O. C. C. 3. I--135 6.34E 33 1.67E-J2 1.10E+C0 2.68!-02 5.4SE-39 1.ngt-02 ?. 6 16r. 3 3 CS-134 2.8&E.C2 4.80t+02 0. 2 20E+02 7.31E+ft 1.19E+C1 L. S.56 +32 CS-135 O. O. O. 3. O. c. C. J. sE1354 S. 2. G. O. S. O. G. 3. ut-135 4. C. C. C. O. C. O. 3. RE1334 0. O. O. O. 3. f. .. 3. RE-133 4. C. O. 3. 1. C. !. *. uC1314 3.
. C. e. O. *. 3. e.
CS-136 4. J. C. O. O. 3. G. J. CS-IST 3.67E+32 5.J2E+32 c. 1.70!+02 5.66t+01 9.71E*Ce t. 3 29C.02 CS-134 J. 3. D. O. O. O. J. J. 84137M 0. O. O. 3. O. c. 6. 3. Ba136u 0. C. C. O. O. 3. C. 5. B A-139 0. 3. C. G. O. O. ?. J. Ba-143 S.25E+01 1 07C-J1 f. 3 53E-C2 5 94E-32 4.13E+02 3. 9.41C+C" 88-141 4.10E-32 2.TSE-92 ?. 1 29E-02 0. 1.C6t+C2 3. 3.15C *3 Sa-142 3. G. C. ?. O. C. 5. 3. LA-14C 0. O. O. C. O. S. 3. 3. LA-142 3. 3. D. C. O. C. O. 3. g C. O. S. c. C. 2. s CE-141 4. 3. CE-143 3. J. 3. G. C. C. C. J. 3* CE-144 2 23C+3C 9 34E-01 C. 5.54E-31 C. 7 55E+C 2 3. 1.200-01 PR-143 3. 7. O. 3.
. C. J. 3.
PF-144 0. J. O. 3. O. O. 3. ;. PR144M 3. O. C. O. C. C. O. O. NO-144 S. 3. J. 3. S. C. 7. 1 NO-147 0. S. C. 6. G. *. S. .. W--147 8. J. C. 2. G. D. 3. 3. NP-239 3 23I-03 3 2TC-34 . 9.04E-04 0. 5 62C+01 c. 1 63!-24
- PU-239 6. O. 2. 9. O. c. . 3.
U--235 3. J. C. C. O. O. G. J. PA-231 3. C. 3. c. O. O. J. J. AC-227 3. 3. f. 3. C. O. 3. 3. TM-227 3. J. C. C. 3. C. 3. 3. Ra-223 S. S. C. O. O. 3. f. 3. l TM-231 9. G. C. O. 9. S. J. ~. l FR-223 9. 4. C. D. O. O. C. 3. AT-219 S. 3. G. O. C. f. J. G.
- 3. 1. C. C. O. O. 7. '.
* #N-219 BI-215 O. O. C. C. O. O. G. '.
O. O. O. 3. J. PC-215 0. 3. 3. I PR-211 6. O. O. G. O. O. G. 3. 81-211 9. 1. O. O. O. 6. O. 3. ( PO-211 8. 3. 3. O. O. C. C. 3. TL-207 0. a. s. O. O. c. O. . l I BASE 3 04 1 UCl#SEC RELE ASE RATE OF C ACM ISOTOPE IN DISCMARGE FLOW OF 1 CC/SEC WIT 4 40 ADDITIONAL DILUTION i Ref. EDS @ Computer Code RGl.109 Version 2. Rev. O, Date June 11, 1982 O U A-3
TABLE L-2 as/04/2v. (Cont. )
~
[% k
\ (Nvl404Mlh f AL P AT4W4Y-00$f C 04WER SION F AC TORS F OR LIQU 19 DI SCH ARS E'.
paf4WAT - FatSW WATEt rtSM AGE GR00* - 4DJLT NU*LIO! OA GaN D9 $! F A CT0R (MREMine PER Utt#4LS R3NT LivtR TNTR310 (!D4CY LUNG GI-LL1 SK I4 TOTAL 9337
~
g----3 1. 4.52r-C2 4.52L-02 4.52E-C2 4.52r-C2 4.520-02 1. 4.52*-32 C---14 3. 3. 3. 9. 2. f. 4. J. r--.19 3. 3. C. C. C. f. ?. 1. ga--24 1 26E-03 1 26I-53 1 26E-03 1 262-03 1 26E-C 3 1 26E-0 3 3. 1. 2 6E- 3 3
.*.--32 3. a. O. O. G. O. O. O.
- --51 0. 3. 1.190-01 4. 3* E - 02 2.64r-C1 S.COE+01 3. 1 99'-31 C. 2 55E +C 2 C. 2 63r.g3 o, g .gg.02 m%--%4 6. 4.57C.02
=4--56 G. 3. O. J. ?. C. O. G. 'C--55 C. * . 9. O. O. f. L. 3.
rE--59 1 74r+32 4 19t+12 C. 3. 1 17F+02 1.40E+03 9. 1 61 +G2 00--57 J. 3. O. C. P. O. 3. G. Co--59 S. 1.62r+C1 C. T. f. 3. 2 4 r + 3 2 0. 3.63E.31 Cn--63 J. 5 11C+31 6. '
- 3. 3. 9.6CE+42 3. 1 13t+02 NI--43 3. e. C. O. 1. O. v. J.
*; t -- 65 . ?. C. O. 3. ?. t. 3.
CU. 64 4. C. c. S. 7. C. 7. J. 14--65 9.51 C +3 3 1 44*+** 3. 9.60!+03 0. 9.04E+03 C. 6.49!+33 74--69 J. 3. J. G. O. f. f. 3. BR--42 3. 3. 1. P. 7. C. 9. J. 88--83 0. 9. 3. C. f. C. 3. C. u8--44 0. 3.
. C. 3. C. ?. 3.
H -- 8 5 4. J.
. ?. S. r. c. 3.
99--96 3. ?. c. 3. C. O. O. 3. en.-ga 3. 3. C. f. C. f. C. O. 49--59 3.P6E+03 5. O. J. 7. 6 19E+02 ?. 1 115 32 KP.43m 9. O. f. 3. C. C. J. J. SR--4* J. 3. 3. *. C. c. 3. 3. SR--9J 5 52E+?4 3. O. 3. O. 4.29E+03 3. 1 4Ar+34 p !R=-91 0. 3. C. O. O. O. O. 3. St = 42 3. 3. *
.. ?. O. f. O. .
( O. D. ( V---93 Y--914 3. 0. 3. P. G. S. 1.
- 3. O. 6 J.
O. J. 3. V---91 S. ?. :. C. O. C. J. C. Y---92 3.
.- e. C. O. C. C. ;.
Y---93 3. 7.
. C. O. O. C. 3.
28--95 1 52C+?1 4.4*t+*: C. A.35E+00 0. 5 11r+04 0. 4.54E.3J 28--97 3. 4. 3. 3. O. !. ?. J. 4 8-= 9*. 3. C. C. C. C. C. J. C. N8--97 3. O. C. 3. O. t. 2. :. M0=-99 1 37E-c 4 1.66t+0 ?. 3.79E+00 1 90E-04 4.09E+30 C. 3.21*-J1 TC--99 C. 3. J. O. O. e. O. 3. TC-994 4. 3. 3. C. O. O. 3. 3. TC-1J1 3. O. 9. C. O. O. 3. 3. RU-133 C. 3. *. 3. O. C. s. J.
#U-135 O. O. C. 3. C. C. C. J.
80-106 3. G. c. 4. O. C. d. J. eM1034 0. J. O. C. O. C. G. O. aG1134 1 72C-01 1 5 9C-31 0. 3 12C-01 0. 6.4tE+01 0. 9.43E-32 , 4G-110 4. 6. 6. C. O. 3. 4. O. l SM-122 0. D. f. O. O. e. 3. O. !
$8-124 1 23!+C3 2 26E a2 2.90f=03 C. 9. 32r -01 3 40!*01 0. 4.74T-J1 $8-125 4. 3. c. O. O. C. O. O.
TE1254 3. O. C. S. O. G. C. O. TE127M 0. a. O. C. C. O. 1. 3. TE-127 0. 2. O. O. O. O. 9. O. Ba%CD 04 1 UCl#SEC RELEast RATE OF EaCM 150f 0PE 14 DISCMARGE FLOW OF 1 CC/SEC WITH N0 ADDITION AL DILuftDN Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 0_ t A-4 ,
TABLE L-2 a3rJ4/2+. (cont.) 4 ENv g494mt4T AL PAT 4vA 7-30$! CoevCRSION F AC T0pS F OR LIOUID DISCMAR6CS
/' \
PAf4WAY - F4CSM WATE4 8tSM A6E GROUP - ADULT 0+ GaN OOSE FA CT0R (P4CR#ne Ptn UCg/mL3 NU*LIDT g3NE LIVER TMfR310 KID 4ET LUNG GI-LLI SK I N T3TAL 833f
- 9. f. f. *. 3.
it1244 p. 4. . O. f. 1 O. ft 129 e. ~
- d. O. 2.
- c. 4.7FC+00 1.04C.31 ft131M 1.25E+01 1 41C .01 5.92r.03 3.10C .31 3.
O. 9. O. *. 3. D. TC-131 3. 3. c. TE 132 3. C. 3. 3. O. 6. J. 3.-129 3. 3. 9. *. O. C. f. 3. O. O. O. C. O. J. 3.-13C 3. 3. O. J. 9. 3-.131 3. 3. C. O. f.
- 0. c. C. O. 3. O.
. 2.
I--132 1 89E-53 t--133 3.57t-33 m.21E-03 9 12*-01 1 08!-02 8. 5.54E-03 0. I--134 9. O. O. O. O. C. C. J. I.-1 15 1.12".35 1.33C-05 6 46[-09 3.90E-36 1.170-f6 2 41E-07 0. 4 58*-06 CS-134 5.91!.C4 1.41* +c5 O. 4.55!+04 1.51r+04 2 46t + 0 3 3. 1.15E.35 O.* 0. C. f. 3. 3. CS-135 0. J. EC135= 0. *. C. C. O. *. C. 4. ut-135 3. J. *. O. O. O. O. O. C. O. 3. O. O. O. S. 3. x[1334 ar-133 . C. C. O. C. G. 3. 3. RE131m C.
. O. n. O. c. 3. 3.
CS-136 3. 7. O. O. D. C. 3. J. CS-137 7.64E+C4 1.3 5C +C 5 C. 3.55E+04 1 1Rr+C4 2 02L>03 3. 6.84I.54
- 2. C. C. O. J.
CS-134 0. J. :. 8413fM C. G. C. G. C. O. O. J. PA13%M 0. 3. C. O. C. C. O. J. 84=139 ?. 3. C. 1. O. 3. O. C. 84-147 2. 2% C +01 3.82!.32 6. 9.67E-03 1 63f=02 7.69E+02 0. 1 40E+03 1 14E-03 C. 9. 37 E+ 00 3 2 78;-34 BA-141 3.63[ *3 2.45C-03 0.
*. O. O. C. G.
54-142 3. *. . La-14? 1. :. C. C. 3. C. O. 3. LA-142 3. 3. r. C. C. C. 3. 3.
<s CE-141 9. G. O. O. 3. C. *. 3.
C. C. O. O. O. CE-143 C. 3. 3.
/ CE-144 2.29t-31 9.5 6E -0 2 c. 5.67!-02 C. 7. 72 C.01 J. 1.23!-32 PD-143 1. 3. C. P. 2. C. O. 3.
PR-144 9.
. 9. C. C. 3. J. d.
PR1444 9 C. S. O. P. C. O. J. NO-144 2. 3. C. D. O. C. f. :. NO-147 4. C. C. 3. O. O. 3. J.
- 2. O. 4. J.
W--147 C. J. 3. 3. NP-239 6.0FE=3 4 6.64C-35 P. 1 26E.04 0. 6 0 3C .0 0 C. 2 43C-05 PU-239 0. 3. O. O. O. C. 3. G. O. O. C. 3. G. U--235 8. J. J. 3. PA-231 m. 3. C. S. O. C. O. AC-227 0. 3. G. 6. O. 3. 3. J. TM-227 C. c. *. O. O. C. *. O. pa-223 0. O. G. O. O. O. O. 3. TM-231 0. C. C. C. 6. C. C. J. FR-221 S. O. O. 3. O. O. J. 3. O. O. O. J. O. AT-219 0. 1. 3. O. AN-219 S. 3. O. O. O. O. O. 81-215 8. D. O. 8. C. c. 3. 9. PO-215 J. J. C. O. O. O. O. O. P9-211 8. 7. 8. 6. C. 8. O. J. C. O. O. 3. G. BI-211 0. 1. 3. G. PO-211 8. O. C. O. O. O. O. TL-23F 1. 1. O. 8. O. O. 5. 3. i saSCO 04 1 UCt /SEC RELC A SE *A TC OF CACH !$0f 0PC IN 015CMARGE FLOW OF 1 CC#$CC WITM NO ADDITIO4AL DILufl34
= .
Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982
/
O n
\j i
A-5
63tC4/29
. TABLE L-3 cavine==curat patnuav-oost cogotesten Factons roa Lieut 3 otscoian6ts
- AGE 6400*
- a3 ULT
\ p aT4W at - LaKC 5404CLt4! OtPostTS ,
9R5a4 005E F6C7oa snatn/na PCR UC1r#L8
.JCLiot .............. ...... . 4............
E104Cv Lums st-LL1 satt ......10faL 8037 deg! Liv [R YnfmSto
- 8. O. O.
- 3. *. S. 8.
S.
.. 3 3.
- 8. 8. 8. S. 8.
. -14 9. O. 9. D. O. 3.
C. O. 1 66t*32
..-14 8. Se 1 66:=82 1 66t-82 1 66t=82 1 93E*C2 a==24 1 6sr.82 1 66t=O 2 1 66E-82 8. O. - 0.
S. 8. 9.
..=32 3. 3.
S.30!-93 9.300-03 8. 30 E- 0 3 9.81E-03 S. 33E= 0 3 n.33t=33 5.3CC-93 e.300-C3 2.91E+00 2 48t+C3
*.=51 2 48E*00 2 4FE*00 2 40C+90 2 48t+00 2 48[.00 3. '%==54 2 49t*20 8. O. 9. 9. S. *s--56 9. O. C. O. C.
- 8. 9.
S. 1. 9. 4.87[=91 4.0ft-01 S.72E-01 4.87E*01
- -55 4.0Fr=31 4.87P.01 4.STE-01 4 57C-01 O. O.
r==59 O. W. C. C. m-=S7 8. O. 6.7FC=01 6.77t-41 7.94t=01 6.77t-31 6.77!=31 6.77C=01 6. 77 C = 01 6.7v'=01 4.54E+01 3 86!.31
*-=54 3 86t+C1 ' 3 86C+01 3 86t+C1 3.06E.61 *==60 3 46t+C1 3.44t+"1 O. 8. 8. O. 3.
- 8. O. O. t. 3.
1==63 S. O. S. I-=65 C. C. 8. B. O. O. G. O. 9. 8. 1 34E+0S
;u--44 8.
1 34E*00 1. 34C + 0 0 1 34E+ 0 0 1.54C+00
"--65 . 1 . 34 *0 0 1.34* +11 1 34[*00 Se 9. J. 3. *1==69 8. f. O. 8.
- g. O. 3,
- g. g, se e..qt a. 3.
C. C. 9. 8. 3. G.
*e==A3 8. 3. O. 8. 9. 3. .e..gg g. a. C. C. C. 3.
9 f. 8. 4-=95 5. *. 8. O. O. O. O.
.--86 0. 3. C. 9.
- 8. O. O.
O. O. 9. P-=4R 3. C. 3 865 05 3.86E=05 4.460 05 3 86 =35
- n-- sg 3.a&!=35 3 96C=05 3.06C=CS 3 865 05 O. S.
O. f. 8. 8=934 C. C. 3. O. 3. C. S. O. O.
%8-*89 3. 3. 9.6Cr=O3 9.60E.83 1 13E=C2 9.60t=03
- 9. 63' *0 3 9.60r=C3 9.60t=C3 9 60E=03 O. 1.
't==93 O. 8. 9. S.
4-=91 8. C. 8. C. 4. C. C. C. O. S. 1==92 0. 3. C. O.
---93 C. 3. O. C. 5. O.
S. 8.
- 3. O. 3. O.
..=914 8. O. C. 4. } v.-=91 9. 1.
9 5. C. 3. O. 9. C. C. *.
*===92 3. we 3.
- p. *. O. S.
9.63: 01 v==.93 5. r. 9.63:-01 9.63t=C1 9.63t=C1 9.54E=01
***=95 9.63 -31 9.63*-31 9. 6 3C = r 1 O. O.
D. 6. 9. 84==97 8. 3. O. O. J. P. O. O.
.* -=95 0. . C. O. O. 3.
f.
- a. 97 C. e. 3. 3.
1 11E=02 1 11E=32 1. cst =02 1 11[-02 Fi==99 1.11t-32 1 11E=32 1 11C-02 1 11C-02 8. O.
- 9. 8. 8.
* **=.99 8. 9. 8.
- 9. 8. 3. 3.
O. 8. S. O. TC-994 3. O. 8. S. 3. rC-131 0. C. 1. S. 9. 6. 8. S. 8. S.
-U-103 C. 3.
C. 9. 3. O. 4. 8. 8. U-145 3. B. S. C.
.U-106 8. O. O. 9. O.
l 9. S. 3.
.M133m O. 6. 8. 8.
6 21t *00 6 21t* OO 7 25t +80 6 21t+J3 16110m 6.21E+03 6 28t+00 6 21t*00 6 21tet0 8. S. S. t
- 8. 8. S.
&G-113 8. 8. 9. S. O.
- 8. 9.
'9*122 1. J. 6.
1 07t*0C 1 0FE+st 1 2 3C +08 1 0FC.03
.8=124 1 07t*00 1 07!.03 1.tFt+00 1 0ft+00 8. S. 9.
S. 9. 9. 19-125 S. 9.
- 8. 9. 8. J.
B. 8. 9. D.
+C12%m t. 8. 8. S.
- 3. S. 9. a.
v!!27M O.
- s. 3. s. e. O.
vt-127 9. 1. OILut:04 4asto em 1 vesiste acLeast matt or racw Isor0rt Is otscuanst FLou er 1 ccrstC utta ao ao0 tite =at e
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 l
A-6 l
~- - --
TABLE L-S (Cont.) . LTOUID DISCH486ES tuv140 emf 4T AL P4fgua y-DOSC C9evCRSION F ACTORS FOR AEC SROLP - AD'JLT PAT 4W47 - L4NE SHeatLf4E SEPOSITS 0asc FA CTSa snata/Mk PER UCitMLt suCL10E 8R SAe SI*LLI SL I4 TOTAL 8337 Tuva310 eld 4CT LU46 e geur Lista C. C. 3. O. S.
- 8. 3. 8. O.
TC1294 C D. C. S. B. 9. S. 3 6Tc-02 3 32t-L2 TE-129 8. 3.821-92 3.82f-02 3.02C-32 3.02t-02 TC1314 3.t2t=32 3 82r-02 9. S. D. 8. O.
- 8. C. 3.
fr-131 8. 1.
- 8. 8. C.
S. O. 8. C. o. 3. TE=132 8. S. 9. O.
- 8. 8. 8. 8. 1.
I--129 8. 8. O. O. 4. I--130 6. O. P. S. 9. 9. O. 3. f--131 9. 5. C. C.
- 3. 8. 3. 64t = 3 3 4.47t=83 3 6st-t3 I--132 6.
3 6st-33 3 68r-93 3.68!-03 3.60C-83 C. I=-133 3 64!-03 S. 8. 8. O. 3. 2 9Ft=3 3 1--134 3. 3. 2.97t=33 2.9 7C-G 3 2 97t-93 2 54f-03 2 9f t-t 3 2 97t-03 2 97 tat 3 1.23C*01 1 44C.:1 1 23;+31 1--135 1 2 3C *31 1.23t 81 1.23:*01 1 23t*01 8. CS-134 1 23!*01 S. -
- 9. O. S. 8.
9.
- 1. 8.
* * *JS-135 9.
- 3. 8. 9. 5. 8.
C. G. O. st1358 3. J. 4. D. 8. G. 3. BC-135 O. 8. f.
- 3. 3. S. 9.
C. P. 3. st:334 a. C. 8. EE-133 3. C. S. f. 6. 8.
- 4. 9. G. J.
aC1314 9. 3. 8. S.
. G. 9.
1 05[*01 2.160 01 1.95t+01 CS-136 8. 1.85!.F1 1 850 01 CS-137 1 45E.01 1 850 01 1.9 5C +
- 1 De f. 3. J.
- 3. J. O. 8.
O. 3. 3. CS-139 3. ?. 6. D.
- 8. 3. O. 6. 3.
841374 O. 9. O. 341364 8. D. f. O. 3.
- 3. C. 6.
3 34!-01 3.C5t-01 3 34t-31 BA-139 3. 3 3et-G1 3.34 -81 3 34E-81 2.44C-42 e4-140 3 34r-81 3 34t=31 2 44t-02 2 44t-02 2.750-02 2 44r=02 2 44!-12 2 44C-02 2 44I-02 C. O. es-141 9 O. S. O. 3. O. J. 86-142 9. 9. 9. O. O. O. C. 3. J. LA-14' f. C. 9. 8.
- 8. C.
L4=142 3. J. O. t. C.
- 3. 3. 8. 8. G. 3.
CC-141 S. f. 9. 2 52C-21 CC-143 3. C. . 2 82!-01 2 02t=01 2 33C-01 2.*2t-&1 2.02t= 1 2.ttt-01 2 02 -a1 S. 3. Cc-144 8. 9. O 8. 3. G. 3. PD-!*3 3. O. O. C. J. C. 9. C. 3. 3. PR-144 3. O. 9. 6. 3. Petten C. C. C. C. J.
- 3. C. 9. 1. S.
90-144 3. O. 8. 8. 8. 3. h0-147 9. 3. O. G. O. u--147 8. O. C. 3. 2 960-03 2 46!-03 3. 31C-03 2 86!-33 2.8 6t-0 3 2. 4 6t-0 3 2.865-03 C. J. WP-239 2 46t=03
- 9. C. O.
C. PU 239 1. . 8.
- 8. 8. C.
O. 8. C. S. G. U--235 C. C. 8. O. C. C. C. 3. 3. P4-?31 8.
- 8. 8. S. 4.
AC-227 8. 8.
- 8. 8. C. 8
- 9. G. O. C. D.
Tu-227 3. O. 9.
- 9. - 8. C. 9. 8.
as=223 4. C. S. S. TM-231 4. 3. I
- 9. S. 8.
8.. C..
. 8.. .. .S.. .. .
4. F.e,-219=2 2 39... 6. S. 8. 9. 8.
.J. . J.
l 8. 6. .. C.
- e. .
- 8. O.
.Sh=219 i-m . 6.
S. B. 9. 9. g.
- 4. J.
PO-215 8. S. 8. )
- 4. O. 8.
O. O. 4. I PS-211 3.
- 8. 9. 3.
- 8. J.
3 8. 91-211 ?. C. 9. 8. O. J. PO-211 1 3. e. s. tL-23 e. a. 8. 8. sasco on 1 Utt rStC a:LeaSt matt or caca IsoT0pt in otstaan6e stov er 1 CCrStC site me a00stre e i ! e Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-7 l l
' ' " " " v'm g- , , , , , , , , " #"' m -- -- _
r N TABLE L-3 (cont.) Env1494migf aL Paigwaf-DOSC C04WER$104 FACT 3R5 F08 Lieu!3 01SCMas4E5 AGE GROUP - ADULT Pa tie d af = Swim 414G twetn#MR Ptn UC1/mLS NuCL10' SR Sa4 DeSC F4 CTeR ........v............ ......
............................................. ~ ..........
TMYRDID K1D4CT LUNG S1*LLI SE t h total 8337 g SONr LIV!4
- 8. O. C. 1. C.
to----S 0. C. P. C. 4. a.
- 9. 9. S. O.
C-*-14 9. O. 9. 9. C. O. a. F---In 1. O. 1.7st.31 1 78t+01 1.TSE+01 1.T9t*01 1.Ter+01 1.TSE*01 0. ta--24 1.flC+01 ~
- 8. S. O. C. 3.
P---32 S. 0. 8. 1 19;-?1 1 19L-G1 1.19C-01 1 19E-01 1 190-01 1 19F-01 1 19t-01 9. C4--51 3 43C +00 3 43r*30 3 43C+00 3. 3 43t+00 1e4 -- 5 4 3 43:*?O 3 4 3C + 0 0 3 43C+00 O. 3. C. S. O. 8. 8e4--56 c. 5. C. O. O. 9. C. 7. FE=-55 4. 4. 5.02!*39 5.92C+00 5 82C+00 5.C 2C +0 0 5.C2f.0 0 C. 5.82t+33 FE==59 9.f f t +C F O. 8. O. 8. CD--57 3. 1. C. 8. 4 11f.05 4.11[*03 4 11C.09 4.11t+G" 4.11C.C0 9. CD--58 4.11t+1C 4.110 10 1.05t+01 1 05t +c t 3. 1 85t+;1 1 0 5C +31 1.05F+01 1 05C+01 3. CP--6* 1.C 5 " +? 1
- 6. 6. 9. G. O.
hl--53 S. . 9. 3. 5. O. 6. f. g N1 *=% 4. a. C. O. D. C. 3.
- 9. 8. 8. 2 51E.0; CU--6e 1.
2.51C+00 2.51C+Cf 2.51E+CC 3. ZN--65 2.51'+34 2.51!*90 2.51[+00 O.
- 4. 8. O. G. O.
24--49 1. C.
- S.
O. P. 9. C. . P4=-92 3. O. O. 4. J. Sa.-93 0. C. s. O. 8. G. C. 3.
- 1. P. S. C.
58-=44 3 O. O. O. O. O. SP-a95 3. O. 8. C. *. C. O. O. O. F. ns--56 3 O. C. 3. 3. as--# S. 3. C. 1. 1 05 -32 1.050 *2 1 05t-02 1 050-52 1. 05C-0 2 0. AB--59 1 1**-32 1 0 5C-0 2
- 9. O. S. 3. 3.
se e3* 9. ?. 4. 3. O. 5. O. 5R-=89 C. C. 6.
- 3. 1 23[-13 1.
1 23C-83 1. 23'.= 0 3 1 2 3C -8 3 1 25t-03 1 23!-83 58--** 1 137-03 8. S. 9. 3. J.
$P-=91 3. 3. D.
- 8. O. 5. 3. 3.
SP--92 1. 3. O. S. 8. S. 3. T-*-9; 3. 3. ?. O. C. O. 8. O. 4. T--914 J. *. 3. 3.
- 0. S.
Y--=91 4. 3. 8. 0. : *. C. N T---92 1. a. 8. O. 9. O. 3. 4 O.- C. O. 3. J v..-93 c. 3. O. 3.g3c.50 3 43 .00 3.43t*00 3 43C+60 3. 3 4 3!+ 0 C IP-=95 3 43".10 3.43r.c3 C. :. :.
- 3. C. O. B.
2a--47 8. O. O. C. C. 3. hm--75 3.
. C. O. 3.
D. E. 6. S. 44--9F 2. 9 5.400-01 5 4ef-01 S. 5.48:=01 po--99 5 49t-01 5.45C-91 5.48t=01 5 48t=01 C. 3.
- 8. f.
- TC--99 8. a. 9. 8.
C. C. 3. J. O. 3. 3. 4.
- 3.
TC-9tn D. C. O. . TC-131 3 2. C. 8. C. C. 8. 9. 8. RU-133 0. C. O. 3. C. S. 9. O. 8. au-135 3.
- 8. 8. 8. C. 1.
RU-106 8. G. 8. O. O. G. O. 8. 9. Aw133m 3. 1. 1 12t+01 0. 1.12C+01 1 12r+61 1 12C*01 1 12C+01 1 12C+41 1 12C*t1 O. as115m 8. Se 3. AE-110 *. O. 8. S.
- p. s. e. O. 3.
SP-122 0. 6. 3. 8.22E.00 8 22C+00 0. 8.22i+33 58-124 9 22t+00 0 22C+00 9 22E+08 4 22E.00 O. 3.
- 8. 9. 8. C.
50-125 0. S. S. 8. P. O. 3. TE125" 6. C. 8. O. 9. 3. S. 8. 6. S. Tf12FM S. O. 2. S. S. s. s. e. C. Tr-12t o!Lufts9 satti og 1 utlastC atLtast matc Or caCw Isot0rt in elstmaast rtou er 1 CCistC v1TM =0 aco!T1owat e
- Ref. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982 w
A-8 _ _ _ _ _ _ 1
p3agangw uunukN. (cont.) l j LleJ13 01SCnaasts CWW1494Wattat Daf 4Waf 00S! CogvCR$194 Fattens F ee
** att GRDur - a0ULY patada? - gg g nalee 6 (pmCntun Pte UC1pmL1 946aN De5C F4C10m gJCL100 8814 70faL B33f E104CT LUe86 St-LLI LIyta TNTRO10 ,30mg 1. C.
B. B. s.
- 9. 4. O. 3.
- 9. C. 8. 8. 1.7a:+33 TC1294 G. 8. 1.Tet +C 8 1.78t*00 8.
it=129 6 1.?AC+39 1.7St.00 1 70t*00 8. 8. 6. 1.Tet+tt 8. C. ft1314 C. 8. S. S.
' ft=131 c. 2.
- 8. C. 8.
C. 3. O.
- 3. 3. 8. 8 C. 4.
TC=132 8. 8. 9. 9. O. 1**129 3 D. S. 6. C. 1 135 a. 3. O. D. 9. C. S. 8.
- 1. 131 3. O.
C. 5. 8. 2 19:+0e 4. 2 19I.01 C. t. 2.19C +08 2 19f *GC O. 5. 1==132 2 19t.33 2 19t.0C C. 1=+133 2 19t+30 C. 3. t. S. 1. 4. 1.=134 3. O. D. 9 6.62f *3 0 3. 6 620 30
- 6. -7 . *.
6 620*00 4.62t.00 4. 1==115 6 62f.C0 6 6 2t +00 6 62C+tt S. 8. 3. J. C1 134 8. S. 4. O.
- 9. S. S. 3.
C5 13% 3.
- c. 7. 8. 8.
S. 9. *. C. O. s t1M4 2. ?. O. O. 3. er.135 S. C. C. O. O. C. 4. 8. J. s!!33m 1.
- 3. C. C. 3. 3.
3. at=133 9. G. S. 8. O. st1314 4. 3. 8. 8. s. 2 28t+CC
- 3. C. 2 24t+*0 2 24t+0C 6.
CS-134 3. 2.29f*00 2 28C+00 C. 3. 2 29r.3G 2 295 00 9. 8. C. 3. CS-131 8. 9. 8. C. O. CS-134 0. C. O. C. C. ma1314 0. 3. 8. 8. 3. 3.
- 3. O. O. C. 1.12!.30 Ma 1368 C. 2. P. 1 12t*80 9.
44-139 C. 1 12t*C0 1 12r .00 2 97;-G1 9. 1.12f*3C 1 12t.3. 1 12C+05 2 9ff=&1 2 9ft-01 J. Ba-14; 2.9FC-01 2 97t=01 C. 2. 3. 3a-141 2.9FC=C1 2.97!-?1 C. O. 3. 3. O. O. O. O. 3. ga*142 t. C. 8. C. 1.
- 1. C. O. 4. 3. 3.
La-tea C. 6. 3. La=142 3. *.
- t. c. 4.
O. J. Ct=141 *. C. O. 4. 1.96ta31
- 9. C. O. 1 96r-t1 1 96*-01 4.
3.
- Ct=143 1 96!*01 1 96t-C1 1 96!-01* 0. O. J.
3. 1 967-b1 ( CF-144 pp 143 8. 6. C. f. C. S. 2. 6. S. 8. 2. P. C. S. 7. 7. Pe=144 C. O.
- C. C. .
J. pattom 4.
- D. .
- f. 6.
40-144 *. . O. 4. S.
- 8. 3 3.
40-147 8. C. 8. O. C. 5 48 -31 C. C. S.48f*01 S. 49 E = 01 e==197 9. S.48C=C1 S.481-01 S.48!-01 S. S. 8. 48'- 239 S.44t-01 9. O. 3. 2. O. 3. O. C. 8. PU-239 8. S. 9 S. 4. f C. O. 8. 4 3. 8.
' U==235 3. O. 4 O. 4.
sa-231 9. C. C. S. 1.
- 3. 8. 4.
at=227 8. C. 9 8. 9 O. 8. 3. I TM-227 9. C. 8. C. C. I ea*223 C. S. 8. O. 8. 8 C. 9. 9. P. 3. TM-231 3. O. 9. 8. 9. 4.
- 4. O. 8. S. J.
FD*223 4. C. 8. 9. 2. 4T-219 8. 9. 8. C. O.
#4-219 C. 4. 8. 8. O. 3.
- 3. 8. 9. 8.
91-21% 0. 9. 8. f. 8. 1. 80-21% 1. t. 9. S. O. C.
- 1. 9. C.
PG-211 3. C. 9. 3. C. c. 8. 51-211 3. 8. 8. S. 3. O.
- 9. e. C.
PO-211 *. 3.
- e. 9.
- 8. O.
tL-2sr u =0 a333r!2=al oltutt w nasC3 ou 1 UCirSCC arttast aatC or taCn isot0cc in otstunest rLos er & C I i
" Ref. EDS @ Computer Code RGl.109 Version 2. Rev. O, Date June 11, 1982 I
I l l A-9 i
M9_M9_OPD 33 rot /29. (cont.) [WWI4044t 4T AL P ATMW47-00$t C09f t* 5ID4 F AC f 005 8 08 LISUI3 OISCHARGES
#Af4 War - SO4 TING ASC Sa00P - ADULT b- DUCLIOC 0454m 005E F &C7ea snaturne Pts UCIrats B3ec LIVER TMTROIO EID4CT LUh6 SI-LLI SKth TStal 8339 W.---3 S. S. f. 9. O. 9. C. 3.
C---14 p. 8. O. O. S. S. O. 8. F--*19 3. 3. C. 9. 9. P. O. 3. ha-=24 3.R3t*31 3 0 3C*01 3.8 3f
- 01 3 53C+01 3.83r+01 3 93!*t t !. 3.830 31 P --32 9 0. 8. S. 8. f. 8. O.
CR--51 2. Sit-01 2 55C-31 2.550-C1 2 55!-81 2.SSt-01 2.S5t-01 0. 2.55C-31 at--S4 7.36 t +3; 7.36E.30 7. 36 t + C O 7.36[+48 7. 36 t .DC 7. 36 t + 0 0 3. f.36t+;; me--56 8. O. 8. 8. 8. G. C. . FT-=SS 3. C. 8. 9. C. C. C. 3. FC-*59 1 09t+01 1 38t+01 1.00!+01 1.OSC*01 1.80r.01 1 00E+01 9. 1.Caf+61 CO*=57 9. 2. 8. 8. 8. to J. C. Ca**S4 8.84r+0C a.84:+30 a. net.00 8.84C+00 8.ter+0C S.84t*00 C. s.sts.C; CO--6 2.P6C+01 2 26C+01 2. 26 E. 01 2.24t+01 2 260 01 2 26t +G1 0. 2. 2 6! + 91 4I==63 5. e. 3. *
- e. 3. C. O. O.
4I-=65 3. S. O. S. O. C. J. 3. CU-=64 9. S. S. S. f. f. C. C. 24--65 9.4Gr +C 0 5 40!*00 5.40C+00 5.40C+00 5.4er+00 5.43t*00 6. 5.4CI+03 24--69 0. S. C. O. O. 3. 8. J. 94*=82 0. G. . 8. C. C. O. C. A*-*t3 8. 8. C. C. 6. G. S. O. St.-44 3. S. C. C. C. C. O. O. St -95 3. 9. O. S. C. S. 3. G. 4d--96 S. 2. O. 3. O. O. C. O. en--ge S. O. C. O. C. f. C. 4. ed--49 2 26t=42 2 24r-32 2.26t-02 2 26C-C2 2.26E-02 2. 26t = 8 2 *
. 2 26 -02 4 R-9 34 4. f. 9. 7. O. O. 8. O.
58--89 0. a. *
. O. f. !. S. J.
58--1; 2 65C-33 2 6St-P3 2.65t-C3 2.65!-03 2 65t-t3 2 65t-C3 &. 2.65t-03 94 =91 8. C. C. O. S. C. S. O. Saa-92 3. C. 3. C. O. C. O. O. V===93 0. 3. O. 9. 8. C. ?. J. v=-914 3. 3. O. 3. C. 8. P. O. T---91 8. 3. S. S. . C. C. G. O. [] T---92 va--93 3. t. 2. c. C. a. O. G. O. C. C. C. S. 4. 3. a. 74--95 7. 36 : *S 7. 36: + 3 0 7. 36! + t c 7.34:*00 7. 36 t
- B C ?. 36t+ tc *. F.365 3:
2P--97 C. O. C. S. f. *
. S. 1.
98-=95 0. O. O. S. O. C. O. 3. 4*--97 9. . 6. 8. D. f. J. 3. 41--99 1 1st*JC 1 18E+33 1 18E+*O 1 1AC+03 1 18!+CO 1 18E*00 G. 1 18!.3; T -.99 3. D. C. O. C. C. 3. 3. TC=99a 8. O. C. O. C. O. C. 3. TC-101 3. S. C. 8. 9. C. 3. ;. 8U-103 C. O. 8. 8. 8. 8. C. 9. SU-135 S. 8. O. C. 8. 2. S. S. 80-106 3. O. 8. 8. C. C. S. J.
- M10 34 0. 8. C. 3. 3. 9. O. 3.
a61134 2 41t*81 2 41[+01 2 41C+01 2 41t+01 2 41t+01 2 41t+S1 0. 2.410 01 4G-110 S. O. O. 8. 3. C. O. B.
*R-122 9. 8. S. P. 8. O. 3. O.
5s-124 1.?ft*01 1 77C+*1 1 77E+01 1.??C+01 1 77C*01 1 7tt+01 *. 1 77t+01 58-125 S. 3. C. O. O. C. C. 3. TC1254 9. O. C. C. 8. C. 8. 3. ft12fR 8. O. e. 9. 8. C. S. 2. fI=127 8. O. 5. C. O. 9. O. 3.
*41E3 04 1 UCI # SCC AILC ASE 84ft SF Cette I SOTop[ th OISCM6460 FLeu SF 1 CC#$tt Wl?M 40 ADDifl044L DILUT139 0
. Itef. EDS @ Computer Code RG1.109 Version 2, Rev. O, Date June 11, 1982 \ A-10 gwgy-3y- - y , + -ww -g w w cw d - . - - - - e --- r--e+- m- -- - - - - - - " - - - - " - " " ^ ^ ' - " - - " " - - " -
' TABLE N J (Cont.)
Invitamm*4ial sa?Hway-DOSC C04vtaS194 F ACTORS FOR LIS W I) DISCseaREES asr $40VP - 409tf e&T4dat . 00af t ssG , F AC19a smatutem *[e u 1pgt) 0484 4 D# $c
.Jttt0C .. ...... .......................................................
LIvte TNTR3ID EIO4tf LUe G GI.LLS . .................... SR Ih total 8037 90 set
- f. C. C. 8.
3.,' O. 6. O. 3.
*129m S. C. 3.
O. C. O. 3 0 3t.7 3
.'. 129 ?.
3.0 3C.C 0 3 93F.C S 3 9 X +0 0 3 830.OC 3 03C +0 0 3. 1. 31318e 3 03!*00 3. 8. C. O.
.*131 3. 3. 9.
S. 9. O. c. 2.
'r.132 1. Or 7.
- a. 3. 3.
- 3. 9. O. 9.
O. S.
. 124 9.
- 8. O. 9. C.
. 133 t. 9.
- t. 9. G. J.
O. 8. O. O.
. 131 1. C. O.
O. 3. 9. 4.71r*JC
. 132 c. 3.
4.21c.C0 4.71t+0C 4.11t*09 4.71t*00 8.
. 133 4.71t*30 4.71t*00 O. O. D. 2.
- 6. O. O. c.
. 134 C. G. O. f. O.
- 3. P. 1.42E.01
. 135 9.
1 42t*01
- 1 42!*01 1 420 01 1 421 01 3.
' 134 1 42[+*1 1 42t+C1 9. C. 3. J.
4 9. 9. 3.
- .135 J. C. C. O. 1.
*.
- O. 3.
*1344 .
C. C. C. 9. 1. 3. 9
- t. 9. 3.
'.135 G. C. O. C. 3. *133e 3. C. C. 2.
- C. D. C. S. a.
133 . C. 3. C. *. 133m ?. C. O. f. C. O. C. O. S. 4.91;+33
'.136 C. 4.91t+00 4.91C+0C 4 915 0C 0. .137 4.91t+30 4.91t* 3 4.94t+0C 3. :.
- S. 9. O. t.
8.
- 1. .. C. J.
*.13e 4. D. C. 3.
1374 9. 3. C. 3.
- f. O.
433&4 3. 3. 8.
- 2. 1. 3.
- t. O. C. 3.
2.41!.33 a .139 C. 2 41C+00 2 41?*t0 2 41C+00 3. 2 41r**3 2 41t.?3 2 41E*J0 6 39!.01 S. 6.39!.01 a.143 6 340 01 6.3%;.01 6.300.C1 3. a.141 6. 3C .01 6.34t.31
- 3. S. C. @.
1 142 1. O. 6. C. J. C.
- 3. C. C.
. 14; 2 7 C. ..
9 D. C. .. C. 3 142 0. 3. O. C. 3.
. C. 8. S. .141 1. C. G. 4.
- 7. O. S. 4 22*.3 143 3.
4.220.C1 4.220 01 4.22f 01 3. 144 4.22'.01 4.22!.C1 4 22E.C1 C. 3. 3. C. 7. G.
. 143 3. C. C. Q. 3.
( 344 S. 3 *. 3. 9. C. O. .
% 3. O. 2. 3.
- 3. 1.
4144p 3. S. O. C. 144 3. 3. C. 9 C. J. C. 4. O. e.147 3. 6. C. 7. 3. C. O. C. 1 100 3:
==le7 3. O. 1 19t +0 C 1.1st+CC 4.
1.19t*1C 1 19t*33 1 10t*00 1 10L+30 3. 3
'.739 C. C. C. ,.239 0. 3. C. C. 3. 1.
C. D. O.
. 235 1. c. O. C. 8. 3. 3.
231 3. 3. G. O. C. J. C. S. t.
- 2.
'.?27 3. C. D. C. .
C. D. D. 3.
*=221 3.
- 4. O. C. 9.
- 0. 3. 3. 3. O.
' . 223 G. 8. C. t. l *.231 ?. 9.
- 8. C. C. 3.
O. O. 8. 3.
. 223 8 O. C. O.
O. O. 8. 3.
'.219 *. O. D. O.
219 3. D. C. S. C. O. 3.
- 6. D. O. 3.
!*215 9. 3.
- 8. 9. G.
O. 6. 3. 3. G. 8. 8. O. G. [ '. 215 211 3. S. S.
- 8. 8. S. O. J.
1 211 1. 4 9. C. 9. 3. I
- 9. 8. e. 9.
- a. 3.
! .211 3.
- 9. 8. 8. C.
. 20 8. O.
l 1 cciste stin 40 ao3st:044L o Lur:04
- sto n= 1 ucisste atLeast natt Or caen IS0v0Pt 14 01stionest FLou 0F e
e Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-11
TABLE L-@ (Cont.) ENWI40asetstaL PATHWaf-005I CD4TERsION raCT085 r0* Lieul3 DIStuangts aGC GRCLP - TLigaEER s af 4 W 4T = P OT ag Lr hafta enarptwa Ptm UCl#nts v WUCLIOC 9RSa4 0 esc F aCT0m
............................................................... SN ih .13taL . 8037 .. ..... .... RIDWET LUmG SI=LLI L1WtR TNTASIO 834c 3.43 .J; 3 435-t1 3 43t=01 3 43C-01 3.
3 410-01 3 43t-01 C+ t. 3. m... 3 , . 1.
- 3. 8. 8. 8.
- a. 3. 1.
C*--14 3. S. O. 5.98:-31 C. S. S.8PT-01 S.Ste=01 S. F . 19 8. S 88!*31 5.88t-01 S.ht!-01 C. 2. c. , N4 =24 S.69C-81 8. C. 6. 1 10' -L P ! P== 32 8. . O. 2.41t=03 1 57t= C2 1.nSf*GC 3. 3.77;.33 S. 6.11t-03 3 93;+C1 'O . C4--51 9.
- 0. S.67C+00 8. 3.
1 9aE+41 C. 1. mu- 54 0. 8. O. O. C.
- 8. 9. O. O.
p4-=S6
- 3. C. 8.
1 01C+C2 :. 1 65:**1 FE--SS 0. 4.28t*01 9. C. 1 35f+t1 J. .. Fr==S9 1 43?*?! 9. C. O. 8. J. 7.09:.;;
- 0. ?. O. 4.24 .81 CD--ST 3.Ser.30 0. O.
1 1*E*02 3. 2 35:.01 CO*-SS 3. O. 8. 3.
- 2. 9.00f*00 0.
D. D. C. CS-.66 O. S.. O. C. 1. . mi==63 9 O. 8. f.
- 6. O. C. 5. 4.
NI-=65 9.
- 4. 9. C.
2 72f*01 C. 3.33C+;1 CU-*64 8. 4 11C+C1 ?. G. 1 85!*31 6 43C.31 7. C. C. C. 24.=6S 2. O. C. C. &. J. 24.-64 8. S. 9. 04 f. C. !. 3. Se--s2 C. C. c. Sp--93 8. 3. 8. f.
- f. C. c.
C. t. 7. J. O. O. G. ga..g4 8 C. C. 4. S. t, s. go.-eS 0. O. R. C. 3. J. RP--96 3. O. ?. 8.
- 3. C. 8.
1 64t 02 :. 3.950 31 RB--80 f. C. 3. L. C. 4. *. pp. 99 1 38!.C3 3. C. c. C. 3. 3, 59 934 O. C. D. 9. C. C. J. 9.19t*02 3. 3.48*.33
$#--89 C. D. S. f. J.
1 45C.C4 C. C. C. 58--9f- O. C. C.
- 3. J.
54*-91 S. 1. O. 3. e. 8. 3. 54--92 2. O. 8 C. J. O. *. O. G. 9. J. T..-93 ' 4. O. O. '. S. f. G. J. T*-914 8.
- 5. C. C. 3. 4.
S. 6. T-*=91 0. S. 3. r. C. 9. 3. Va==92 9. 1. O. O. a. ?. 2.46!=02 C. J. 9.74C+C1 T***93 6.09f-C2 0. ;. k ZR-**S 1 33r=11 4.16r-02 O.
&. 3. f. C.
6.
?. *. J.
2t-.97 0.
- 1. G. 6. ?.
G. 3. ;.
#0==95 3 C. C. *. 2.11!.33 43*=9F 3. C. 1.
- 2. Sic +01 8 94r-C4 2.GFr.C1 3.
1 10C.31 0. C. 7. RO--99 S.?ff-04
- 9. C. G. 2.
. f;-=99 8. O. 9. C. S.
4.
- 3. O. O. 5.
- TC=994 9. *
. O. C. C. 3.
TC-131 4. *.
- 8. G. O. 1.
. 8. 6. 9.
RU-103 0. 9. 3. J.
- 0. P. C. O. O. O.
RU-135 O. C. O. 3. RU+106 9. O. 8. C. 3.f9f*01
- 8.
RM1354 3. 5. 8. 1 1*t+00 c. 1 75t*02 3. 6 59t*01 6.24c-01 8. C. C. 3. 3. AS1194 3 J. A6-110 9. s. 5. S. 8. G. J.
- 4. 7 6: +0 St=122 S. 3. 8.
1.t?t.01 2.46t.02 0. 3. 1.22t+01 2.25!=01 2.77t-02 8. C. O. 88-124 C. O. 9. 8. O. O. 3. Se=125 6.
- 8. 3. C. v.
- 3. C. J.
ft1254 0.
- 6. 8. 8. O.
C. C. s. 101274 8. C. O. O. c. C. ft-12' 0 69r339 1 CCistC data =0 aeott:0=aL sasto og 1 UC sstC ncLeast este Or cate is0topt in OtsCannst rtov 07
- Raf. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-12
W_aROC-U _(cont.)
!=vsnonntatat patwear cost toestostom f actons 'on Lieu 13 onscwansts ast snCur . TEcuasca patweae - potastt veten 2 snaturna een Oct/ML8 %JCL1nt 9m&4 N oOSI Fact 0m LUNG St.LLI . ~ salm . .. .. ........
TOTAL s937 TNThotD E104 ET geht LIVER
- 9. 6 3.
- 8. 8. O.
c.,- :. C. 9. f. D. ft129a 6. 9. 8. 4 30t *SC 3. 1 17E.31 M ali) 9. 2 18t+31 6 35t+S3 3.74t*01 S. C. O. O. ft131m 1 95?+'t a. 6. c.
- c. 8. 3.
D. C. P. 3 et.g31 0 .- S. O. 9 - a. ft.132 1. m, g. 9. 3.
- 6. 3.
- f. 129 9. C. O. 9.
O. O. 8.
- 8. 4 P.
1.*133 3. S. 8. 9. P. c. 3.
*. 131 9. O. 9. S.43E.31 S. S. 1 35t
- 0 0 0.
- 1. 132 9.
1.?st+33 2 44t+02 3 12C + 09 8.
- 3. J.
- i. 133 1.tSte23 8. 8. 8. 9.
5.890 33 O. 2.51!.02 6.61t.09 1 76C.C 2 .
- 1. 134 3.
1 59f.C 2 1 02C.30 7 91C+00 C. 2.95E.22
- l. 135 6.17 t .3 3 8. 2.020*32 2.72C+01 O. O.
!!.134 2 73t+02 6. 3st *42 . O. 9. O.
- 3. C. 5.
05 135 3. 4. S. S. e. 4. G. C. C. e rt)*4 9.
- 4. 8. O. 3.
C. C. S. 3. 4!.133 4. C. C. C. C. 3. vt1334 p. 2.
- f. C. 9.
- 9. f. C. C.
.C.133 0. t. 6.
- 4. C. O. O. .
. t.
O. O. O. c. 1 68*.32
.!s.136 ! 314 *. 4.
1.64t+32 6.37t*11 6.96t*40 3.
- s.137 3 62**32 4.82!.92 8.
- 3. C. 6. t.
4. 9 C. C. O. 1.
;*.13e 3.
- 3. 3. P. O. D.
.a13'4 3. 3.
D. O. C. 3. 3.
- 3. 8. C.
1613Se 3. a. 4. 3.c 6t + 8 2 3. 4. 2 35.? !
- 4. 2.
- 3 3?C.02 6 69f.C2 C. 3.145 03 s.a .139 a.14% a.12t+L1 1 83*.C1 .
1 290 02 0. f.93r*t1 O. sa.141 4.130 32 2 74t.32 8. O. C. 6. ?. O.
- 3. 9.
O. C. C. i dh.142 8.
- 3. C. 8. O. 4. ..
is.143 3. C. 8. 3. ' S. 3. C. 3. ta.142 3. O. f. C. 3. C. 3. 3. CE.141 1. S. 8. 3, 1* 23*.01
*. 8. S.61E*B2 St.143 8.
9.27t.41 P. 5.535 01, 3. C. 3 . CL.144 2 24!*:: 9. 2. 3. P4 143 9 1. 9. O. O. 9. 3. pe.144 9. P. c. *
- 8. t. 3. 4.
- 1 C. C. C. .
O. 8. I segg4g . S. O. n. 3. 3.
'43 144 1. 3. C. 9.
1.
%0 147 3. 3. 8.
- 9. C. 3. J.
1.61t . 34
- 3. C. 4. 39 t
- 01 C.
- w. 187 3.
3.12C .04 8. S.93!.84 8. P. 3. 3. go.239 3 23!.C3 P. O. C. 3. e'J. 2 3 9 3. c. S. C. 4. 3. O. 3. C. 8. 8.
.t. 235 8. O. S. 3. 3.
C. *. C. sa.231 3
- 4. G. 8.
- 3. 3.
at.227 C. J. O. 8. C. 3.
- 3. 8. C. 3.
14 227 9. J. 6. 8. D. 3. me.223 s. 4. S. C. O.
- 8. S. J.
Tw.?31 9. C. S. 8. G. 9. O. 8. 9. 3. re.223 3. 9. 9. D. O.
- 1. 9. 8.
af=219 3. S. S. 8. C. O. 3. 84 219 S. 6. 9. 3
- 3. 8. J.
- t. 8. S.
A1 215 1. S. O. 3.
*0 215 3. O. S. O, s. 3.
- 6. s. 8.
- 9. 9. 3.
P9 211 6. S. 9. S. 8. C. 91 211 O. 9. o. 3.
- 6. 8. S.
- e. 8. s.
*fk211 9.
- e. e. a.
vt.2:7 c. t uttow easto og 1 uCirste acLtast eatt or taca 1sorort la ossenanst PLov or 1 ccaste attu no no3 o
- Itef. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-13
TABLE L-@ (Cont.) t it90getstaL Paturav-DOSC C09pt25803 FLCT023 FOR LIGuto O!5Cesa2 Cts CS~ GROUP - ICCW1GIR i
*aT4dat . Fe[$4 WATER FISM FA CT0m smetm#M4 Pts uC1p4L3 DUCLIOC 945ae D9SE ........ ....................-.....--.-...... . , satse foral 8337 LIVtm TMf4)l0 EIONET LUNG E!*LL O5 404 3 48t=92 3 4GL-02 3.48t-02 3.48'-02 3 48!-02 C. 3.4t!-02 m.---3 c. 9. C. 3.
C===14 ,D. O. c. 9. 9. O. O. O. . S. 8. 8. F---!N 0. 1.30E-83 1.30C-C3 1.3OE-03 G. 1.3tt-43 ma--24 ,1 33'-83 1 33r.13 1. 30t-C 3 a.
- c. O. O. S. S. 9.
p.--32 3. 4.49E-02 2 92C-C1 3 44t+01 4. 2 05C-31 CR--51 3. 4. 3.14(-01 1 73t+03 *. 1 67;.c2 mm--54 8. e.43r*02 c. 2.52t*C2 8. E. O. 4.
- 8. f. 9.
mm--56 8. 3. O.
~
S. S. 3. C. 3. FE--55 O. 3. 1 35E +L 2 1. 01 t + C 3 3. 1 65C+02 FC=-59 1 04!.32 ,4.28t*02 c. 9.
- t. 3. 3.
- 9. 9.
C O -- 57 s. 9. 9. Se D. 2 22r+02 C. 3 71t+01 CO--5A 2. 1 61f..* 1 9.
- 8. 6 66t+d2 S. 1 15!+32 5 11C +01 0. O.
CO--6L 4. O. C. O. O. 3. NI--63 3. C. 8. C. 3. 3.
- 9. 8. 8.
41--65 ?. 3. C. t. 9. De 3. 3. Se Ce CU==64 9.09:*03 C. 6.C2t+03 3. 6 63t+*3 2N--65 4.09t+:3 1 420 04 8. .
- 9. S. O. 6.
C. O. O.
' Re--69 9.
C. G. f. C. 3. J. We--82 3. 2. 6 S. C. 3. 4. O. 8. 3. ge--43 9. O. C. C. C. a. e#-age 1. O. *. 9. 3. O. C. C. 9. te--95 2. C. 8. 3. O. ms--96 *. O.' S. 3. S. f. O. 3. 98-=44 G. 3. C. 8.
- 9. 1 2 0* +02
- O. 3. 5.tif+82 45-=49 4 2C' .C 3 C. .
O. 9. O.
- g. 3. c. O. C.
ge-43g O. f. 2. C.
- 3. O. C. 1 31t+34 SR-=49 *.
- 3. 3 51:+0 3 0.
58-*#3 4.91C+34 3. C. 8.
. O. C. C. S. L.
S*-*91 0. 3. C. C. c. C. D. 4. 34-*92 0. *.
- f. f. 3. :.
T--- 93 3. ?. C. 9. C. 3.
- 2. 3. 8. 8.
T--914 J. 3. 3. C. 2. 9. C. 3. T-==91 0. G. G. O. O. 3. O. C. f. T---92 3. C. C. 3.
- 9. O. C. O. 4.of;+as T---93 3. 0.
S.47 +*0 C. 8 22 +00 C. 3 62!.G4 28--95 1 53'+31 O. C. f. C. 2R==97 0. 9 ?.
- 3. C. O. *.
me-*95 :. 3. O. 4.
- a. 2.
- 3. . 4. 9. C. P.
h8--97 3 44t+;0 C. 3 43:-31 ni--99 1.43'-34 1 72t+30 . 4 0?C+30 2.11t-04 3.
- n. 3. 8. 8. C. 3.
TC=-99 C. S. C. O. J. T =994 9. 3. O. 3. O. C. O. 6. 4. TC-101 3. 3. C. C. 3. G. 8. 5. C.
#U-101 3. 2 C. 8. O. 9.
RU-10% S. 6. O. 3. O. D. 9. 3. 80-106 3. O. C. O. O. D. C. O. R41C34 0. O. O. 8. 9 65t-02 3 025-31 S. 4.46E*01 4. 451138 1 65t-31 1 59r-01 6. O. 9. C. 3. aG-110 C. 3. C. 8. S. 3.
- 9. S. S. G.
50-122 S. 9. 1.10t+C0 2 54t*01 C. 4.92*-G1
$$-124 1 2%?+;G 2 32f=82 2 96t-03 0.
- 9. ?. 3.
G. O. 8. S. SG-125 8.
- 8. D. 9. O.
TE125R 0. S. O. 9. O. O. S. S. Tf1274 8. S. 8. 8.
- 9. 3. G.
O. 8. O. 9. TE-12F J. BASC3 04 1 UCl# SCC RELEast aaTC OF C ACM IS010PC IN OISCMaASE FLOW PF 1 CC/SEC WIT 4 1 1 l 1 s
- Ref. EDS @ Connputer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 l
i A-14
' TABLE L-3 (cont.)
C NW1434NL4TaL P4fMW AT=OSSF C999thS194 F ACT0a5 F 08 Lieu!) OI SC Me aG C 5 AGE GROUP - TCt44sta PAT 4W4T
- FatSM WafCR FISM en544 09SE F, a"C T 0 m (matatM4 Pts UCIt4Lt
% avCLIOt TNTeego sIONCT LUeG St-LLt SW In 70 fat 832f Oth[ LI W'e O. 9. 8. 8. C. 8. 3.
TC12** +9.
- 8. 8. O. O. C.
8' . 4. ft-129 8. S.53C+0 3 3 26C.51 c. 3 75:*00 e. 1.52:+31 TE131m 4.35L 81 1 93!*31 9. O. 3. J. ft-131 9. *. O. S. C. 4. 9. 9. O. 4. .. 1C-132 C. 8. . O. 1. J. S. 8. 1--129 9. S. B. 8. 8. C. O. J. 3-=130 C. 3. S. C. 8. ?. t==131 3. 8. C. 9. 3.
- 8. 8. 9. 9. c.
8-=132 S. 1 99t=33 3. 9.110-C1 1.15C = 8 2 9. 4.94t=83 C. 1=-133 3.eSt=03 6. 5 3t =0 3 - S. 6. 3. C. 3.
!=*134 G. S. 2 60t=S6 8.
1 11t-05 6.50L=09 4 25C-06 1.54F=06 1 95f-07 3. B--135 1 21 t-C 5 1.73t+04 1.77t+03 9. 6.622 04 CS-134 6.C6!.;4 1 43*+05 e. 4.53:+04 O. 3.
- 9. S. C.
CS=135 e. 1. 8. O. C. O. C. ut1354 3. 3. C. 9. O.
;. O.
- 3. p. O. O.
gr.135 ?. O. 2. 3. C. C. 3. 9. ut1339 0. O. O. 9. 9. S. 30-133 3. C. 3. T. 3. O.
- c. 3. 4. - 9.
a[1318 0. 8. C. C. D.
- 3. C. O.
CS=136 3. 3.7 0E
- 04 1 44t.04 1 55t+ 3 3. 3 790 04 CS=137 0 18'.C4 1 0 9C *C 5 9. G.
- 9. 8. O. 8. O.
CS-139 8. 3. S. O.
- g. 3. 9. C. 8. C.
S A 137m C. C. 6. 8. 941344 3. ;. C. 4. 9 C. C. C. D. *. J. 94-139 9. 1 000-32 1 99t=02 6.21!*02 3. 1 56!.3: Ra-14L 2 41t+C1 3 95'-02 C. 3.?!t=44 E. 1 23C-03 C. 7.53C +0 3 C. Ra=141 3 93t=03 2 62C-33 O. 3. C. C. 3. pa=142 c. p. C. 3.
- f. C. 9. D. C.
LA-14 O. 3. C. 1. 3. 9 1. C. 9. 9. L4=142 8. 9. C. J. Ct=141 0. C. O. T. 2. C. 8. 8. C. 3. 1. Ct=143 C. 8. 6 24t*C1 3. 1 33t=t2 2 49 t=01 1.0 3' =01 C. 6 14!-02 CC-144 D. C. 1. 3. Pe=143 1. 3. O. 3. O. - 8. C. D. J. P9*144 0. C. 8. C.
\
O. C. C. D. ?. . Pa144m 9. O. C. :. O. a hD=144 9. C. 1. C. C. 8. p. C. 2. J. WD-147 9. v. O. 3.
- 8. C. O. C.
w--147 0. 2. 1 27!=84 9. 5.11t+0S 0. 2 41I-05 NF-239 5.tet-34 6.19:=05 9. C. J. 6. O. C. 8. D. PU-239 C. 9. 8. O. 3. U--235 C. 6. C. 8. C. 3.
- 3. O. 9. O.
Pe=231 3. 3. S. C. 8. 3.
- 4. 8. O.
at=227 3.
- 8. 9. S. O. O.
VM-227 8. O. 6. 8. C. 8. 8. O. 9. 9. ma=223 6.
- 8. O. O. O.
S. 8. 6. TM-231 3. S. 9. J. 9.
- 3. 9.
F4-223 9. 6.
- 8. 8. C. O. 1.
af=219 0. 9. 3 O.
- 3. S. 3.
S. 8. 9. 3.
#h=219 8.
- 6. 9. O. O.
91-215 8. 9. 8.
- 8. 9. D. C. 1.
P9 215 3. 3. 9. O. O. O. O. O. PS=211 0. 3. 9. C. S. O. 2. SI-211 S. ?. C. 8. O. d. O. 8. 9. P0 211 S. 3.
- s. s. a.
tL-2s? . 0.
- s. o. s. s. s.
P4Sto 04 1 UCIFSEC RCLt4SC natt SF E ACM 150f 0PC IN DIStueesE Flow 0F 1 CCtsCC WITH #0 ADD e ' - Ref. EDS @ Computer Code RG1.109 Version 2, Rev. O, Date June 11, 1982 A-15 l
xmm,-, ._ (Cont.) twyta044t4?AL *s?wway-DOS C849[45104 FACTORS F 08 LIOUI3 OfSCNAR&t$ est 6400P - 7tt443 4 es?4ma? - LaKt SMS4CLlet OtPCst?S , V #UCLIDE ORS 44 0nSE F AC7en (metarwe Ptn UCitnLe TNTROID EIO4CT LU M6 St-LLI SK !4 TOTAL S3Jr
. 00mt LIVER
- 8. 8. 8. O.
u..--J ,C. 9. O. S.
- 8. S. f. 8. O.
C===14 8. O. 3.
- 8. 1.
O. 8. S. P. 9---10 4. 6. 3 06Ca02 3 330-02 3 33C-02 3.33C=02 . 3 33f-02 3. 35 t = 8 2 58-=24 3 33t-02 3 3X-02
- 8. 9. a. 6. O.
8. P--.32 *. 3. 1 66t=02 1 660-02 1 66t -0 2 1 66r -0 2 1 96C-02 1.660-22 CR*-51 1.66r *0 2 ~ 1 66f-02 4.96:+00 4.96t+00 4.96C.00 5.01C.00 4.96C.33 me.-54 4.9h"+3C 4.96r+00 4.96t*00 O. 9. 8. on--54 e. O. 9. C. S. S. P. 4. 3.
- c. 8.
FC--55 3. S. 9.74 -01 9. 7 4t -C 1 9.74C-01 9.7 4t-01 9. 7 4t-01 1 15t+00 9.74!-31 Ft.-Se 9.74!-01 C. D. J. S. 8. S. 8. C0=-57 3. 1 36t + 00 1 36t +00 1 36r +t c 1 36t + 00 1 59t+30 1 36:+03 Co--58 1. 36 t **
- 1 36t+03 7.72t*C1 7.72t*01 9.300 31 7.72t+31
+:1 7 72C+C1 7.72K+&1 7.72t+01 CD--h- 7.'2 C. O. 8. S. 3. a.
at==63 1. 4. D. 8. 1. 3. NI--65 S. a. S. 6.
- 8. 3. 3.
- 7. 8. 9. 3.
CU--.4 1. 2.67!.33 2 67t+0C 2 67t+00 2 67t*00 2 67t+C3 2.6ft+00 3 07t+01 24--65 2 67f*30 C. 8. O. O. C. 3. 2N**69 :. 2. C. O. C. 9. 9. O. 94-*s2 3. . C. 8. 8. 8. 3. 8. St. 03 3. 4.
?. O. C. t. O. 3.
On-.34 3. 3. 3. C. 8. 3. 7 me==95 1. ?. C. 3. O. G. f. f. 3. eP=-p6 3. . 3.
- f. S. 9. O. 8.
RM--98 J. 7.72C-J$ 8. 7.72C-05 9.72[-05 7.72 -05 7.72[-C5 7.72C-05 0 97C-05 e4--44 7.72r-35 O. J. 3. Khe434 3. O. O. 3. 8. O. 6. P. O. J. SP--84 3. 8. 0. 1 92:=02 1 9 2t-02 1.92f*02 2 27C-02 1 12C-J2 S#-apa 1 92!=:2 1 92C=C2 1 92t=02 O. C. C. O. O. C. 3. SR=-91 C. 8. O. O. C. O. 8. 6. SR--92 0. O. F. O. O. T--=91 3. C. O. 8.
- 3. G. O. 8. 3. J.
9-.41a J. 3. 3.
- 2.
- 0. F. 4.
9-==91 3. 7. 3. O. 8. J. 3. 7---12 G. S. C. 3. C. O. S. 9. C. 9. J. 9--=93 0. 3.9M+00 1 93t+30 1 9 3;+ 3: 1 43t+33 1 93t+14 1 93t+00 1 9 3! +3 0 1 93r+00 2m-.95 O. a. C. 3 O. 28- 87 C. C. C. ;.
%. C. 8. O. O. S.
WP--95 1.
- f. C. O. 3.
hn==97 C. 3. J. 3. 2.235-02 2 23r-02 2 23C-02 2.2 3f =*2 2.235-02 2 10C-02 2 23!-G2 M9=.49 2 23r=32 O. O. O. O. O. 8. 3.
.7C-=99 L.
- 8. O. C. 8. O.
7C=994 0. O. 8. O. 3.
- 3. 3. 8. 8. C.
1C-131 J. O. 8. O. O. Au-123 0. O. 8. 8. O. 8. O. O. C. J. pu-135 1. O. O. J.
- 9. 8. C. O. O.
RU-136 3. C. C. O. O.
#41334 4. 3. C.
0. 1 24!.03 1.24t*01 1 24E+01 1 45t+01 1 24C+31 461104 1 24F+01 1 2 4C+ 01 1 24t+ti 4. S. 8. 8. 8. 46-110 f. P. 8. 3.
- 8. S. 9. 9.
SP-122 8. O. 8. 2 47t+00 2.14C+0 2 14C+C0 2 14t+00 2 14C+00 2.14t*30 2 14t*00 Stal24 2 14E+3C S. S. 3. D. 8. 8. 8. 50=125 3. S. C. O. 3. O. 9. 8. 7F125m 8. O. S. 8. C. 3. 7t117N 0. 8. 9.
- 8. 9. 9. D. 4.
7t-127 ?. 3. 3. CCr$ct esta no aOOtf regat Ottur:04 Gast) 09 1 vCa sStC R:6ta$t matt Or taCM IStreet in DISCuanst FLes er e
- Ref. EDS @ Cornputer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 O
A-16 l
, - - - , --- - - - ~ . _ , __ _
TABLE L-M (cont.) Inv3RON4:4Tal 867nwaT-o05C C04WCR$344 FACTORS F0p Litu!3 DISCnanGES
&&c 6ROUP = ICthaGER 84T4Wat . Laur. S4petLlut DEPOSITS \ ) eRSaN OOSC FA~ CT0m taptm/na Pra gCginLD WUCL10E ..... ........Livre ... .......................-.
TNTR310 EIONET LU h6 St-LLI ...... ........ SEIN 70fal 833f sint
% S. C. 3. 3.
- 6. O. 9.
J. TE1244 .t. C. 8. 8. 8 9. ft-1?* O. 2. 6.85f-t2 6. SSE-8 2 7.34C-02 6 0 5C-02 6.t SC-f 2 6.85t.82 6 85!-82 ft131m 6.05!-C2 9. S. s. O. 8.
- 5. 9. C. O. g.
ft-131 S. 9. 9. C. TE-132 S. 8. C. 6. 3.
~ O. 8.
t=-129 c. C. 9.
- 8. C. O. C. 5. 4.
t==13C S. ?. 8. 3. J.
- 9. O. 8.
I--131 6. 8.
- 8. 'C. 3. 3.
t=-132 c. *. S. 8.
- 7. 36 t = 83 7. 36t = 0 3 7. 36t- 9 3 s. 95E-0 3 7.36 .03 3--133 7 . 36: 0 3 F.360 43 7. 36!-8 3 C. J.
- 9. f.
O. C. 8. S.C9C-03 5 93 -33 3--134 0. 5 93:=83 5.93t-23 5 93t-8 3 I--135 5.93'-33 5.93C-03 5 930-t3 2 46t+01 2 46t*01 2 97t.C1 2 46t+ 1 2 4%E.31 2 46t*11 2 46t+01 2 46t +31 e. 4. CS-134 8. 8. 8. C. C5-135 4. 9. O. 3. 3.
- 8. 9.
Et135r 3. O. S. C. O. 4. S. 8. S. s!-135 1. T. 6. 1. G. 9. O. 6 ut1334 0. J. D. C. J. D. O. O. C. at=133 3. 3. J. C. O. O. 8. Et131n C. 4. S. C. 3. C.
*. O. O. 3 69t+31 CS-13% 0.
3 69t+C1 3 69t*C1 3 69t+01 3 69t+01 4. 31C + G1 CS-137 3 69 +&1 3 69:+st 8. O. O. 3. 9 S. 8. O. CS-134 0.
- 8. C. O. O.
ma13?p J. . 3. 3. O. O. 4. D. C. 3. S. Ea13%e 3. C. O. O. O. pa.139 3. S. 3. 6 6st-C1 6 69t=81 6 08t=31 6.68 -31 6 6mr-t1 6 6at-01 6 68C-C1 5 49t=O2 4.87t-32 Ha.143 6 69t-01 4.871-C2 4.87t=O2 4.8 7t-C 2 4.87t=52 94-141 4.87f-;2 4 970-J2 D. C. 8. 3.
- 3. S. O. O.
34-142 6. O. c. O. C. ?. La=143 0. 3. C. C. 2.
- a. C. C.
La.142 3. ?. f. C. O. D. D. S. CE-141 9 9. p. O. f. C. O. 8. Ct=143 3. 3. 4 050-01 4. 05t-01 4.67t-C1 4.05*-01 4.55!=al 4 35T-31 4. St-f1 4.05'-01 3. CC-144 S. C. C. O. 4. C. Pa-141 . C. S. C. 9. P4=144 3 3. C. ?.
?. C. S. *.
j O. C. O. O.
'v P8144m T.
- 4. S. S. f. .
O. 40-144 S* 1. C. O. O.
- 3. O. 3.
! No-14T 3. C. 9. O. J.
- 5. 1.
W..lef 3. 1. 5.721-03 5.72C-23 5 72E=O 3 6.62C-13 5.72!-33 f We=239 5 72! *3 5 72C-03 5 72!-83 O. O. O. 3. i PU-239 0. S. G. 3. C. C. C.
- 4. C. C. 3.
U==235 C. 5 9. f. O. l O. C. 8. O. 3. Pa-231 3. 9. f. 4C-22F 9. a. C. 3.
- 8. C. C. 3.
O. C. C. D. C. TM-227 3. B. 8. O.
#a-223 0. 5. P. O.
- 9. S. .C.
- 4. O. C.. . O. .
C. S.. O. O. j .T.-223 M-2 310. .
- e. 4. 9. C. O. 8.
AT-219 1. O. 8. 8. 3.
- 8. S.
94-219 0. O. f. O. O. 3. Si=215 9. 3. s. f. 8.
- 8. 8. O. 3.
O. 8. f. O. PO-215 3. 9. 9. O. C. O. J. 98-211 3. .
- 8. 9. O. 8.
31-211 C. 3. 6. C. O. 3. O. S. 8. O. c. 3. PO-211 3.
- e. O. 8. 3. e. 9.
TL-2sf otturrow saSco og 1 UCa rStC n:LeaSt Matt er taCa tSO' ort in otSCuaest FLos er 1 CCrStC usin no anoittogat e ! - Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 I
*g A-17
m:_x_-7, m - (cont.) tuvin044Cgial 8474W47 00SC C04v[R$104 FACTOR $ F0a L10U13 D15CasAR60s 85L GROUP . TC* ues; 4 p Pafh 4T - SW144148
- i 1 paterna PER UCitnL3 NUCLIDC ea54 # D0St raCf0a 99mt Lista TNT 8010 EIONET LU4G $1*LL1 OR 1 h T0laL 331f
- 8. e. O. S. O. 1.
m... 3 e ' 3. . D. D. O. J.
- 8. C. O. O.
C.--14 S. C. 9. 1. F. 3. 9. S. F---in 1 78 t +01 1 78t*01 1.Ter.01 1.ftt+01 0. 1.F8 +*1 34.-24 1 74f*31 1.?S!*C1 n. 3. O. S. 8. S. O. P..-32 9. 1 19!-01 1 19C.01 1 19t-01 1 19r.31 1 190-01 1.19t=01 0. 1 19 -31 Co.-51 3 4 3C +00 3.4 3C +10 3 43t+00 3. 3 4 3:+03 mes--54 3 43f+CO 3 4 3f +03 3 43t*00 C. O. O. 9. D. O. 8. mm- 56 9. C. 3. 1. FE. 5* 9. C. f. S. 8. Ft.=59 5.?2t+0f 5.0 2t +0 3 5 32t+00 5.0 2E +0 0 5.12f+00 5.t2t*00 8. 5 421*::
- c. S. O. O. G. 4.
Co--57 8. S. 4 11t*00 4.11f**C 4.11t*0C 3. 4.11t+33 C0-*54 4.11C+37 4.11r+3* 4.11t+00 1 05; J1 1.*50 01 1 35!*01 1 05t+01 1 05t +G 1 C. Co.-6* 1 05t+31 1 05!.01 C. C. J. 41.-63 3. A. 9.* .
- a. C. C. S. C. 3. 3.
NI--65 3. G. O. e. 3. O. 2. J. CU.-64 9. 2.51t+0C 2.51t+00 C. 2 51*+:; 24-=65 2.51r+3e 2 51r+03 2.51r+00 .2.51 *00 3. C. J. C. 9. O. 9. 3. 24--69 S. C. O. S. Se.*S2 9. 1. D. 8. O. F. 8. O. O. O. G. Pe==83 8. C. O. 3. J. 98-=94 0. C. O. 1.
- 9. C. O. C.
98--55 0. 1. C. 7. 3.
- 3. 3. C. O. C. C. J.
am.a06 C. S. 3. 88-al9 9 S. c. 9. O. 1.C52 02 1.C5t.02 1.05;-02 3. 1.C5t=:2 Re. 09 1 4%r-3 2 1 05C.?? 1 05t-02 a. 3.
*. 9. C. O. C.
me.434 0. C. O. 54--89 C. 7. C. S. S. J. 1 23:=33 1 23t-0 3 1 23!.03 C. 1 25t.03 Es-.9; 1 23f=C3 1 25t-03 1 23!.03 C. *. 3. 54.*91 C. t. C. C. f.
- f. C. D. G.
SS-=92 3. J. O. 3. 3. G. ?. O. O. C. E. T..=9J 0. C. D. D.
- 8. 1. C. 9. f.
1.=414 1. ?. C. C. O. f. T.. 91 3. 3
- 3. L. C. O. 4. *.
T.-=92 0. J. G. C. 3. C. O. O.
= T===93 8. 3.
3 43f+00 2. 3 4 3:+0 0 3' 28-=95 3 43**C0 3 4 3; +3 0 3 43t+00 3 43C+00 3 43r+00
- 8. f. 2. G.
2p--97 0. i. O. 3. O. C. 8. C. 3. J. mP -95 0. J.
- f. O. 2.
WP-*97 0. f. C. G. 2. 5 441 01 5.48t-r1 5.44t-01 3. 5 48C-01 p0.=99 5 4tC=01 5 49C-01 5.4*f=61 C. C. D. !. C. C. J.
- TC=.99 0.
C. O. O. TC.994 3. O. C. 8. C.
*. G. O. f. O. O. J.
TC.101 S. O. 8. 3. pu-13 3 S. 4. 8. S. S. C. O. O. O. O. 9. AU-135 8. O. O. O. O. C. 9. O. O. RU-136 9. .
- 9. 3. 9.
- 3. 8. C. 9. 8.
RM123M 1 120 31 441114 1 12 teal 1 12t+31 1 12E+01 1 12t+01 1 12t*C1 1.12[+01 3.
- 8. 8. O. S. 3.
86-110 9. 4. 3.
- 9. C. O. C.
59-122 ?. f. C. 9. 4 22*+;3 8 22C+30 8 22C+30 0.22C+00 8.22f+00 8.22r*C0 8.22[*&O 0. SG-124 8. S. 3. 89-125 8. O. 8. S. S.
- 3. 9.
T[12%4 9. C. c. O. 8. 6. C. O. Tf12?M 0. C. 8 t. O. O. O. O. a. 3. vt-lar s. O. 9. sa st) 0= 1 UCisstC attrast matt OF taca 1sSt0Pt in 01stmast FLOE Or 1 CCiscC sita n0 aoole:0 4L oltur:0=
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 \
A-18
TABLE L-3 e3/ Css 29. (cont.) C 4WIR0iO47,alf aL Pa'MWaf-005t C09f tRS304 FaC TORS F 09 LISU13 DISCMaaGC9
^ *aT9 War - Sutungess , ast 540up . fttgasta N
NUCLloC eR6&4 00SE F aCT0m snarn/Me Ptn UCitaL1 t we nigo slogtv Lunc 63.LL sagn foraL soar ns=C Ltute
.- 3.
7tt?94 O. !. 8. C. C. c. O.
- 9. 6. O. O. O.
1t=129 3. O. 4.
?!!ste 1.71r*:C 1.78t+35 1 78t*00 1.78t+00 1.Ter+0C 1 79t.00 3. 1 78!.00
- 8. O. G. 3.
TE-131 C. . C. 2. f.
- 8. C. O.* 3.
TE=132 2. 9. D. 8.
- 3. O. C. O. O. 5. C. 4.
I--129 c. 1--132 9. 5. S. O. c. ?. 4.
- 3. 3. C. C. O. C. O. 3.
I--131
- 9. *. 3. 9. 9. C. 6. 3.
I--132 I--113 2.19t+30 2 19t +0 0 2 19f+0D 2.19t+30 2 19!.00 2.19r+00 3. 2.19E*12 C. S. f. C. 2. O. 1- 134 S. 3. S. 3. I--135 ?. S. J. O. C. f. 6 6 2f *: 0 6 62t+.CO 6.62t*00 6.62t*OC 6 62t+00 O. 6.62t+3: CS-139 6.62'*CC
- 3. 3. 5. O. c. c. 3. 3.
'C4-135 S. 8. 8. 8. C. 1.
att%m C. J.
- 9. C. P. 3.
t[-115 O. 3. 5. 8. sr 135m C. 1 O. C. 8. C. 3. J. 9 4. 9 C. 2. C. 9 4. st-133 G. 9. Ett31p 3. O. C. 9. 8. C.
- 8. 6. 7. 4.
CS-116 3. 8. S. 8. 2 28t.t0 2 2a[+00 2.28r+00 2 28r+OG 2 20 *00 6. 2 28:*33 CS-117 2.79'*2 C. C. O. C5 13e 7. 3. O. O. 8. O. C. C. O. O. 4. Batifu 3. 7. 3. Ba136m O. C. C. O. 3. O. 4.
- 3. O. C. O. C. 8. C. C.
94 139 C. 1 12:+30 pa-14 1 12r+st 1 12!+;0 1 12f*00 1 12C+09 1 12f*00 1 12r+C0 as-141 2 9Fr=31 2 9 7:=21 2 97t-t1 2.97t*01 2 97t-C1 2 97t=01 7. 2.97C-31 C. C. O. O. C. 2. C. ma-142 3. La-tes 3. O. 8. 3. f. C. 3. J. S. P. O. C. 3. O. La=142 ?. C. CC-141 5 t. 6. 3. C. c. C. 3. C. O. 9. O. O. S. CC-143 3. 3. C. 1 96 -31 Cr-144 1 96!-01 1 96t=$1 1 96t-C1 1 96t =01.. 1 96f-t1 1 96t*01
*e.ge) g. 3. 3. 4. C. S. O. 3.
- c. C.
d P8-14e Peteen 3. 1.
- 3. O.
S. 3. O. C. C. C. 3. 3. 3.
*. ?. C. O. O. C. O. 3.
40*144 O. 9. 4. O. O. O. 3. 40=147 3. C. J. es-.187 1. 3. O. 9. 3. 9. WP-239 5 44E-S1 5 48;-01 5 4At=01 5.40t-81 5 48t=O1 5.4ef=s1 S. 5.49t-01 pu-239 3. 3. 8. 9. 8. 9. O. J. S. O. 5. O. O. 4. U-*235 3. 9. Paa231 3. J. J. C. e. C. 1. 3. P. S. S. 8. S. 8. - aC-22F 3. 3. O. YH*227 *
. O. . 2. O. S. C. J.
pa-223 S. 3. 8. 9. S. 8. O. 3. TM-231 3. S. D. 8. 3. C. S. O. O. S. 8. O. 8. C. FP=223 S. S. aT*219 2. 3. 9. 9. 9. S. 8. 3.
- 6. S. 8. 9. 8. 4.
84-219 8. 3. B. C. 8. 9. O. O.
*I-215 ?. 1.
O. 4. O. 3. 9 O. 4.
'9-215 8.
S. PS-211 ?. 3. O. 9. 8. C. 3.
- 8. S. ?. 3. 9. O. D.
l SI*211 9. PO-211 3. 3. 3. S. 8. C. O. 3.
- a. e. e. e. s. a. a.
TL-2Or O. sasts og 1 uCir$tt atttast natt Or taCa ISov0pt la orstaanst view or 1 CCrstC sita no acostle=at o Lotto 9
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-19
T TABLE L-3 twBauw. (cont.) Invtes==:ntat Patwear.00st C09stesson raCross s ee Lisa s) otsCuaests paigwaT - 30aTIus . Ali EROUP - ft*mastm U e4 54 4 00s! FA C' ? O a (naturne PER UCl#4LS eUCLIOC LU46 St*LLI SKIk 10faL 8327
*mS95 LIvte TNT 40!o EtoWCT
- a. C. C. 3.
3J C. C. 4. O. es.- -3 C---14 e. O. 8. *. 9. O. 6. O. 3. G. E. O. F..-19 S. O. f. 3.e3ress C. 3.sst.33 3 03t+01 3.93C+91 3.a 3E ec t ta--24 3.R 3r *01 7 8SE*01 C. C. 3. 8.-.32 O. O. 4. S. 3.
- 2. gar.91 2.555 31 2 55!-01 2 55t-01 2.55t=01 2.55t=01 C. 2.55:-31 Cp=-51 F.hr+0C 7. 36E . 0 2 ?. 7. M*. H 7.36f *CC 7.36E.C0 7. 36 t *10 7 36E
- 00 met ==54 f. C. 3. J.
e4-=56 3. O. C. 8. O. C. C. O. 3. tt==54 S. J. C. 1 0 8: +31
- 1. cst +01 1 8BE.01 1. ORC +01 1 50C+01 C.
eg. 59 1 99t
- 1 1.C8 *31 C. 3. d.
O. D. D. 08.-57 1. 1. 8.84E+00 5 84E*00 8.34r.cc g.get.gg g, e.get.35
- a. 14 8.84?+30 8.84t.03 2 2M
- 01 2 26[*01 2. 2 26t+31 Co--6s 2.26t*J1 2 26E*01 2 26t +C1 2 26t.01 J. O.
~
- r. O. c. G. J.
. %Is-63 0.
P. C. 3. 3. tt-w&S t. S. C. 8. C. !. D. C. 5. J. CU--64 9. G. 5 43!.33 5.44!+33 5.40[*00 5 4 DC .00 5.40!.C0 5 80!.0f 0. 29--65 5.43r.33 P. O. f. C. D. O. 24--69 C. 2. S. D. t. 3.
- 3. J. O. O.
Me--4. O. C. O. J. 98-=43 J. J. 3. O. 3. O. O. en..g4 J. S. c. 8. 4. C. 4. J.
- 3. C. O. 9.
ma=-45 . C. C. O. D. 44= 46 2. 3. O. f.
- c. 3.
- g. e. 4. O.
e4..gg ;. 3. 2 26t*02 2.tbC=32 2.tst=02 2 26t=02 2 e 26t =t 2 2. 26t*9 2 3. RFe=99 2 26t=02 3. a. 3. ug.43m 3. 1. 3. D. 4. 3. C. O. 8. C. J.
- t. 3. 2 65? -C 3 54--89 2 6 55 -t 3 2 65C=C3 2 65t=03 2 65t=C3 2 65[=03 C.
54=-9; 2 65P-43 C. 3. J. 14--91 J. 2. a. O. 8. O. 3.
- 3. a. 3. O. C.
St. 92 9. C. 4. 8.
- 3. 5. P. C.
T*=*9J 3. O. G. O. 3. C. J. C. C. 3. t==414 S.
- 0. 8. C.
T==~91 C. C. C.
] T---92 3. . S. C. O.
O. O. f. C. f. C.
- 3. 3.
d T==.93 c. 7 3&*+;G 3.
?.36 +C)
- 7. 36t
- 3 C 7 36t*00 7. 36t
- 3C 7. 36 t + 0 0 J. F.36:+03 O.
24-=*5 D. O. O. O. c. C. 28.-97 3. P. O. C. O. 3. 99*=95 J. 3. O. C. 7.
- 4. O. De D.
48-=9F 0. J. 1 10E*00 1 19E.00 3. 1 1R;.03 n0-.99 1 14C.*e 1 1st *30 1.!st C3 1 1st+30 O.
- 8. f. 9. 4.
TC=*99 2. f. S. G.
- 8. 3. D.
TC-994 8. S. O. 8. 4.
- e. 8. 8. O.
't-131 2. G. C. J. J.
C. 3. S. C. Pu=103 3 9. O. 3. O. 8. 8. 9. 8U.13% ?. ?. O. 9.
- 6. 6. f. 8. D.
EU+106 9. C. C. C. 3. f.
*M1334 6. 8. 3.
2.41E*S1 2 41t*01 2.41[*01 3. 2 41t.31 aS110s 2 41C*01 2 41C."1 2 41E+01 O. O. O. 6. C. S. 48-113 3. 3.
- 8. 8. c. O.
58-122 9. S. C. f. 1 77!+01 1 77C+01 1.FTE.01 1.77t+C1 1 77t*01 1 7W +01 1.?Ft*01 8. Sn=124 8. P. O. S. 38-125 C. 3. 8. 8. 3.
- 9. 9. 9. O.
ft1254 0. O. 8.
- 8. D. O.
- 9. 9. 8.
Tf12?R 9. S.
- e. e. s. o.
tt-127 s. 8. o. D. l masts og 1 ut1FstC n!Least natt or tata tsotopt It otsCannst *Los GF 1 CCistC sata as soorriegat otLUtto= a
- Ref. EDS @ Computer Code RG1.109 Version 2. Rev. O, Date June 11, 1982 b,
k A-20
TABLE L-3 e3/04r29 (Cont.) tuv!40mm!41&L paTHWav=00SC C099tRStem FACTOR $ F08 L10013 015CMaasts
~
ast SRout - TCtwasta ( pat 4 War . Seafless 9asa4 04 SE F A CT0m (seeturne era UCl#RL) UUCLict - ......... .............. ...... ... ....
.r............................................. sa lt 70fAL B3DF TMf43It K109Cv Luses st.LLI ,43m[ LivfR
- 4. r. O. O.
*. O. 9.
tC1294 s. O. O. O. c. O. O. ft=129 P. 9. 3 83r +04 3 83C+08 f. J.8 3t.:: 3.83t*80 1 9 30 +0 0 3. 8 3C .0 0 3.8 3f +3 e ft1314 9. D. C. O. 9. ff=131 9. G. f.
- c. 3. O.
O. 3. O. O. 1F=132 !.
- 8. 8. O. O. 8.
- 3. 8.
1 129 3. C. 8. O. f. O. 3.
- 9. O.
I--133 9.
- 8. 3. f. 8. c. G. 6.
I--131 D. O. C. 3. t==132 c. 3. F. 8. c. 4.71c*00 4.71!+t0 4.71E+C3 4.?!C*00 4.71t+03 t==133 4.71!.50 4.f!t*C0 G. F. c. G. 9. c. t==13* S. 3. D. O. O. 8. O. 1-=135 C. S. C. 1.42;+*1 1 42C+01 1 42 C + P1 1 420*01 1 42C*01 1.42t*01 0. S =134 1.42!.01 D. F. 3. 3. 03-135 C. S. S. 1. C. 3.
- 3. 8. C. D.
s!1354 S. 3. O. 3. O. 3.
- f. 4. S.
ef=135 0. D. G. 3. O.
- 2. F. 3.
se 13 34 S. D. 8. c. 1. 3.
" -133 c. L. C.
O. C. . O. st131= 3. O. 9. 3. 3.
- 3. C. f. C. c. 9.
CS=136 3. 4.91E+0a 4.91C+00 2. 4.910.:= 05-137 4.91!*C0 4.91t.03 4.91t*00 4.91t*03
- f. 3. O.
- 3. O. 8.
*S-13e O. 3.
- c. c. S. 3.
da137m 1. 3. C. S. O.
- a. O. C. O.
wa13ge 1. 6. C. O. C. C. 9. O. C. 4a=139 9. f. 2.41C+00 2 41t*00 2.41C+t0 2 41c+00 a. 2 41E+C3 6a.14; 2 41ree0 2 41t*00
- 6. 38 t - C1 6 3Pf-t1 6.300-01 3. 6.38!=:1 44=141 6.39t.01 6.38t=31 6. 3* C = 01 3.
- 8. O. 3. O. J.
*4=142 , 1. 3.
P. O. C. O. c. La-143 3. f. C. G. 3. O. C. 8. C. La=142 ?. 3.
- f. C. O. C. *. G.
Ot=141 3. f. ~
- 9. 9. O.
- 8. O. 0.
CC-143 0. 2. 4 22E-91 4.22f=01 4. 22t = 01 c. 4.22!=31 Ci=144 4.22t-01 4 22!=t1 4.22t= 1 C. 8.
- 3. C. C. O.
.k "=143 9 2.
C. 3. C. D. C. 3.
**=144 S. 1. C. 3.
881444 3. G. 8. a. O. 3. 3. O. C. C. O. W 144 C. ?. ?. 3. C. C. f. J. NO-147 C. J. O. O. 3. O. O. G. d==197 C. 3. 2. 1 18t*00 1 18t*S? 1.1ST*C0 3. 1.18:+3: 385239 1 18t+50 1 14(.00 1 18!.00 C. C. J. J. O. 3. 8.
=U-239 8.
O. 3. c. C. O. u--235 3. C. O. J. O. O. O. G. 4.
'a=231 S. 3.
O. C. S. 3. O. at=227 3. 3. C. O. J. C. S. O. C. Tw=227 9. O. O. 9. 4. C. f. 3. 8. ha=223 9. O. O. 6. O. G. 9. 6. O.
*M-231 S. 8. O. 3.
l 88-223 S. 3. O. 8. O. 3. S. O. 8. O. tT=219 5. S. O. G. 3. S. 8. 8. 9. Sh=219 9. O. O. O. J. 9 3. O.
<!=215 3.
- 8. 9. 8. O. 1.
=P=215 8. O. S. J.
C. O. 3. O. 8. ap=211 3. S. O. O. 9. 8. C. 3. S. 11-211 9
- 8. 9. O. C. O.
80-211 S. a.
- 0. 2.
- e. e. s. 8.
'L-2er s. 9. 3.
Ot6utsw iates og 1 utt sSct acLeast east Or cate isor0er is orstaansr FLOW er 1 CCistC Wsta n0 a00er10=at Raf. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982 O V A-21
yBlOG-N e3 ster 29. (cont.) Enginsmutatat paravav-oost togetaston Factsas son (tou13 oisemansts
~
potastt vatta a6t saou* - en Lo wavevae e e 5 a u. D0st raCT0m smatusMa Ptn UCl#4LS WWCLloC
.A.. ....................................... Elo4tf Lums Cl-LLI SE14 Total 3337 304C L1ste T NT Ro t D V
6.51t-01 6.57t-01 6.5?f=81 3. 6.570-31 w==. 3 3. 6.5?C-21 6 57t-01 P. 3. 8.
- 9. C. 8. 9.
C=--14 8.
- 9. O. G. 3. G.
- r. 18 3. O. 9.
1 48C 30 1 4tE*g8 li48t+0 0 . 1 4Pt.90 1 4BC+00 1 49t+OO 1 44t*B0 C.
- 44. 24
- 9. 4. 8. 9. 9. a. 3.
p===32 3. 1 51!-02 4.12!-03 2.76t=02 1 44t.00 8. 2.72C c2 C#=-51 e. c. 9.66t*OS 9. 2 89t+01 8. 9.170.JJ
- 3. 3.44'*01 C.
*4-=54
- 3. S. C. 9. a. 9. 3.
en. 56 8.
- 6. C. 3. 1.
rg. 55 G. 8. 8.
- 9. e.6et+01 4.151. 1 5 14 t *01 0.34t+41 C. O. 2 42t*S1 4.
et--59 9. D. C. 3. S. O. 4. 8. CD--ST C. c. 3 32t.01 1. 1 7 4'+ 31 9.-50 3. s.69'+03 8. . g.4fE*01 ;. 5 3 4t.31 CO*-63 9. 1 71r ;1 c. 3. 3. O. 3. J. C. 8. 5. O. 41==63 8.
- 8. 8. 8. 3. J.
41=-65 c. 6. 8.
- 8. C. f. O. O.
CU-=64 8. S. 9. 2 06t*01 C. 7. 30! + 31 14-*65 4.43f*01 1 17t+32 8. 7.39:+01 8. J. 8. O. S. 3. 8. r es == 69 8. 3. O.
- 4. P. 9. O. C. J.
9A -82 8.
- 8. f. .. J.
84-*S3 3. *. C. 8. 3.
- 8. 8. O. L. G.
pe. 34 3. 1. O.
- g. c. 3. g. 6. G.
me..g5 g.
- 3. t. C. C. C. J. 3.
as--86 9. D. 9. J. O. 8.
,as..se 3. 9. 6.
C. O. 1 6CI+02 3. 1 14:+C2
*0==t9 4.14t+3 3. O.
- 8. C. P. P. C. 4.
at=934 3. G. O.
- 3. C. C. 9. D. 3.
sR==0D 3.
- 3. 9.11r.g2 g. 9 80' 33 St -93 3 66t*04 8. C. J.
S. 3.
- 3. O. C. S. 3.
54==91 3. O. C. 3. 8. 44-=92 8. C. C. C. Ce f. :. 3. v===*3 3. 3. 8. C. *. C.
- t. f. 3.
9 -91n S. 8. C. O. 3.
- 3. O.
T---91 S. S. 4. 3. C. ;. 3. J. 3. C. C.
- Y--*92 9. 9.
. 3. ?. f. 2. 8.
T--=93 4. p.63!*G1 J. 7. 2 5! - 0.' 14-=95 3 69t=01 S.17 -02 0. 3 16t=01 P. *
- f. 3. G. C. . .
F4-=17 3. .
- 9. 3. 3.
4R == 95 s. 4. 4. O. 8. C. C. Je Ma==97 B. C. C. S. 8. 5.16t+01 1 60!-03 2.19t*01 8. 6.E!!.03 me. 99 1.61t=03 2 420*31 C.
- c. 8. O.
- 1. C. 8. C.
1C==99 1.
- c. 3. 3.
O. C. S. 8. TC 9tm 3. S. C. G. 3. TC-101 8. C. C. 8. J. O. 9. f. 6. 40-133 S. f. 3. J. C. 8. 8. O. 3. RU-105 8. 4. F. 3. 2.
#U-136 C. 3. 9. O. f.
S. C. 3. de
*W1338 8. O. 8. 8.
1 39t*02 9. 9.36t.C1 l a41108 1 73f+P0 1.17t*00 4. 2 18t*00 8. O. i
- 8. 9. 8. C. 4.
I aS-113 9. 8. S. O. 8. 3. I st-122 9. 8. 8. C. 1 23*+01 3 50!+01 4.54t=31 F.72t=82 3. 1 9 4t *C 1 2.19t+02 0. st-124 8. c. C. O. se-125 t. S. 9. 8.
- 9. f. G. 4.
ft1214 8. 3. S. 8. 3. S. 9. 8. C. 8. ft12FM 9. 8.
- s. c. 8.
vt-127 s. s. 3. s. 8. Easto e= 1 uctiste attrast enit or raca 1stvoet in otscaanst rtou er 1 ccrste ultw we soolflegat oltut10= a
- Ref. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982 A-22 -_ _ ~--- _ _ _ . , _ , _ _ _ _ _ _ _ . - - - __ _ _ .
WMRF 1 CPM s3734t24 (cont.) Lt4WI3 OISCuaest9
!WWIt0gatuf 4L PafMWav.005L C04t[#Sith F ACT0a3 F 09
- 46* Sa Que . CdlLD pat 4Waf = POT 44 LC Wafr4 FAC7ea smatusma Ptn UCl#RLD ...... ........
%JCLIDC
- easau .~....ooSC.................. .......................... 70faL g33v
.. .. .. . LU4G St.LLI Salt TNT 801D RIONCY 334! L t win
- 9. O. C. 3.
- 3. G. 8.
O. 9. O.
'C12gn 3. 8. 9. 2.515 01
- 8. 3. 8.
f.54**01 8. 4.09t+4C 3.
't.124 4.57E*C1 4.590 31 1 52t*04 S. O. D. O.
ft131n 0.- 8. S. 6. C. G.
*t.131 8.
4.
- p. t. 6.
?. 3. J. * *:=132 0. 9. O.
- 9. S. 8.
- 8. C. C. 3.
*. 129 8. 9. C. G. *. 133 2. C. 8. ?.
- 9. 9 S. t.
1.=131 4. S. C. 9. S. 3. 8 1.54E*00 3. 1 45:+3:
. 132 4. 6. 3f C
- 04 8. ?.
3 09C*33 3 52C+00 7.10t+02 C. S. D.
!. 9.
2.43E.02 1.51f.72
'. 133 8. 3.
2 82C+ 0 3- 4.89I.02 1 29r tB 0. 2 62:*??
". 134 135 1.?'t.:2 3 19t .32 3 44t*02 1 38t + 02 6.60r +0 0 0.
J. S.134 7.35t .0 2 1 24f.33 3.
- 5. 8. G. J.
3. C. D. D. 6. 3.
%.135 3.
C. C. O. D. (135m 9. P. O. 9. f. P. D. P. C. a.
.r.13% 3. O. O. O.
- 3. L. 3. O.
.r1334 3.
S. D. D. C. 3.
- 9. 2.
. *.133 3.
- 4. C. C. O.
O. C. 3.
'L1314 0.
C. 8. 9. C. 1 49*.32 e.134 c. 3. C. 3.30t+82 1 19E+G2 6. 34t
- 0 C 3.
**.137 1.46 C.3 3 1.01r*23 C. 3. O. D.
3.
- 6. 2. 3.
- 3 139 C. O. 6.
al3?n ?. 4. L. 8. O. C. *. ;. O. 3. 8. C. O. a1364 J. O. C. O. 3. 8.
- 3. Cit
- 0 2 6. 1 39C.01 a.139 3. 6.77C.02 1 24t.01 9.36:.33 a.14C 2. 3r r .0 2 2 150 41 0.
2.67E.42 8. F.6tt.C1 0. C. a.141 1. 22 t .31 6.13C 22 3.
- f. t. D. J.
?. J. C. c. 4. 5. .a.142 C. C. 8.
- 1. 3.
;4 143 !. C.
8. C. O. O. 8. O. C. ?. *.
.a.142 O. 3. 2.
C. 3.
.i=141 3. 7.
- 2. .D. O.
C. J.5F . 1 p :r.143
.~.144 4.
6 49t ** 3 2.13t*t3 *. 1 16!*04 P. C. S.4?r+t2 f. 1. ( 4 143 C. J. 3. 3. t. P. 9 f. *. C. C.
. 3.
C. 4 144 3. C. S. 7.
'p1444 * . O. f.
D. C. S.
- C. C. C. C. O. .
M*144 9.
- c. C. S.
O. G.
.D.147 8. 3.
- 3. O. C. 4.5J:-34
- 3. 9. 4.54t.01 0.
. .*197 3.
- 8. 1 44E.03 C.
- 4. 3.
*.239 9 19!.03 6 19*.34
- f. O. C. 3.
- 3. c.
- 2. 3. 8. C.
O. O. d. 4
".J.235 ?39 8. *.
- a. C. 8. S.
- G.
a.231 a. 3. C. C. O. 8. . 3.
- 3. 3.
4*.227 S. 6. C. 9. 8.
- 6. 9. S. C.
**.227 3.
- c. C. C. 3.
C. D. C. 4 223 4.
- 8. 8. 8. 4.
'M.231 8. C. 9. C. 3.
C. 8. 8. O. 2. 3.
'4 223 3.
- 9. O. 8.
- 3. 3.
11 219 3. 3. 9. 6.
- 6. 8. D. 3. 3.
*4 219 8.
C. 9. S. 9. J.
*l.215 8. 3. 9. 8. 6. 8.
- 1. O. D. J.
'O.215 6.
S. O. S. 8.
?. *.
4 211 C. 2.
- 9. O. C. 3.
- 4. O. 3.
-I.211 S.
C. S. S. f. O. G.
**.211 6. C. 8. C.
G. 8. S.
'L 237 8. *4SfD 94 1 UCl#5tc atLtest matt 0F taCM IS0f 0PL th DISCMetSC FLOW OF e " Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-23 i
uun-m-m - (cont.) 14WIteemt4TAL pafWmav-00$r C04TE 8 5194 F AC TG AS F OR LleUI3 OISCMapSt5 paiguaf . FACS4 water 8854 att 5410* - CMILO WWCLIDC 0*844 005E FeCT0m smaturup PC# UCIrnL1 !
# pett LivtA TNTROID E804Cf LWh6 St-LLI SEIN 10faL SO3r p=..=3 , 0. 2 87t=82 2 8?t.02 2.m?C-82 2.STC-02 2. Sit-02 3. 2. aft.;3 C= ~14 8. 9. S. 8. 8. S. O. 3.
F-.-14 3. a. 8. 8. 8. 3. 9. 8. 58-=24 1 42t=33 1.42t=83 1 42C-03 1.42I-03 1 42t-03 1.42C-93 c. 1.42!-33 P=.=32 3. ~
- 3. S. 9. 8. C. C. c.
C4--S1 8. 4. 1.21t=81 3.35t=92 2.21f-01 1.16T*01 f. 2.1a[.01
.an--S4 3. 6.59t*02 8. 1.E E +0 2 9. S.53t*02 1. 1.76!.32 at==S6 9. O. 3. 8. 6. P. G. O.
Ft--SS g. 4. C. C. 9. . 6. 3. Pt.=59 2.25 t +0 2 3 69t+02 8. O. 1.86r+t2 3.75C.82 4. 1.79t+32 CS-=SF S. 3. 8. 8. O. C. c. C. CO--SR 9. 1.29C*C1 9. 9. O. F.S3C.C1 C. 3.9 4! .J 1 C0==60 9. 4 1St+01 8. *
- 9. C. 2. 30 t + 0 2 9. 1 22!.32 bl==6) 9. 8. 5. 9. 3. 8. D. 3.
St==65 8. C. O. S. O. 9. C. O. CW--64 8. S. 9. S. 9. O. C. D. 2n-=65 4.23t*33 1 12t+04 B. 7.04t+33 e. 1.96t*03 3. 6.95 +;3 24-=69 3. 3. O. 8. f. C. 9. 3. SR==t2 P. 3. f. 9. S. *. J. 3. 58--43 8. G. O. 8. C. C. G. 4. l 4--64 8. 3. C. 9. 8. e. O. 3. pe.-45 g. C. C. O. 8. O. D. 3. ag -4. 3. 2. O. 3. O. C. 3. 3. RS**S4 9. 3. O. 3. 8. O. C. O. AS--91 S.44t+03 0. C. C.
. 2.11t+C2 9. 1.SSt+32 Re-85m t. 3. 8. 6. C. 6. 8. O.
SR*=99 S. O. 4. C. 6. 6. 2. O. St==92 S.34t+04 5. C. S. 8. 1.51C*33 1. 1 43t+04 SR-=91 8. 6. 1. D. 2. C. 3. O. SR==92 9. C. 3. O. Se f. C. J. T===93 3. a. O. O. f. D. O. 4. T==914 3. O. 3. O. O. O. n. 3. T---91 5. O. C. 5. C. C. O. 1. T===92 9. C. 2. O. O. *. G. 3. T==-93 9. 3. C. 3. C. 8. O. 3.
, 28--95 1 91C.01 7.3 2E *C 0 C. 6.61t*SS 0. 1.33!*04 3. 5.C2;.33 2R.=97 3. S. 3. 3. 7. C. C. 3.
98--95 8. C. 8. 8. 9. C. 3. *. hm--97 3. 3. D. O. O. C. 7. 3. Re--99 1 6at=34 1.69P*33 8. 3 60!*00 1.6 7t -C 4 1.S9t+33 C. 4.220-01
. TC-*99 S. 8. 8. C. S. 6. 4. 3.
TC-994 8. O. J. O. C. O. C. 3. , TC-101 1. O. f. 8. 8. O. O. O. AU+103 6. O. C. 9. 5. 9. 8. J. RU-105 3. 3. C. 9. O. O. 3. J. > SU-106 8. t. S. 8. 8. 6. 9. S. AN1034 5. C. 9. O. 8. 3. O. 3. AS11SM 1 90t=01 1 28t-01 8. 2.39t=91 8. 1 53t.01 8. 1. 0 3C -01 46-113 5. O. S. 8. 8. S. D. S. St=122 8. 9. 9. 8. 9. S. 3. 3. 88-124 1 56t*C3 2 8 2C-02 3 44t=83 8. 8.65t-t1 9.74t*D0 0. S.46?-al SS-12S 3. O. S. S. S. S. 8. 3. TC125# 8. O. 8. 8. S. C. 8. 3. TC12fR 9. O. 9. 8. S. S. O. C. ft-127 s. o. O. 3. s. s. D. O. saste ou a utt astC acLtast matt er CaCa ISetort := DIStanast FLOW oF 1 CCistC situ =0 a001:1ogat Ottur:0= s
.e Itef. EDS @ Counputer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-24
~
VM-RG3 W3 (Cont.) EngtaongtutaL PafMW4T-00$t C0myt 4SION F ACTOR $ F 04 LIOUI) DISCMaRGES aGt 640up . CMILO entguav . FRt5H DATER Fl?M V tuCLIDE O#sah 005g FaC1OR teetnsMa Ptn UClints infPOID RIDMCT LUNG st.LLI Satt TJiat 033r l ttgr Livte
- 9. O. 8. 9. c. O. a.
TC124R e- 1. 3. O. S. 6. 9. O. 8. TE=129 8. S. 1.54t+0C *
. 9.41:.;;
TE1314 1.72 f .G1 1 73t+01 5.71t*03 3 03t*01 O. G. f. O. O. 5. 9. TC.131 8.
- 9. O. 4.
4 O. D. O. S. ft=132 O. 3. 4. C. O. O. 5. 3.=129 8.
- 8. 8. 9. C. t. :.
1-=133 9. f. O. f. 3. 3. 3.-131 8. 9. O. 8. O. 3. 7. I.-132 *. 3. O. 6. 1 01C.32 9.
- 8. 2 44t=83 0. 2.29t 33 1.=133 4. Sit.03 6 04t.03 1.12t+00 C. C. 3.
S. O. O. f. 1--1Je 3. 1 2 0f.t 6 0 16!.30 f. 1 12'.36 I--135 1.56'-35 1. 9 9t.0 5 T.T4C-09 3 04*-06 T.31t+04 1 20t+05 8. 3.72C+04 1 33'*04 6.46E.02 ?. 2.53!.34 CS-134 C. C. C. C. 9. CS-135 8. 3. S.
- 8. *
- 8. f. C. C. 3. :.
at 1394 9. J. 4. C. O. G. at.135 8. S. 8. O. P. D. 3. 3. EC1314 J. 8. 1. S. D. C. 2. a. EE.133 0. O. 8.
- 5. 3.
J. 5. 9. O. f. EC111e 3. O. O. C. O. C5-136 9. O. O. O. 3.21C+04 1 16!+0 4 6 17Ce02 4. 1 46*+44 CS-137 1.c 3 t *f 5 9.9 6! +0 4 8.
?. 3.
O. 8. O. O. O. CS-134 3. C. C. 3. 3. ma1374 3. 3. O. 1.
- 3. D. f. O. C. 3. J.
Sa136m 3. C. C.
- 1. C. 7. O. 4.
Ra.139 8. 1.59f-02 2 6ft+37 1. 1.74!.03 3.nSt+11 3.58*-32 C. R.69t.03 9a-143 2 52*-13 c. 1 110 03 0. 3 14t+00 c. 3.74t=&4 Sa.141 5.05t-33 O. C. C. G. 84 142 1. 1. C. O.
- 3. O. O. C. O. 3.
La-143 . 3.
- 8. P. J. 3.
La*142 9 3. C. 3. C. O. 2. O. G. 3. Cr=141 3. 3. e. O. 3. 'O. C. O. Ct.143 3. 3. 5.56t.32 3. 2 64f+01 3. 1 71t-02 Ct.144 3. 23 : = 01 1.00!.31 1. S. O. O. S. 3. PR-143 *. 4. P.
- 8. 8. C. 2. ?.
Pe=144 3. S. 3. 3. (s./O) PR144M 40-144 3. 8. 3. 3. C. G. c. 3. P. C. O. P. O.
- 3. ;.
O. O. O.
. 3. J.
40-147 0. 3.
- f. J. O.
C. 3. O. f. P. W-=197 2. 3&t + 0C 0. 2 65!-35 W*=239 6.13f-04 5.04t=05 O. 1 07t=34 9. O. 8. C. O. O. 3. PU=239 C. 3. O. C. U. 235 J. O. O. 8. O. 't. C. C. D. .. G. Pa=231 S. 3. C. 3.
- 9. O. f. S.
AC*227 8. O. 8. J. C. 8. 6. C. 3. Tes*227 3. O. O. O. 3.
- 8. 8. 9.
Ra=223 9. 6. - C. 3. 3. TM*231 C. 3. C. C. 8. C. 3. C. FR-223 3. 8. 6. O. 8. C. C. G. C. D. Af*219 3. S. 8.
- c. t. 3.
Rh=219 3. O. O. 4. O. O. O. O. O. 3. 0!*215 8. 1. O. 3.
- 6. 8. 3.
PO-215 C. C. 8. 8. C. D. PO-211 S. C. 8. 8. O. 8.
- 9. O. P. J. G.
Of=211 0. 8. 8. D. O. O. O. C. PO-211 8. O. 8. O. c. ft.23r O. -
- 3. 8. a. O. e.
Bests 091 uCristC Rttcast matt oF caCa is0 TOPE := otsCuaRGE FLov Or : CCistC witu no acorr:0=aL o: Lor:09 e - Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 v A-25
LWMk. TABLE L-3 (Cont.) ! I tmytt044tuf aL pafMwav-00st C04WER$ tem FACTCRS F04 LItu!) 03 SC Ma es t s A6C sacup - CHILO pat 4Wat - Last SMD4 Lit! OCPOSITS - v D0SC FA CT0m S pagn#He FEp uCitMLS BUCL10! O48ae LIWTA Twvm330 E104tf
..........E!=LLI Lums sa tt forat spar '904E
- 3. f. S. O.
Cd' 9. 9. 9. M-===3 9. 8. 9. S. 4.
- 9. 4. 4.
C===14 S. C. f. O. F===1s 3. O. O. 9. 3 33C-07 3 33C-02 3. 33C -0 2 3 33r-02 3. 33t- 0 2 3.96c-02 44--24 3.35t=02 3.33t-02
- 8. 8. O. O.
*-==32 8. 4. O. 8.
- 1. 9 6r-C 2 1.66t 32 1.66t=32 1 66 -02 1 66t=02 1 66*-02 1 66t=02 1 66t-02 4.96t+1; Ca==51 4.96t+LC 4 96t+00 4.96t+00 4.96t*00 4.96t.GC 5.01t+C3 he*-54 4.96t+00 Se 8. P. 4. 9.
ag 56 p. 4. 9.
- 8. S. C. O. 3.
- 3. 8.
Fr==55 *.
- 9. 7 4C- 01 9.74t-01 9.74t-01 1.15t*00 9. 7 4t
- 01 Pt==59 9.74t-81 9.74t=81 9.f4E-01 O. C.
S. O. O. 9. C0==57 8. 3. 1 36 *00 1 36t *SC 1 36t +08 1.59t.30 1 360 0C CO-=5R 1 3br +0a 1 36t + 00 1 360 30 7.72t+01 9. Set.C1 7.72t+31 1.72C+01 T.?tt+01 f.72t+C1 CO-*6? 7 72t+31 7.32t*St ~
- 8. 3. O.
- 9. 8. C. 9.
, te l ,= 6 3 8.
- 3. 8. O. C. J.
41--65 8. C. S. C. 3. J.
- 3. 8. 3. S.
Cu--64 0. 2 67f+3C 2 6?t+at 3.0?r.03 2 67t+0: 2m-=65 2 6Fr.3C 2 6?L*30 2 6?t+00 2 67:*00 J. 8. 3. C. 9. 9. 2M*=69 3. 3. C. O. O. 3. 3. 98-=92 0. *. O. S. 3.
- 8. 8.
34-*83 8. 9. C. 3. C. 3.
- 2. *. P.
Rp==04 8. 9.' O. O. J. O. 9. S. C. go 05 S. 3. C. 3. C. .. C. O. C. 3.
#R==06 G. 5. C. C. 3.
46-=88 4. C. C. 7.72t=05 7.72t=C5 T.72t=05 7.72f=C5 7.?2t=05 8.97t-05 49-=t9 F.72t=3b f.72t=35
- 9. C. O. 3.
- 8. 8.
mp-434 9. ?. C. C. 8. C. *. G. St==84 8. f. 1 92t-02 1 92r=C2 1 92t=42 2.2fE-32 1 92:=J2 59--93 1 92t-02 1 920=32 1 92t=02 C. 3. 3. SR==91 8. G. a. O. S.
- S.
O. C. O. C. . Sa==92 S. 3. O. J.
- f. O. O. C.
T-*=93 S. 3. O. O. G. 3.
- 3. O.
T=-914 8. 3. C. O. 9. O. O. Y=-=91 S. S. S. t J. G. 8. F. G. 4.
- 9. 3.
w/
-) 9-*=97 T-==93 8.
- 8. 3. G. 3. 8.
1 9 3t +0 C D. 1 93t*0 0 O. 1.90t+t0 1 9 3:+0 0 Ze==95 1 93;+03 1 9 3! +3 0 1 93!*04 1 93C+38 P. D. C. O. 3. 28-=97 C. C. C. ;. C. O. C. O. 3. NR==95 4. C. p. f. S. !.
#0--97 2. C. D. 2.23f=62 3.
2 23C=02 2.23t=02 2. 25t = 0 2 2.10E-12
#0-=99 2 23te02 2.230-C2 2 23!-02 C. S. 8.
O. C. 8. S. TC==99 8. S. C. O. D.
- 8. 8. O.
TC=994 8. C. 8. 3. T*=101 3. 3. a. 8. 3. C.
- 6. 8. 9. S. 6.
au.103 9. 8. S. C. 3. O. EU-105 8. O. C. 8. G. 3.
. g. 3. 3. O.
AU-106 8. J. O. O.
- 8. 8. 9. O.
#M1334 0. O. 1 45t+01 1 24:+31 461104 1 24t+01 1 2 4t +01 1. 24t + 01 1 24t*01 1 24t*01 1 24C + 01 C.
O. 8. 8. S. C. 3. 88-110 3. S. 9. 3. 3.
- 8. 9. 2.14?+3;
( S3-122 9. f. 2.14E+00 2.14E+00 2.4TC+00 St=124. 2.14t+00 2 14r*30 2.14E+00 2.14t*00 S. 3. I O. 9. 9. S9-125 8. C. 5. C. G. 3. ! S. 8. 8. tt1254 8. O. O. 8. 3. I
*ttr's 8. 3. s. s. 8.
O. G. vt-127 3. 6. o. c. e. C. 1 CCistC stin =0 a001710=at 01Lut 34 easts ou 1 uCt rstC acLeast matt er taCa 180TOct in 0:sCnaast FLeie OF . I I j e
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 l
i ( A-26 l
- - _ _ _ _ .. _ _ _ ~
j-TABLE L-3_ >
/ i (cont.) * , .,f e ]
o .j '- ' j
+ ,
j tuviso==(ut at estawav-oost co=vtesten rations r oe Lieu *13 ' culto~ ot scuan.cs ' s as: 6s cu* # ,
/
O pattuar . test swontL = otrosits . e , b . . 6.. ...e ,.e,..
...t.,.. Pr. .=,,.6,. . .........s.. ........ y. .. ...........LivtC ......... tuvasto ..................a 0=tv ~ .............
Lums st.LLt salg / tota so3v
~ ~~ +. ,sent 8. a.
- s. r, s
- s. / '
- s.
t
- s. . . a. . '
trt29m a' c. 0. S. e. , 7.247-s2 .s.15:-32 -,
- e. d. o. 6.eSt-02 6.t St= c t 6. eSt-t 2 ft.129 6.e5:-t2 6. e St. e 2 3. 3. .
s t 131= 6.35t 9 2 s. e. e. t.
- s. Je ;
- c. a. e. e. a. 3.
te-151 v. c. > e. > tt.132 1. s. e. s. 0. ' l S. 3.
- s. 12e e. a.
- s. s. s. *.. S.
- 3. 13; a. 2. 8. e. 8.
3.
- c. e. e. F.
- e. e. s. 3.
s-.131 3. e. 7. 36t= 8 3 7. ' 6' - C ?'. 8. 9 5t = 6 3 7. 3 6* = 4 3 *
- t. 132 2. 7. 36t
- 0 5 7.36:*83 ?. , 9.
- f. 3 6t
- 4 3 C. m.
5.937-J3
- 1. 833 F. 36 t = 01 O. C. 3.
S.9 3f.0 3 Sc 93f =3 3 ' 5.09 Cat 3 t==134 e. 5.9 3C =63 5 93:=83 2.97t*G1 2 46t+01 t.*135 5.93t=03 5.93?.03 2 46t*C1 2.46t.&1 2.*6t.el O. L. 2 46t*11 2.46 t
- 01 D. 9-CS-136 2 45t+11 8.
- 8. b, 'a ~ O. J.
- 1. 9. 3. 8.
- Cs=135 8. ,$. ' , 'v. 0. t.
- 4. O. ,
. Et735* 3.
- 3. 4. 8. 8.
- 4. s P. - 4.
'~
- 4.
).
e t-4 35 e. 3. 3.
- 4. 3.
er133e ?. 8. 4. -
- 3. 3.
st-133 0. ?. -
# ' 8. 0. O. 9. 9. + G. /
4.
- 3. O. f p!1314 !. 9. S. 9 3.a9*.01 4.31t 01 3 69:+01 #
C5-136 5 3. 4 69t+01 3.69t+01 3 69t.01/ S. - 4. C S-131 3 69*.41 3 69t+01 O. c. Os
,V C. ; 9. C. 3.
- t. 1 9 O.
C S-13* f. D. 9. O. 3. talltu '*. S. 9 G. 3 3 C. ma1364 6. 3 C. 9. S. 6 68t-01 6.G4!=31 6 68t*J1 Aa 139 *. *. 4.69t-01 6 68'*C1 5 49t-02 4.0ff=02 6 64t=91 6 6t!=31 6 64t= 01 4 87t=82 4 87t*C2 4.Rit.32 Da*143 4 8,76=32 4 87t=02 C. c. O. ~-- maalet 4637t=12 9. 8. a. 3. ma-142 8 1." , 9
- 4. 9. e. c.
- 1. i t. C. 4.
Laates e. * # p. 3. 3
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La 142 3 ,
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Cf=141 1
~3
- c. 6
- 4. O. O.
4.6ft.01
" 4.05 tart
- r. 4 4. 8.
4.05:-01 4.tSt=01 4.05t=01 C. Ct=193 4.85P.31 4.25t=01 C. 0. Ct=144 4.?Sr=51 ' O. O. ' t. c. e. d? c.
,V' P**141 'O. c. O. C. f. L.
P..it. Pa1444 3.
- c. / .e a.
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40-144 1. 3. O. G. 3.
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- JS. 8.
PUa239 0 ., - 9. S. 8. f. , ', p P. 7 3. , C. 8.' r U-*235 9. 3.
- 9. t.
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2.- 3. O. e. e. .. 8. Pa.231 S. o. se 8 Ds# - at-2tr c. 8. O. 6.
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f. O.+' O.
- 2. S. 8.
in=227 3. C. ' O..' W., 9. as.223 a. 9. C. 9. C. 8. C. f 9 8. -f.- TM J31 O. 8. ' C. B.
- 4. 3. 8.
- 8. C. 3.
Fe=223 8. 8. f. O. f.
- f. ' f'.
at=219 < 0. 9. 8. 85 C.
- 8. 8.
R4-219 9. 6. S. 3.
- 6. D. d.* 9. ',/
St*215 0.
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- 8. 9. e 1.
P0-215 8.
- 8. S. '
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J. 3. PA=211 88*211
.3.
- e. p. 3. 9 O. S. s e." "~ ;. - .
3. J. P0 211 1. O. 8.
- s. e. s. 3.
- e. s. e. < f ' ,e TL.237: -
e a s autrawat st.vtasw eas!o og 1 uts,ste 4:Least matt or taca tsovoPt in onscaan6C now or 1 ettste essa no l -
- Ref. EDS @ Computer Code RGl.lO9 Version 2 Rev. O, Date June 11', 1982 h
t' a
/ #'* l V e r A-27 <
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pattdaf . Svin4844
- SEC 64 CU* . CHIL D
( easaa oe3t raCvoa esecarna era utgrats l me:troc
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p, ( j
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a 30... 3' 1. 9. 9.
- 8. 9. 8. 4. 8.
C. 14 S. 8. f.
- 8. 9. 8. 8. 8. J.
7 F..=18 8. 8. 1 78t*01 1.fe! 31 ca 24 1.79'+01 1 78t*31 1. Tat.01 1.79t*01 1 79F+01 3.
. P. 32 ' e. O. 8. 9. 8. a. O. O. < go. 51 1 14C.61 1 19t.31 1 19C.t1 1 19t 01 1 19t=31 1 19t*81 3. 1.19t.41 mm. 54 3.43'+tt 3 43t*00 3 43C.00 3.43 .00 3 43C+00 3.43(+30 J. 3.4 3t + 0 0 pt 54 S, 3. 9. 3. 9. 8. 9. 3. ! 8. S. O. 3. ,' F r ..S", s. 3. 8. 3.
S.02t*0 G 3. 5 32C+03
# Fr*.S9 S.02t+00 S.42t*05 S.32f +0L S.92C.00 S .0 2t .C C
- ~~ 8. 8. O. O. 4. O.
C8..S F . O. 3. 4 11f.03 4 11t+0* Co..Se 4.11C+30 4 11C+30 4.11r*00 4 11C+00 4 11t*Cf 3. 1.C S *01 C9. 63 1.tS!*21 1 05C+31 1.95CbO1 1 0S!*01 1.CSE*01 S.CSC.G 1 8.
- e. 3. 8. O. C. O. 8. 8.
- al. 43 9. 6. C. 3.
C.= C. 9. 3. mI. 65 CU. 64 8. 3. 8. 8. 8. O. c. 3.
- 2. Sit.00 2.51C *3 0 2. Sit +Cr 2.Str+00 C. 2 510 30 Zm..ES 2.51**00 2.51[.30 C. 3. 3.
24..b4 .9. 3. C. S. S. S. O. 8. C. C. 3. D8. 9 2 0. S. 3. P. s. 8. 9. 9. 3. St 83 to
- 8. 8. 3. C.
SR. 04 3. C. 8. Se
- 8. O. O. C. 3. 3.
> 99. 05 9. S.
AB. 06 0. *. O. 8. a. 8. O. G.
- 3. S. P. 9. f. C. 3.
- 89. 04 8. 1. d St = 3 2 1.050 02 1 35!.32 1.05t.C2 1. C SC.0 2 t.
as..s9 1 0St 02 1 99t.32
- 8. a. 3. 3.
an.g 3m 3. 3. 9. 8. O. 3. O. C. C. 3. 3.
- St 81 0. .
1.23C*S3 C. 1 23!.03 St. 9s 1 214 03 1 23C.93 1 23t*03 1 2 3C.0 3 1 23(.03
- p. 3. 3.
O. 3. 6. SR. 91 9. 9. C. 1. - $4. 92 0. O. C. 8. O. 3. C. O. O. O. 3. G. T. 92 ' 8. 3. C. 9
- 8. S. 8. 8. 0. f.
T. 914 3. J. T.. 91 0. 3. 8. C. O. f.
- 3. 3. 3. f. C. 3. 3.
T.. 92 3. 2. T.. 93 8. O. O. 3. 6. f. 2. 3.43r+C0 3.43:*00 3 4 3r +30 3 43;+30 3. 3.43?+3%
,. 28.*95 3.43'.03" 3 4 3* +3 0 C. O. O. E. C. 1 2R. 9F 0. 3.
3. C. 3.
/. he. 95
- 88. 97 3.
0. 3. O. 3. 3. 8.
- 3. Ce 6.
- t. 3. 7.
S.400 01 S.40C.01 S.4st.01 S.40f.81 0. S.48 .31 90 99 S.49t=01 S.48*.31
- 3. 8.
- 8. 6.
TC. 99 8. 3. Ce 8. C. O. 3. TC.994 9. 3. 5. 8. G.
- 3. f. 8. C. O. 3. 8.
TC-181 te - O. O. O. 8U.133 8 G. 8. 3. 8.
- 8. 9. C. 3. 8.
SU 195 9. 6. 8. O. 8U.186 9. 8. 9. S. 8. 9. 3.
- 8. 9. 9. 6. C. C. 3.
RM1034 8. 1 12C.J1 AS1104 1.12t*01 1.12t.31 1.12f+31 1 12c.51 1 12t*01 1 12C +01 0.
- 8. 8. S. S. 8. O.
88 110 8. 9.
- 9. C. C. D.
88 122 8. 8. O. 8. 8.22t.00 8 22t*00 0 22t.CC S.22t*C0 8. 9 220 33 01 SR 124 S.22t*00 8.22t.00 S. C. 58 12S 8. 3. p. e. S. 9. TE12Sn 3. g. 3. g. g. O. s. 3.
- 8. 9. 6.
4 O.
' TE1274 8. 8. S.
- 8. 8. c. 3. e. 8. , c.
vt-127 saSco em 1 vCirstC attrast entr Or caCM iseront zu ossCnaast rLov er 1 CCastC sita no acotrio9ai ottut:39 e
- Raf. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982 O 4 A-28 N
f r
7 'tDM1% s3i04s29. (cont.) CavlR04mCN1aL paTMuaT=005t C04TCRSIOh FACTORS F 9e Lle'JI) 015Cuanggs paf4Waf . SWinagg6 I att se00P . CMILD ( eR6aN DeSC FaCf0m tentatMP Pts UCl/RLs NUCLIDE ....... ................ ............................................ p.. ...... ... tota', selv TNTROID E804tf Luas4 SI-LLI sata 394! LIvin
- 8. f. 8. 8*
tt129a 8. 3. O. 8. O.
- 4. 3. 8. S. 4. f. 3.
ft.129 1.fet*0C 1.?St.00 1.tet.00 1.For.La 1 7tt.05 2. 1.?8 +3a 111314 1.?tt.00
- 8. 8. f* I. 8.
TC.131 T. ~ 3. 8.
- 8. 8. e. 3. 8. De 3.
ft.132 3. 3. 3.
- 8. 8. 9. 8. ?.
g . 13,
- t. 133 3.
- 0. 5. C. g. g. *. 8. 3.
- 1. 131 e. P. s. 8. 9. 8. 3.
8* 3*
- 3. f. 8. 8. f.
- g. 132 9. 2 19*.33
- 3. 133 2 19t*3t 2 19!*?3 2.19f 03 2 19t.30 2.19t*20 2.19t.00 4.
- 8. C. C. 3.
- 3. 1 34 e. 3. O. 8.
C. C. 3.
- g. 135 s. O. 1. . C. P.
6.62!*00 6 62t*00 6.62!*00 3. 6.625 33 CS.134 6.6ft.30 6 62P.30 6.62t.00 3.
- 3. t. S. O. 8. 3.
CS=135 3. C. 4. J. P. 3. 8. 3. 9. Ett359 C. C. 3. ut.13% 0. 8. 8. 8." 6. O. C. G. 3. att33g e. G. 3. 8. C. 4. st.133 1. 3. a. 8. C. J. O. 8. 9. O. C. 3. 3. E!1314 0. C. CS-136 9. 8. 8. S. 8. 8. 2. 2.28f.00 2 26t*t0 2 20t*03 2 20!*t0 2 2tr*G4 2.29t+53 3. 2 28!+33 CS*137 8. 3. 3. C5=13* 5. 3. C. f. ?.
- g. O. t. 3. 3. ?. 4.
Sa13tm 3. e41364 4. 3. 9. f. 6. C. 6. J. pa.139 4. 9. 6. 8. O. O. O. 8. 64-140 1 12r*00 1 12t+0c 1 12E*23 1 12t.30 1 12t +0C 1 12*.3e 4. 1 12!.13 2.*ft.C1 2 97C.01 2.97t=C1 2.97 =01 .. 2.970-31 sa*141 2.9ft.31 2 97t-31 *
. G.
ga=142 0. 8. 4. 3. 9. f.
- 3. 4. 8. 8. C. C. C.
Lt.14: 3.
- a. S. *
- 3. O. C. O.
La.142 1. . 3. CC=141 9. 5. 3. 2. O. O. 3. Cf.143 9. O. 3. 3. t
. C. . 3.
CC-144 1 91t=31 1.9 6t = 01 1.*6?-01 1 9t*-61 1 96r.;1 1 96!-31 1. 1 96'-;1 99 143 e. O. O. 8. O. c. 3. 3. Pe.144 8. C. O. C. C. C. 3. I. Pe144g 3. 3. 3. O. C. C. 8. 4. O. S. 8. C. 8. O. 3.
#C-144 9.
O. O. D. 1. O. J.
#3-147 8. 1.
W==141 S. De 8. 1. O. S. 3. J. WP*239 S.49t-31 S.40!-01 S.40t.01 S. 40! = 81 S.48t.C1 S. 40 t = 01 4. S.4ei-31 FU-239 8. 8. O. 8. 8. f. 3. 3. U==235 9. 8. 8. 4. 9. 8. O. 3. Pa*231 3. 8. 3. 9. 6. C. O. 3. at.227 3. 1. J. g. 3. 3. 8. 4. TM-227 9. O. O. S. O. 9. O. 4. pa.223 3. 1. T. 8. 8. 8. O. 3. TM-231 8 C. S. 8. O. C. 3. O. F4-223 0. 8. 8. O. 8. 3. 3. 3. 81*219 8. O. 8. 8. g. S. O. 3.
##*219 9. f. 9. 9. S. *. S. O.
83*215 8. 8. 8. C. B. C. O. O. P8-215 3. C. 8. O. D. O. O. O. Pe-211 9. S. 9. 9. 9. 9. 8. 1. 9t*211 t. 0. 3. g. O. O. 8. 3. 99-211 S. 3. 3. 8. 8. O. 9. 3. TL.20r e. s. e. e. e. e. e. 3. sesto ou 1 UCisstC a:Least matt or tata isotopt = otstanaSt rL0u Dr 1 CCistC vi M =0 aositisgat o:Lurio= l i
)
I i
" Ref. F.DS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 O
A-29
namn (Cont.) C4WItCcattitL #atcaT*D05! CDett2SION Fa! TORS 'Cd LICUI3 315Cua5&C5 AGE staus - CHILO Paf4Waf
- 984ftus easae D0SC FACT 0m spern/no Ptn UCI#mLt A eUCLlot ...................p....... ................................. ........
/ ...... . ......
LIVER INTRSID RIONET LU46 SI*LLS Sill N 70 fat 3337 De ut p... 3 8. O. 9. D. O. ". 3.
- 9. C. C.
S. 8. P. 8. f. C==.14 9. O. f. 3. F. la e. C. O. 3. f. me--24 ** 3 03:*41 3 8 3t *01 3.03C.01 3.85 test 3.8 3r *01 3 43t*01 8. J.43r.:1
- 9. S. 8. 3. O. O. 3.
P.==32 3. 2.S?f=81 !. 2.SSt.!! Ca 51 2 55t.01 2.SSt=91 2.SSt=01 2 55!.81 2.SSt-01 f . 36r. + ;& an. 54 7. Mt*03 7 . 36! *S3 7. Mt.90 7. 36C
- 3 0 7. 36 F .& D 7.Mf *23 G.
- 8. 3. 8. S. S. f. 4. c.
94=.56 ,,
- 6. 2. D. J.
Pt S$ 0. D. 9. 8. 1 08t+91 1 00C.01 3 09f*01 1.08t +C1 1 99t+G1 0. 1 08!+C1 Ft.=59 1 94t*01 5. O. D. 8. 3. Ce**ST 3. 3. 8. 8 84F*C0 8 84t*JO S.04C.00 s.04t+09 a.str.30 e. set +Le 3. s. net +0; CO.-54 2 26 tog! 2 26!.01 2 26t+61 c. 2 26!+01 CO. 60 2. M: *01 2 26t+S1 2.ht *31
- 8. 3.
9 8. 9. Se f. N1==63 5. O. C. C. C. WI. 65 3. P. S. 8.
- 3. 8. . 8. 8. f. C. O.
CU.=64 8. S.4Ct+80 3. S.43t+33 2W. 65 S.44 t *30 S.400 00 S.4Ct.00 S.40t*00 S.40t+00
- 1. S. 8. 8. 9. 3. 3.
- 24. 69 8.
Sa . 4 2 0. 3. 4. D. O. c. O. 2. G. 8. 8. f. O. 3. pa.*B3 9. 1. 3.
- 8. 4. 9. 8. O. C. 3.
58-.4* O. G. G. C. O. O. O. SR..lt 8. S. C. 7. St. 06 3. 3. 5. O. f. C. f. 3. O. C. C. 3. Rt..se 9. 2 26*.02 C. 2 26:=02 as..n9 2 26I.82 2.26'.02 2 26!-32 2 26t*G2 2 26t.t2 J. C. 8. f. C. J. so.434 9. 8. O. C. 8. C. ?. c. 4. SR.*S9 3. . 2 65!-03 C. 2 65!.C3 SR.=9C 2 6St*33 2 652-03 2 6St= 09 2 65:*03 2 6Sr.03 D. C. C. O. C. 3. J. Sd.=91 1 C. C. 3. 3. Sa.*92 O. C. 8. T.==93 8.
- 8. 3. O. C. C. C. *. 3.
O. O. 8. C. C. ?. T==91e S. 3. C. O. C. T=.*91 8. O. S. O. O. *
- L. .
T=.=92 9. 3. 9. C. f. .
- 3. C. f. J. O.
T==.93 2. O. *. F.36!+83 f . 36 t *10 7.36t*83 7. M'+?0 7 36!a03 7.36t
- t t 7. 36!. 06 0.
2R. 95 ~ 3. C. 3. C. f. 7. N 28. 97 9. 3. O. C. C. O. *. *. *.
- 40. 95 8. +.
ha. 97 0. 3. C. 9. f. C. 3. 1.1tr+00 1.lat.C3 1.1 s t + C a 1.1ste;G 3. 1.te*.3% me-.94 1.14t+3C 1 1st.20 S. J. TC-=99 8. O. C. 9. C. 6. C. O. 8. C. O. J. TC.994 9. 8. O. TC=101 8. P. C. C. S. 3. J.
- 8. Se 8. 8. O. 3.
. #U.103 8. f.
- 8. O. J.
RU.105 5. J. 9. 8. O.
- 8. 5. 8. C. O. 9.
AU.146 0.- 4. O. C. 3. R4153M 8. 4. 8. O. 8. 48110m 2 41t.81 2.41C+01 2 41t*01 2 41C+81 2.41t*C1 2 41t*01 0. 2 41!.31 W. C. 8. O. 68 110 9. O. O. 8. O. 8. O. S. 3. 98 122 8. O. 9. C. 1 77I.01 58 124 1.??t.G1 1.F7t*J1 1.77C*01 1.??! *01 1.77t*01 1 770 51
- 8. C. D. 2.
St.125 9. 8. 9. 8.
*. C. 3.
ft1254 8. O. 8. C. 8. D. D. 8. 4. C. 3. ft1274 S. 8. o. ft.127 e. 3. e. O. e. 9. 3. c:Luita4 Gasto ou 1 Utt#stt Attf ast aaf t or taCm 1Sof 0*C 1m otsCaanst Flow or 1 CCestC utta =0 aco171emat - Ref. EDS @ Computer Code RGl.109 version 2, Rev. O, Cate June 11, 1982 A-30
_ _ ~ - _ . (cont.) CuttC@ mCETat safM:;29 005C CessWCS$103 F ACf 02S F0e L30ut) DISCMatSts
&EC 630VP - CHILD $4T;%47 . C0378 46 e R S 4 se 00SE r& CT0m t unt en# MP PCs UC1/*LS WUCLIDE .. . ... .............. ................,. ....................... ...... ........
Ei Det CY LUNG 61*LLI SK 14 TOT 46 R337 Samt LIvit intr 0!D
- 8. O. 3. C.
O. O. O.- TC129M 8. 8. f. O. 3.
- 8. C. 9.
- e. 3.s3 .00 TC.124
- 9.
3 83t.80 3.8 3f +8 8 3 8 3C .D e 3 4 3C +8 8 1C131R 3 83C+00 3 8 3C +0 0 f. O. 9. O. 8. 9. 1C=131 S. C.
- t. O. '3. O.
- 8. 9.
TC.132 C 3. 8. *
. 9. f. O. a.
I. 129 9. O. 8.
- f. O. O.
O. 9. 8. 4.
- 1. 130 3.
- 9. 8. D. P. G. 3.
- 1. 131 8. O. O. O. :.
- 5. O. 8. 8.
- g. 132 8.
4.71C+09 4.71C.30 4.71t+00 4.71C+0C 4.71?*00 8. 4.71!.J3 I. 133 4.?tt*00 O. C. O. 3.
- 8. O. .8.
3.=134 8.
- 9. 8. 8. C. C. 3.
- 1. 135 8. O. 1 42 t *01 1 42!.01 1 42C.01 1 42!*01 1 42C6C1 1.42C*tt 1 42t*01 4.
C 5-134 9. 9. O. 6. 3. CS.135 e. 3. 8. De f. D. 3. EC1354 8. 2. O. 8. C. 3. O. C. O. C. EC=135 9. 6. 3. O. C. J. EC1334 2. a. 8. 3.
- 8. C. C. 4.
- 9. 8. 8.
EC-133 3. f. C. 3. EC 135 m O. 3. c. O. 8.
- 8. 1. 3.
C. O. 8. CS.136 8. J. 4.91t +0C 4.91r*06 4.91C*00 3. 4.91C+33 C3 137 4.91t*&E 4.91C+30 4.910 00 C. 3. J. O. P. 9. Ct.13e 8. 3. O. 9. C. C. 3. J. 3413?m 8. 7. O. D. 3. 3.
- 3. C. C. 3.
341364 0.
- 9. 8. 8. C. 3 34 139 9. ?. 2.41C+;0 3. 2 41*+;?
84 143 2 48t.00 2 41C+33 2.41C+00 2 41t*80 2 41C+C0 G. 6. 380.;1
- 6. 3e C .C 1 6. Set.81 6. Se t .f1 6. 34! . 31 sa.141 6.39 C 01 6 3nr.01
- 8. C. J. 3.
C. 9. 9. ga.142 0. C. C. 1. 3. Lt.143 3. O. C. 3. 3. O. .. 8. C. 3. Lt.142 1. C. O. 3. C. S. C. O. Cf.141 8. 3. O. P. C. S.
- 3. C. C. 4 220 01 CC.143 8.
4 22t.51 4.22!.01 !. CC.144 4 22C.01 4.22C-31 4.22C.C1 4 22t.64
- 3. 3.
- 8. 9. 9. 9.
P4 143 8. O. O. O. 3.
- 3. O. 8. S.
Pt.144 9. C. O. 1. C. S. 9. P41444 0. 3. O. S. S.
- 8. 3. C. C. 3.
3. h0 144 G. O. O. 3. W3 147 C. O. 3. O. P. D. 3. C. .. W. 187 3. 3. 1slet.CC 1.14t+tc 0. 1 18C.33 b 58 239 1 14C 3C 1.18C-;3 1.1PC.00 1 18C +0 0 3. O. O. 8. C. 2. PU.239 8. O. C. C. C. O. 8. C. C. U. 235 8. C. O. 8. 9. 3. 4. PA.231 *. O. 8. O. 2. G. C. 8. 8. AC 227 1. O. 8. C. O. 4.
- TW.227 3. C. S. O. ii .
8. 84 223 S. c. 8. 2. O. 9. S. C. O. O. TM.231 3. 3. O. 2. 3. S. 8. 9. F4 223 0. O. C. 8 C. C. G. *. AT.219 8. 8. 8. 3.
~
S. 8. 9. O. 0. 8. 84 219 8. 8. O. 3. O. 3. O. 3. 31 215 8.
- 8. O. O. 3.
Pt.215 S. 5. C. 8. O. S.
- 8. O. 8. 3.
Pt.211 8. 2. ". 3. J. O. 8. De St.211 C. C. C. 3. J. O. 8. 8. 3. P0 211 S. e. C. s. s. TL-207 s. e. s. 9. CCisCC surn =0 a00st:04at 01 tut 0= sasC3 on 1 uCrisCC ntLCast matt or Catn 1stt0cc te ossCasast PLev Or : - Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 d A-31
TABLE L-3 (cont.) ECWI23IsEETCL FAT 4W4 7-10$C CD4WERS804 FLC TRR1 F CP LIGUID OISCMMSES esigWAT - POT 48 Lt We TER - A&E group . garagf WUCLIDE 9R S44 00 $C F A CT0R 44*r##MR PER UCI#MLB {xg p34C liv!R TNTR11D RID 4ET LJ 46 St.LLI Su!4 TOTAL BJ39
/
M----3 0. C. 3. C. 5. f. J. 3. C===14 9. 3. C. . C. O. ;. 3. Fa==18 0. O. D. 8. 8. f. a. O. me.-24 0. O. 8. C. 8. 6. 3. C. P /-32 3. J. 5. 8. C. 8 C. 3. CR==58 3. ?. O. 8. O. 3. C. ;. 44==54 8. J. O. 9. S. P. b 0. R4-=56 C. G. 9. 8. C. C. O. J. Fr==55 c. ' 3. O. 3. O. O. D. C.
- 1. 1.
3. FC==59 0. C. O. C. J. C0=*5T 3. O. O. 8. t. C. O. 3. Co--Se 4. C. f. 4. C. C. O. J. CD--6G 0. 3. O. 8. L. C. 4. 3. 4I==63 8. 3. O. C. O. f. C. 3. NI--65 3. C. S. O. D. C. C. 3. CU-=64 9. 9. O. S. C. C. C. 3. 24--65 S. 3. S. O. O. 6. C. C. 24=-69 C. O. O. 3. D. G. G. 3. 54--92 9. 1. .t. C. O. f. 6. D.
, ,, BR=-83 9. D. O. 6. D. P. . ;. '4 89-=84 0. C. C. 3. 6. C. D. J.
De--R5 0. O. O. 9 O. D. C. 3. RB-*t6 C. 3. 3. f. C. C. . 3. RB-*94 8. G. f. O. O. 9. ". ;. RB--89 G. O. O. C. G. C. 3. 3. K R =8 3m J. O. C. 9. O. O. O. J. 58- 87 3. 3. O. C. O. C. 3. 3. 58 -9; 3. O. O. C. C. C. . C. SR--*1 9. C. C. % 0. C. *. 3. SR--92 8. 3. C. 3. O. C. O. 3. T--*9; 0. 3. C. O. O. C. 1. ;. T*=914 6. 1. O. 3. 1. !. 6. C. T===91 h 3. C. O. O. O. C. G. T==*12 J. *. ;. O. C. C. 3. b T===93 h G. 4. 3. C. O. ?. *. 2R--95 C. ". f. C. *
. O. 3. 7.
s 28-avF 9. 3. C. C. 3. C. C. !. O. G. 3. O. C. G.
) 49--95 43-=9F 3.
O. O. 3. v M3-=99 0.
- 3. h 4.
G. 3.
?. 4.
C.
?.
- 3. ;.
TC=-99 *. 3. C. C. C. O. 3. C. TC-998 3. 3. O. C. O. O. C. J. TC-131 0. C. 4. O. O. C. 3. J. 8U-133 3. 3. C. 8. O. C. . J. RU-105 G. 3. C. 3. O. O. 3. 3. RU-106 3. C. O. O. C. O. G. O. AM1334 4. J. O. h ?. G. C. 3. AG1104 3. O. C. C. C. f. O. 3. A9-113 3. C. D. G. O. C. 3. 3. SR-122 h 0. S. O. O. O. O. L
$8-124 8. O. G. 3. O. 8. O. %
. 58-125 8. J.
- 8. C. B. C. C. f.
l TF1254 0. C. O. 3. O. O. 3. 3. ' TE1274 C. O. 5. O. C. C. 3. se Tr-tar s. O. c. 8. ?. D. O. O. BASEO 04 1 UCl# SCC RELCASE RATC OF CACM ISOTOPC IN OISCMARGE FLOW Of 1 CC#SEC WITM no ADDITIGNAL DILJf!3% e
.- Ref. EDS @ Computer Code RGl.109 version 2, Rev. O, Date June 11, 1982 O
V A-32
TABLE L-3_ (cont.) 3,,,0,,t
,a t n a vn s v.0 0st C0g eta s10 =
- ac"*5 '8 "" ""'* ,, , ,, ,,,
p ain u a? . P0f adLC Waf tt tapt=#He Pra UC1/att huCLlot ..easa4 o0$! F A CT0R .............................
................................ El.LLI $s 3 4 13 tat 903v .. . .. u!DNET LUNG LivCR TMfp010 3.
Sont C. 7. 0 .' O. O. 3.
?. S. 2. F. 3.
- 9. C. 1. C. 1.
7t124m 3. O. O. O.
- 8. C. f. C.
TE.129 3. O. O. ft1314 1. 6. C. C. L. D. C. 3. 3. ft.131 ' S.
- 3. 6. J.
P. *. 3. 11 132 O. 9. 3. C. 4. O. C. 9. O. 3. I. 129 3. C. C. 8. 8 S. 4. t 133 *. 2. 3. e.
- 3. 131 9. .
O.
- 8. 4. De C. *. 3.
O. 8. O. w. 3.
- t. 132 6.
- 3. C.
- 8. f. O.
- 3. 4.
- g. 133 8.
- 1. C. O. P. 3.
I. 134 9 O. O. C. . O. 3. D. C. C.
- 3. 135 8.
- 3. C.
O. O. O.
- 3. J.
Cs.134 8. 8. !.
- 0. 4. O. f. C. ..
Cs.13% O. D. O. J.
- 0. 7. O. 3.
EE1354 3. O. S. C. O. af.135 C. C. P. *. 3.
- 1. 3. 9. O. C. 3.
st133m 3. C. O. C. C. EE.133 *. G.. 6. 3. O.
*. C. J. O. C. L.
st131m a. O. f. C. 4.
- 6. 1. 3.
,,ts.136 3. 8. O. 4. O. ' 3. O. O. C. O.
s Cs.137 3. C. O. C. 3. C s.138 0. 9. f.
- 6. 3. 6. 4. 3. 3.
061374 *. C. 8. G. 4. 86134m t.
- c. O. C. 3.
. 9. 9. 1. D.
es.139 0.
- 3. D. C. *. 3.
e4 143 8. t.
?. C. ?.
- 3. S. 8. C. J.
e4 141 5.
- 2. C. C. C. 3.
86 142 9.
- C. O. 6. C.
C. . 9 C. 1. 3. LA.143 P. C. C. C. 3. Lt.142 1. 3. C. *. ?.
- 0. C. S. C. O. 3.
CE.141 2. S. L. C. O. CE.143 3. f. ?. C. C.
- 7. C. 9. O. 3.
Cr.144 8. C. 9. 9.
- t. 3. %. 3.
Pa.143 3. L. 3. C. C. Pe.144 8. C. 4. O. O.
- 3. S. 3. 9. i. C.
Paleau O. G. P. C. e. NO.144 2. D. 3. C. 3.
- 0. 9. C. 8 C. S. J.
40 147 3. C. C. f. a. W. 197 3. 3. C. G. 3.
- 3. 2 O. 4. 3 O.
NF.239 3. t. O. 8. 3. PU.239 0. C. S. t. G. O. O. G. ". 3. U. 235 3.
- 1. C. 8. C. S.
Pa.231 9. 8. F. C. 3.
- 3. 3. D. O. O.
aC.227 3 O. L. 8. t. 3 TM.227 1. C. t. C. 3
- 9. 3. C. O. 2. O.
. Ra.223 C. S. 8. D. G.
14 231 S. 6. 9. C. 7. 9 C. 3. Ft.223 0.
- 3. O. C.
- 9. 6. 3.
f. 41 219 8. O. O. C. 3.
?. C. 3. 3.
R4 219 9
- 0. 'O. 9.
O. O. G. 01 215 Ce O. 6. C. O. O. *. O. 3. 3. 3. 90*21*. 3. O. O. 9. 3. 95 211 9. C. O. ?. 3. O. C. 8. e. J. 81 211 3.
- 8. 8. C. 3.
PO.211 3. O. 9. o. tL.207 8. 0 3r 1 CCritt 0 Te =0 ao0st O=aL oltur:0= Bast 3 Og 1 uctistC atLeast part er tacM ts0roet in onstwanst rL s 11, 1982 Ref. EDS @ Computer Code RG1.109 Version 2, Rev. O, Date June A-33
bdNMt XP'U (cont.) gevtRSgICRTaL tat 4MT-DS$* CoertRSt03 f aC TSCS F02 Lt0Ut3 Ot SCMAIGCS paiguaf = FRIS4 wafer 8:54 a&C SRJUP = lerauf 0# 5aN ooSE FACTOR tRR[arne Pts UCir4La [' WUCLIDC k SSME LIW!R INTR 3:0 (104CT LUh6 St-LLI SK14 10 fat Oost M..==3 ?. D. 8. S. 8. f. O. 3. C===14 8. 3. 4. 8. 9. 8. O. O. Fe==1R 3. O. 4. 9. 8. c. C. . ma==24 s S. O. C. G. 8. O. O. G. P===32 % t. O. O. 6. p. C. C. CR==S1 0. 3. C. 8. 8. C. S. 4. et. 94 3. S. G. 8. O. C. O. 6. mm==S4 0. - O. S. O. D. 8. 9. G. FC=-59 3. D. 8. 8. 8. C. O. 3. FE==S9 9. 6. C. 3. O. f. C. O. Co*=ST C. C. 8. c. 8. C. O. G. Ca==S* 3. 3. C. O. Se C. :. C. C0=*63 3. 3. 8. 8. O. C. O. C. 4t==43 3. J. C. F. 8. 8. 4. 3. 4I==63. 3. O. 8. C. 8. t. O. G. CU-=64 8. 3. 8. a. O. C. C. 3. 24.-45 0. 3. 8. C. S. O. J. 3. 24==69 9. 6. O. *
- 9. O. *. G. 3.
09*-02 3. 9. O. 8. O. C. 3. O. BR==93 8. 3. C. S. S. C. 5. J. 0s- 04 9. . 8. 8. O. C. C. 4. P4.-45 *. *. O. O. O. C. C. 3.
#P-=s6 3. 3. C. O. O. C. C. 3.
4R==94 3. 3. P. O. 9. O. P. 3. RP--89 3. 3. f. O. 8. C. C. O. R*=81m 7. 3. 8. C. O. O. 3. J. St==91 3. ?. O. O. S. P. 3. 3. Sp=-9; 2. 3. 9. 2. O. 9. 3. 3. SR=-91 S. *
. O. f. C. 3. C.
SR--92 3. 3. 3. 8. O. 8. 6. 3. T===4; 3. a. D. O. f. C. S. J. T==114 C. C. C. C. C. ?. 3. S. T===91 4. C. c. C. O. C. J. 4. T===42 3. D. C. O. C. e. G. 3. T===93 3. 3. 3. 8. O. S. O. J. 28- *5 3. 3. C. O. O. O. O. 3. 2R==97 C. *. C. O. 8. C. 2. S.
}
j NP**95 O. 3. C. O. s C. C. 3. 3. v en . 9 F 3. J. O. S. 8. O. C. 2.
#0--99 3. C. C. O. 2. C. O. O.
TC=-99 3. 1. 3. ?. D. O. O. 3. TC=99M 0. J. C. S. O. O. S. J. TC=1:1 C. 4. C. O. 9. C. G. 3. RU-103 :. 3. C. S. 8. 8. O. 3. RU-145 3. C. 8. O. O. O. J. 3. RU+116 3. O. 3. O. O. O. O. 3. RM1*38 3. 3. O. 3. 8. O. 1. O. aG1134 S. C. C. O. C. O. O. 3. aG-11C 3. ?. C. 8. 8. C. 3. J. S8-122 S. O. 9. 9. 9. C. C. J. 19-124 9. C. C. 9. C. 3. O. 3. 54-175 0. O. D. 8. 9. 8. O. 3. Tg 2gn ?. 3. C. 8. 8. C. O. 8. TE1274 0. G. 8. C. 8. C. 8. 3. ff=12F 3. 1. 9. S. O. C. C. 3. ( SaS*0 on a uttrScC RELtaSC Ratt or caCm IS0ropc in otSCmaest FLou oF 1 CCrStC utfM si0 aDontltasat GItur 3g l e Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 s s A-34 1
._- _ _ _. . __. -~ , _ -_. _ _ _ _ _
TABLE L-3 (cont.) EtvlattmCNTal F4fg!27 00$t C04TEt$r03 FLCTORS FOR Litulo CISCWA18CS AG! En0UP - 14r4NT P&fhW AT
- FRCSM Waf E4 FIS4 '
eRE44 D0S! FA CT0m (maturMR Pts UCitmL3 WUCLIOC (Od i .. .......................................... gent Livts TNTeotD E104tf LU4G Gl*LL SKI 4 Total 8037 C. D. 8. C. O. O. 3. tr1294 8. 4.
- 9. 9. S. 8. 9.
ft.129 8. 9.
- f. 8. 9. 6. 8. G. C.
TC1314 J. O. 5. S. G. Tt.131 8. O. F. 9.
- e. 8. 8. 8. 3. :.
ft .132 1. 3.
- 9. 3. 3.
I. 129 9. O. S. S. 8. C. S. 8. 8. 8. e. G.
- 3. 133 3.
- 9. S. C. 4. O.
I. 131 S. -
- f. E.
C. O. C. S. 8. C. 3.
- 1. 132 3.
O. 9. C. 3. 3. I. 133 c. 3. O. O. O. 3. P. 3. I. 134 3. 3. O.
- O. O. 5. 8. 3. O. .
I. 135 9. C. O.
?. 9. 9. S. C.
CS.134 S.
- 8. O. 3. 3.
- 1. 8. 8.
C5 135 4. S. c. f. 3. st1394 0. 3. 8. f.
- 5. C. O. C. S. 4.
BC 135 9. 1. S. S. 9 3. 3(1334 a. 3. 8. 6. C. S. . C. st.133 3. 3. G. C. g.
- 3. t ." 6. S. C. O.
at t 31m 9 S. 8. 3. 3. CS.136 0. C. G. f. S. O. 6. C. C. 3. 2. C S = 137 8.
- 3.
O. D. . 9. O. C. . CS.134 9.
- O. O. 3. 3.
541394 3. 3. . O.
- i. f. O. O. 8. *. 3.
BA136M 3. 3. J. G. G. 3. S. 2. 84 139 C. 34 143 1. 3. f. 4. C. c. 3. O.
- 3. a. O. O. O. O. 3.
BA.att 3. ga.142 6. 1. C. O. 6. C. 3. 3. O. C. O. O. e. 9. O. La.143 3. LA.142 ?. 3. O. a. O. O. 3. .
- 3. C. 3. 3. 8.
Ct.141 1. O. 3. C.
- 1. 8. 6. C. S. O.
CE.143 9.
- c. C. 3.
CE.144 8. 9. C. S. t. C. O. O. C. 5. 3. PR.143 3. f. S. C. F. C. O. J. PP.144 9. 3. O. C. O. J. Pp1444 9. J. C. O.
- a. P. P. p. 3. 3.
g NO.144 1. 8. C. 3. N0 147 E. C. 3. f. O. 3. Q
- a. 9. C. P. 3. 3.
W..llf f. 3. S. O. O. 3. 3. hp.239 3. 1. S.
- 8. O.
PJ.239 C. 9. 4. O. O. 8. C. C. S. U. 235 C. O. C. 3. S.
- f. C. C. O. O. 3 Pe.231 C. 3.
G. de C. 8. 8. 8. AC.227 C. 3. 3. TM.22F O. O. G. S. 8. c. 3. C. C. 9. G. Re.223 3. C. 8. 8. 3. O. C. C. C. O. 3. TM.231 *. O. O. 3. FR.723 1. O. S. O. O.
- 6. O. O. O. 8. a. 3.
af.219 8. G. O. 3.
- 3. 9. 8. 9.
Wh.219 9. S. S. 3. 81 915 8. S. 8. 8. S. O. 8. O. S. O. 3. P0 215 9. O. O. O. 8. O. O. f. P8 211 1. O. O. J.
- 6. 8. O.
81 211 1. 9. 8. O. O. O. P0 211 3. 3. 8. O. 9.
- e. e. O. 3. O.
TL.23r C. G. e. l easr0 0= 1 uCIrstC arttast matt 0F taCa Isot0Pc = otsCeennst FLOW *F 1 CCistC uttu =0 a00: TID =at 0 Luttom i l l l i
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 1
A-35
TABLE L-3 (cont.) 4 tevl4044ENT AL
- ATMWAT-DOSC C04WERSI0m F ACTORS F OR LIGUI) 3tSCManGES AGE GRMIP = ligF A NT P AT4W at . Last SMORCLgelt DC8 0$t TS v muCLIDC 44&4 4 00SC FACT 0R OM9fM/M4 PER UCI/MLD LIVCR TMTR010 EID4ET LUNG SI*LLI SEIN TOTAL 003r 90 4C
- 3. 8. 8 6. O. O.
W...=3 . 3. O. ?. O. O. 8. 8. 8. 8. C-.-14 8. 3. O. 3. O. O. C. O. 3. F.. 1m 8. 6. 3. 1. me.-24 3. 9. O. f. O. 8. O. C. 3. 3. P--=32 1. - t.
- 8. f.
- 3. C.
S. 8. 8. C8. 91 8. O. 8. O. 3. 3. pas. 54 0. O. 8.
- 9. 8. 8. P. de G.
ess-56 4. 8. O.
- c. 9. 9. 6. G.
ft. 5S 0. J. S. 8. 8. O. 8. 3. FC==59 1. S. Co--57 3. D. O. 8. 8. c. O. 2. D. O. 8. 9. O. 3. CO-=54 3. 8. C. 8. 8. 8. C. G. Co**60 0. O. 3.
- 9. 1. 8. 9. 8. O. 3.
al.-63 S. S. C. O.
- 3. C. 9. 8.
kl.-45 8. C. 3. C.
- 9. O.
CU-=64 3. 3. . W. J. 24 =65 3. O. O. C. 8. 8. O. 8. F. 4. O. Ih=-64 3. C. C. O. f. C. C. pp.=92 0. C. O. 8. C. 8. 8. 6. O. J.
- 08. 03 3. P.
O. 9. C. 3. 3. PA. 04 1. 9. O. O. 8. 8. C. 3. 2.
- 84. e5 3. 3.
- 8. e. O. 3.
RS..e6 3. O. O. 8. eP=-9a 1. O. O. O. 8. c. O. 3. O. O. C. C. 1. 1. ep. 09 1. J. go.e34 g. O. 3. O. 8. c. 3. ,, G. C. 6. C. O. 4. 3. SR*-Se 3. J. J. SR. 90 8. a. 8. 8. S. 3. e.
- 3. O. P. *
. O. G. J.
SR--91 O. O. C. J. Se==92 3. C. C. 'O. S. 8. C. C. O. J. T=.=9* 3. 4. O. O. 3. 3. T. 414 8. 3. 8. C.
- 9. 1. 6. 3. 3.
91 3. 3.
- T=.
- c. 3. 3.
t p g' T...,2 T=--93 3.. . 0. e. 1. 3. C. O. O. 8. C. 8. O. C. O. O. C. 3. 3. 24--*5 S. O. 3. O. O. O. O. 3. F8--97 3. .. 3 O. O. C. 3. 4m--95 0. S. 3.
- f. ?. 3. O. C. 3.
49==97 0. P. C. J. J. 90--99 ?. S. O. O. 8.
- 3. O. 8. C. O. 3.
TC.-99 8. J. O. 6. C. 8. TC=998 0. C. 3. 8. O. 1. O. O. 6. O. O. TC-131 3.
- 8. 8. 8. C.
*RU-133 3. D. 6. 8.
- 3. C. O. O.
RU-135 C. O. O. S. Se f. C. C. 9. RU-136 0. O. 6. C. PM1334 c. O. 8. 6. O. O. 4. O. 8. S. D. 3. AS113e 0. S. 8. O. O. AS=113 0. 1. 9. O. O. f. O. O. 0. C. O. 3. S9-122 0. O. - O. 3.
- 9. P. C. C.
SB-124 3. 3.
- 8. O. S.
50-125 8. ?. 9. 8. 8. S. C. S. F. O. J. TCl254 7. O. O. 9. C. 8. 6. O. TF1274 3. 3. O. O. w. TE-127 0. e. O. O. O. I SASE3 09 1 UCt/SEC RELC ASE R ATE OF C ACM ISOTOPE IN DISCHAREC FLOW OF t CC# SCC WITM 40 ADDITIOw
- Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 nv A-36
TABLE L-3 , (cont.) tuvtR3%CETAL FATCat-00$t CDgvCRSI"4 FLCTORS F0# Lieu!3 EISCHARGES i Ast 640g* Isragr sof twar . Last SN0eCLINE DEPOSITS O# 8 a 88 00$C FAC70m toernige pgp UCl#4LD WUCLIDE .... ........................... ........
. ...... .... ............................. El-LLI SK !h T0taL 503f LivEm TNTROIO RIONET LUNG 33mt O. 9. O. O. O.
- 8. 4. 4.
it1294 f. 9. O. O. J. ft.129 8. O. 6. O. O. 3. C. C. 8. 8. TE131m O. O. 8. 9. C. C. c. TC.131 , s. O. 9. S. 3.
- 3. O. 8. 8.
TE=132 1. D. 8. O.
- 8. O. 8. S.
3.=129 3.
- 6. 9. 8. O. O. O.
- 3. 13; 4. 9. J.
~
C. O. 8. O. 5. I. 131 4. 0. O. 6. O. 9. 9. C. 1--132 3. 3. O. 3.
- 8. 9. S. O.
t==133 9. f. 3 .- C.
- a. 9. S. O.
I. 134 6. O. O. 3. 5. D. O. O. S. I--135 0. O. D. 3. 3.
- 9. O.
CS-134 9. , 2. C. O. 8. c. O. CS 135 3. O. F.
- 9. O. c.
- 3. 9. S. S.
ut1354 0. O. C. O. O. O. st-13% 0. O. 8. D. c. O. O. 8. f. EE133u 3. 3. O. 3. O. 8. C. O. O. ut=133 9.
- 3. *
- 0. O. C. 3. 3.
st1314 3. 3. O. 3.
- 8. 9. f.
C. 4. CS-136 3. O. C. C. 3. 4. CS-137 9. O. C. Se C. 8. O. e. O. J. CS-136 8. C. f. 3. 3. 941374 S. C. 8. 8. O. O. 3.
- 3. 6. C. O.
sa134w 3. O. C. 8. 3. 3. pa-139 9 S. O. G. O. D. O. C. 4. be.143 3. 3. C. O. C. 3. 3.
- 1. 3. 3.
Fa.141 :. D. O. C. C. sa 142 *. 3. O. O. C. C. 9. 3. C. La=14: ?. 3. O. O. O. 3. C. La-142 ?. S. O. 3. O. O. D. C. CE 141 0. ?. 3. G. 3. C. O. O. C. CC-143 0. 3. C. 3. O. S. P. 2. CE*144 9. G. C. 3. :.
- 7. f. O. C.
PA*143 4. D. C. C. .. Pe=144 3. J. c. S. C. C. ;.
- 3. G. G. O.
's Ps1444 1.
O. C. 9. 2. ND=144 3. 1. c. f. C. 2. G. C. O. C. O. NO-147 0.
- f. *. C. O.
W==147 3. 3. C. S. C. 9. C. O. O. O. C. Is*=239 0. D. O. C. S. e. PU-239 0. O. C. C. 3. O. O. U. 23S 0. c. C. O. O. C. O. 3. ca 231 3. O. O. 4. C. 3.
- 8. 8. 9. O.
AC=227 8. 6. J. O. C. 8. 8. C. 3. Tu-227 S. S. 8. 2. C. O. me.223 3. O. 8.
- 2. 3.
- 8. D. 8. 8.
T4 231 0. 3. O. J. O. 9. S. 8. C. FA-223 5, S. 3. :. C. AT-219 3. 9. O. 9. 3. O. O. S. 8. C. .
#t-219 6. O. 3. 3.
O. 3. D. O. SI-21% J. . C. C. 8. O. 3.
*0-215 O. G. O. 3.
- 3. C. O. S. O. 3.
P8-211 6. O. 8. S. O. 3. 81-211 S. O. 8. O. O. O.
- 3. S. O. 9.
PO*211 3.
- e. s. e. e., s. O.
TL.23r a. O. SASCO 04 1 UC1/SEC RCLE ASE RaTC OF C ACM 180TOPC IN DISCMamst FLOW OF 3 CCFSEC WITM 40 AD I I e i i
' + Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 C
A-37
-_ ~ _ -- . - -_.
TABLE L-3 03r34r29. (cont.) CWWI4044:4f aL Paf MuaT-DOSE C04WER SION FaC TO RS FO* L10013 DISCha#STS Pataway - Swim 414C att 643uP - IW 4 41 muCLISC eRS& 4 00$E F aCT0R (MRCMium PCR UCt/ML1 994C LIVER TNT 8010 EIDNET LU4G SI-LLI Smit TOTAL 3037 M-===3 3. 3. 3. 6. 8. C. 3. J. C---14 ~P. C. 9. O. 9. 2. O. 4. F=--19 8. O. 9. O. 9. O. J. J. ma--24 1.F4f+31- 1.7at*01 1 70C+C1 1.fsc+01 1.7 8t + 01, 1.79t*01 G. 1.70s.J1 P-~~32 3. C. G. O. 3. O. 1. C. CD--51 1 19f=01 1 19C=01 1 19t=01 1 19f-01 1 19f-01 1 190-01 J. 1 19:-31 pt--54 3.43f*30 3.4 3C +3 3 3 43C+00 3 43E+00 3 43r+00 3. 4 3E + 0 0 8. 3.43t+;3
#4-*54 8. G. O. O. O. C. G. O.
FE==55 3. 3. 8. 9. C. 2. 3. C. FC==59 5.02C+33 5 02C+SO 5.02t*00 5 32C+00 5.22t+00 5.C2t*EC 3. 5.020+30 CD--57 C. 3. O. O. C. f. O. 3. C C -- 5 4 4.11r+30 4 11E*00 4 11C+00 4.11E+00 4.11r. : 4 11 r + 0 0 3. 4 11!.30 Co--60 1 35f+01 1 05f+31 1.05t+01 1 05C+01 1 05r+01 1 05!*01 :. 1 0 5:+;1 NI-=63 3. 8 3. O. O. f. O. :. NI--65 6. O. 8. - O. C. 3. C. 9.
'CU--64 0. 1. 3. D. C. G. 5. O. . h --65 2.51r+0! 2.51E*00 2.51E.00 2.51E+00 2 51t+0C O.
2 51E*00
- 5. ?.51t+3.
F4-=69 3. O. ?. 2. 4. 3. 88--82 3. 3. O. C. O. C. 3. 3. Se==43 3. 9. C. O. C. P. 9 J. 94--84 1. 3. O. 9. 8. . .. J. ge==R5 3. 4. a. O. O. 8. C. 3. R1-*R6 3.
. 3. O. *. C. 3. 7.
98--44 6. S. O. O. C. O. 3. 2. AB.-99 1.**r-32 1 95!=J2 1. J 5E- 0 2 1 35C-C2 1 05E-32 1 05?-32 C. 1 35!-02 Re-534 4. 6. O. 8. P. C. !. O. SR==89 0. 3. C. O. O. 9. O. 5. SR--93 1 23!-C3 1 23!=03 1 23C-03 1 23C-03 1 23C-O? 1 25t-G3 '.. 1 23t-93 SR--*1 3. D. t. 'O. !. 5. *. L. Sa--92 7. ?. C. D. C. f. :. s. v==-93 C. 3. O. 3. *
. f. 3. 3.
T--Sim O. *
. G. C. O. *. c. ;.
[hJ t T---91 V===92 S. C. 3. 2. C. 3. 3.
- 2.
- C.
C. O. C. O.
. 2.
3. V v==-93 3. 3. 4. O. *
. f. O. J.
24-=95 3.43t+30 3 43C+30 3.43C+03 3.43**03 3 4 3r +C 3 3 43t+03 3. 3.43 .00 2R--97 3. 3. C. 2. C. C. ?. 7. h8--95 8. C. O. C. C. C. Q. . h8-*97 3. 1. C. 3. 3. C. C. 3. 90--99 5.40r-01 5.400-01 5.44E-01 5.44t=01 5.40f=01 5.49t=01 C. S.485- 1 TC--99 3. C. O. O. O. C. C. ;.
. TC=994 0. O. O. O. O. C. C. J.
TC-131 0. O. O. O. C. O. . J. RU+133 3. 3. E. S. 9. 8. C. 9. RU-105 3. 3. C. O. O. O. O. O. RU-136 9. 9. 8. O. O. 3. O. 3. t an1334 3. O. , S. 6. O. P. 3. O. astlig 1 12t*01 1 12t +31 1.12t+01 1 12E+01 1 12f+D1 1 12E+01 0. 1 12C+01 , a5-110 3. O. C. 3. 9. C. a. G. ! Sh=122 6. O. 9. 8. 9. E. ?. 3. S8-124 4.22C+00 0 22t+C0 8 22t+0C B.2 2C +3 0 8.22f*30 8 220+04 C. 9.22i+J j 3. J.
$9-125 0. 3. 8. 8. 3. f.
I TE1254 3. O. O. C. 8. C. 4. 1. I T[12fu D. 3. 8. O. C. O. S. 3. Yt-127 0. O. O. O. O. O. O. 3. e Sts 04 1 uCassrc acLt4St marc or taCM sser0rt tw 01stmanGr rLos or 1 CCr$EC utrH 43 a00tt:04st 0:Lotts4 l 1 e Ref. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982 G A-38 i s
(Cont.) l EtWIt0mmCasiat 5'aT4YaT*DUSC COUCASIS3 FLCTO%$ F Cs LgCUIs 08 5C88aIGC5 AP stoup . gereg, Patwear . segangus x 00$E F aCT0a empf 8 FM8 Pf R UCl#RL8 V aryCLIDC ea6a4 EID4CF LUh6 E!*LLI br t 4 fatal g33f S3NC LItfe TNTR3IO O. f. 8. 9. C. C. 3. TC1294 ,= 0 . C. O.
- 8. c. 1. D. 1.
flatte r. 1 70t*00 1.700 0; ft13;A *1 70C.06 1.Ft .00 1 70L+00 1 70[.00 1 70t+CO 8. C. Se f. 3. t. TC*131 9. S. 8.
- 9. 8. 9. f. 3. 3.
?C-132 8. 8.
S. 8. 6. C. C. G.
- 3. 329 9. 3.
- 8. 8. S. f. C. J.
- 3. 133 8. - 8.
C. 9. C. 4. C.
- 1. 131 8. S. 9.
O. :.
- 9. 9. 8. C.
f=.132 S. 8. 2 19t+00 2.19".:t 2.19'*GC 6. 2 19*+J: l.-133 2 19f*00 2.19 t
- 0 0 2.19t.00
- 8. 9. O. f. 3. 2.
f . 134 8. 3. S. 8. 6. C. C. 3. I.=135 8. C. 6.62!+03 6 62C+00 6 620 00 6 62!*00 4.'e2r+30 6.62'+00 :. 6 62t+ 0 Cs.134 S. 3. F. ?. :. CS.135 9. 6. 3.
- 9. O. De f. S. 3.
st13Se 9. 1. .
- 3. 3.
D. 8. C. 8. C. ut.135 8. 3. 3. O. S. 8. 8. t.
. SE133m 9.
O. O. 5. a. st.133 3. 3. O. S.
- C. 0." 8. C. 2. .
sF131m D. 3.
- 1. J. 3.
8 8. 9. 8. CS=136 9. 2.285 03 2. 29 t .90 2.20C+00 2 20f*0C 2.23:*00 J. 2 28 .33 Cs.137 2 29!*20 9. O. C. 3. CS=134 8. 9. P. 9. Sa13?g O. f. 8. C. C. 9. :.
- 8. O. 3.
- 8. 1. C. O. C. C.
041344 S. 3. J. 34 139 6. C. G. 8. 8. 1 12r *0 C 1.12t.00 1.12C.0C 1 12t .0 0 1 12t*00 1. 1 12 + 2 3a 143 3 12'*C" 2 970 01 2.9ft 01 3. 2.9FC.21 Sa.141 2 9FE.01 2.9fI-C1 2 97C=C1 2. 97C 4 01
- 3. 3. O. 8. P. 3. 3.
Sa=142 3. C. O. G. . La*14C 5. C. O. S. O. C. C. O. C. 3. La.142 3. 3. G. O. O. O. C. J. Ct=141 3. C. J. J. O. C. 1. S. P. CE=143 3. 1 96!aC1 Cr=144 1 96 t.31 1 96r-C1 1 96t=01 1 96E.01 1 960-01 1.96!.01 4. C. Q. 8. e. 3. 3. P'=143 8. 3. S. C. S. S. O. C. 4. PO*144 8. . C. 1 f. O D. O. 8. P8144R .. 3. C. 3. 3. 90-144 9. C. O. O. 4. S. O. O. P. 3. ?. 40-147 3. 3. D. C. O. ;.
- w. 147 0. f. C. C.
5 44:=01 S.400 01 5 4ag.01 C. 5.40:.?1 IeP.239 5 49t.01 5 40!=31 5. 40t 01 C. . O. S. 8. 1. 6. P3 239 8.
- 8. C. G.
O. O. S. U-=235 8.
- 6. f. 2. 3.
Pe=231 8. S. 9. 6.
- 8. 2. C. O. O. 3. 4. .
aC+227 8. C. 3. 3. 1N=221 8. Q. 9. Q. to S. 8. C. C. E. Ra*223 8. 8. 5. O. O. C. C. J. TM.231 S. O. 3. 9.
- 3. 9. f. L.
Ft.223 9. O. 3. C.
- 4. n. S. C. D. f.
al.219 8. O. J. S. 9. O. C. en.219 9. S.
- 8. S. O. 4.
81-215 8. J. G. 8. D. te . 8. O. C. O. PS.215 9. ?. O. C. ?. 3. S. 8 8. PS.211 6.
- 6. O. C. 3.
01 211 4. 83 C. S.
- 8. Q. O. O. P. C.
PS.211 8. 3.
- 8. 8. 6. s.
tL-207 8. 3. 8. 8. easto one 1 UC ntC artcasr satt of taCa is0t0Pt se ossCuanst FL0u er 1 CCistC vs ta no acortze=at on ut:s9 l 1 I i l t l l + Ref. EDS @ Computer Code RG1.109 Version 2, Rev. O, Date June 11, 1982 i i I O V A-39 l i
TABLE L-3 (con't) Lj $u to 015CM186t t t uelR0%4CE14L P&Tst%4 T* D0$f C 04WE R1184 FLC TORS F 03 ASC 54 Cup = t wr a itt pat 4W4T = Staftes seatnFna pra veltnL3 WWCLIDE eaeam 0e5C FaCTea
.. ........... ............... $1*LL1 SK t t 13fa( g},
TM94010* E104tf LUh6 Dent L1Vtm
- 8. 8. 3. 3.
f. es====3 s. O. 8. Se 4. f. 3. J. C.,== 14 8. 9. f. S. 8. 3. 3. B. 8. 8. 3.est.31 F.w is S. 3. e 3C .01 3.03f+31 3 83t.01 5. Wa==24 3 93t+01 3.83t*81 3 83t+01 3. O. 3.
- 8. f. 8.
P=b=32 9. 9. 2.5SF=t1 2.SSr.01 8. 2.55 31 2 55t=01 2.SSt=01 2.SSt=81 2 55t=31 4. F.36 +.; Ce==51 F. 36 E . 80 7. 36C + 00 7.36t ett 7.M!*&b me==S4 f . 36t +0 0 F.36C+00 9. 9. 4. 3.
- 8. 8. 9. 3.
sus == 56 9. 8. 9. f.
- 8. 8. 8. 1 091+01 FC==5S 8. .
1 00t+01 1. Set.01 1 98t *C1 1 08t+61 8. FC==59 1 99C*01 1 98C *S 1 ?. O. J.
- 8. S. 9.
e.ent.Gt CO**ST 8. 8. e.84E+00 8.84C.08 S.8 4C + 0 0 S.84t*00 0. C0==S9 0.04t*00 8 84f+00 2 26t+61 2 26t +31 0. 2.26!+31 2 26C+01 2 2&E+t1 2 26C +01 3. C0==63 2 2S E *01 9. 9. G. . 31==43 8. O. C. C. O. G.
- 9. 8.
hl==&S 8. 9. 8.
- 4. C. 9 3.
, 9. 9. S.430 33 CW==64 8. 3.
S.40t+00 5 4tf *03 S.4ti.30 C. 24==65 S.49t+00 S.40r*00 9 400 00 a. O. 3.
- 9. S. 8.
24==69 3. S. C. 4. O.
- 8. D.
BR==82 9. ?. 8. O. C. C. 4. S. 8. a. 3. 94==83 6.
- 8. O. 8. C. 4.
St==84 8. 3.
- 9. 8. 4. G.
- 3. O. 8. O.
sa==tS 8.
- 8. 9. C. 1.
AS.=l6 3. C. 8. C. C. G. C.
- 9. 9. 2 26t*J2 89==$8 8. 3.
2 26t= 0 2 2 260302 2 26t=02 2.26'=02 . as.=09 2.26t=92 2 26t=02 9. C. L. ;.
- 9. 8. 8. G.
sa=334 9. S. P. C. 3. St==49 3. 9. O. 3 6Sr-t 3 2. 6St =0 3 s. 2 65!-33 2 6St=03 2 6St=C3 2. 6St = 8 3 2 65t=83 J. sa==90 S. O. C. :. St==91 9. O. C.
- 9. C. 3. ).
O. O. 3. C. 3. 56-=92 3. J. C. 3. T===90 8. O. 8. S. C. 3.
- 8. 8. P. 8 O. J.
T==914 8. C. 8. 8. 8. T=-=91 S. O. C. C. ;.
- 8. 8. a. 8.
O. . T===92 8.
- 3. S. P.
T===93 8. O. S. 7.Mr.;6 F. 36 t
- 3 L 3. F.36C+33 7.M!*00 7 .365 *00 7. ME+t0 7. MC*00 *. !.
2R==95 1. f. t. 24-=97 8. O. 3.
- 9. J. 3.
- 8. O. 3. O. 3.
90-=95 8.
- 3. 'O. O. C. 3.
1 18!*;3 WO-=9F 0. 3. 1 18t+;0 1 14!.GC 3. Re= 99 1 19t+82 1. tete 30 1 18t*00 1 18C *OD C. C. 3.
- 8. 8. O. S. 4.
TC==99 5. O. 3.
- 8. 8. 8. C. f.
C. G. TC=994 C. 3. 8. O. TC-101 3. 3. C. 3. 3.
- 9. 9. 9. 3.
RW-103 9. 4. C. 4.
- f. 3. O. P.
8U-105 3. 8.
- f. C. C.
O. 8. C. J. EU-106 3. 3. O. 3. Sn1034 8. O. 4. 8. 2 41t+01 9. 2 41E.31 2 41r.01 2.41C+01 2 41t*01 2 41t*01 2 41C +C1 Ce as1134 S. 8. f. O. 3. 44-110 9. O. O. 4. w.
- 8. 9. 8. 1.7F *?!
85-122 9. 9. 1.vtr.Og 1 ytt.C1 w. 1 77 t +01 1.77C+01 1 77t+01 1 7tC*01 3. 58-124 9. 9. O. 3. SA-125 9. 8. 8. C. 3. C. 9. O. 8. J. i TC 1294 8. f.
- 8. O. G.
- 8. S. 8.
- 3. J.
TC12fR 9.
- 9. e. C. a. 8.
TC-127 8. citurt sasto se 1 UCirstC acLeaSC matt or CaCn isotoeC to otsCuaest FLOW or 1 CCistC Wita e e Ref. EDS @ Computer Code RGl.109 Version 2. Rev. O, Date June 11, 1982 A-40
~~ - , , . ,
TABLE L-3 guy 14puntataL Painv&T.001C C09f C451em FACTOR $ F 0s Lt0VI) Ol5CMansis { AGE Ga ou. 1W assi k pat 4 sat . Staffes F acte 4 tanterna pt# UCtteLS D0$t tuCL19C * .. ..... .... .......TafaelD S45& N EIO4tf LuuG 51.LLI Sulk ........ Total 303, Sent LIvte e S. ;.
- t. 9. C.
- 8. 8. J.
1t1299 8.
- 8. 8. 8. 9. 8. 4.
3.aSt.:? TE=129 9. 3.tX 00 3 8X*05 3.83C+60 3. 3.53t*08 3.83C*B9 3 8 3C *0 5 8 2. TC1314 S. O. f. ft.131 8. 8. 9.
- 8. O. 3. 3.
- 6. 8. O.
ft.132 S. 9. 8. f. C.
- 9. 9. G.
- 1. 129 8. 9. 8. 9. 6.
- 8. 8. 7.
I. 133 3. 8. S. P. 8. 8. 8. 3.
- 8. 3.
I. 131 9. C. 8.
- s. 8. S. 8.
4.75t+CC 4.71E.33 I. 132 4.71t+00 4.71C+84 4.71C+63 0.
- 1. 133 4.?ttese 4.ftt*30 3. C. S. !.
- 3. 3. D. 9.
C. C. 3. I. 134 8. O. I. 135 9. 1. 8. 1.42C+01 1 42t*C1 1 42C+01 c. 1 42t.cl 1 42t*01 1 42!*01 1 42t+01 C. CS-134 f. S. f. 9. 2. C5 135 8. 6. t. P. 3.
- 9. 8. J.
Ett3Sn 9. .
- 9. 9. 6. ?.
BC.135 9. 1. 8.
- 9. O. a. 3.
- 9. 8. C. C.
Ett314 9.
- 8. 9. 8. F. 3.
8. EE.133 c. 8.
- 8. 9. O. f. 9.
RE1114 ?. 3. O. 9. O. 6.
- 8. 9. 4.91t+2' CS*136 8. 3.
4.91!.00 4.91t*00 4.91t+C0 4.91t+03 2. 4.91C*30 4.91!.13 c. 4. O. CS.137 C. O. CS.13e 9. 8. 9. C. ?. 3.
- 3. S. 9. S.
Sa1314 8. 9. 9. O. O.
- 8. 6. C. 8.
C. 1. C. ma136m S. 34 139 O. c. 9. 2 41teta 2 410 34 9. 2 41C.09 2 41C+00 2 41E+08 2 41t+to 4. e.34t.31 sa.140 2 41t+00 6. 3B C.91 6. 38E 01 6. 3* C.51 6. 39 t.t 3 2. 58 141 6. 39 t.31 6.380 91 8. 3. Sa.142 *. 8. 3. 9. 3.
- 3. C. e.. . 3.
O. r. C. 3. La.14C 3.
- 8. P. C. 9. 3 .
La*142 9. f. 8. O. O. C. 4. - 8. CE.141 9. C. O. 3. 3. f t CE.143 ?. C. 8. 4 220 01 9.- 4 22!.01 0. 4.22t.01 4 22t.01 3. 4.22!.31
CC.144 4 22[.21 4.22~.31 S. S. 6. O.
- 3. 8. 3. O.
P4 143 9.
- 3. C. 9. 9. 3 Pa.144 e. S.
S. C. 8. 3. 4.
- 3. C. 3.
Paleen 3.
- 8. O. D. O. 3.
S. 20*144 8. 9. 9 C. O. C. C. 8. O. !.
* #0 147 8.
0+ 0. f. W. 187 9. 2. O. 1 18t+00 0. 1 18E.63 1 18t*30 1 14t.00 1 1RC+04 1 18t*0C 3. WP.239 1 19t+0C O. C. 3. O. O. C. O. O. PW.2 39 9. S. 9. 8. U. 235 9. 8. 8. S. S. 3.
- 8. 9. 9. J.
Pa.231 8. 3. 8. 8. 3.
- 8. 8. 8. 4.
AC.227 8. 8. G. 8.
- 8. 9. 3.
TM.227 8. 6.
- 9. t. G.
- 8. 8. G.
88 223 9. 6. 8. 8. C.
- 8. 3.
TM.231 S. 8. S. D. 8. 9. c. Pt.223 8. 8. e. S. O. 3.
- 8. 9. 9. 3.
af.219 8. O. 9. 8. 8.
- 8. 8. 9. 2.
Rt.219 8. O. S. 3. 31 215 8. O. S. 8.
- 9. a. 3.
- 4. 8. 9.
Pt.215 8. 9.
- 3. 6. C. 1.
I O. 8. C. ;. 4. Pt.211 8 S. 8. 9. C. 3. Bl.211 S. 8. Se t. f. 9.
- 8. 8.
- s. e. o.
PS*211 9.
- e. e. s. s.
TL.2er s. 01LuT11% sast0 on 1 uCisset atttast aart eF taCn Isot0PC to otstaanst Flew or 1 CCrstC elin ne a00tt a
< Ref. EDS @ Computer Code RGl.109 Version 2, Rev. O, Date June 11, 1982 A-41 1
J?.4ES A. FITZPATRICK NUCLEAR POWER PLANT OFFSITE DOSE CALCULATION MANUAL (ODCM) APPENDIX B GASEOUS DOSE CALCULATION DATA TABLE TITLE PAGE G-1 Unrestricted Area MPC's B-1 G-2 Noble Gas Data Transfer Factors (Ki, Li) B-2 G-3 Air Dose Transfer Factors (Mi, Ni) B-3 G-4 Ground Plane Deposition Environmental Pathway Dose Conversion Factors (Pi) - Instantaneous B-4 G-5 Inhalation Environmental Pathway Dose Conversion Factors (Pi) - Instantaneous B-6 G-6 Cows Milk (Contaminated Forage) Environmental Pathway Dose Conversion Factors (Pi) - Instantaneous B-8 G-7 Limited Analysis Approach - Gaseous Discharge Environmental Pathway Dose Conversion Factors (Ri) B-10 G-8 Environmental Pathway Dose Conversion Factors (Ri) for All Pathways B-24 3
TABLE G-1 Maximum i Permissible Cencentrations in Air in Unrestricted Areas (10 CFR 20 MP Nuclide MPC pCi/cc 1 Nuclide MPCjiCi/cc Ar-41 4 E-8
- Kr-83m .-
Y-91 1 E-9 3 E-8 Zr-95 Kr-85m 1 E-7 1 E-9 Kr-85 - Nb-95 3 E-9 3 E-7 Ru-103 Er-87 2 E-8 3 E-9 Kr-88 Ru-106 2 E-10 2 E-8 Ag-110m Kr-89 3 E-8 3 E-10 Kr-90 Sn-113 2 E-9 3 E-B In-113m Xe-131m 4 E-7 2 E-7 Xe-133m Sn-123 1 E-10 3 E-7 Sn-126 Xe-133 3 E-7 1 E-10 Sb-124 7 E-10 Xe-135s 3 E-8 Xe-135 Sb-125 9 E-10 1 E-7 Te-125m Xe-137 3 E-8 4 E-9 Xe-138 Te-127m 1 E-9 3 E-8 Te-129m H-3 2 E-7 1 E-9 P-32 1-130 1 E-10 2 E-9 I-131 Cr-51 8 E-8 1 E-10 Mn-54 1-132 3 E-9 1 E-9 I-133 Fe-59 2 E-9 4 E-10 Co-57 I-134 6 E-9 6 E-9 I-135 1 E-9 O Co-58 Co-60 Zn-65 2 E-9 3 E-10 Cs-134 Cs-136 4 E-10 6 E-9 2 E-9 Cs-137 Rb-86 2 E-9 5 E-10 Sr-89 Ba-140 1 E-9 3 E-10 La-140 Sr-90 3 E-11 4 E-9 Ce-141 5 E-9 Rb-88 3 E-8 Ce-144 2 E-10 t (1) If a nuclide is not listed, refer to 10 CFR 20 Appendix B, and use the most conservative insolublefsoluble MFC where they are l given in Table II, Column 1. e O B-1
TABLE G-2 (~N
) TRANSFER FACTORS FOR MAXIMUM DOSE TO A PERSON OFFSITE DUE TO RADIOACTIVE NOBLE GASES e-Dose Transfer Factors GAMMA BETA GAMMA + BETA i i (L + 1.1 M)1 mrem mrem mrem Radienuclide uCi sec/m uCi sec/m uCi sec/m Kr-83m 2.4E-9 -- 6.7E-7 Kr-85m 3.7E-5 4.6E-5 8.9E-5 Kr-85 5.lE-7 4. 2E-5 4.3E-5 Kr-87 1.9E-4 3.lE-4 5.3E-4 Kr-88 4.7E-4 7.5E-5 6.0E-4 Kr-89 5.3E-4 3.2E-4 9.3E-4 Kr-90 4.9E-4 2.3E-4 8.0E-4 Xi-131m 2.9E-6 1.5E-5 2.0E-5 X3-133m 8.0E-6 3.lE-5 4.2E-5 2-133 9.3E-6 9.7E-6 2.2E-5 2-135m 9. 9E-5 2.3E-5 1.4E-4 2-135 5.7E-5 5.9E-5 1.3E-4 X;-137 4.5E-5 3.9E-4 4.4E-4 X3-138 2.8E-4 1.3E-4 4.5E-4 Ar-41 2.8E-4 8.5E-5 4.0E-4 l
l l l l l Ref: Regulatory Guide 1.109, Revision 1, Table B-1. 1 i l / j B-2 m t ~' - _ - - - - - -
TABLE G-3 TRANSFER FACTORS FOR MAXIMUM OFFSITE AIR DOSE Air Dose Transfer Factors e-GAMMA BETA i i arad arad __ 3 Radionuclide uCi sec/m uCi sec/m Kr-83m 6.lE-7 9.lE-6 Kr-85m 3.9E-5 6.2E-5 Kr-85 5.4E-7 6.2E-5 Kr-87 2.0E-4 3.3E-4 Kr-88 4.8E-4 9.3E-5 Kr-89 5.5E-4 3.4E-4 Kr 5.2E-4 2.5E-4 Xe-131m 4.9E-6 3.5E-5 Xe-133m 1.0E-5 4.7E-5 Xe-13? 1.lE-5 3.3E-5 Xe-135m 1.lE-4 2.3E-5 [ Xe-135 6.lE-5 7.8E-5 Xe-137 4.BE-5 4.0E-4 Xe-138 2.9E-4 1.5E-4 Ar-41 2.9E-4 1.0E-4 Ref: Regulatory Guide 1.109, Revision 1, Table 3-1. O B-3 i
r ("% k w \ \v) e3reer33. TABLE G-4 ENWIRONMENT AL P ATHWAY-DOSE C04WERSION F ACTORS Pill FOR SASEOUS DISCHARGE . PATHutY - GROUNO PLANE DEPOSITION Instantaneous AGE GROUP - 11F4NT + Children
+ Teenager + Adult OR GA N D05 E F A CT0R S (SO. METER-MREM /YR PER UCI/SEC)
MUCLIDE THY 40I0 MIDNEY LUNG GT-LLI SMIN TOTAL BS3Y BONE LIVER
- 3. O. O. O. O. 3.
H---.3 3. 3. 1 3aE *04 1 30E +04 1 30Eent 1 30E+04 1 50E*04 1 30E*19 4---13 1 30 E +04 1 30E*14 c. C---14 9 O. O. 9 O. c. 9. P---32 9. O. O. O.. O. a. 3. 6. 9 O. O. 1. 3. AR--41 S. O. O. 4.66E*06 4.66E*06 4.66!+06 4.66E*06 5.50E+06 4.66E*06 CR--51 4.66E*06 4.66r+06 1 38E*39 1 38E*r9 1 3PE
- 09 1 38E+09 1 3RE+09 1 62E*09 MM. 54 1 3R E
- 09 1 34 E *09 2 73E+S9 2 73E*c4 2 73E*0R 2 73E+09 2.73E*08 2.73r+D8 2.73E+08 3.23E*04 FE--59 O. a. D. O.
CO--57 0. O. 7. O. 3.79E*08 3.79E+0m 3.77E*04 4.44E*08 3.79E+98 CO--58 3 71E*08 3 79E+08 3. 79E
- 0 8 27 2 1*E+10 2 15E*10 2.15E*10 2. 5 3E
- 19 2 15E+10 CD--60 2 15r.10 2 15E*10 2 15E +10 1 N1--63 0. J. 3. O. 9. D. 3. 3.
7.46E*09 7.46E+0F 7.46E*08 8.54E*06 7.46E+08 2N--65 7.46r.08 7.46r*0R 7.460*08 MR--85 c. O. 1. .O. a. O. 3. 3. j 1. O. 3. D. J.
- MR-93M 0. O. 3.
- 3. 3.
- 3. O. O. O.
MR-R5M 0. 1. 3.
! 9 f. 7.
MR=-97 3. O. C. 3. C. O. O. 3. MM--84 0. G. D. 1. O.
- 3. G. P. D. C. 9.
j
#8--96 0. O. 3. O.
t M*--89 G. c. .'. 3. 3. 1 51E *0 4 1.RIE *0 4 1 51E*04 RR--89 1 51r.04 1 51E*04 1 51 rent 1 51E+04 1 51F*94 9 O. 1 3. D. 9. RB--97 1. 3. 3 11E +05 3 11r*35 3 11E*S5 3.56!*05 3 11E*05 i
#R--99 3 11r+05 3.1 gr *g 5 3.1 1r. + 3 5 2 16C+04 2.16 rect 2 1sr*04 2.51E*04 2 16E*04 SR--99 2 16F+04 2.16r +94 2.160+04 *. C. 3. '. Q. 3.
l SR--90 3. J. 5 35E +06 * .35E +06 5. 35E + 0 6 6. 3 3E
- 06 5.35E*96 Y---10 5 35E *06 5.15E+96 5 35E*06 9 G. J. 3.
C. 7. S. Q. Y---91 5.3RE*09 5.3Rr*04 5.39E*08 5.33E*08 5 38E*08 5.3Rr+04 5.3RE*08 29--15 5.39E*0R
- 3. '. '. 3. D. c. 3.
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~
r O (/ O 03/Oct33. TABLE G-5 ENVI404EENT AL P4THW4Y-00SE C04WERSt04 FACTOR % PEI) FOR G4SEGUS DISCM49GE , 12 p4TgW47 - IMMEL4tt04 Instantaneous AGE GROUP - 14F A NT + Children
+ Teenager + Adult NUCLtDE O R r. 4 4 DnSE FA CT0RS (R*rMffR PER UCI/CU. METER 3 BONE LIVER THYR 11D KID 4EY LUNG GI-LLI SKIN TOTAL 5007 C01154 0. O. O. O. O. O. O. O.
O. O. p. SN-123 ". O. J. O. C. 54-126 0. O. O. O. 3. p. O. v. 59-124 3 79E*04 5 56E+0 2 1 01C+02 9. 2 65r.06 5.91E*04 0. 1.20E*04
$5-125 O. 7. 1 O. G. C. O. 9.
C. 3 O. O. 9. O. G. TE125M 1. TE1274 0. O. O. O. O. C. O. O. O. G. C. C. 6. J. G. TE1294 0. O. 1--139 1. O. 1 O. O. O. 3. 1--131 3.79E*04 4.43E*04 1 4mt*07 5 1pr+04 0. 1 06E+03 0. 1.96E*04
- 1. 9.
. O. O. O. O. 1.
I--132 4 I--133 1 31 E *04 1 90E*04 3 52E*06 2 22C+04 9 2.14E*03 9. 5.55E+S3
- 0. O. O. O. O. O. 9. O.
I--134 9.9FE-07 m.64E-07 0. 2 57E-07 1 01E-07 2 17E-09 9. 4.72E-04 I--1 35 CS-134 3.96E+05 F.33E+C5 O. 1.? 0E +C5 F.9FE+04 1 35E *0 3 0. F.45E*04 O. 3. O. O. G. O. CS-135 3. 1. 5.29E*04 CS-136 4.P3E*04 1. 35r + 05 0. 5.64E*04 1.1mE*04 1 43E*03 0. 6.12E*05 1 72E *05 F.13r*04 1 33C*03 0. 4.55E*04 CS-137 5.49F*05 ?.
- 0. F.90E*31 CS-135 1.tir+02 1 5 5E *3 2 0. R.15E*01 1 30 reel 1.74r+02 NE-133 J. G. D. U. O. G. O. 3.
O. C. P. D. S. O. 3. EE-135 1. ME1354 1. 3. 1. ?. c. ". 3. 3.
- 1. O. D. O. C. O. O.
ME191M ?. WE133M a. O. ". O. 9. C. O. J. I ME-139 9. O. a. S. C. C. D. 3. .
- 3. n. O. *. C. ". J. 3.
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- a. G. u. O. 9. O. O.
l entsr= ar-t3, 3. n. O. D. c. c. O. G. l 841364 0. 3. a. 1. C. a. O. 3. 5 69E*01 0. 1 34C+01 1 60E*06 3.m FE *0 4 0. 2.90E*03 l H4-143 5.60r*04 J. 1 99E+03 I CE-141 2 7Fr*04 1.67E*04 C. 5.25E*O3 5 1Fr*05 2 16E*04
- 3. ". ?. O.
CC-144 0. 3. 3. 1. O. 3. O. G. C. 3. ( PR-143 3. 3.
- 7. O. 3.
ND-14? 1. 1 O. '. D. [ l Ra$r0 04 1 UC t/SEC Rrtr aSE Rs TE OF E 4C4 ISOT0rE I4 440 4 VALUr or 1. F OR X /0. DIPLE TED K/4 AND RELATIVE DEP3SITION l
- Ref. EDS @ Computer Code RGl.lO9 Version 2, Rev. O, Date June 11, 1982
N v) v
- e3/04/30.
TABLE G-6 1 CNVIRONMENT AL P ATHW A Y-DOSE C04WERSION F ACTORS P(Il FOR GASEOUS DISCHARGE
- 12 PATHWAY - COWS MILK (CONTAMINATED FORAGE) Instantaneous AGE GROUP - INF ANT + Children ~ + Teenager + Adult NGCLIDE O4GA N D4SE FA CT0RS (SO. METER-MREM /TR PER UCI/SECD .
LIVER THVp0ID KIONEY LUNG GI-LLI SKIN TOTAL 800Y RONE H----3 J. 6. 3 5E +c 2 m. 3sr . C 2 6.35E+02 6. 35E +0 2 6. 35E
- 02 0. 6.35C+02
'. 3. O. O. O. O. O.
N---13 D. 3 44E+05 C---14 1 51 r *0 6 3 44E+35 3.44E*05 3.44E*05 3 44E+05 3.44C+05 0. J. O. O. O. p. O. D. P---32 3. 3 O.
". J. 9. O. O.
AR--41 1. F.20E+04 CR--51 3. 0. 4. TOE +04 1 03E*04 9.14E*04 2.13E+06 0. l 3. 45E
- 06 5.72f*06 3. 3.5 3E + 06 MN--54 1. 1.56E*3F 0. 0.
6 62C+07 1 68E*09 9. 4.9 7E +0 7 S.03E+0F O. FE--59 9.62F+0F 0. O. O. O. O. O. C. CO--57 1. O. 2 51E+07 0. 2.52E+0F CO--5R c. 1.01E*SF 0 .' 3. O. Y 3.49E*07 0. c. D. 8.31E*07 0. 8.25E*0F 03 Cn--60 3. O. 3. NI--63 0. S. C. C. G. D. 4.56E+99 c. 4 15E+09 c. 7 23E+09 0. 3.95E+09 ZN--65 2 53r*C9 C. O. O. KR--45 3. 1 O. 9. 3. O. G. O. O. O. O. NR-434 3. P. O. D. O. S. G. KR-85M 0. O. J. C. 1 G. G. 3. O. KR--sF 3. 3. NR--4R 0. G. O. J. O. O. 3. d. O. a. 9. O. G. O. RH--56 1. 9. KR--49 9. O. O. O. O. O. G. 3.
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AR--89 G. 1.685-05 WR--ST 0. 4.24E-05 O. O. O. 2 85E-07 0. O. O. C. O. D. J. RR--SM G. f. 1.44E*08 2 i SR--49 5. 35 E
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9.20E+09
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, SR--9G 3.41E*10 2. 6.FFE+31 T---90 2.53E*03 C. 3. 9. G. 3 49E+06 0.
?. 2. '. a. O. O. O. 9. ?---91 0. 1 66E*34 7.G6E+04 2.4 6E +0 4 0. 2.0 7E
- 3 4 C. 2 390+07
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