Text

Rev 0 to Engineering Analysis (EA) EA-A-NL-92-012-01, Benchmarking of Condose Code for CR Habitability Calculations
	ML18058A408
Person / Time
Site:	Palisades
Issue date:	03/03/1992
From:	Harden P; CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.)
To:	;
Shared Package
ML18058A401	List: ML18058A399; ML18058A404; ML18058A406; ML18058A408;
References
	EA-A-NL-92-012, EA-A-NL-92-012-01-R0, EA-A-NL-92-12, EA-A-NL-92-12-1-R, NUDOCS 9205050238
	Download: ML18058A408 (154)
	v • d • e

ATTACHMENT 3 Consumers Power Company Pa 1 i sades Pl ant Docket 50-255 BENCH-MARKING OF THE CONDOSE CODE FOR CONTROL ROOM HABITABILITY CALCULATIONS (EA-A-NL-92-012-01)

Apri 1 29, 1992

/--92050502313920429--\\

I POR ADOCK 05000255 p

PDR

PALISADES NUCLEAR PLANT EA-A-NL-92-012-01

. ENGINEERING ANALYSIS COVER SHEET Total NU!ber of Sheets 153 T;t1e BENCHMARKING OF THE CONDOSE CODE FOR CONTROL ROOM HABITABILITY CALCULATIONS INITIATION AND REVIEW Calculation Status Preliminary Pending Final Superseded D

D

)(

D Initiated Init Review Method Technically Reviewed Revr Rev Appd Appd CPCo I

Description By Detail Qual By Appd By Date Alt Cale Review Test By Date PA11""k1

~j2

/

~*~ 'hl~i..

0 Original Issue

~L/J

'JiJ,!(

~

v PURPOSE:

The objective of this Engineering Analysis is to demonstrate the calculational methodology used to write the CONDOSE FORTRAN code and to verify the accuracy of the output from the code through the use of test cases and hand calculations.

PROCEDURE UTILIZED:

Differential equations to model the transport of radionuclides into and out of the control room, and the methodology of ICRP-30 for calculation of doses.

SUMMARY

OF RESULTS:

The CONDOSE code was written to calculate the time dependent radionuclide concentrations and operator doses in the control room for evaluation of the control room habitability after any design basis accident. The dose calculations performed by the code use the complete methodology of ICRP Publication 30 for the committed dose equivalent to individual organs and the total effective dose equivalent to the whole body. Up to 100 user defined radionuclides can be considered in the calculations, including daughter product ingrowth if so desired. Through the use of two test cases and alternate calculations, the code was verified to accurately perform all of its intended functions.

The CONDOSE code is therefore acceptable for use in the analysis of the control room habitability after any design basis accident.

Section PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET TABLE OF CONTENTS EA-A-NL-92-012-01 Sheet _2_ Rev # --=-0 __

1.0 Objective....................................................................................................................................................... 3 2.0 References.................................................................................................................................................... 3 3.0 Background................................................................................................................................................... 4 4.0 Analysis Input.............................................................................................................................................. 5 5.0 Assumptions................................................................................................................................................. 5 6.0 Methodology................................................................................................................................................ 5 6.1 Model for Radionuclide Ingress/Egress.............................................................................................. 7 6.1 Model for Control Room Doses........................................................................................................... 9 7.0 Input Deck Descriptions............................................................................................................................ 10 7.1 Control Room Parameter Input Deck................................................................................................. 11 7.2 Release Rate Input Deck....................................................................................................................... 19 8.0 Condose Code Execution.......................................................................................................................... 19 8.1 Output Listing File................................................................................................................................... 20 8.2 Output Data File...................................................................................................................................... 21 9.0 Test Cases & Verification......................................................................................................................... 22 9.1 Test Case 1................................................................................................................................................ 23 9.2 Test Case 2................................................................................................................................................ 29 10.0 Summary....................................................................................................................................................... 30 11.0 Conclusion.................................................................................................................................................... 30 12.0 List of Attachments.................................................................................................................................... 31

162:8 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet _3_ Rev # _....;:;.o __

BENCHMARKING OF THE CONDOSE CODE FOR CONTROL ROOM HABITABILI1Y CALCULATIONS 1.0 OBJECTIVE The objective of this Engineering Analysis is to demonstrate the calculational methodology used to write the CONDOSE FORTRAN code and to verify the accuracy of the output from the code through the use of test cases and alternate calculations.

2.0 REFERENCES

2.1 EA-P-CRA VS-881028, "Evaluation of Palisades Control Room Radiological Habitability Following the MHA," RGChristie, November 1988.

2.2 Code of Federal Regulations, Title 10, Part 20, "Standards for Protection Against Radiation," May 1991. Title 10, Part 50 Appendix A, "General Design Criteria For Nuclear Power Plants," 1988.

2.3 ICRP Publication 30, "Limits for Intakes of Radionuclides by Workers," Pergamon Press, July 1978.

2.4 Licensee Event Report 88013-01, "Inoperable Control Room Ventilation Systems," August 1988.

2.5 NUREG/CR-5659, "Control Room Habitability System Review Models," Science Applications International Corporation, December 1990.

2.6 Internal Correspondence WLR 92-001, from WLRoberts to PMDonnelly dated January 22, 1992.

Subject:

"Palisades Plant - Meeting With the NRC on CRHAB, Iodine Removal and SIR W Tank Dose Issues."

2.7 NUREG-0800, USNRC Standard Review Plan section 6.4, "Control Room Habitability System,"

Rev. 2 - July 1981.

2.8 Regulatory Guide 1.4, "Assumptions Used for Evaluating the Potential Radiological Consequences of a Loss of Coolant Accident for Pressurized Water Reactors," Rev. 2 - June 1974.

2.9 "Chart of the Nuclides," 13th Edition, General Electric Company, 1984.

2.10 Palisades Plant Technical Specifications, Appendix A, Table 4.2.3.

2.11 "Introduction to Nuclear Engineering" 2nd Edition, John R. Lamarsh, Addison-Wesley Publishing Company, 1983.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet _4_ Rev # _""""o __

2.12 Letter from J.G. Kovach (Bechtel) to B.L. Harshe (CPCo) dated December 28, 1990.

Subject:

"CPCo Contract CPll-8045, Bechtel Job 20592-010, Transmittal of New Control Room X/Q Values," Bechtel Calculation 001-N-001 Rev. 1.

2.13 Letter fromJ.G. Kovach (Bechtel) to G.J. Daggett (CPCo) dated March 29, 1990.

Subject:

"CPCo Contract CPll-7723, Bechtel Job 20592-001, Transmittal of Bechtel Calculation 001-N-002 Rev.

1".

2.14 DBD-1.06, "Palisades Design Basis Document Control Room HVAC System," Rev 0 - December 1990.

2.15 NUREG/CR-1413, "A Radionuclide Decay Data Base - Index and Summary Table," Oak Ridge National Laboratory, May 1980.

2.16 RETRAN-02 Computer Code Manual, Volume 3, Rev. 4, November 1988.

3.0 BACKGROUND

The CRHAB04 code [Ref. 2.1] was the previous computer code for control room habitability calculations (calculations of radiation exposure doses to operators) and has been used for most of the previous control room habitability calculations for design basis accidents (DBAs). The CRHAB04 code was written to calculate the doses in the form of a whole body equivalent, which is consistent with the terminology of 10 CFR 50 Appendix A, General Design Criterion (GDC) 19 [Ref. 2.2]. The CRHAB04 code was based on the methodology of ICRP-30 [Ref. 2.3], which had not been accepted by the Nuclear Regulatory Commission (NRC) at that time. Telephone conversations between CPCo and the NRC are believed to have occurred in which the NRC agreed that this method was acceptable, however no documentation could be found. The results of this code for calculations of the control room habitability after the Maximum Hypothetical Accident (MHA) were submitted to the NRC in Licensee Event Report (LER) 88013 [Ref. 2.4], in which it was stated that the methodology of ICRP-30 had been used.

However, when the CRHAB04 code started into use, only the whole body equivalent doses were reported since the whole body equivalent dose was consistent with the terminology of GDC 19. The thyroid dose, for which there is a limit, was apparently ignored. The whole body equivalent doses that were recorded were very close to the GDC 19 limit.

The CRHAB04 code was recently found to have several inconsistencies in the calculational methodology, prompting the need for revision or rewrite. It was found that the conversion factors used to equate the thyroid dose to a whole body equivalent were found to be incorrect, and that the methodology of ICRP-30 was not strictly adhered to. To allow more versatility for control room dose calculations and to ensure the use of the latest methodology, the CONDOSE code was written rather than revising the CRHAB04 code. The CONDOSE code was written to closely model the methodology of the CONHAB code [Ref. 2.5], which is used by the NRC, for the radionuclide transport in and out of the control room. The CONDOSE code uses the methodology and dose conversion factors presented in ICRP-30 for the calculation of operator doses. This methodology has been accepted by the NRC in the most recent revision to 10 CFR 20 [Ref. 2.2] for normal operational radiation protection standards.

j-~::.":::lf:-WJ**

- . ct;;ll- **...111' PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet _5_ Rev # -~o __

The NRC has also agreed to allow the ICRP-30 dose conversion factors to be used for control room habitability calculations. The will not, however, allow the higher organ dose limit of 50 rem used by 10 CFR 20 to be used for control room habitability acceptance criteria at this time. Since the higher organ dose limits are not accepted for control room habitability calculations, the NRC does not require the ICRP-30 method of summing the internal and external dose contributions to obtain whole body dose equivalent.

4.0 ANALYSIS INPUT 4.1 For comparison of calculational methodology, NUREG/CR-5659 [Ref. 2.5] was used.

4.2 Occupancy factors for control room operators applicable to DBAs are: 1.0 from 0 to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , 0.6 from 1 to 24 days, and 0.4 from 4 to 30 days per Standard Review Plan [Ref. 2.7].

4.3 Breathing rates for control room operators applicable for design basis accidents are: 3.47E-04 m3 /sec from 0 to 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months , 1.75E-04 m3 /sec from 8 to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , and 2.32E-04 m3 /sec from 1 to 30 days per Regulatory Guide 1.4 and discussions with the NRC [Ref. 2.6 & 2.8].

4.4 The conversion factor for Ci to Bq is 3.7E+ 10 and for Sv to Rem is 100 [Ref. 2.9].

4.5 The filter efficiency for the remote intake filters of the control room HV AC system is maintained at 99 % efficiency per Technical Specifications [Ref. 2.10].

5.0 ASSUMPTIONS 5.1 The dose conversion factors and methods of dose calculations from ICRP-30 are acceptable for design basis accident (DBA) calculations [Ref. 2.2 & 2.6].

5.2 Daughter product ingrowth need not be accounted for in control room habitability analyses after DBAs, from discussions with the NRC [Ref. 2.6], although the CONDOSE code can model it.

6.0 METHODOLOGY The control room HV AC system for Palisades has two modes of operation - normal mode and emergency mode. Two air intakes exist for each mode of operation, and the design is such that the control room remains pressurized to greater than Ya" water gauge in either mode of operation. The emergency mode can be activated either automatically after generation of a CHP /CHR (containment high pressure/containment high radiation) signal or manually from within the control room. Therefore,

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet ~6~ Rev #

0 for events such as a LOCA (loss-of-coolant accident) or main steam line break in containment the control room HV AC system would automatically be switched to emergency mode. For other events, a continuous air monitor (CAM) has been placed in the control room to sample air from the discharge duct and to alarm upon radionuclides entering the control room. When the CAM alarms, the operators manually switch to emergency mode. In the emergency mode, air is drawn from a remote air intake and passed through HEP A and charcoal filters. When in the emergency mode, air from the control room is also recirculated through the filters to remove iodine and particulates that entered the control room through unfiltered ingress paths or that entered before emergency mode was achieved. The control room model used in the CONDOSE code (discussed as "the code" from here forward) is presented in Figure 1. This control room model is not the same as the current control room HV AC system at Palisades. For the model in the code, a filter has been added to the normal intake to allow versatility of the code to encompass any future control room HV AC modifications that may occur.

NORMAL INTAKE F 1 FILTER

~

FIGURE 1 CONTROL ROOM HABITABILITY SYSTEM MODEL FILTER 1=2+ f3

'112

~

CONTROL ROOM

, r Four OUT LEAKAGE

~.

F!

REMOTE INTAKE F2 RECIRCUL.A JION F~

UNALTERED IN LEAKAGE

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 7

Rev # ___ o __

The code performs all calculations over short time steps since any of the parameters or the source term after an accident may change at various points in time. To accommodate varying parameters, the code has been written such that most of the parameters can be specified to change at a given number of times throughout the 30 days of interest. The code was also given the ability to consider up to 100 user defined radionuclides and can model the ingrowth of daughter products as well.

6.1 MO:µEL FOR RADIONUCLIDE INGRESS/EGRESS As can be seen in Figure 1, locations 1, 2, and 4 are sources of outside air entering the control room, where 1 and 2 are the normal and remote air intake locations, respectively. Location 4 can be any location of unfiltered air ingress to the control room, and location 3 is the control room. The equations to model the radionuclide transport are similar to those used in Reference 2.5. The concentration of each radionuclide at the outside air intake locations to the control room can be represented by the following equation:

where c

x/Q q

(1)

= concentration of each radionuclide at each air intake location n, Ci/m 3

= the atmospheric dispersion factor from the point of release to the air intake location n, sec/m 3

= release rate of each radionuclide to the environment, Ci/sec.

The rate at which a radionuclide is entering the control room is simply:

where Rin = cl Fl ( 1-111) + c2 F2 ( 1-,, 2) + C4 F4

= rate at which each radionuclide is entering the control room, Ci/sec

= air flow rate into the control room from location n, m3 /sec

= filter efficiency of filter n for the nuclide in question.

From Figure 1, it can also be seen that the air flow rate out of the control room must be:

(2)

(3)

Then, letting A(t) represent the activity of a particular radionuclide in the control room at time t, the rate of activity exiting the control room can be represented by the following equation if radioactive decay is ignored until the end of each time step:

R

=F A(t) +F 11 A(t) =A(t) [Fout+F31l2]

out out V

3 2

V V

CR CR CR (4) where VCR

= the air volume of the control room.

Now, the rate at which the activity of a radionuclide m the control room is changing, ignoring radioactive decay again, can be represented by:

F0;*.5g

(@

consumers Power JlflWlllBlli

...... lft....as j

r"'~

...~': ff..:::ti1~'

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet _8_ Rev #

0 dA ( t) = R

- R

= R. - A ( t) [Fout;+ F31')i]

(5) dt in out; in V

CR For simplification, the following variable is used:

OUT= Fout+ F3112 VCR (6)

Now Equation (5) can be represented in a form very similar to that listed in Reference 2.11 [pg. 23]

for radioactive decay with a constant production rate. Following Reference 2.11, Equation (5) can be integrated to result in:

R.

A ( t) = ~

[l _ e-t*oUTJ +A e-t*oUT OUT J

o (7)

Dividing through by the control room air volume and using Equation (7) for small time steps results

in the following representation of the concentration of a particular radionuclide in the control room:

R*

C( t) =

in

[1 - e-Ae*oVT] + C( t-1) e-At*oUT VcR*OUT (8)

Although this is not the form of the equation listed in the description in Reference 2.5 [pg. 6] due to an error in the write up, it is the form used in the program listing in Reference 2.5 [pg. B-3].

The code is written such that the concentration of a radionuclide at each air intake is calculated using Equation (1), then the rate at which the radionuclide is entering the control room is calculated using Equation (2). Equation (8) is then used to calculate the concentration of the radionuclide in the control room, after which the doses are calculated as will be discussed later in this analysis. These calculations are repeated for each specified radionuclide over a time step. After the doses received over the time step are calculated, each radionuclide is decayed over the time step and daughter products are added back in if so desired. This method is somewhat conservative since radioactive decay is not accounted for over a time step until after the doses have been calculated for that time step. However, since the calculations are performed over time steps of such short duration (one minute), this does not have much effect on the end results. Radioactive decay is accounted for using the general equation below.

C( t) = C( t-1) e-AAt (9) where

= radioactive decay constant for the nuclide in question, mili1

For daughter product ingrowth, if specified, only the daughter with the largest production factor is used.

This would not introduce any non-conservatism in a calculation involving daughter product ingrowth since, for most of the radionuclides of concern, either one daughter product is stable or there is only one daughter product. For the few radionuclides of interest that decay to more than one radioactive daughter product, one of the daughter products is generally favored more than 85 % of the time, and the second daughter product is usually a metastable state with a short half-life. The daughter ingrowth is calculated by multiplying the amount of activity that the parent radionuclide decayed over the time

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet _9_ Rev # --=-o __

step by the production factor for the predominant daughter product and adding it to the activity of that daughter product that was already present at the end of the time step.

6.2 MODEL FOR CONTROL ROOM DOSES For calculating doses to the control room operators, the code uses the methods of ICRP-30 [Ref. 2.3],

as was previously mentioned. This is the same methodology as used in the most recent revision to 10 CFR 20 [Ref. 2.2]. Submersion doses are calculated for exposure to noble gases, and inhalation doses are calculated for inhalation or ingestion of most other radionuclides. The dose calculated to each organ or tissue from inhalation or ingestion of a radionuclide is called the committed dose equivalent (CDE) to each particular organ. If the CDE to each organ is multiplied by an appropriate weighting factor for the particular organ, and the product for each organ is summed, the committed effective dose equivalent (CEDE) to the whole body is obtained. The CEDE relates the dose to organs from intake of a radionuclide to the stochastic effects if the whole body were irradiated uniformly. The dose calculated to each organ or tissue from external exposure due to submersion in a cloud of noble gas is called the deep-dose equivalent. The deep-dose equivalent to each organ can also be multiplied by an appropriate weighting for each organ and summed to yield the total whole body dose to external irradiation. The total effective dose equivalent (TEDE) to the whole body is then the sum of the CEDE and the total whole body dose from external irradiation.

In the code, the doses are calculated separately for the six highest dose tissues and for the whole body (CEDE and total external dose). For the radionuclides of interest, the six highest dose organs are the thyroid, lung, bone surface, bone marrow, lens of the eyes, and skin. This can be seen by examining the dose conversion factors from Reference 2.3 for the noble gases and iodine, and their daughter products. To calculate the deep-dose equivalent to each organ from submersion in a cloud of each radionuclide the following equation is used [Ref. 2.5 pg. B-3 & Ref. 2.3 Part 1]:

where (10)

= deep-dose equivalent to each organ from each radionuclide over the time interval, rem

= appropriate control room occupancy factors to account for operator stay times for the time interval of interest DCF sUt> = dose conversion factor for each organ from submersion, or dose equivalent rate from exposure to a unit concentration, for each radionuclide, (rem/sec)/(Ci/m3 ).

To calculate the committed dose equivalent to each organ from inhalation of each radionuclide, the following equation is used [Ref. 2.5 pg. B-3 & Ref. 2.3 Part 1]:

where (11)

Hr.!iD

= committed dose equivalent to organ "T' from inhalation of each radionuclide over the time interval of interest, rem BR

= breathing rate for control room operators for the time interval of interest, m3 /sec DCFlnh = inhalation dose conversion factor, or committed dose equivalent per unit intake, for each radionuclide, rem/Ci-inhaled

F059

- (@consmers

~

PDWll' l'llWEllRM rsa&.tAl'S l'flllQIBS

-if, ~:~c:

..lll,, t;;;;!f..;;;it.. :::ii*

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 10 Rev # -""""o __

The dose conversion factors listed in ICRP-30 include the contribution from daughter products once a radionuclide has entered the body. ICRP-30 also uses a 10 % rule for dose conversion factors, which ignores the dose to any organ with a dose conversion factor that is less than 10 % of the highest organ dose conversion factor for each radionuclide. Therefore, any organs for each radionuclide that have dose conversion factors outside of the 10 % are not listed in ICRP-30.

For the CEDE and the total whole body dose from external radiation, the sum of weighted dose conversion factors listed in ICRP-30 are used. The weighted dose conversion factors for each organ are simply the dose conversion factor multiplied by a weighting factor for each particular organ. Summing the weighted dose conversion factors for all of the organs listed in ICRP-30 yields the dose conversion factor appropriate for the CEDE (for inhalation) or the total whole body dose from external radiation (from submersion in a cloud). By using the sum of the weighted dose conversion factors, Equations (10)

& (11) can be used for all of the dose calculations. Another method to obtain the same result is to calculate the dose received by every organ that has a dose conversion factor, multiply the dose to each organ by the appropriate weighting factor, and sum the results. Summing the weighted dose conversion factors greatly simplifies the calculations and the number of required inputs to the code. The code keeps track of the cumulative dose to each of the six highest dose organs or tissues, and to the whole body from inhalation, and submersion.

The code also creates a file for direct use in the RETRAN code PLOTER module that will plot the thyroid dose, the skin dose, and the TEDE versus time. The thyroid, skin, and TEDE are plotted since the current Standard Review Plan (SRP) 6.4 [Ref. 2.7] limits are for the thyroid, skin, and whole body.

The code is written such that a data point is plotted at the end of each time step for which the dose has increased by more than 5 % from the last plotted data point. The code actually writes the data point for that time step and the immediately previous time step to avoid a misleading plot if the dose were to not increase much over any number of time steps, then significantly increase over any one time step.

7.0 INPUT DECK DESCRIPTIONS The CONDOSE code ("the code") requires two input decks for execution. The first input deck to be specified when executing the code is a file that contains all of the control room parameters (i.e. HV AC system flow rates, atmospheric dispersion factors, etc) and the constant data for the radionuclides (i.e.

dose conversion factors, decay constants, etc). The second input deck to be specified when executing the code is a file that contains only the radionuclide release rates. These two input decks will be referred to as the control room parameter input deck and the release rate input deck, respectively. The code was written to accept two input decks so as to be compatible with release rate input decks created for use in the previous control room habitability code, CRHAB04, which also required a separate input deck for radionuclide release rates. This will make any required reanalysis of DBAs for which the CRHAB04 code was used easier.

I PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET 7.1 CONTROL ROOM PARAMETER INPUT DECK EA-A-NL-92-012-01 Sheet 11 Rev # -"""'o __

The control room parameter input deck is described line by line below. For each parameter of the control room parameter input deck, the variable name used in the code, the FORTRAN format for the read statement, and a description of the limitations of the parameter is given. For all parameters possible, recommended values are also given with references when appropriate. For most of the parameters, the most commonly used units are appropriate for the input deck, with the code being written with conversiOn factors to correct to the required units. Examples of the input deck for the test cases can be seen on the attached microfiche.

TITLE

[A80]

TITLE is for a description of the case to be executed, and will be printed at the top of the output deck.

This goes on line one of the control room parameter input deck.

CRVOL

[El0.3]

CRVOL is the air volume of the control room envelope, in units of ft.3, which should be listed on line two of the control room parameter input deck. The air volume of the control room envelope includes the control room, the viewing gallery, and the technical support center since the control room habitability system services all of those areas.

This value should be calculated based on room dimensions and corrected for the space occupied by equipment.

NUMBR

[110]

NUMBR is the number of points in time during the 30 day duration that the operator breathing rates change, including time 0.0, and should be listed on line three of the control room parameter input deck.

In general, following Regulatory Guide 1.4 [Ref. 2.8] assumptions, three different values are used. The code will accept a value up to ten, but the number of breathing rates specified and times at which they change must correspond to the value specified in NUMBR.

BRTIME(k). BR(k)

[Fl0.2, El0.2]

BRTIME(k) are the times at which the breathing rates for the control room operators are assumed to start and change, in units of minutes. These values start on line four of the control room parameter input deck and have one time specified on each line, where the number of lines (and values) must correspond to NUMBR. Up to ten values can be used, dependant upon the value specified for NUMBR. However, following the guidance of Reference 2.8 the breathing rates should be assumed

.:tG37 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 12 Rev # _..,:.o __

to change at three times: 0.0 minutes, 480.0 minutes (8 hrs), and 1440.0 minutes (24 hrs). A time and breathing rate must be specified at 0.0. All times must be specified as whole minutes.

BR(k) are the breathing rates for the control room operators which correspond to each BRTIME(k),

in units of rrf /sec. A breathing rate must follow each BRTIME(k) and the number of breathing rates must correspond to NUMBR. Up to ten values may be specified dependant upon the value of NUMBR specified. Breathing rates must be used even if the operators are assumed to be in self-contained breathing apparatus (SCBA); a breathing rate of O.OOE-00 can be specified for that time period.

Following the guidance of Reference 2.8, three breathing rates should be used: 3.47E-04 m3 /sec for 0 to 8 hrs, 1.75E-04 m3 /sec for 8 to 24 hrs, and 2.32E-04 m3 /sec for 1 to 30 days. These values have also been approved as appropriate for control room habitability calculations after design basis accidents in discussions held with the NRC as documented in Reference 2.6.

NUMOCC

[110]

NUMOCC is the number of points in time during the 30 day duration at which the control room operator occupancy factors start and change, including 0.0, and should be specified immediately following the breathing rates and times. Following SRP 6.4 [Ref. 2.7], three occupancy factors should be used, but the code will accept a value up to five. The number of occupancy factors and times at which they change must correspond to this value.

OCCTIME(k). OCCFAC(k)

[Fl0.2, Fl0.2]

OCCTIME(k) are the times at which the occupancy factors for the control room operators are assumed to start and change, in units of minutes. These values start on the line following NUMOCC of the control room parameter input deck and have one time specified on each line, where the number of lines (and values) must correspond to NUMOCC. Up to five values can be used, dependant upon the value specified for NUMOCC. However, following the guidance of Reference 2.7 the occupancy factors should be assumed to change at three times: 0.0 minutes, 1440.0 minutes (24 hrs), and 5760.0 minutes (96 hrs). A time and occupancy factor must be specified at 0.0. All times must be specified as whole minutes.

OCCFAC(k) are the occupancy factors for the control room operators, which correspond to each OCCTIME(k). An occupancy factor must follow each OCCTIME(k), and the number of occupancy factors must correspond to NUMOCC. Up to five values may be specified dependant upon the value of NUMOCC specified. Following the guidance of Reference 2.7, three occupancy factors should be used: 1.0 for 0 to 24 hrs, 0.6 for 1 to 4 days, and 0.4 from 4 to 30 days.

NUMXO

[110]

-i: ~* 3* Clji

.,If~. ll';;;it * ; g.;.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 13 Rev # _....;:;.o __

NUMXQ is the number of times at which atmospheric dispersion factors are to start and change. The code will accept a value up to four to be used, and under most situations 4 should be specified.

XOTIME(k). XO(l.k). X0(2.k). XO( 4.k)

[Fl0.2, 3El0.2]

XQTIME(k) are the iimes at which the atmospheric dispersion factors for the control room air intake locations are assumed to start and change, in units of minutes. These values start on the line following NUMXQ of the control room parameter input deck and have one time specified on each line, where the number of lines (and values) must correspond to NUMXQ. Up to four values can be used, dependant upon the value specified for NUMXQ. For atmospheric dispersion factors, four times should usually be specified: 0.0 minutes, 480.0 minutes (8 hrs), 1440.0 minutes (24 hrs), and 5760.0 minutes (96 hrs). A time and atmospheric dispersion factors must be specified at 0.0. All values must be specified as whole minutes.

XQ(l,k) are the atmospheric dispersion factors from the radionuclide release location to the location of the normal air intake of the control room, corresponding to each of the times listed. XQ(2,k) are the atmospheric dispersion factors from the release location to the location of the remote air intake of the control room, corresponding to each of the times listed. XO( 4,k) are the atmospheric dispersion factors from the release location to the location an unfiltered air inleakage location into the control room, corresponding to each of the times listed. Location 3 is the control room itself and thus has no atmospheric dispersion factor. The units for all of the atmospheric dispersion factors is sec/m3

A value for each of the three above listed locations must be specified on each line at which a time is specified, with the number of times corresponding to NUMXQ. The atmospheric dispersion factors from the location of the stack (for containment and auxiliary building releases) to the control room remote air intake are given in Reference 2.12 for the current plant configuration. The atmospheric dispersion factors from the location of the stack to the aux. bay roof doors (for inleakage when the control room is depressurized) and to the current location of the normal air intake above the control room are given in Reference 2.13 for the current plant configuration. For releases from any other locations, the values in Reference 2.12 and 2.13 must be evaluated to determine their appropriateness or new values determined for the release location of interest.

NUMFWW

[110]

NUMFLOW is the number of points in time during the 30 day duration at which any of the control room air flow rates start and change, including 0.0, and should be specified immediately following the atmospheric dispersion factors and times. This includes the normal intake air flow rate, the remote intake air flow rate, the recirculation air flow rate, and any unfiltered inleakage air flow rate. The code will accept any value up to ten, and at least* two should usually be specified - initial flow rates and emergency mode flow rates. The number of times at which the flow rates change must correspond to this value.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 14 Rev # ___ o __

FLOWTIME(k). FLOWRATE(l.k). FLOWRATE(2.k). FLOWRATE(3.k). FLOWRATE(4.k)

[Fl0.2, 4F10.1]

FLOWTIME(k) are the times at which any of the control room air flow rates are assumed to start and change, in units of minutes. These values start on the line following NUMFLOW of the control room parameter input deck and have one time specified on each line, where the number of lines (and values) must correspond to NUMFLOW. Up to ten values can be used, dependant upon the value specified for NUMFLOW. At least two times should normally be used - flow rates at time 0.0 and flow rates after emergency mode is achieved. However, more times could need to be specified if the unfiltered air inleakage rate changes, or any of the other flow rates change. Time 0.0 with all four flow rates must be specified. Specified values can be whole minutes or include fractions of a minute down to one hundredth. These times and the time intervals for the release rates, as will be discussed later, are the only times that do not have to be specified as whole minutes.

FLOWRATE(l,k) is the air flow rate from the normal air intake to the control room.

FLOWRATE(2,k) is the air flow rate from the remote air intake to the control room.

FLOWRATE(3,k) is the recirculation air flow rate for the control room. FLOWRATE(4,k) is the air flow rate for any other unfiltered air inleakage location into the control room. All flow rates should be specified in units of cfm (ff /min). Up to ten values can be specified for the four flow rates, and each must correspond to a FLOWTIME(k) and must not exceed NUMFLOW. At each time that any one of the flow rates change, all four must be listed again even if only one of the flow rates actually changes. There should usually be at least two times at which flow rates change. The initial flow rates are the normal mode flow rates for most incidents, changing to the emergency mode flow rates after alarm of the continuous air monitor (CAM) in the control room and operator action to switch modes.

For some incidents that have a CHP /CHR signal combined with initial loss-of-offsite power, such as the maximum hypothetical accident (MHA), the initial flow rates will be for a depressurized control room, changing to emergency mode flow rates after sequencing of the fans on the diesel generators and subsequent control room repressurization. There can also be other times when any of the air flow rates change. For normal mode and emergency mode operation, the normal and remote intake air flow rates can be obtained from Reference 2.14. For air inleakage rates when the control room is depressurized, Reference 2.7 can be consulted to determine the appropriate value. For the unfiltered air inleakage rate, a value should also be specified in Reference 2.14. However, this is a major problem for control room doses, and modifications to eliminate this are under consideration. It should therefore be insured that Reference 2.14 has the most current information before using values found in it.

NUMFILT

[IlO]

NUMFILT is the number of points in time during the 30 day duration at which a control room HV AC system filter efficiency starts and changes, including 0.0, and should be specified immediately following

the air intake flow rates and times. The code will accept any value up to ten to be specified, but should usually only be one value - the initial value. The ability to have additional times was incorporated for versatility of the code for any future case studies or analysis tha~ may have to be performed. The number of times at which the filter efficiencies change must correspond to this value.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 15 Rev #

0 FIL'ITIME(k). FILTEFF(l.1.k). FILTEFF(l.2.k). FILTEFF(l.3.k). FILTEFF(2.1.k). FILTEFF(2.2.k).

FILTEFF(2.3.k)

[Fl0.2, 6F10.3]

FIL'ITIME(k) are the times at which any of the control room HV AC system filter efficiencies are assumed to start and change, in units of minutes. These values start on the line following NUMFILT of the control room parameter input deck and have one time specified on each line, where the number of lines (and values) must correspond to NUMFILT. Up to ten values can be used, dependant upon the value specified for NUMFILT. Only one time should normally be used - 0.0 for the initial efficiencies since the emergency mode filters are required to maintain

99 % efficiency at all times during plant operation. However, more times may need to be specified in some circumstances. A time 0.0 with all of the filter efficiencies must be specified. All times must be specified as whole minutes.

FILTEFF(l,group,k) are the efficiencies of the filter for the normal air intake of the control room, where group is the group identification number of the radionuclides: 1 = noble gas, 2 = halogens, and 3 = solids, respectively. FILTEFF(2,group,k) are the efficiencies of the filter for the remote air intake and recirculation air of the control, where again group is the group identification number of the radionuclides: 1 = noble gas, 2 = halogens, and 3 = solids, respectively. These values should be specified as a fraction. It should be noted that no filter currently exists for the normal air intake to the control room. This filter was added to the model in the code to encompass any possible future modifications that may be made to the plant since potential modifications are currently under consideration to reduce the doses to the control room operators after the MHA Since no filter is in place in the normal air intake, 0.000 can be specified for the efficiency for all radionuclide groups and all times for that filter unless a future modification places a filter in that intake. All filter efficiencies must be specified for any time at which any of the efficiencies change. There must also be values for every FIL'ITIME(k) listed. The efficiencies may change at up to ten points in time, but there should normally only be one time at which they are specified - the initial efficiencies. FILTEFF(l,1,k) and FILTEFF(2,1,k) should always be 0.000 since charcoal filters are not effective for noble gas. For FILTEFF(2,2,k) and FILTEFF(2,3,k) the filter efficiency should be 0.990 [Ref. 2.10], and should not change for most situations.

NWRITES

[110]

NWRITES is the number of times at which summary information on the control room concentration of each radionuclide and the cumulated doses are to be written to an output deck. The code will accept any value up to thirty to be specified.

TWRITE(l)........ TWRITE(k)

[8F10.2]

TWRITE(k) are up to thirty times, in minutes, at which the radionuclide concentrations in the control room and the cumulated doses are to be written to an output deck. Eight values are specified per line and only the number of values corresponding to NWRITES should be specified. Also, values greater than 43200.0 should not be specified. The times must be specified as whole minutes.

INTRVALS

[110]

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 16 Rev #

0 INTR V ALS is the number of time intervals for which radionuclide release rates will be given. The code will accept any value up to one hundred. For some cases where the release rate is constant throughout an incident, a value of one can be used. However, in cases where the release rates are frequently changing by a large amount, the number of intervals should be just about the same as the number of times the release rates change to prevent introducing error by averaging the release rates. In any case, this value will depend upon the scenario being analyzed.

TIMEINT(l)........ TIMEINT(k)

[8F10.2]

TIMINT(k) are the beginning and end times, in minutes, for up to one hundred time intervals for which the radionuclide release rates will be given. Eight values are specified per line and the number of

. values specified must be equal to one plus the value specified for INTRVLS (i.e. if INTRVLS is 24, TIMEINT(k) should have 25 values). With the exception of the first time interval, the beginning time of every time interval must be the ending time of the preceding time interval. Also, the beginning of the first time interval should always be 0.0. The ending time should normally be 43200.0 minutes (30 days) for analysis of the control room habitability after design basis accidents (DBAs), but for case studies or other purposes may be different. These values need not be specified as whole minutes.

NREL. UNITS

[2110]

NREL is the number of radionuclides for which release rates will be specified. The code will accept any value up to one hundred to be specified, but the release rate input deck must contain release rates for the number of radionuclides corresponding to NREL. A total of one hundred radionuclides can be considered in the code; but if daughter products are to be accounted for in the control room that are not present in the release rates, the value of NREL plus the additional daughter products cannot exceed one hundred.

UNITS is an identifier that specifies the units for which all of the release rates will be given. To allow versatility of the code for various analyses, the release rates can be given in one of six different units, as long as all of the release rates specified in any one input deck are in the same units. The identifiers to use for the different units are given below:

1 =µCi/Hr 2 =µCi/min 3 =µCi/sec 4 = Ci/Hr 5 = Ci/min 6 = Ci/sec.

The code will automatically convert to the appropriate units for use in the code (Ci/sec) as long as the release rates are specified in one of the six above listed units and the correct identifier is specified for UNITS.

NUMNUC

[110]

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet.17 Rev#

O NUMNUC is the total number of radionuclides, including daughter products, to be considered in the control room. Any value up to one hundred may be specified, but it must be greater than or equal to NREL. If any of the daughter products to be considered in the control room were not present in the release rates, NUMNUC must be greater than NREL. If all of the radionuclides to be considered in the control room have a corresponding release rate, NUMNUC should equal NREL but is not a necessity as long as the radionuclide information is given for the number of radionuclides specified in NUMNUC.

NUCNAME(nuclide), NUCID DCFINH(nuclide, 1)....... DCFINH(nuclide,7)

DCFSUB(nuclide, 1)....... DCFSUB(nuclide,7)

GROUP(nuclide). LAMBDA(nuclide). DAUGHTER(nuclide). DAUFRAC(nuclide)

[l:X,A8, l:X,110]

[7E10.3]

[110,El0.3,110,Fl0.3]

These four lines of parameters must be listed for each radionuclide to be considered. The number of times these four lines are repeated for different radionuclides must correspond to NUMNUC. The order in which the radionuclides are listed for these four lines of parameters is also crucial. The order of the radionuclides for these four lines of parameters in the control room parameter input deck must correspond to the order in which the radionuclide release rates are specified in the release rate input deck. If more radionuclides are to be considered than release rates are specified for (i.e. inclusion of daughter products that were not included in the release), the radionuclides for which no release rates are specified must be listed, in any order, after the radionuclides for which release rates are specified.

NUCNAME(nuclide) is simply the name of the radionuclide, such as 1-131 or Kr-83m.

NUCID is the identifier for the radionuclide. This identifier must be in consecutive order, or match the order in which the radionuclides are specified, so that the first listed radionuclide NUCID = 1, the second listed radionuclide NUCID = 2, and so forth. This NUCID is also used to identify the daughter product of a radionuclide.

DCFINH(nuclide,organ) are the inhalation dose conversion factors for each organ. The organs are:

1 = thyroid, 2 = lungs, 3 = bone surface, 4 = bone marrow, 5 = skin, 6 = lens of the eyes, and 7 =

whole body. These inhalation dose conversion factors should be obtained from ICRP-30 [Ref. 2.3]. For all organs except the whole body, which is the committed effective dose equivalent (CEDE), the values listed in Reference 2.3 as the committed dose equivalent (CDE) in target organs or tissues per intake of unit activity for inhalation should be used. For the skin (5) and the lens of the eyes (7), a value of O.OOOE+OO should be specified since inhalation dose not result in a significant dose to either of those tissues. For the CEDE to the whole body, the values listed in Reference 2.3 as the weighted CDE in target organs or tissues per intake of unit activity should be summed for all of the organs listed, and the sum of those values used. In cases where more than one inhalation class, and correspondingly more

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 18 Rev # _

_:O __

than one inhalation dose conversion factor for an organ, are given, the more limiting or higher value should be used. For noble gases, the inhalation dose conversion factor for all organs should always be O.OOOE+OO since the dose from absorbed gases is insignificant compared to the external dose. Note though, that Reference 2.3 lists all values in units of Sv /Bq and the required units for input to the code are Rem/Ci, so that the conversion factors 3.7E+ 10 Bq/Ci and 100 Rem/Sv [Ref. 2.9, pg. 57] must be u~d DCFSUB(nuclide,organ) are the dose conversion factors for each organ from submersion in a radioactive cloud. As for the inhalation dose conversion factors, the organs are: 1 = thyroid, 2 = lungs, 3 = bone surface, 4 = bone marrow, 5 = skin, 6 = lens of the eyes, and 7 = whole body. These submersion dose conversion factors should also be obtained from Reference 2.3. For all of the organs except the whole body, the values listed in Reference 2.3 as the dose equivalent rate in target organs or tissues from submersion in unit concentration should be used. For the whole body, the values listed in Reference 2.3 as the weighted dose equivalent rate in target organs or tissues from submersion in unit concentration should be summed for all organs listed, and the sum of those values used. For the submersion dose conversion factors in Reference 2.3, there are four different columns of values that account for different size radioactive clouds from a semi-infinite cloud to a cloud in a 100 nf room.

The column of data closest to the control room volume should be used, which is probably the 1000 m3 room column. For halogens (I & Br) and particulates (Cs, Rb, & Sr) the submersion dose should be insignificant compared to the inhalation dose and no submersion dose conversion factors will be listed in Reference 2.3, so 0.000E + 00 should be specified for all organs. Note though, that Reference 2.3 lists all values in units of (Sv/Hr)/(Bq/m 3

) and the required units for input to the code are (Rem/sec)/(Ci/m3), so that the conversions factors 3.7E+ 10 Bq/Ci, 100 Rem/Sv, and 1/3600 Hr/sec

[Ref. 2.9, pg. 57] must be used.

GROUP( nuclide) is the group identification to which the radionuclide belongs. The following are the group identification numbers: 1 = noble gas, 2 = halogen, 3 = solids. These group identifications are used by the code to determine which filter efficiency, specified in FILTEFF(location,group,k), to use for the radionuclide, so the group identification must be correct for every radionuclide.

LAMBDA( nuclide) is the radioactive decay constant for the radionuclide, in units of min1

These values can be calculated from the half-life information in Reference 2.15 by dividing the natural logarithm of 2 by the half-life [Ref. 2.11, pg. 22] and converting to the appropriate time units.

DAUGHTER(nuclide) is the NU CID of the daughter product of the radionuclide. If daughter product ingrowth in the control room is to be considered, the NUCID of the daughter product of each radionuclide must be specified here. If a radionuclide has no radioactive daughter products or daughter product ingrowth in the control room is not desired, a value of 0 must be specified here. If a value other than 0 is specified, it must correspond to an existing NUCID for another radionuclide in the control room parameter input deck.

For analysis of the control room habitability after DBAs, discussions with the NRC [Ref. 2.6] concluded that daughter product ingrowth need not be accounted for.

DAUFRAC(nuclide) is the production factor of the daughter product of the radionuclide with the largest production factor. This value should be expressed as a fraction. If a radionuclide has no radioactive daughter products a value of 0.000 should be specified. If daughter product ingrowth in the

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 19 Rev # _....:.O __

control room is not going to be considered, DAUFRAC(nuclide) can have any value as long as the DAUGHTER( nuclide) for every radionuclide is specified as 0.

7.2 RELEASE RATE INPUT DECK The release rate input deck, as the name implies, contains the release rates for the radionuclides for all of the time intervals that release rates are to be specified for. The number of radionuclides for which release rates are given in the release rate input deck must correspond to NREL from the control room parameter input deck. Also the order in which the radionuclide release rates are specified in the release rate input deck for each time interval must be the same as the order m which the radionuclides are specified for the radionuclide parameters (the order of the NUCIDs) in the control room parameter input deck. There can be more radionuclides listed for radionuclide parameters in the control room parameter input deck than there are radionuclide release rates in the release rate input deck for each time interval, but the radionudides for which no release rates are specified must be listed in the control room parameter input deck after the radionuclides for which release rates are specified. An example of the release rate input deck can be seen on the attached microfiche.

Six radionuclide release rates should be specified per line in the FORTRAN [El0.3] format until all of the radionuclide release rates have been specified for a time interval, then the release rates for the next time interval should be listed starting on the next line. The release rates can be specified in any one of six different units as long as all are consistent, but the appropriate units must be specified for UNITS in the control room parameter input deck. The choices of units are: µCi/Hr, µCi/min, µCi/sec, Ci/Hr, Ci/min, and Ci/sec.

The release rates must be specified for time intervals corresponding to the beginning and ending times listed as TIMINT(k) in the control room parameter input deck. If there is no release for a time interval, O.OOOE + 00 should be specified for all of the radionuclides for that time interval.

The radionuclide release rates must also all be from the same source location so that the XQ(intake,k) values listed in the control room parameter input deck will be appropriate for all of the release specified. If releases are occurring from more than one location that are not close enough in proximity to assume they are from the same source, more than one execution of the code must be made. For each execution of the code, the radionuclide release rates in the release rate input deck and the atmospheric dispersion factors in the control room parameter input deck must be changed appropriately.

The results from the executions of the code could then be summed to yield the total doses from the incident.

8.0 CONDOSE EXECUTION The CONDOSE code is located in VMS. The code was compiled in double precision using the AUTODBL(12220) specification. There are two exec files for execution of the code, CON COSE EXEC and CONDOSEB EXEC, both in the same location as the code. The CONDOSE EXEC reads in the input decks and creates a VMBATCH SUBMIT to execute the code as a batch job. The CONDOSEB EXEC combines the two input decks and executes the CONDOSE code. A listing of the CONDOSE 1

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 20 Rev # _

_,.,o __

code, CONDOSE EXEC, and CONDOSEB EXEC are provided on the attached microfiche. To execute the code, type CONDOSE and hit enter. The filenames of the two input decks are then requested in the format Fi/enamel Filename2, where the first filename is the control room parameter input deck and the second filename is the release rate input deck. Both of the input decks must be Filetype =DATA and File Mode =Al. An example of the proper format will be given on the screen.

At this point, CANCEL can be entered for either filename to abort execution of the code.* The next prompt will request VMBATCH options. Hitting the enter key will continue execution of the code using default options..

When execution of the code is finished, two output decks will be returned. One output deck will have the same filename as the control room parameter input deck, but will have a filetype of LISTING. This output deck will have the results of the control room doses and the control room radionuclide concentrations. The other output deck will have the filename and filetype - DOSEPLOT DATA This file is setup in the format required for the RETRAN code PLOTER module, and contains all of the data needed to plot the thyroid dose, skin dose, and TEDE in the control room versus time. These output files are discussed in the following section.

8.1 OUTPUT LISTING FILE The output listing, as mentioned, will have the same filename as the control room parameter input deck, but will have a filetype of LISTING. This file will vary in length depending on how many radionuclides were considered and how many points in time that the control room radionuclide concentrations and organ doses were specified to be printed. The first few pages of this file will contain an echo of the control room parameter input deck, followed by a list of the order in which the code read the radionuclide release rates and an echo of the release rate input deck. The listed order in which the code read the radionuclide release rates should be examined to ensure it is correct. If it is not correct, the order of the radionuclides in the release rate input deck was not the same as the order of the radionuclides in the control room parameter input deck. The files must then be corrected and the case executed over again.

If times were specified in the control room parameter input deck to print out the control room radionuclide concentrations and cumulative organ doses, the echo of the input decks will be followed by these summaries. There will be the summary at one specified time per page in the listing. At the top of each page will be listed the elapsed time, followed by the concentration of each radionuclide in the control room and the doses to each organ and tissue broken down into inhalation, submersion, and total dose. The total doses will be printed after the summaries at each specified time, or immediatly following the echo of the inputs if no times are specified for printing summaries. This will contain the dose to each organ or tissue from inhalation, submersion, and the total. It should be noted though, that the whole body dose listed in the "Total Dose" column is the total effective dose equivalent (TEDE),

which includes a contribution from the weighted internal organ doses. If only the whole body dose from external radiation is desired, the value in the "Submersion Dose" column should be used.

8.2 OUTPUT DATA FILE PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 21 Rev # ____ o __

The filename and filetype of this file will be DOSEPLOT DATA Since this file is always returned with the same filename, the filename will have to be changed every time the code is executed. This file will be constructed in the format required for execution of the RETRAN code PLOTER module to create a plot of control room doses versus time. The dose to the thyroid, skin, and the TEDE will be plotted on the same figure. The range of the plot will be 0 to 50 rem on the ordinate axis and 0 to 800 hours0.00926 days 0.222 hours 0.00132 weeks 3.044e-4 months (although the plot stops at 720 hours0.00833 days 0.2 hours 0.00119 weeks 2.7396e-4 months ) on the abscissa axis. If more detail of one of the organ dose plots is desired, the range or scale can be easily changed in the DOSEPLOT DATA file prior to executing the RETRAN code PLOTER module. This will be discussed in more detail later in this section.

This file will very in length depending on the number of data points chosen for each of the three organ dose plots. The data points are chosen such that whenever the dose to one of the three organs increases by 5 % from the last plotted data point, two data points are plotted. The data point that reaches the 5 % increase and the data point at the preceding time step are plotted. Plotting the data point at the preceding time step prevents a misleading plot if the dose increases drastically over any given time step. There will be a comment line in this file before each set of data points identifying the organ dose that the points represent. The number of data points for each set will also be listed next to the input card number.

Descriptions for the data cards in this file are listed below. These data cards are described by card number, using data variable names consistent with that of the RETRAN-02 manual [Ref. 2.16].

Problem Control and Description Card.

010001 LDMP NDSET NFRAME NPLOTC NPLOTD NPEDIT NPTABL LDMP = -3 = given by Reference 2.16 NDSET = 0 = number of tape data sets from which data is to be plotted NFRAME = 1 = number of frames requested NPLOTC = 2 = number of plot curve requests NPLOTD = 0 = number of combination plot curve requests NPEDIT = 0 = option flag for tabular edits of curve data NPTABL = 3 = number of tabular input data sets Plot Data Table Cards 12XXOO NDATA TDATA(l)

TDATA{2)

XX = data table number 01, 02, or 03 NDATA = number of data points TDATA(l) = independent variable TDATA{2) = dependent variable Independent Axis Specification Data Cards 02XX01 XVAR XREG XLINOG XLENG XMIN XMAX XLABL XX = 01 = frame number XVAR = 'ABCD' = dummy variable XREG = 0 = dummy value XLINOG = 'LIN' = linear or logarithmic request flag XLENG = 8.0 = length of independent axis, inches XMIN = 0.0 = minimum value of independent axis XMAX = 800.0 = maximum value of independent axis XLABL = 'TIME (HOURS)' = independent axis label

F059 consumers Power

"'1WUIRlfi N'S l'DliiH5S PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET Dependent Axis Specification Data Cards 03XXYO YLINOG YLENG YMIN YMAX YLABL XX = 01 = frame number Y = dependent axis number for frame XX = 1, 2, or 3 YLINOG = 'LIN' = linear or logarithmic request flag YLENG = 5.0 = length of dependent axis, inches YMIN = 0.0 = minimum value of dependent axis YMAX = 50.0 = maximum value of dependent axis EA-A-NL-92-012-01 Sheet 22 Rev # ___ o __

YLABL =dependent axis label = 'THYROID DOSE (REM)' for axis 1

= 'SKIN DOSE (REM)' for axis 2

= 'TEDE - WHOLE BODY (REM)' for axis 3 Plot Curve Request Data Cards 4XXYOS YVARC IYREGC IDSETC YSCTRN YSCMAG XX = 01 = frame number Y = dependent axis number for frame XX = 1, 2, or 3 S = sequence number for plot on frame XX = 1, 2, or 3 YVARC = 'TABL' = dummy variable IYREGC = 0 = dummy value IDSETC = data table number from which variable is retrieved, -XX from card 12XXOO

= -1 for plot 1 = -2 for plot 2 = -3 for plot 3 These specifications can be changed prior to executing the RETRAN code PLOTER module, if so desired. The time range can be shortened to obtain a better plot of the doses early in the incident by changing parameter XMAX in card number 020101. The dose range for any one of the three plots, or all three of the plots, can be increased or decreased by changing parameter YMAX in card number 030110 for the thyroid dose, 030120 for the skin dose, or 030130 for the TEDE to the whole body. If a different title is desired for the figure, the second to last line should be changed. If any other information is to be changed, the RETRAN-02 manual [Ref. 2.16] should be consulted.

To execute the RETRAN code PLOTER module on VMS, type the name RETRAN and hit enter. A menu will appear giving choices of which routine to execute. To choose the plotting routine, type:

Filename Filetype Minidisk-Number PD. The filename, filetype, and minidisk number should be the name of the file containing the plotting data (DOSEPLOT DATA 191 is the name given by the code),

followed by the letters PD. When execution is complete, the figure will automatically be printed on the Reactor Engineering HP laser printer. An example of this file can be seen on the attached microfiche.

9.0 TEST CASES & VERIFICATION To verify the accuracy of the calculations performed by the code, two test cases were executed. These test cases were then verified by alternate calculations. The first test case was to verify all of the calculations except the daughter product ingrowth, since it complicates the extent of the calculations.

Once the first test case was verified, a second test case was used to verify the daughter product ingrowth alone. For both of the test cases, the same arbitrary release rate input deck was used - RRCONl DATA This input deck was constructed with release rates for 24 time intervals from 0.0 to 43200.0

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 23 Rev #

0 minutes. The radionuclides considered and the order in which they were specified in the input deck for each time interval is shown below. This input deck can be seen on the attached microfiche.

time interval 1 line 1 -

[Kr-83m]

[Kr-85m]

[Kr-85]

[Kr-87]

[Kr-88]

[Kr-89]

line 2 -

[Xe-13lm]

[Xe-133m]

[Xe-133]

[Xe-135m]

[Xe-135]

[Xe-137]

line 3 -

[Xe-138]

[I-131]

[I-132]

[I-133]

[I-134]

[I-135]

time interval 2 line 4 -

[Kr-83m]

[Kr-85m]

[Kr-85]

[Kr-87]

[Kr-88]

[Kr-89]

line 5 -

[Xe-13lm]

[Xe-133m]

[Xe-133]

[Xe-135m]

[Xe-135]

[Xe-137]

line 6 -

[Xe-138]

[I-131]

[l-132]

[1-133]

[I-134]

[I-135]

etc.

For the first test case, the control room parameter input deck filename was CRCONl DATA. For the second test case, the filename was CRCON2 DATA These input decks, as well as the output decks, are located in VMS on the A disk of P AHARDEN, and are described below.

9.1 TEST CASE 1 This test case was used to verify the calculations of the radionuclide concentrations in the control room excluding daughter product ingrowth, the control room doses, and that the code was changing parameters at the times specified in the input deck. As was mentioned above, the filename for the control room parameter input deck for this case is CRCONl DATA, and the RRCONl DATA release rate input deck was used. Both of these input decks are listed on the attached microfiche. The parameters used in CRCONl DATA are listed line by line below. It should be noted that the values used are not all representative of the appropriate values for analyzing a OBA, but were just chosen to verify the code.

line 1: TRIAL CASE ONE FOR THE CONDOSE CODE This line is simply the title given to this test case.

line 2: 3.803E + 04 This line specifies the control room air volume, for which 38,030 ft3 was used.

line 3: 3 This line specifies the number of times at which the control room operator breathing rates change.

line 4:

0.00 3.47E-04 line 5:

480.00 1.75E-04 line 6: 1440.00 2.32E-04 These lines specify the three times at which the breathing rates change, and the corresponding breathing rates. These breathing rates are specified in m 3 /sec.

line 7: 3 This line specifies the number of times at which the control room operator occupancy factors change.

line 8:

0.00 1.0 line 9: 1440.00 0.6 line 10: 5760.00 0.4 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 24 Rev #

O These lines specify the three times at which the occupancy factors change, and the corresponding occupancy factors.

line 11: 4 This line specifies the number of times at which the atmospheric dispersion factors change.

line 12:

0.00 1.84E-04 1.22E-03 3.85E-03 line 13: 480.00 1.65E-03 1.02E-03 3.50E-03 line 14: 1440.00 1.30E-03 6.80E-04 2.85E-03 line 15: 5760.00 9.00E-04 3.98E-04 2.15E-03 These lines specify the four times at which the atmospheric dispersion factors change, and the corresponding values for the normal air intake, remote air intake, and air inleakage location, respectively. These values are specified in sec/m3

line 16: 2 This line specifies the number of times at which the air flow rates into the control room change.

line 17: 0.00 line 18: 1.28 0.0 0.0 0.0 11.6 1000.0 2200.0 511.6 0.0 These lines specify the two times at which the air flow rates into the control room change, and the corresponding flow rates for the normal intake, remote intake, recirculation air, and inleakage into the control room, respectively. These values are specified in cfm. Note that the times at which the air flow rates into the control room change and the times at which radionuclides change are the only time parameters that do not need to be specified as whole numbers. The use of 1.28 minutes ensures the code will work for intervals other than whole minutes.

line 19:

1 This line specifies the number of times at which the filter efficiencies for the control room HV AC filters change.

line 20: 0.00 0:000 0.000 0.000 0.000 0.990 0.990 This line specifies that the efficiency of the normal intake air filter (which does not currently exist in the plant) is 0.000 for all radionuclides, and the efficiency of the remote intake and recirculation air filter is 0.000 for noble gas and 0.990 for halogens and solids. With only one time listed these values remain constant throughout.

line 21: 25 This line specifies the number of times at which the control room radionuclide concentrations and dose summary is to be sent to the output deck.

line 22:

line 23:

line 24:

line 25:

1.00 90.00 210.00 43200.00 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET 5.00 105.00 240.00 10.00 120.00 480.00 19.00 135.00 720.00 30.00 150.00 1440.00 EA-A-NL-92-012-01 Sheet 25 Rev #

O 45.00 165.00 1800.00 60.00 180.00 2880.00 75.00 195.00 5760.00 These lines specify the times at which the control room radionuclide concentration and organ dose summaries are to be sent to the output deck.

line 26:

24 This line specifies the number of time intervals for which the radionuclide release rates are given.

line 27:

0. 00 line 28:

75. 00 line 29:

210.00 line 30: 43200.00 1.00 90.00 240.00 2.28 105.00 480.00 5.00 120.00 720.00 19.00 135.00 1440.00 30.00 150.00 1800.00 45.00 165.00 2880.00 60.00 180.00 5760.00 These lines specify the times at which the radionuclide release rates start and stop for each time interval. Note that the third time specified is not a whole number to ensure that the code can treat it properly as was done with the control room air intake flow rates.

line 31:

18 1

This line specifies that release rates will be given for 18 radionuclides, and that the units of the release rates will be µCi/Hr so the code can use the appropriate conversion factors.

line 25:

25 This line specifies the number of radionuclides to be considered. This value was specified as 25 so that the same input deck could be used for the second test case with only minor changes to it. Since daughter products are not considered in this test case, only the 18 radionuclides that have release rates will contribute to the control room doses.

The other seven radionuclides will remain at zero concentration in the control room throughout the calculations for this test case.

The rest of the input deck contains the radionuclide information. The radionuclides that have release rates specified are listed in the same consecutive order as they are specified in the release rate input deck for each time interval. The radionuclides that do not have release rates specified are listed at the end, and will not contribute to the doses for this case since daughter product ingrowth is not being considered. The information for each radionuclide is listed below.

The first line contains the radionuclide name and its ID number (which is just the consecutive order). The second line contains the inhalation dose conversion factors for the thyroid, lungs, bone surface, bone marrow, skin, eye lens, and whole body, respectively. The third line contains the submersion dose conversion factors for the organs in the same order. The fourth line contains the radionuclide group, which is 1 for noble gas, 2 for halogens, and 3 for solids; the decay constant for the radionuclide; the ID number of the daughter, which is set to 0 for all of the radionuclides for this case to suppress daughter product ingrowth; and the production fraction for the daughter product, which plays no role for this case without daughter product ingrowth.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 26 Rev #

0 Kr-83m 1

O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 O.OOOE-00 6.475E-06 5.653E-06 1.747E-04 1.747E-04 3.649E-06 1 6.313E-03 0

0.000 Kr-85m 2

O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 3.083E-02 2.672E-02 4.831E-02 4.522E-02 8.531E-02 3.494E-03 3.031E-02 1 2.579E-03 0

0.211 Kr-85 3

O.OOOE+OO O.OOOE+OO O.OOOE+OO 0.000E+OO 0.000E+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 4.419E-04 6.372E-04 5.585E-04 4.831E-02 6.064E-04 4.738E-04 11.230E-07 0

0.000 Kr-87 4

O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 1.439E-01 1.439E-01 1.747E-01 1.542E-01 5.139E-01 2.775E-01 1.447E-01 1 9.084E-03 00 1.000 Kr-88 5

O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 3.802E-01 3.597E-01 4.008E-01 3.597E-01 5.344E-01 4.625E-01 3.690E-01 1 4.068E-03 00 1.000 Kr-89 6

0.000E+OO O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 1 2.194E-01 00 1.000 Xe-131m 7

O.OOOE+OO O.OOOE+OO 0.000E+OO O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 1.028E-03 2.569E-03 2.364E-03 1.747E-02 3.083E-03 1.324E-03 1 4.065E-05 0

0.000 Xe-133m 8

O.OOOE+OO O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 4.419E-03 8.222E-03 7.606E-03 3.803E-02 7.708E-03 5.375E-03 1 2.198E-04 0

1.000 Xe-133 9

O.OOOE+OO O.OOOE+OO O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 7.297E-03 4.933E-03 1.233E-02 1.131E-02 1.953E-02 9.353E-03 6.259E-03 1 9.177E-05 0

0.000 Xe-135m 10 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 0.000E-00 7.194E-02 9.456E-02 8.839E-02 1.131E-01 9.558E-02 7.647E-02 1 4.513E-02 00 1.000 Xe-135 11 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 4.214E-02 6.783E-02 6.372E-02 1.233E-01 5.550E-02 4.676E-02 1 1.268E-03 00 1.000

Xe-137 12 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 27 Rev # _o~-

O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE-00 0.000E-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 11.809E-01 00 1.000 Xe-138 13 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 1.953E-01 2.056E-01 2.364E-01 2.158E-01 4.lllE-01 2.775E-01 1.969E-01 1 4.906E-02 00 1.000 1-131 14 1.073E+06 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 3.256E+04 O.OOOE-00 0.000E-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 2 5.987E-05 0

0.010 1-132 15 6.290E+03 9.990E+02 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 3.367E+02 O.OOOE-00 0.000E-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 2 5.023E-03 0

0.000 1-133 16 1.813E+05 O.OOOE+OO O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO 5.550E+03 0.000E-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 2 5.554E-04 0

0.971 1-134 17 1.073E+03 5.180E+02 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 1.106E+02 O.OOOE-00 0.000E-00 0.000E-00 O.OOOE-00 O.OOOE-00 0.000E-00 O.OOOE-00 2 1.318E-02 0

0.000 1-135 18 3.145E+04 1.628E+03 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 1.121E+03 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 2 1.748E-03 00 0.846 Cs-135 19 4.440E+03 5.180E+03 4.440E+03 4.440E+03 O.OOOE+OO O.OOOE+OO 4.525E+03 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 3 5.733E-13 0

0.000 Cs-137 20 2.923E+04 3.256E+04 2.923E+04 3.071E+04 0.000E+OO 0.000E+OO 3.219E+04 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 3 4.371E-08 0

0.000 Cs-138 21 O.OOOE+OO 5.920E+02 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 8.732E+Ol 0.000E-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 0.000E-00 3 2.153E-02 0

0.000 Rb-87 22 2.664E+03 4.070E+03 8.880E+03 4.810E+03 O.OOOE+OO O.OOOE+OO 3.252E+03 0.000E-00 0.000E-00 O.OOOE-00 O.OOOE-00 0.000E-00 O.OOOE-00 O.OOOE-00 3 2.788E-16 0

0.000

Rb-88 23 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 28 Rev # --=o __

O.OOOE+OO 5.550E+02 O.OOOE+OO 0.000E+OO O.OOOE+OO O.OOOE+OO 8.029E+Ol O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 3 3.894E-02 0

0.000 Rb-89 24 0.000E+OO 2.516E+02 O.OOOE+OO O.OOOE+OO O.OOOE+OO O.OOOE+OO 3.700E+Ol O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 0.000E-00 O.OOOE-00 3 4.489E-02 00 1.000 Sr-89 25 O.OOOE+OO 3.108E+OS 3.108E+04 2.072E+04 O.OOOE+OO O.OOOE+OO 4.192E+04 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 O.OOOE-00 3 4.611E-08 0

0.000 The output from the execution of the CONDOSE code with the CRCONl DATA and RRCONl DATA input decks is listed on the attached microfiche under the filenames CRCONl LISTING and PLOTCONl DATA. The results of this case were verified by some hand calculations and by use of a short BASIC program that will perform the calculations over any interval in which no parameters change. A BASIC program was written since calculations performed over time steps larger than a minute would produce significant error after a long period of time. The reason for this is that the radionuclide ingress/egress from the control room and the doses are calculated over a time step, then the radionuclide concentration is decayed over the time step. If the calculations were performed over large time steps, the doses would be much higher because radioactive decay would not be credited for longer periods of time. This BASIC program is listed in Attachment 1. Before running the program for a radionuclide over a time step, all of the parameters (breathing rates, flow rates, filter efficiency, etc.) must be specified by editing the appropriate line numbers. The line with the dose conversion factors for that radionuclide must then be changed from a REM statement to a DATA statement, and lines 790 and 795 must be changed appropriately to specify whether submersion dose conversion factors are to be read or inhalation dose conversion factors. However, the BASIC program is limited to time steps that begin and end in whole numbers. Time steps that do not begin or end in whole numbers were calculated by hand.

The calculations were performed over the 43200 minutes to ensure that all of the parameters changed when they were supposed to. The verifying results for the inhalation doses are listed in Attachment 2 and the verifying results for the submersion doses are listed in Attachment 3. The results show excellent agreement, with very small differences that are attributable to round-off.

The results were also compared to the data points in the PLOTCONl DATA file and also showed excellent agreement. The RETRAN code PLOTER module was executed using the PLOTCONl DATA deck, with the resultant plot shown in Attachment 4. This proves that the code accurately calculates concentrations in the control room and doses to operators from any specified radionuclides provided with the proper input.

However, daughter product ingrowth was not been verified which necessitated the use of a second test case.

9.2 TEST CASE 2 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 29 Rev #

0 This test case was used to verify daughter product ingrowth of radionuclides in the control room. As was mentioned above, the filename for the control room parameter input deck for this case is CRCON2 DATA, and the RRCONl DATA release rate input deck was used again. The CRCON2 DATA input deck is also listed on the attached microfiche. The parameters used in CRCON2 DATA are identical to the CRCONl DATA input deck used in test case one, with one exception.

For all of the radionuclides with release rates specified that have radioactive daughter products, the ID number of the daughter product was included where 0 had been specified in CR~ONl DATA The daughter product ID number is the third value on the fourth line of information for each of the radionuclides.

For those having no daughter products, the value is left as 0.

The output from execution of the CONDOSE code with the CRCONl DATA and RRCONl DATA input decks is listed on the attached microfiche under the filename CRCON2 LISTING. The output deck for plotting purposes was discarded since it is of no use for verifying daughter product ingrowth and the plotting output deck was verified in test case one. Since the dose calculations of the code were already verified in test case one, verification of the doses for this case were not necessary. Only the final results of the doses were examined to ensure that the total effective dose equivalent increased by a few rem as would be expected since a large portion of the daughter products were solids that increase inhalation doses. To verify the daughter product ingrowth, calculations were performed over two time steps - the first time step from 0 to 1 minute, and* a time step from 1440 to 1800 minutes. It was not necessary to perform the calculations over every time step since no parameters related to daughter product ingrowth change throughout the calculations. Therefore, if the code performs the calculation correctly over a few time steps, it should perform them correctly over all time steps.

For the time step from 0 to 1 minute, the BASIC program listed in Attachment 1 was used. Since the initial concentrations of the daughter products in the control room is 0.0, the amount of the each daughter product present in the control room after the first minute is simply the amount of the parent that decayed over the first minute. However, for radionuclides that are a daughter product and also have a release rate specified, an additional concentration must be added for the amount the enters the control room from the release rate. The amount that enters the control room from the release rate alone is listed on CRCONl LISTING since daughter products were not considered for that case. For the 1440 to 1800 minute time interval, the BASIC program listed in Attachment 1 was modified so that the initial concentration of the daughter product could be specified. This modified program is listed in Attachment 5. However, it must be ensured that the DATA statement for the parent radionuclide precedes the DATA statement for the daughter so statement numbers may have to be changed when using this program. The results of the verifying calculations are listed in Attachment 6. These results also show excellent agreement with the CRCON2 LISTING. Thus, the ability of the CONDOSE code to model daughter product ingrowth has also been proven.

F059 CODSUDllfS Power

"'1WllU1lfi ll'S l'flllSllE.SS 10.0

SUMMARY

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET EA-A-NL-92-012-01 Sheet 30 Rev # _....:.o __

The CONDOSE code was written to calculate the time dependent radionuclide concentrations and operator doses in the control room for evaluation of the control room habitability after any design basis accident. Provided with the radionuclide release rates for an accident and the necessary physical parameters associated with the control room HV AC system, the operators, and the radionuclides, the CONDOSE code will account for the entrance of radionuclides into the control room, the filtration and leakage of radionuclides from the control room, the radioactive decay of radionuclides, and the ingrowth of daughter products if so desired. The code has the ability to account for a filtration system of any efficiency in the normal air intake and in the remote & recirculation air intake. The doses to control room operators are calculated using the methodology of ICRP-30 and are presented as inhalation dose, external submersion dose, and total effective dose equivalent. Any radionuclides for which the ICRP-30 dose conversion factors are known can be specified in the code.

In this analysis the full methodology used to write the code was described, including the required input deck structures and limitations. The code was then verified through the use of two test cases and alternate calculations to ensure its accuracy.

The first test case verified that the control room radionuclide concentrations and doses were calculated correctly, without considering daughter product ingrowth. The second test case verified that the code accurately modeled daughter product ingrowth.

For both test cases the results of the code were in excellent agreement with the alternate calculations that were made.

11.0 CONCLUSION

The CONDOSE code has been verified by alternate calculations to accurately perform all calculations for which it was written to perform. The code is therefore acceptable for use in the analysis of the control room habitability after any design basis accident.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET LIST OF ATTACHMENTS

1.

BASIC Program Used for Verification of Test Case 1, 3 pages.

2.

Test Case 1 Inhalation Dose Verification, 15 pages.

3.

Test Case 1 Submersion Dose Verification, 27 pages.

EA-A-NL-92-012-01 Sheet 31 Rev # -~o __

4.

Test Case 1 RETRAN Plot of PLOTDOSE DATA Deck, 2 pages.

5.

BASIC Program Used for Verification of Test Case 2, 3 pages.

6.

Test Case 2 Daughter Product Ingrowth Verification, 3 pages.

7.

Form 3698 9-89, Palisades Nuclear Plant Engineering Analysis Checklist, 1 page.

8.

Procedure No. 9.11 Attachment 5, Technical Review Checklist, 1 page.

9.

Form 3110 1-82, NOD Document Review Sheet. 67 pages.

10.

Microfiche Titled - EA-A-NL-91-086-01 CONDOSE CODE, 1 fiche.

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET ATIACHMENT 1 EA-A-NL-91-086-01 Sheet 32 Rev # _....::o __

5 REM PROGRAM TO CALCULATE CONTROL ROOM DOSES AND CONCENTRATIONS 6 DIM SUMSUB(7), SUMINH(7), TOTALDOS(7), F(4), CONC(4), XQ(4), DCFINH(7),

DCFSUB(7) 10 FOR 1=1 TO 7 20 SUMSUB(I)=O!

30 SUMINH( I)=O!

35 NEXT I 40 ADDIN=O 50 INPUT"START TIME OF INTERVAL, MINUTES"; ST 60 INPUT"END TIME OF INTERVAL, MINUTES";ET 70 INPUT"NUCLIDE NAME"; NUC$

80 INPUT"RELEASE RATE, uCi/Hr";RRATE 90 RRATE=RRATE*.000001/3600 95 INPUT"INITIAL CR CONCENTRATION uCi/ml";CONC(3) 100 FILEFF= O!

110 XQ(l) =.000184 120 XQ(2) =.00122 130 XQ(4) =.00385 140 BR =.000347 150 CRVOL = 1076.888 160 F(l) = (2.831685E-02/60)*0!

170 F(2) = (2.831685E-02/60)*0!

180 F(3) = (2.831685E-02/60)*0!

190 F(4) = (2.831685E-02/60)*511.6 200 DCC = 1!

210 THYROIO=l 220 LUNG=2 230 BONE=3 240 MARROW=4 250 SKIN=5 260 EYE=6 270 WB=7 275 CLS 280 REM 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 290 REM Kr-83m SUBMERSION 300 REM 0.0, 0.0, 6.475E-6, 5.653E-6, 1.747E-4, l.747E-4, 3.649E-6, 6.313E-3 310 REM Kr-85m SUBMERSION 320 REM 3.083E-2, 2.672E-2, 4.831E-2, 4.522E-2, 8.531E-2, 3.494E-3, 3.031E-2, 2.579E-3 330 REM Kr-85 SUBMERSION 340 REM 0.0, 4.419E-4, 6.372E-4, 5.585E-4, 4.831E-2, 6.064E-4, 4.738E-4, 1.23E-7 350 REM Kr-87 SUBMERSION 360 REM 1.439E-l, 1.439E-l, l.747E-l, l.542E-l, 5.139E-1, 2.775E-1, l.447E-l, 9.084E-3 370 REM Kr-88 SUBMERSION 380 REM 3.801E-l, 3.597E-1, 4.008E-1, 3.597E-1, 5.344E-1, 4.625E-l, 3.69E-l, 4.068E-3 390 REM Kr-89 SUBMERSION 400 REM 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 2.194E-1 410 REM Xe-131m SUBMERSION 420 REM 0.0, l.028E-3, 2.569E-3, 2.364E-3, l.747E-2, 3.083E-3, l.324E-3, 4.065E-5 430 REM Xe-133m SUBMERSION

FILE: CONDOSE.BAS

PAGE: 1 of 2. Length: 5986

- - - - Lines bytes.

1 to 110 Created: 01/24/9 Queued:

01/24/9

.06

19 440 REM 0.0, 4.419E-3, 8.222E-3, 7.606E-3, 3.803E-3, 7.708E-3, 5.375E-3, 2.198E-4 450 REM Xe-133 SUBMERSION 460 REM 7.297E-3, 4.933E-3, 1.233E-2, 1.131E-2, 1.953E-2, 9.353E-3, 6.259E-3, 9.177E-5 470 REM Xe-135m SUBMERSION 480 REM 0.0, 7.194E-2, 9.456E-2, 8.839E-2, l.131E-l, 9.558E-2, 7.647E-2, 4.513E-2 490 REM Xe-135 SUBMERSION 500 REM 0.0, 4.212E-2, 6.783E-2, 6.372E-2, l.233E-l, 5.55E-2, 4.676E-2,

1. 268E-3 510 REM Xe-137 SUBMERSION 520 REM 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, l.809E-l 530 REM Xe-138 SUBMERSION 540 REM 1.953E-l, 2.056E-l, 2.364E-l, 2.158E-l, 4.lllE-1, 2.775E-l, l.969E-l, 4.906E-2 550 REM I-131 INHALATION 560 REM l.073E+6; 0.0, 0.0, 0.0, 0.0, 0.0, 3.256E+4, 5.987E-5 570 REM I-132 INHALATION 580 REM 6.29E+3, 9.99E+2, 0.0, 0.0, 0.0, 0.0, 3.367E+2, 5.023E-3 590 REM 1-133 INHALATION 600 REM l.813E+5, 0.0, 0.0, 0.0, 0.0, 0.0, 5.55E+3, 5.554E-4 610 REM 1-134 INHALATION 620 REM l.073E+3, 5.18E+2, 0.0, 0.0, 0.0, 0.0, l.106E+2, 1.318E-2 630 REM 1-135 INHALATION 640 REM 3.145E+4, l.628E+3, 0.0, 0.0, 0.0, 0.0, l.121E+3, 1.748E-3 650 REM Cs-135 INHALATION 660 REM 4.44E+3, 5.18E+3, 4.44E+3, 4.44E+3, 0.0, 0.0, 4.525E+3, 5.733E-13 670 REM Cs-137 INHALATION 680 REM 2.923E+4, 3.256E+4, 2.923E+4, 3.071E+4, 0.0, 0.0, 3.219E+4, 4.371E-8 690 REM Cs-138 INHALATION 700 REM 0.0, 5.92E+2, 0.0, 0.0, 0.0, 0.0, 8.732E+l, 2.153E-2 710 REM Rb-87 INHALATION 720 REM 2.664E+3, 4.07E+3, 8.88E+3, 4.81E+3, 0.0, 0.0, 3.252E+3, 2.788E-16 730 REM Rb-88 INHALATION 740 REM 0.0, 5.55E+2, 0.0, 0.0, 0.0, 0.0, 8.029E+l, 3.894E-2 750 REM Rb-89 INHALATION 760 REM 0.0, 2.516E+2, 0.0, 0.0, 0.0, 0.0, 3.7E+l, 4.489E-2 770 REM Sr-89 INHALATION 780 REM 0.0, 3.108E+5, 3.108E+4, 2.072E+4, 0.0, 0.0, 4.192E+4, 4.611E-8

-785 FOR l=l TO 7 790 READ DCFINH(I) 795 DCFSUB(I)=O!

798 NEXT I 799 READ LAMBDA 800 CONC(l)=XQ(l)*RRATE 810 CONC(2)=XQ(2)*RRATE 820 CONC(4)=XQ(4)*RRATE 830 RATEIN=(CONC(l)*F(l))+(CONC(2)*F(2)*(1-FILEFF))+(CONC(4)*F(4))

840 FLOWOUT=F(l)+F(2)+F(4) 850 OT=(FLOWOUT+(F(3)*FILEFF))/CRVOL 860 BEGIN=FIX(ST) 870 EN=FIX(ET) 875 CHECK=O 880 FOR l=BEGIN+l TO EN 890 IF (BEGIN=ST) OR (I>(BEGIN+l)) THEN GOTO 950 900 DELTAT=(BEGIN+l-ST)*60!

910 GOTO 960 950 DELTAT=60!

960 CONC(3)=(CONC(3)*EXP(-OT*DELTAT))+((RATEIN/(CRVOL*OT))*(l-EXP(-OT

DEL TAT)))

970 DOSESUB(THYROID)=CONC(3)*0CC*DCFSUB(THYROID)*DELTAT 980 DOSESUB(LUNG)=CONC(3)*0CC*DCFSUB(LUNG)*DELTAT 990 DOSESUB(BONE)=CONC(3)*0CC*DCFSUB(BONE)*DELTAT 1000 DOSESUB(MARROW)=CONC(3)*0CC*DCFSUB(MARROW)*DELTAT 1010 DOSESUB(SKIN)=CONC(3)*0CC*DCFSUB(SKIN)*DELTAT 1020 DOSESUB(EYE)=CONC(3)*0CC*DCFSUB(EYE)*DELTAT 1030 DOSESUB(WB)=CONC(3)*0CC*DCFSUB(WB)*DELTAT 1040 DOSEINH(THYROID)=CONC(3)*0CC*DCFINH(THYROID)*BR*DELTAT 1050 DOSEINH(LUNG)=CONC(3)*0CC*DCFINH(LUNG)*BR*DELTAT 1060 DOSEINH(BONE)=CONC(3)*0CC*DCFINH(BONE)*BR*DELTAT 1070 DOSEINH(MARROW)=CONC(3)*0CC*DCFINH(MARROW)*BR*OELTAT 1080 DOSEINH(SKIN)=CONC(3)*0CC*DCFINH(SKIN)*BR*DELTAT 1090 DOSEINH(EYE)=CONC(3)*0CC*DCFINH(EYE)*BR*DELTAT 1100 DOSEINH(WB)=CONC(3)*0CC*DCFINH(WB)*BR*DELTAT 1110 FOR J=l TO 7 1120 SUMSUB(J)=SUMSUB(J)+DOSESUB(J) 1130 SUMINH(J)=SUMINH(J)+DOSEINH(J) 1140 TOTALDOS(J)=SUMINH(J)+SUMSUB(J) 1150 NEXT J 1160 DEKAY=CONC(3)*EXP(-LAMBDA*(DELTAT/60!))

1170 ADDIN=ADDIN+CONC(3)-DEKAY 1180 CONC(3)=DEKAY 1190 IF I=EN THEN PRINT"THE VALUE OF TIME COUNTER IS ",I," MINUTES

1500 IF (CHECK=l) OR (EN=ET) THEN GOTO 1540 1510 DELTAT=(ET-EN)*60!

1520 CHECK=l 1530 GOTO 960 1540 NEXT I 1550 PRINT"THE CONCENTRATION OF ",NUC$," IN THE CR IS ",CONC(3)."

1560 PRINT"THE AMOUNT DECAYED TO A DAUGHTER IS ",ADDIN," uCi/ml" 1570 PRINT 1580 PRINT"THE DOSES TO ORGANS ARE AS FOLLOWS:"

uCi/ml" 1590 PRINT" INHALATION SUBMERSION" 1600 PRINT"THYROID

",SUMINH(l),"

1610 PRINT"LUNG

",SUMINH(2),"

1620 PRINT"BONE SURFACE ",SUMINH(3)."

1630 PRINT"BONE MARROW ", SUMINH( 4),"

1640 PRINT"SKIN

",SUMINH(5),"

1650 PRINT"EYE LENS

",SUMINH(6),"

1660 PRINT"WHOLE BODY

",SUMINH(7),"

", SUMSUB (1)

",SUMSUB(2)

, SUMSUB(3)

",SUMSUB(4)

",SUMSUB(5)

",SUMSUB(6)

",SUMSUB(7)

FILE: CONDOSE.BAS

PAGE: 2 of 2. Length: 5986

- - - - Lines Created: 01/24/9.:06 bytes.

Queued: 01/24/9

19 111 to 157

~

w~

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET

. ATIACHMENT 2 EA-A-NL-91-086-01 Sheet 35 Rev # --'-0--

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~-~~-~----~---

I

.J

~'Sq: _,.:t6JEir.:!L 1

,. ~

-::> h/.41 -' - _:. i.... -'--

--.:£13/

C::: t/#~c--s ~

7

µ..,{/:; ;7"/76>'175

£1tJ -= ?-"'7$E-::.'3

..z-/..$:Z c~ /,5.Y9#St5' e-.s

~::=2.t9 3f'6't!?c-3

£3.vu~::: 3,;l39#t:-'7'

/);v,<j:: /,.£?/f'J6",E- ~

f-/.33 Co: ~$.sgc-5

£/7-/ ::= tf,.,6'5tx6C-:2.

fZ6::: 2,lf?f/7/E-3

.:T-/3"f ' c.; ;2. 3~ f §" - $

P-r//.:: :h2~B?c a'Q'a =

,;?_5/.:Z/4'G 6--*

z.Z...-'f== ~3t: 3?-7 c-s-

Z:-/35 c;;. /,,gs~.s/8e-:S a-#==/,.2/IJ'f/~E-.2

l.f~871

~u.: =.6, Sif!57f'£-?'

Vw;y =~33Sfl7E-~

.Stl/117?1 ;.,, 3 ~I:< 3 2,i' Svdi.uv(; = ~;11$1$-3

~!l{w'/;1

= /,5//f.£-:2 I

I l

I I

/-r /..26'.J._

I s~*ee~. 36

. ~

j L- - :. -*-*t l -

I

L-13/

c ::/, ~//l'/3£- s-fJ,-,,p =

8,tf?;<B?lf e- ~

£1~==;?,(ff ??t.P?C-3

£-/..:3:2 C:: /,)?75~#?£-.:5 t3--~::; 7, :z.s3 7~ 7.£- 'Y' av.v.:; ::: ~/.5,Z t!917 E-Y

//w,15 = 3.. 8E.2 ff? E-5

.:T-/33 c: = :Z-3/3.3/<:-.:5 f2r#"'" ;<, "Y"/53.3;,Z E-2

-~::: 7, "/j?57/E-f/

.f-/J.y

C:,,2, ?'T'R.ef 35E-5

£?,p = /.#.5/.Z3 7E-.Y

,?71.;.1A16"'" #, f37 E-5 f-/J.5 P,.,.a = /, f tRR/ 7 E -5 C = ;;?, 36S~15?c-S

/4-;- =

'/.33!1*.Z~?C--~

l ~..56??

/J1,;/,,1.:; :::..2...:3zcJ?i:f '7'C-9 pJ.,,-.!I: h 5.Y.; :3/R 6"* t' S°//A'l'rQ':::,, ~'Y83/#

.5't$f P--!JG := 1~6.t:Z'.5*P"3 /,tf' 3-f"/~J!'c:..J

.5v.<t.V.6 =- /, 3E.3&/6'e-:z Rei! -0;

~

i

...J

~ *

'-["J I

I

/

- V VV V

________ t-_-___ -~_-___ -L-_ T-_ I-__ -;-_-___ ;-

__ -_ i--~~~~~-~ 7~: ~~v~ C!----:

I

_ I-131. /!H~-4'_= ?-:z13j?8'6't)r/,#~~¥)(_c&:S~7s)-1: (._;;t/38'Rtt?,-){/,.;?.26--3)(.11r/?~7 )(,rJl)_ -- ~~Y/?f'c-6

-(,67151/397.5')(4/3.;t) I

/,-Y1'ef6'J'f7E-4

/.

-(.liUfl/$?7~Y¥,,,;z))

___ C..= /,f///_1"/.J&~5-_e____

_.r (.&1&?1:3?.7#J(/i97~.,,,5'8> (_/~ e

== /,33'/3'/<£-s __ _

_ /:?,#' ::- /.-YJ.rJ-7~-:..5 ()){.5-f'?e-"-/) U&>r3~,,.6 )c4f'.3_,.;z) ~ *.:z/'9'~ P.

' k

;---- _iAf/3_-:_ __ ;-;-------;---

_( 3.~5U:_~?I-------'=--~*.5L7?.YC~3 __________ --,--- ----* ----

1---: __

T-1.3;?. ~7a:"/= (,3){/,£.YE-'i)(,6!'9S~;;r.s)+(,3){/.22c;-s)(.<?l_;r/fi'iJl-t!i/) = :Z-&>.2,75~~-£ C _ /, 0

-(°tf',6138.;l.ftJ,r;-:z)

..;?,&-.Zf'.S?(feF-~ // -6. 6l.3$.YP6£-.z) _ L

, r.7.$11&'7£-s e---

H

__ +_ _ 7 *.st!li"3'.27~ c, ~e _____ __ _ __

__-:: "'#£7~.?8.<.t:-..s

. tf# _::. (!,. 8'5 '76;?,?,,?E-.5 )(/

)(3,.~'J?'E...,-.y) /6,,2J'C:-.,,._3 j ('~3,.,2) ~ /, 76' tr, 9' ;zyc:-- ~ _

0

?/

I/'

,./

/,

/F

//t11AIG ~. *-- _

( X, 'fE'+,,2}

= 2, ??6~~.Yf7C-:-9

_______ * £.?,~ ~- ___ ; ___ (~--------'- ____

1

__ //- _ __

__C (3_,_.?!7-G"r~): __ # ___ ~ f?, ~~7".zc--:s ----* --

.7-133 A'-47&.:rA/= (,J-.F)_(j.&:t9 71/E-6) -I-,J..:5(S~?S7'i'.5J.f/;£-c,*_) = ;2. 3~,-;;z,5"c:t: 3 ?E-~

- (, _ *

?.3'1?~37E-6 (.

C ::- 2,31.33/E~S *~'Y/'f/&.:l/) /,5G>3.:r7<f' __

.. 6?..:5859??) :=- 2,/d6!7.2~e-5

____ j.fp :::- t2./t5'6f?';:<<f/t:-6JU J(.3,,r,r75-:~)_{/,g'/Jc-:,,..$f)('f'3,.:<) = S,, ~..YJ6'4'56'-2

{

/1 It'

/,

)

/I dra -=

_ _ (?,S,5~3 _

-== /, #/,P1"'#,?..3E-3

--.:I-/.J"I.-

/.J"'f7.z-...v' __ :_(, :'J'"Y'/66~';?)(/.0?i517..YE-~) _ ~-(.~.Y/666.7)(5,_757 7S.3.f/E-~) ~.2.. f B";?>f/--??~~

C =.2, 27'.#'&'ls er-5 C 9~/~~~/) + _;?,. ?f f$J~f:;,';~ (, OSR:5'7>,"?J7) =...?... 7.&'?~.&..zt? E-5 t:?.-f _==(.:?,7g771.,F,;z~{';)(.3.9'?e-.~) {~&?:3e-+3)_(~3_,2) _=~ ~8358'E-~

Uvp(,:::.

_,., _ (5.1.#E.,,_;z)_

_= _,2,/~~-4'186'C-'9

/I

/I

\\

Uvz..:..* --

u

- {~/6GE--/-.2)

--- -= ~C;2/~7~E-.S-

..I-/J5 MJe::c-1/ :_(,35$:5:333){/,~tP7r/t::-6) + (,3593333)($,*75 7753.Yc=-6) "'.;t'.'fl.-29/#'E-~

.'.\\

z,,Y.Vl/#E-6

)

--"- -- L_

C?f:J,~_t_6(f(S1E-5J_{, ff//'!/&;?_/)_-t__:_/,_5/15.:Zr9'.. {.625fi.:5f 7..f

-~u::(,;13.5ftfl85 E~--.

R,#.'? r2. :z 3.s*rt:Jes c--:s). <

1) 6.. 97E-9') 6.. 1:Ys J-r..~ J !~3-*~-J-*===-4tfJ.s;y 6-.J. :z_:_

,1r

, //.

"'~

//

a11u,; = _

(46*~~£..,;3)_

_ = 5, o/.5C~Y/IE-.y' ff H

N U.tt =

(1,/,z/c-~3 J

. __ = 3#' 757.:Z'7-3?c-_~

________ S__1/g_//t.E._~_7.3_512~_'_ ______

___ f-' ____ '_, __ : __ ~---,-------: _______ ~*~-

S~1t1/i/6 = -.# 7-~?~J#f[ ~ ;<,. ~_7'-f'/".?'/~3- --*------ --- - -

Sv'#/u-'i!J~- ;?_, ~tr8~~£-.2_. _______ -- --

- - i_

i- - __._ ____ _

.;r-13s

. _j 4?-r~.IA/ =

l,6: J:Z?.57'6 E-6

~I I

/, 8&'76.2$.' E-S

.:l.IP.Zf#f'tfE-~

IE=MJ'Cl/a

{,?7t?f'&>s).,... /.5&:-S.27.Y

(,&7J::ll:>lf'.5)/.::/,,F.777'/tP#e-.5 Pr"" =-(/,tf,;<71//&ee--5)(1)(.3.-¥?c-r/; (~,;z fE-r3 )(/6,b") =

~~ 7,5u97Rc--r

/;

6'/

//

(f, ffe,.,-2)

== /..tV67'..<.Y..zc:-y J',,

{3..367E-;2)

//

/.'4727-11 :.:: ;?, 3h Te."'&'3?6--6 2,36?,#'1!!?37.!:--t: /

c =(2,/tf.'67'7,Z~E-sJ(?;;z~?7&S)../-

/,.5~.274"

(,11!973:z;p95) =,,2 *. /3f'Lf'6'~rE-S 0-R :::(;:z,/J9.!i"6?'?e-s) (/) (3.F/7c-~) (/,E/3E.,,s)(/6,tff') = ;:?,2.64f'37E-..z H

I H

N a.,, -=-

(5.5.5cr3)

= 6.7'..:<'~"'337.5-E- ~

/;-1Te..:z:-r/ :=- 2 ?87?'1'.7?E-ll

<. ?.#r'N,2'?.£;-~

L:: ;(, 78'7-Jl/5';2#[-5 (,~~rfG..5) + /,Stp,y;;-7~

(,&73:2l9f?S) =.?.?,.77.37.JBC-S fJr,p "'{.<, ?.773f38c-s)(!)(.3."'/7c-~)(/,6'7-3~~3) V6...E") = /., ?&.76 c- ~

//

'/

flv:v,; ~

(s,,1ee::~2 ')

=- 8, ;2J6 c-S H

H

~

Piii's==-

{/,/d-;te:,..z)

= /.,/S87'??~E-s 4~TEJ4/ ~ :Z, ¥;??! /# * ~

,2, <¥.24//5C:-it C -= (2.:J35'1&85c--s){,.f7679tS.>5).,t /,5&::5.:Z?/,I

(,c;Z3.267?S~ =2$775,;:c-5 fJ//:::.2./8?752G"-.S {I) (3,.Y7E-L/ ){3,./4'5..E~~ )[/6,$) -=--7/,.&//C:-3 II"'

.II

{/.tt,Z8'c-r:J)

= ;2... ~7~3&?c;C-Y

{/,/.;!/[,i-3) 5 C//"1 T,fL :::=

I t 4-1 <V,25 f 5 t/.RJ,lt/,l/G :::o, /!j,"(9J)&)IE. :3-3,,. IS' ?57-'&"G e-..3

.5c/"'f 1t/t) = 2. ~ 6!'71.55 7E-.Z

'-I I

'Pleie3f-!~O-

)__ __ i ___ J ___ !. - : -- ! _____ - - i - i ---

~~---*,~---- --*--*-

~---~-.!..---~-'---~--- ___ ::kl-~L~----<__~,~-~,?1t1_'~ _4 ___ J~S3~7'f//E-£. ____

__ J::-_£3:L*_c-= /._G.5;,9'~.ft-t£.=S ___ ____

_______________ _____ tf-R~ ~--f'/~1'?f?j' _________ -- ---~---- -- --- -

!}"/., ="' 6t'r/3_¥~s..L_____________ __

-~J5:_?,$;2_L/t:/.z?E-.z_'. _________ ---* _

-- -_Ow~ ;_..2~ rx?-7_$__~-:z ____ -----* ----* --- -- ------*----- f.-:13;z ___ C-=__41,5..3,?t:/B6'C..,-_d____ - ---------- -----*-----* ----

_J:L:J.. 2-___ i __ s

~b

!LS~£r£&;_::S __

I ---- -------:-----~--/2~_,/,-5~C 788£-J_ __ --, ---------, ----* -- - __

_fJAF.-~:£1/.L.268S£-:..3 __________ '. _______________ ______ Va;,;,;.:==,2,3;;!3'.. 1/5.:ZC:::3... _ -

-V4u/1~ ;;:..£?/'f'..Z6£E-:~--.------- ___________________________ _ YJt/tfl. ~&~£t:f'.61/7c-:"9'.__ _

___ ___ a,,;s_*=_.3,61&~_.t/3-7-.~~~------*--- __________ ___.:z:-.-133 __ c:::..~ ~4".Jt!9~~~6 ___________________ _

___.Z:-/.33. - _C :..../. Z3/_'f/&2c:--:5 ______ ___. *- ____________________ _ Prr/-=-.5.21/// _______ _ _ __. _.

__ a#::. -/~f&.'f1753 ________ ~------- ______

________, _________ -~=--/.~/?753~-:2

---~_fJ#.q_~.£.£116-72"7'-E~3 ______

! ___ --*-----~----i __ :E!J_~._c.;__£g_71J?:5/LE.~-- ____________ *_,_ -,---.

'.]:'. /.. -

c -...,

i

' tJ..

-, '.c. L!' -- &J/E-J '

. _ ~ '.3"/.__ __

--l!'.*/lfl5~38v-:.s __ -* ___

_ ___ --~-------- __________ f/I.-:-:-

.J.*.:J6o'A~/c -:

.. £+# ~ /, ~&J.r;l.5? z~3.

_ _ _ - tfvvc ~ /. 7.Z26/#c-3

- _ _/)o;ff/6 = 6, 7136"5.~-~ --------

*--- - - -- - --- 4-<;_-:_ 3.- ~?#&-23[-1"

--- -_a~=-/, '115AJ5~7tt!:-'f _ ___ _

_ ________ '. ____ f-/3.5 _C:.5;_1,2#t.9b/e-~-.

J:-:-/35_ c = ~rr.?.f!§e~s--*--

~:

___ tJ/," ~-~-J"-51'!'~£-2 __

____ : ___ _

'?

., 7~,;<6 7.3 e-3

-* ___ !L~t/t: = 7! ?)f;?;Jil~z; ::3 ----

I

___ ----'-------- ___ : ______ ~ Mv-VG =

'l.7#C.~5~~..3 ___ _

_. _.. _ _ ___ _ _ _ _ ___ _ fl"1e __ =

_3~ 2'15$3f E-::3

~.?I = /,YS'gQIC-:-3.. _______. _

__ _, __ svgwQ.~ ~ ~;31cf&7c:t.-3__ ____ _ __: __ ___}_ __ ;--~ ____, ____...::i~b!!_~_ ~;, S:.3t!lJ:Jf6c~2 __________________ _

..5vtlt w'6 ~ _57 ~~#s:_-?_~t!:-:...~ _

1

--S~#/!(/fi __ ~ -~ 3 33?'/'f'c~I -

- -r--- -------. --- *-----+--

_J ____ --~--+-----+-

.Jf ~7 d31?Wj5~t

-4">

11~** ~* -

.d.o.,'lt:;!I:~*

-i-* -, __

r-13/ c = ~5-#?'"'f/76' [-~

,?f-, = ~ 57 2 & "lb' JZ'5:: /, 735#6'.YE--:z

'/J:Z C = /, ?.33.:Z11 E-6' tf,y::: /f,;l//7t5!3E-3 Uw~ _::-I{, ~'1:<$7E- ~

j},.,,,,p

z~;zsS. 7~.S-E-f/

z-133 c-=..:?.56-73J?3e-£ t?;r=,/.56£9'~~

a~-:: ~ 7f?.53&J3-3 T-131/

C =

,2,;u1~35 £-~

£?,r;:; g 9737.,;?3&- ~

£Z~'"::= ~ 3.3.:Z/~.;? E-Y

£],,_,g :c-9, :Z~?76'8 L--s "j:-/3S c~ :z.. s-:z7?..<7c-~

.f?/I =..2,tf _1?11/E-2 t/,;,.~,; =- /, 3~57?E-3

~w"' = 7,~//~t: G"-~

11//l'f/if"=- S:IJ86!5

~~i/hf 1.vvr; *-: /,' ?-?7?£f E-2 Sv,M W8 =.,/56.633 i _ ~3gz _; -r-J- ~r ;-1

SA~ez-I/CJ ~v o;_

z::./.3/

C :tt_tf5ef'3 Yc5'.p-~--?

l.'2 vr,.r-:::-

3-366'/ J??

t:-k==' /.. G/'.:Z/"P'/7-~-z

£-/3,2 C=' ?..?.t5'Yft'75c-7 U,#;. 232,56'S;z 6---:3 a~VG = _3_. ~f'#-7/'f',7~-~

.£7A-~ :;. /...2.//t:"S/<f' er;-"/

r-/3-3 C=-/,.6'7/7.Y.3c~-d t/~ = / <Vj?/.:5$~?

,t./ir{!; "'

.Z..6ZP..36'.2 E-3

L-/3¥ C:: ?/5{?,?/c::-7

/:Jr~= 1/,.Ylf/tf'? E-~

~v.: ;= ;?,/53?/E-~

4,_:d=-

~S?#.67~E-s

Z:-/.35 C.::: /,6J-3?3t:~c-t:'

£?.#;::: ~652./?5~~--*-.2 tlr,,;,£ = &~1!5<.30'8'.3<?'~--?'

ZW=-

5-S-3S3:3?£-<V

~5&lo/7;p =.:S, 533 '157

.SVlf~,vc-= /, l'/EE~/E-;z

,:5v~w'6 = &/7d:}:57t;{

....., -.. -...,_'-'""' --/

--i --i 46

£ro:b~-1:us~s-c;--i*-~T-1:-. _. : -:

-:--i ~

1-sJe.eZ+'l--~0--

i

_-:"? -q,.-lf/_//' ___ 1 ____ l ___ 1 ___ ; _____ i __ ! ___________ ; ____ '.

-~-

68J-?.?']'az.~

I

! _ui

_l ___ ; _______ l

_f.-1 JI__ __ C =-

~,&;:5__/95--Z._:2£-.?----~----- ___________________ -£-,{_-r/ __ C.~.3.. 2.f7.f'Y7c-.? ___________________ _

CJ//:..~./6 ~?~/.2 -- --- - ----- - __ _!___

-.t}-/_::_,//j'__,~'f/~5 a.(L_:: 5,.6/f'd/~~c-...3 ___ _ __ _ _

__J ___ ___________. _

J~_= 3J'67~5~3C-:3

_..--:-13-2 __ C~ ~.26-.261/?E~'il-

..L-/-3.2_ __ C_:::.3.-2&.""'R"fl'..Z8C-7

______ _ P°k-=:_/.t9 :z66l/f~:-:.3 __________ _

ti.~& = /. 7~.ll?"7:.Z6"-9'_

t1& -::: 5, 7-.~ J#"E[-..5

.L--/.3-7 c ::tf,-f/3:?tf.7~E-7 I?-# =-

'1..53/CS?~tt c---:z t-'1.re;""" /,397~~"/C:--3 J:-/_'?1/_

C- =--3, j' 7"17 53 £-] -

Prh' = /,,f/,2"f/_z5 c:- ¥ t0,;.,,-c; = tf. 7fl?6'36E-5 Ug = /,g~~/tf.5E-5

r-1J..5 c = £,,/3;?/f'?c- ;z PrF -= 7. 5 ?'tl /.3 6' E--3

&c;_== Jd'& ?.:??/c-¥_ -

i),i,~ ~ 7,cJ'/99'</?c--~

't(1 T#=' 5,?55° 5v~C:(,_A/6 = /, ftf37f3£-,2 51//'/Jl,Z,_:::_. /7?41&~: ---- - --

-_ _Jc}# __ =:___-;! lS.'L!/1"';? 2__,,; 7"'1" -- - ---

U.tY,;, :..=,,f /,;:f/6'JT8E--T

__ j/y1ta = 3.. ?Y-&:6f"~c:--s

_;Z"-IJ.J C =-~/8'<1"5#3C-:.7 Pr#-=.3,/?.Y 7-?:--~~~2 A,6 ~ _</J 7?:1.!'.Z~E-.y

__ J:-/3~ _{:: =-.,:?,63#5.36'E-::7.

t/Jf#' = /,&.s/7//c-"/

.i~~ := S &1? ?2 2 7 E-s i{,,L.1= /..&8.Y&-'5? E-5 f-/JS _ C=-~~~3t!?l'.3t;;-7

,tJ.-, =: 5, ;2:,2 ~7176 6-- 3

_Pa.t1G.:' ;:?, 74 79'.8'.3E-:~

j/w_o:::- ~~/f'.:254!3E-~

sv.-"!r/I =s, 1'/-2~33

.5°i/..A(Lk-</C :=-,?, &.27/tf? ~-.z_

~A1v/~_ *-=:_.-/,'1 ;?~¥

..2

J-/_3) C.: ;3,8:J~f?&.3E-?

Jf# =-, /Jf(Sl9 7? 7 t 7wl8::..3,/t1'556'6E-3

/~2 C-= ;?, 7~~3.Y'/E-?

U-At =- S, ?7f'f't!ef'E-~

J2w./6 ~ 9,/?,ZtJ?.:;8E-S j)..,er:: 3,&?/3/?E-S

T-133 C.: ~ ?7.72<)2e--7

?,#: : ~6?.27.87#~

a8 = tf, 5.3-¥.;? t95E- /"

-:Z:-/3~ C. = :Z,&1/.;;?;2£/S" E-7

~

= ?:5 76'?73 E-5 f?a.v6:::.. 3,~:577?8E-.:5 a~ ::

7,Fcs'T7~.YE-.?

~ -/.35 C. =-

'i/,3g~t!i/St;-7 fl~ ::-

'f-~.f?~.5E-.3 fZ,/(;;:;..2.3/ f,3;25.£-.Y

~.6 ~ /.,5f'7~.79c-f'

J;tT# = tf.0: :5iP5..23 5/;M<t-~'11~ = :2.. l5;,{3/:f.>'7E-.2

.5CJ41vt/6 ~,/~"¥.YE..2

- i "i

I-1.~/ C==-,,2,'?73?;z;z E-7

/+#==,/&J&JSP,?..2 ii,#== 3,!:J5.2 36';2~-3 f-13.2 C= 2.:5&.:Z~/ E-7 J?-~ := _5., / J.7.7.?'-<:{ E-9' A~v6 :::.. /, ///~;f/~3 c-s P~:: 2. ?..Y-¥7'~~~-s f-/3_5 C= ~6'/;?~7',7E-?

a-,=,,t;J26'¥t::/

4¥& ;;. t#?/t9&3tx9'c--¥ 1-0..?/

C:: /,///.Y 77E-7 ff#"::- 5, ?//7?,28E-5" Pa;v6"' :2..,!??/"f.1/3[-c.5 U.P::; t/

....(36..JESSE-6 f-05 C: = //,/r<f/f..S/E-r if-#;;. <<Y./.G'~<f?6 C-3

~/

/.{5 ?3/

.v.a.1/G *.:,,2. ~3 7 77 ~

16=-?"

a&=/, "Y?/~<(',5c:-~

.5 i/A r#== 6, /,51.,Z 3.2 f'7

.5';,~<.6,4/e. =,,...-?,6' 'lS r~ 5t§-2 51//lic-~ =

, /f~5;z7

.:T-(3/__: ____ c:; __ -::_;2,f~J.5~_-?__ ___ -. --:-_:-

-___ f2rl'f' :~_,9, 7t?/.535d--~----. - - : -- : _

. __ *- __ gfi _=_ ~.#.2 vf/.2c:2_2 ___.. ___________ *--* _____. ___ _

~-:=_.J,.Pi9_jt_~.f!?f'E~3 __ _____ _

_____ -* ____ ' ____________ a.a_""-:.:z_,_r~1~v-~-s __.

'732 _____ C-=:..?.,.31tJ3f1tff'b ~-"?_

__.f-/3~_ C.=:. 2,/;z/~_f:?__t:f:-:Z __ _

--* __ t?;f"~~e{,5,8'.f8/..~=~- -~---.-------*-- -~-- --* --: -- -----/ff, = -1/,_~t'.7~~-;~_~~-' ---, --- -

I

---. ___ p,(Q'~-= _?,_t:.~{2lP~,£---5_

_ ___ $?.,ye;=: _2,S&>~f;,ff'f/[-S __

.I-t-:J3 C_,~.;(._$J2/&'c;/E-7

_ iPr..f =,2,~ifr/37;::;--.2

-- -,a,:!! ;;:.. 7, ft1/t96:23£-~.

I I

-f-J3~L c_:: /-: ::.rt!.?$77 c..., Z-; -- ---* -----

- _jf..;?";:-__~#//_.?57~-.s.

__ _ fi&1vt:.,,._,2, 3:{_3&/"'t'E-5

_ atJ= /f-fSff'fl'7[-tf _

__ f-/3:5 C:.:. 4/- &l.2?33.::>E-7 J?-17 =- fl..&?/§.2/"5' ~-;..3 --

_J1:v'6 - _;;:_ 2, 8?? 8'- 7"6'.:f/E -.Y- --

pll/..tl = /, ~J//?f.E -'?'

_ _,:3:",;/"4U/tf/G _~,2_,/.1~ 32-2 ____ : ______ _

_ 5 C-:A1"i:-1._==--_.. /~f?/'TY

~- ___

_ __ _i_

. -- - -~k~ :='5,.5'$6.5,}?~C-.5_ __

_ ____.:t~1t1 = -?:-3/<f',6' YS C-5. _

__.7-=/.'3 '>. C "'_ ~ "f/? 3 773E-"?

~

=2_~""4/~.,y;;~-6-:2

.-~ =: "?, 7 ?..s 3 ?':5 c--~.

I I

- __ : ____ - -- ---- -* f::-/J'/. __.C ::-./.e.?&l.:.?6?1'~~? ---:

i t4#' =,3;. ;.2;2 6?55 c-s.

t'J&:t--"6 _::. ~ef~3 f"t26' - ~ -

- a,_15 -= -fl. 61 '?,;? ~?

t5' c -6

__ :r-d5 C.:.J,6~?8//tE-?

U# -= 3,8$/5&-flc-3

/:Jt,:'1'6.. =_2,AJ.&79 2.Y?6-:-Y. __

£/,,;"' '=/.3E~/yE-~.

_.. ______ : _.:St-Mr//.~_{f",_~37~6?5 _

___ ; ____ :..:5l/"'1LP#~ :'." ;2, /55/~:? <E"_-:.,2 __ _____ _

*--! ____ ___ : __ -~--* ----- ____, _____ ------*--------*--*

---~-----**--- - -------,- --- ------- --- -----.. ----*-** --- --*- ----**- -

~n*rt..:J :, 2e,s.9

/35 -;-~ ~~;:::;. * !

L

..:Z::-/3/

C;::;.:?. !/.L "9.J?~-?

tf#;,.s: f'77S?f' a~:: ;2, j'~t{~'Y7E-.3 3.2 c = /.?6"&~ 7;?-7

~=3,.7#..Yr&eG"-~

lYw,(,16 = (i,3.2 8 65:3~-.s

~

;z,1_~.2 ?~c-.s

Z--/33 c ~ -~ ~-2/7.29"c-7 _

.!?-# :: _2,.5/5"7/,2 &".-2 P"'~ =- r, 7dPl/57t£-.Y

T-17"1 c ~ #, 7~f3$d;=-,5.

t7r#= 3, :2&J.Z7:5S6*-.s

.t?.w.vc== /,.5 "'/ 6 :!5:!>c -s a'Lf -: 3. 3l5llf'6S E- ~

J:-/:35 C.::3,7jl/lffS.YE-7

£2r.R:: J, 7.("863:.?t:-"3

.n

~ ?.5~#.2/ E-Y'

,t;zv'u6 = -~&l/GS2f£ 1'

.J..,B: =- /,. 3932b16 &"-~

-S<>'_,.,r,y: 6.SCCVJ' 5~M,a~:: 2,/cf;2:5f5E-;z.

5d/#f v,L> ::::

,;:!IS(:<. 3/9 L5?p-7 //5 ~r

~

__ j_

.i X-/.J/

c =.2.$.f7.?/5.5c-7 jf-,.y ::"?, ?3/:J-'/3e:-:z i~.B.;..2. 752.?6 c-.3

L-O;:?

C:: /.,.$/?5,Y/~--71'

.?}p:.3,,et5'&e5?eSJ3E-~

a}41c: -

0 s-,p5 9'.<.P 2 ::-.S

~1 = /,. 773&Y6c-5

T~3_3 C= "f/,3$~3.~5-7

~?,--,, =

..... ~ ¥96' ti! 6S C::-:2

/Au,:r::- 7-'5 2,2 611:7 t::-Y'

. f-/3"-/

C.= 7./tf7??7c-8

/J7# '::"- ;;t,6;1 J T65C-§ IJ.v.vG::: /.265.:f Ec-5

.t/w-.et ::: ;?, 7 6J ;z 3 ?"? e--6

Z--/35 c= 3, C',1"..2.IJ'lc-3 Pr,+1 -: 3, ~ 6/,77?'c-3 fl.P:.lAS = /, 8~5 ?7Li'C -i/

iJvfi = /.. 3&..7538G t:E-~

SV-41'w= 6. 6f3/!

.5~~4'~l; *=- ;(,~,#tf',23.£-2 St/.A'fJl/.8~.. ;?&J({/87-

. /,6-s.'....7 F.059 :

.:1670.

. Y~eztA' -

~

t - -

.. ~-

r-1_~i C ~ ;2.,6f:5"-f'?.:;'e-7 J?// = /. ?tS??~~.2£-:Z

.a,,6 :::..7. 9'6,6' /bE -3 02 C.:= /.tfffttJBScfE-'?

1. "'.3,.YD:z~?F~

~'Vii = 5. '17/~L/36--S W6 "' /..#.,27&? c-S f-/33 C ;;; 4Y-3.336?Sb'c-7 Vnc==2 <Y~~.YJ7cc:-:z Ui!l== ?-s-+'.y 38'/E-~

f-L'J4 C;; S,#rt9653c-9 tf#= 2 /47..5/E-S j.~46-= /_&?36-"7-3E-.5 t'?.!.s ::::- 2.213~

.. c-6'

,7-/JS C =3,5$/8&1.5E-7 Yr#==.J,568!/6/c-:J fkvG "=" i!,8'?..:z $.17E-~

UL3 ::::-/,.2~~Ytflc- ~

~r#::: £.$/Rbtf 5~-?'ftf,v;tl~ -:==,,:?..7.33-5/ E-.Z

+

TD/ C: 2,,#J6.S..Z?<F-7 t:f#: ~~$2/&'5° E-2

£?11#5= 2 :?_?fft:!i'/.t<c-3 f-,u.z C= /.,55)?/~?JE-7

//}-.#'= ~$-f/.Y/SE-~

t?Pl!?a = :5;/;J.Z5g'3Se?-=5 a~ = /, / j'..3£-Y e:-:5-

r -/J3 c = 71,.<1'.3&.Z/.:£- 7 4if/ =

,,,< *.Y¥&3.72c-:::z.

f?w-~~ ?:Y'?d!J~"'fl~-~

I-/J.Y C= ~,5'/;z///c-B' l?r,pr= /, 75?7/E-5

~.v,v,z = $, "f'f'.§2.:-.1' a... '4=- /.. f/3~c-~

f-/._35 c.:: 3,1"£'3/9f1.!£-7

,q_, =-3,. ¥6.Z 331 E--3

~G::- /, ?~.2.2?C-L/

C.w..6 = /.;:?.3?'//2 E- ?'

5";11 ///= 15;?~3&57.5?

.:5-V/'fa:et~ =-_.:? *.25?..3e5.?8e--Z SI.# /ViJ -=

,.2/3!1~:2 I'

I I

1

, C;'r(-/1-//1(,-7/-(/84-~/

-t-*-.-,-r-Fnsg;-:~*itu--t---i 1

-- 1 I

-1*-1--*---,-- -- ------ -

1 ____ * )?.5'""'--"/b/J? ~/,J I

~-u i'

I _

J

_ I __ : _____ i

!,.7/P ~

).?41.} ~d i I SJ,~~~ Aev ({

___ -X:/.3L_ C_'?'_,,;;,#g7_bf3.:::.. ~_.~z____ ___

___________ ---"--.%-/.,.'?/ _ c_:_ zg#/.tfe'c:-r-

--* ___ /?/Y_~_ ~_(j63/l,5')_E-::Z_*________

__ __ -----*------, _4-tf'.=,/f~/5fS _, __

lJ,;.L: ~_.2_, '?3~'7'8?C:-3_: __ _

_ _,;f{.;4!'1.: :5576/3~/c-3 _

__ 7-:-/:12 _C_=: /,j/~~~.?s 6-:.r___

Z:--/3.2 _ C=-,1,ZS86'75c-r

__ _._ ___ :t}-R.:::_2,.f,2&'4?.22~-Y_ _ _______, ___ ---;--- _____ : __,_____

_IJ-,,__-:r~/_Z~,,?#..£E.-:-_£'_ _______, _ _

';;J ' '

zv#t;::::- 47': 6S&J3?E-.5

. ____ ~a: /, 5tl'.735-:-S ___ _

___ :t:.~/J3 _ C= ~;zSStP.2~L-7--

t:J-.#-=-.2. ~8 3 ?6*c--2 tl~o-:-?, ~5?3/?c-~ _____,

,t0a'<>:: £;</ ?.?#'e-.f _

-P.,,:ts =

,,2, 76,, ;?~~ ::r-/3-3 c~ ~/?5fff'9"7.e---r a#: ~?73-/.9/,7c-,Z'

_,P,.,~ ": /, ~~/,Zftj'E--3 I

I

- ::r.:::/.J."/ -

C=:,3, ?9'#?'1'.ZE~~----:-

--- -- --- - _, ____, ___, __,_7~.3.f __ <',', -:::_,,?.,ff/j'J:lf?'i'E-:-6' --------

t: f-.JF= ~ -;/i/31/.;?e-S _

___ : ____ f?#:,?,/;U.23E-$

/)

,7 b2-wr:.::: ~- /(f{e'..2-6"

_ _?-a:-r1.t::: /,t;;.l-71&:4/c-s l:?v,:;r== /, "Y£.7#c-6'

_ z;.'i!!=.Z/.fl~5E-li'

r-r3s C~J,J7.Y&.53C-?

£-/35 C-=- J,.:.Z39f/~.2E-7 J2,rH~3,37/25-:3 ___

_ tf-,p=-~"/"//Yff6°C-:-3

/. ?.Y:S //7E-.Y

- __

__ ;jk,-P'6.::_-,_~3ttF6:'2C~- -----c---- ____ ---------"-----------

_____ ;!}~~ ?.3,.3~f7L-;?~~

'.t?w-= /,,,7&/tf'~"Y'c-¥ _ '

~a ::o-.:?.36J3.$;>8/lc-~

'://rlT# := 7. ~68 35#'

~..-(a;,e,(;' :=-- ;?, _.2 8 0(/6?6¢-_2 ___. _ ____ _ _ __ _

5;,;4"/T;/;..-

7,3,;~75-;;z SP--"!i:PAIG =-,<, J,,,_"';z ~156-2_ _

.5~

"'{fl -:_ -.:'.:1/7~7.2 - -- '. ______ -

__ i__________ ________ _

_ ____.Sv'"'*f"':ts_=_~.2.2:5;l.~S-

---- ----- __,_ -- -~-+

I

_, ____ J

-~ -

--.... ~5*9*'

II-?-~*.. * *.I

~-

'i

.. - i

~- -*

.1: 6 -w* ::It*

L..,. r §'.._

.2 7'&7 _,--;;. 4/~-a? er:;,

f-/5/ C: ;2,#.5662-f!c-7 Pr#=- /,SJ.z3.24" t-?¥6;: ~b.Y/?#;28 e--;i

r-1.32 c = 7..:Z&J~ftc-#

Ulf'== 2,.2&J.5t9/s~-3

£2,,,_,G :::- 3;._5.p>..3_3SrE-.Y

~~

== /, /.#' 4J 76.2 E-1/

.::C -/3.J C =

3.~ $~~...57.3E-7' Pr,11 =-,JS.3&fY Pw~ = /,&JR~P&.SC:-.2 _

.7-/.3if C =6, 7#..3'f/SE-9

,??,-; :

~/(Jf'[~:;r;zc:-s

.t:i.wc =.2,6J6JtfJtf 3c-5 a;8= ~.:Z#~?c-6' I-/35

(..".:: /,:56.5 7tt'f/e-7 J/r# =-. 71.-&.>C?Et?P..3 c-2 Ullllc =,2,,//G'.3?? E-3 ilw~ :.:: /. fl.57;? f?c-.3

$J//f17//:: :T, ;?~9'#6.?2

.5&-Wu;t,'c-::-,,Z.~1/'7"77E-.2 S;!Af JV;6 =, ;l#.:// ~/

I

.. J

... /"';"..-/;: ;v-

. -..,;c;,:"'

C.,,I I

I I

~-

~

1$/e~~.t'7 ~~ o:

i?f&> -'Y v~,,,,.,,. ;,,

.:T-/..3/

C. = 5, ?1/Y#t!f' ?.c- - 7

./J-,y=/,5/~.3/3 tfv;,f =- 1ttf'&'/,Z..2.2E-.Z

T-/'3~

C::ftt&?$?'?..3/E-,5?

i+..?= 6:- 7&1&.25.3 E-j/

P.?Pvc::.,,. /. l('t£ ~.5.!!f' <!F-1"

/k=.3,..56'6',t::F-..5 I-/3..3 C.>~f53/6-~c-- 7 W# =,3//;z(J;'-;r 1/,,,:¥ = f;.5.2t:'7.27E-3 7-/39 c:: =-..S.'87#-f/?'/'°C-/~

Or#~ 2.3t5J'f"~E-tt!

. £Jawc; ~ /.,//,,2t::'C-t£

.t:?.,;g = 23 ?5 C-7

.T-/:3.:5 C:.;:: 3, 'f/.5/~?3E-7 i}-,;y =:?. 7&:? 7/.:5S C:-.:Z.

t?U".v6 -=- /, ~&>/3.Y? c--J i?JV'& ::- j', ~~?.357'~--,-

5*i,,Pf ff=-//,/ &!V 6'~

~

S/,//#fct,V6 :=,,Z, 722 3';5E-2 St;"/4fr/{3== ~ 3 9'~607/

7,219 -:-7/~1!Perr4. ___ ' ___ ---- _______, ____, ___ ----- *-----'

/~~-;;>~...,..,...:.r

_r::-t3/ ___ c_~.s;s-?/.&"#°3-E.-_7 ________ _____________

______ :.r-9t'.. __ 'f.=.3.._.7:f'f'&¥/c-z_ ____ _

a;p_:_~538/.> ___ ______________________ __' _________.&_=:_4~~03/7_ __

___ :Z-.-/32 __ C_=-_.5._65&~~'1/~f'- __, __, __

_,tl;r.,;r_ =-,2,fi'S.2.261/E-::f" ___ ____ _

fi~-1/c: = ~6.#~.FtfJ E-5' P~p== ~.:!58t!?J2~-s _

T-/3_"3 C =-£35.Y.7/S:ZE-7 _________ :

.£?# :::-,7.37?67

_ tlw.6_?_:,;l,.25~-?-?3E-.2 ___ _

Z--/3'/

C=$...(ff",,<2£Y/~--/:z

}-// = /,_357E-?

/Z,,Alt: := 6, S t1' E -J" tZ-L<::: h..YE-:$ __

Z--/.35 c"" /,5;z_3c-?

_ Yr,y =_ ;_?..fi>/6.Y/"ii!c~.2 ___ _

J/kvc: """

1

/, f'753S/E-::J

_ :5't-~ T#.:: /tf(, i'/'Yfl...3~ _

_5p'.A1~V<t/~ :=,2, f 2_ "/:S:_~t::" E-::Z _ _ _ _ _

_ S.Y/1.,./!B ::_

,.s:~-?3.S;;z _____ _

-1

, --- ----- ~-[~_2_ -- C. =-_L._S,{6?./J/e:-/&'

n#_= 6.&7..!i'~..?.-6 4,,t.;:/6 =- f', '5' If'/ e--- 7

.46 = 3,.25.#'C-7 ___ _

- - - __ ]-:-/ :?3 -- c = ;z..Y&JJJ,6',£<-Z;-- ?'

Pr#'=,,/J?/'5'/

jJ~_= ¢/.b,8'/,,9/C-3.

,7-/3)* C== 7-#J",.Y;7,?c-/D'

/%¥ -=- 7-7E-/&'

£JvM ~ -~* -rc-/tP

- A.$== 7- :Jc-/~

__ T-/JS __ _ C: =_3,5J.Y;ZJ,#'d::--,5'

'---- ----------- --- __ /?g::: _3.~ 6'.~ef'/.Jd_=--~ --

,/J~c: :.= /, 1 /-1/..3,.,.., :i c-f/

' _;&,:.:r -=/.3/E/lf/e-?'

. Si-:ifT# ::- /?. 6 t' J:)(f,?

_ __ : ___

______.::ive/LV.Vt:;__~ ~_?9'3.ff...l6~;z_ _________ _

_ ___..:>v;it 141& = # 53 ?t1'/6

--~-----*----; -*- ---- *-- *- -

--..l i

I I

b,..*intc,n

~*

~:.:::it'7 I #&J& --:;;..5?G& A*d

.:T-IYI C=,2,,#f~,Z&:3-7 t/r#-=- /6:),,2 ?:5#.58 t?v.c::::..3118/.Z

..T-1.3.2 C.:-2,. 7C/,::/ [-/.z

,t:?19 = t?",6.Y~E-7 Jk,;vc; = /, /?55 E-7

&-= J,5t£.E-t5"

.:Z:-1.33 C:: b; ?t?'/f'5/E-8 iJ,.,.,*~.5.2#3&!6 Pw~== /.6/7.2.t'/E-2 i.6!,i' IJi.i..*

I-/3 'I C== ~.,2g/;253C-/7' blr/F = '1, 3 E-/"

zk;i1c.:= 4'5E-/f' iJ"":6 := 1.6E-/5 I-!:.J5 C=-3,.63~63'1-'E-.7

./?-# =-3.. $#2 ~g/ E-3 f?p;~6 ::c-2,~lJ'173/E-'Y t)u;:5 = /.3 6'3!?7'J'c.--f/

r----

e;J,41 /#=-: Z8. 4'~~66?

.5?:4;LM'C = ;J, f63f.!/'f'C:-;2 5V'"1W~5 :=, &'7739

EA-1?-Alt.-9/"'."0§6"-t?/

_ ; -s,,red r,19

4y.a_

5 7 tff 8? -:-"'":> 9'J.2 &?<!?,,,,/;

f-/3/

C-:: t.:",e;'3&>33.3E-8

. t:'r# =/.it: &:$7/7

£lvg== *.r/S // #.56"

.:Z:-/32 C= ~&a,.f'6'$E-.2.7 Pr-1"=),,/E-J'

/:?M,;; -=-~ ?E-/.f:'.

f?.vc== 5,6E-//

7-/3-3 c-.:: 7,5b3'o>~c-/tt' f)q = ;2. ?/'1'...?eSJ/E-.2

/}Jl/6= % &N'..0"2 15:--//

f-/3Jf -

.£-(3;5 C= 2.~J35~E-/3

£i.-.v== £. 736'-P'c--~

tl'-'PG "'" 1't ~lfCfE-?

a_g= 3,//~E-?

5"v;;fzy.: ~3,3f"'6"S"

.5V~.tt-vG = ;<, 9'635'~f".£-2 SVA lr/iS ::.- /,3/?$_5

PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET ATIACHMENT 3 EA-A-NL-91-086-01 Sheet 50 Rev # -~0--

(_c.

1 fCI"'.-;.;--::_

-*~----------

---i----,--:

I I.SAeeZ.:5/ -<evo --

t'1:'.:"k3J__d.::- ~~1§~1 ; j~-6 ~~/~ c:; zdrf,.<>;}-p: I

! I ~~-/~L~=~:Z!ffe?-2'/-~_;_J__ __ -,_

--~--= 1.1:.5_~-:_7_~------

---~--- ______ __J?.,,vc__:=-~6'_-t_&:~tf_ ______ --*-- -- --- -- _t:j,.#~ _7,£-35f'?C-~ -

__ /}~--~/,_S~?-=f_. ____ _________________

__ ---2.os=_4f.&F!'.5:::t<'___ ___ ____ ___ __ _ __ i-_'b,~_ ~ #. 19.:JtJ re-?

_=_~?Ze:-:£ _____ - - - --- -- -

'E =_ ~ 7..2 e--:-t?. -- *---- __.. ---- ----- -

__ fx$_ __ =-__z P6c-41

/

&1£

~ -

9. 7;;,p5// c-,-_&--- - --- -- -

, -::o...:-r c = fa.!~\\~;:;:;;z-~

~

./,#4'8,t,l2t:-5 5,_;z~-.?" --

11 4~~6?&Mc - - v'~-3JS> :!?2 ~>1 12.65 _

..z,t?33..z~c-_.:5:.- ----- -- - -

- ldiJr" :--- j.Wt 9 L 7/Z

~_A-_, -

...::?.65,2&."igc_:._ S

- ~- ---,1 ('zrc 7

/}.";,(' =-? ~:q&>3;?'.:?~-5~ -

- ~ ~

---~;) J_c_. __ /_____

I

-V<! ?& _ "".2 c.yy/d' 6E.::

fJ.v-"

~- i 77 7~.:zSc-S 1</-:-#'_5

__ c_~ f,.f"/~77/e- -r

&vc; =-: /./f'?_(f"-:8' IJsi== }: ?.:Z6C-t5'_

-- - ;,,h~~/,-5/3~-!7'__ -

_ a1'!'. = /.3&6'7'£¢=-6

'?=~- =_,,,: ~<j/3_ £_-,!"_ --

Mw-6 ___ :_~ ;2-~?"E_-8' _ -

C;,,l"?'/J.5//E-5

____ 4,w.0-_3, zze-~s ____ _

--- g,k_ =_;<..?-f!__c--_-_;z --

tJ,;yE _=_ -K,f,,?E-~ __

p..,~_=,?.//?-£ -- -

_..Ye -03P7 __ C=...,:.~.Y3/i7E-6 __

_JlL¢'t:_:=-_7.e.-~LC--:.? __ _

_ @s =-_ t:.:79'.;??5[-f/

_ _ ~,,, _!-',t? "?'3 ;:z5'/ C-9

~~= /..~~;z__3,J,E-:S t#== /.O!.fl4'&/7/e--:3

.t?v;1.= 7--,:; 'fl e!f.:5 5 e-?

__ p.,a:;=-

/._'f&..zc_":"~ _ __

5!-1/11/,P-= /,S~iflJ/7e;-~:3

_ /J::,.,, ~/-3~3,:--,_~

_ ~v~p':: /,~,58f7.!'e- ~

-~-t- =_,I. 7z~---~ ___ : ____ _

____________ ___5/~,/5_?__ __ -;__,2, &11zc--:-_3 ___ _

_4-.-c-= /.3~/c-6 p_.,,~ = ?.97C- ;z xe-13°7 C=-t!f:S&?.<&?SSt!-5' tf-,,_ =_3, 7.2.? rC-S tk11s *:=.2.5/.66?£-5

- t-J;s- =-_tf_.2_f'_tt;'_L/_,C-$_, _________ --- ---- -

___ ~

""' 5...;:r?t9tsu_--s

--- &JI: =:_<f!.Tl'3~-C--~

Pe't!:=- ~;:z,.,.,.,l,(e:-s:.

~

_ "-;_3,/J'32 c--_5 __

_ _5//~.tf/#1 :::: /-57?/36-3

-???l..s,c--:;: 3, 3!?5~/76--3

.:51//1/C~-c. ;?. 32.?L,!'jZe-3 5,,#Jw~-::; / ?e;* e >-

/,tf.fJffE-3 v7///= /,-4'?2_?_.Y~E--_-_~

____ X'e-135,.,, _C=:..2.3.?6'1/.8'c-5

____ t.kw6_ ~.h4!.Z2,:lftf,c~ ____,_ ______

~./?U!l'il_'l-~?£~6c:::_'f'_ ___, _, __, ______________, __

£l5s== /-il/2-f/?Jc--4

__ -&.;_ /.f//P8.~C-9'

~.::,,;,~,f7&:f'8E-f:'

~K :: 3:.'!3/6S9'c-ft' i/cr.: =,.?., 8-f9&i3/E-f' d;n = /, 5/f'l.2-f'bC-~

(t- -#R _ (-;::- _

.7. _p.33 ?7 c :-s- _

-Vt-#=.5. 8~1/;r..5*~-::11

!?v,t,'6_ '='5_f.$7#.2SC-1/

flF6 :::: ~.//7/;R_3£-"?_

15.., _= 5-rrff/tf?;l5 £-7"

/;'};.1:* :=.f?/.5613? <!:" -:-f

_ _ __ /lc;vt:_ ::-_'jj' ~_s9-~~3c-:.~---- ____ ---* ----

46' -= 5,63176'.~c-,;;

('

C~.J./~~~,<f E-5 I

~;,, =-/,3.2tt:.7 ?c-f/

_ bk*-= /,cf??tP;z[-'I'

__ *_Af-,,-~=~f/3</"/J"C-~

_,t?,,_,g :: /,J/,?{"_J_,.>E,;__1(

&-(3_$. ___ c;-= /,_'f/7&?~9'c=-$ _

PU<~6 = 3-VJ'f~-5

.t:hft =.5; Y/'P4' £-5 Po.r "'".:?,67ffc-s

~k =~ 08tf't c--Y

£.i-yeP =- ~YR/SC--5 __

I,P,,;_g,:;: :~/77b.c=5_ ___ ' --- -- -

Ye-13?

C=S-9/¥.2.S~E-s

____ 1-=1 _____ [/-~~t?T=-cii~c~~r~rJ=:-T. i---1 ---1 ---,--1 --,

j~_-1 _ _J 5A,~r:

52..eer 0 1

(r~3~

__ C_=9-.~4i7~?'E-6'. _; ____ * ~-/:¥;, __ c_:=_:S,3}157~1?--7! ____ ___________ _

... ~== £:i._c-m. _____________, ________ _ ti.

.,i: -::_,5,b1_6--:_*i_. ________ ---+----. _

e

-~ S.-L/E-LlfZ - --

___ £k;;::_ /, ~P-E-8 --

J / -

L:'

J... c

__ -:- l'-*"7 'it..~o

- 'M - "' ~G-.!I

__ fbe~_h,b ZE-:_B _

______________ *---,-- ______ f1,,;:_:::_ __ i f_c-R. *

'?

£

- t-1+-.11-(J,./£~/i('_ -. ---

'J-85.m C:: /,2 ~'f'Sf'?c-S if/I~ 6r/f.5'e-6'.

_4-wr /, ?E-t!"

a~: T.56"'-E Xe-/.~3...., C.!:':J, 76&/d/c-~*-

au~-=-_.£Sf'~--~ -

- - - ~.;::;;.. Z]fC:-7_ -

.Xe --/Jt? c~ 7.#6'..2/3#&:--s

__ : t:J.-/:;.2,S.753.2 e::: ~

~';_,,.,a==. __ ;z_, 7..3~/'?~"£- ~

/fi,: ; =..3,/_il'/A'?~E-~

'4;n;; ;2,£6.?7.YJc-.Y P>k:; S:¥tf.3&M31C-~

.v::""YtF-== 3,.6ff7 6'/7

~-.t,/*

t~ =.2.,{/l{.5,!'3 c:-~

fJ.v_-=:_~l)t/c_~s

/k,:;_=5,/?G"-7_

..:5v-#/J/-==.Zt?#?/.S/c-3

---~~--

?r/_~~G-~ --*---* ______ _'__ _____ ___ ;_/Jt.,?_~_J7/c.~7- ____ '. ____ ---*--~--- ______..:?tJl!a,1/~_-:: ;< *.Zr51!/.ri'C-:-Y 2_

I

_ 1~i::: ~ r#.:SE-s_

.

__ ' air'=..z.y~-~1-

__ ' ______ :._ __ ' _____.. _.St/."t.55= 2. ?//&>3.s c-..s hn?_.7.3ic-*7 U,A ::::- tt'.39c-6 l(/--tJ5 c_:~?-i£~37'7E-7 i1v.:-=-

~z~-7

-I

-- f2,5_=_,6J~?- - -- ~-- -* ---- ----*- -

__ ~

=_ 5,e;E-:f

~;c:::: ~6'~E-7.

"4"=.5;,_j -f.

~-": _.l/,6E-?

):)* -g-; C::,Z./E3J'f;?E-S a,,~":,y,..f'h.:--7 J/lt,;,s.:: 3,'Jte-?

5t-"'16."!:::.::?~7/~.:Z.#9~-.3 5b;4f>*"" 9;.5~.25.:JXt::-3 5v~£Y.: = 3.-/-<":f32/C-3 _

,,Xe -/33 f =/,~86:Z/3cf

__ 4-,-=. /.3JI e;-.5

--.--gMS -=:.___9,K?.c~6.

- ---- ---.'?i/~14-~ :;_.,2....2#'fi /5tf c-~J 1

I I

fJ&,-=-

~-~SE-5 hA; 2,6>69'E-S-___ ___________ _

P.s.t"' J,5,:;*c--5 ti~""".,1, ?196 c~s

£?1WJ=. /,/.Y;;?c-5 __ _ _ _ __ _

__ ~-= 5,;2,f_."?:C-:::5 __ ---- ---- --- - -

£l.wc. :.= 5r 2 f J E-5

_ ~-/35......,_ C=-~-~/&6f'.5£-.s..~'-*_ -

t/.65 =-

~: 9'26.c-.5.

t:-lJt ;::_.S;6'-;z.,<E-5.

IJK ~ /.,tly~ 356e-#

£2_%= /,C,?.lfl?7E-~--

- __ -* z?ll/J$ ~ :_r,3.2.7. zc-~s ___, _________ ; __ _

!:/-.#.!' _c__, J,.23/tf']6'c.:_-s*

h.P := 2&Jl'6"'~??C- ~.

/:lrrc_= /. J15S:?/E~9' _

i-~::;.. 2,/?$6'.2E-:-.~---

t'Jµ,:: -~ 1'.S5.2/.E-~ -

/};~-~-- 2., ?fl?.'¥'#~ tF~1'- --- ---

?d;: 2. S"/3'77?c-fl'..

..t:_

~ = 2_, lS.1&5 71/'J 6-_ ¥ -

-C~2..5#~/?6E-S_ *

(

1 iJ.P,g;: :-J. 68Sc.-s ____ '

-~

.y,_*g~f'~.5.

~#/: o/:.S.7? - S-.

__ &~

o.. ?7~c -:-6 _

a%~~ #r6c.-s __ _

JJ,..,~~ ~'-' / ££-:£ ___ ----* --- --- ----

I X:?*-135 C=:_~-$~7-?7J _

. _flu_p~ = /. j 2., ~-5__ -

/-!gs=-

2.. /1/,!?t::~S

~-=---.2,lfl//~-s _.

'_J)!Nt_"" 'J,#?/E-5..

/l-y.;_:_ __ i,]

... <,Zk.S __ --- ---~--------

/'w-t1 7

,1, <:/711' 6--5.

Xe-/~":?? c =6,§-2-256... ?c-S-

~;~--';,:;";;~~*--~=~='=-~4 ~z:_:1-;:::g,,-=.....

---* -- t}~ ~---3~ 'f/5"7!~5- -- --* ----*- -- ____ '_t/p_ ::_: _

_L.}.~;;;.5--- -- ----- ----

--- -- -3,f/?;&65E-.3-

"* ---+--&_;;:3,Z::-;3-~efi__;.-.. --: -

--- ~~-~-.ti>: _e t.

~v;-~_r#~_$.?9~_1?J::1:~'.~---------j--

. -~- g< =

~.i:f~f~;_~_; ___ '---

.. ____ ' I?~~~ ~~/t:f-:_r_ ___

$#.tut/~=:_ ~2?.??cfi'?E.~3.

. --* _ j/}/'e'_=.2. ¥1$~-:~-- ________, ----~- ; __ :.. f?e-Y~-::_ __ /,_,J"~£:.-.d _____, __.

__.a~=..2./~?c-s..

Pv.&"=!..1,./P-/.:!-6'° __

k----:-:£5 C =-7.~ ?/~9f'&"~r

. ~

-:-/~3-c::...~{-.4'"Y.Y.A?~,,,2c-~.

4'11.::= )_ 5~-~ -

4-# -;;;._ __ 41-1 5".5_.3_~-.:s:.. ---

1$s_:=- _.i../e-:8 ________ ; ____ L ___ 1 ___ PLM-.iri-?*~~~c-S" _

_J ____._

~

_:; _/;£ )_9 *__ __: _ ~.... 1 __ '

.Pers_~. ;7...; ji.3:,g=~-.':_ ____ : __ _

&= __ /. ttPIE-~. _

---~-=:_ 7-:~4°~.tE-~- _

_ a,,.!!5:;_/,6.c-B' --~ -*

_______________. _4,,.lf:~ __ :?-b:M~--s.- ___ : ______ _

/(r._-:.$.?..C..~..2,#ErSYc-S. -

-- - ---- -,p,,,,,,f!f:!._ __ _3,_~P.SC-c.5.. -- ---- - *-*-

..9-#!!15:.~_$.~&t;i;7J_L::-3 __. ______ _

$@/tf."( ::;._ ?:£4:57.3-3

~/4~K~ & :5~(l~S7C.-.::?..

. 5U/l!'ffC:=- 5,87& :Z29E-3

~2tff'3~S.2C-::5

.-?!"'~~-?_?~fii$5>>;iL2..-:-.5! ___________ _

,:z.~h~~:r;:t __ -~ f~-,~~::~:~~;~=--=-:~~-~,---- ~-

___ ___ /4s _==- _,?.t_9'3S38.E-~.. ____________ : ____ ___ R~~,--~-~~J#..<d-~-'--'----- _____ : ___ _

. ~k_ -::. _d{r 1/.5.:l_5~ e-¥,,. ___ *____ _ _ **- _.

~k =-_,(,_ i!$9_~E~

.. Pc-(E.~_:J.~F'f'/f!fie-:-.1!.. -~

_ _, ____ :.__* _.fir..-~_~/.£5~.?e-#. _______ _

tk h I

. !Zr.""/,

~tlf'/bfisr..~:::.f!-~---:----.---: _______

~.:::_ _

_,;J;?~P-~~---- -- *-------,- --"---- --,---

,b -,fl,#" C =_ 'Y..,7#?7.5,/E-5

__ Ae-/35 __ C._ ~-::Z~J'Srf'/c-:.f.

--.: -~ = _7!&-?~-?36 ~-~ -

P'V"o-_=-_tfr67]~.?lc~1/

_ '*s- -==-:_ __ ~ //q,;6?~/9.-_¥ __

_ £),,Mt:;_ ~-~?7-~2/E-:~.

--- ____ &1(_~ _

_£_/,z)p_,fi;t/(_~~-"'- __ : ____ ;_ __

_____,

P-Wt:==-~ 5'~ef E-S

_Ja;..7 __ =, ?-- 3.;?E-5'_

_fk,_. ~. ~, 6' rt1' e-.5..

pl~::= /. 3'Jt!R6 -?

l

_P6~ ~-6

.. f.f-2e::.r_..

a~--; 5.5.J?'~e-.5.

4f"e =./', $'tfl6D?~ 3 E- ~

-~~ :~d,$5~,;z~e--"f

_____ C-:: 2, f~f5.rZC-5.

.. /e *-oz_. c~-~ 65°r,Z.38'-s.

i

___ j ______,_ --- *--*-- ----~-- ---------*-- ------

~r-#JPI c-==8,;2~3o/s7' E-6 l&s--::::.Pe-/&

t/G"Y~-=-;<.;; E-8 tJi.v.n:.:: £ le-/C J</-85/?1 C:; /,/'6.."835£-S p,.,,,-::: fl; 3 :7 ~

fl,,;.:;--=- J?,,/..23C-6 P,z::: /, ~t:E?-E-.5

/J.,,"" /, 37qdc-.5 1&.c-= ;2,_5"f:36E--5

/?.er"-= ~&:~ e-6'

~= 1'2/5c-K5

)./. -,J'5 C ;.,tf',~tJ?/Stf~c-7 lbw:;;... 6. :?~-~

t'J:ls- =.¥.-,Pf e~ -f tJJ.HJ""' *7. ?c-f 4-~ = tif,Re-r b--c""

~6cc:--9

..,;/$;:: tb- ?E-j'

,f/-,#7 C ;;;J,/5t:#f'7C-S

£?-#~ 7.65/t::-S 4.t.ve.::: r.. 6.5/e-_.5 P.5.1-' = 9.:lt??E-5 J4J111::: ~/7?E-S 4...,-:::. ;2, ?'.J.;25.t:-4/

p~:= /, // 7...~S E-f" 1?"41;_-, = ~h'?'-?'?5 4-f?# C:::-~~.8838/E-5

.Ii-#= 2Y1r.:'2~[-~

p~A/t:J =- ;?,,;:'36"{/-9' Pb> =.3,/lf OJ~7 E-9

.[),o,.r ~,;(, ~

3~.r,/ E-9 fl.u-=-

~.213??£-'fl

.//,fryE:::.),. ~-.Y rE- '/

4.-A>""' ;<.. f.{)97 c:-{I' C.:; J,&?;2.#/c-s Ye -/J,?.. C =--r: 7~fl'.!? 7.5E-7 t:k"'.: ::: 8.-S[-1 P~-=- 2/E-6

/},,i."'::; /, ?c--6

~,r= /,ej/..sC-7' Pere=;?.~ 6'-8' 4.'P-= /,/C:-,!?

%e-03,..., C:: _5,1'?.ff°f5E-t::'

a-v.s" f(.tt\\l,r;c-7

,'?#.$= r,5,r;c-: ...7 tl~;; tfrf?C-7

/},;.: 3r5C-7

.Yetr 7-CJfE-?

t:i.J 'Y/ /'/E-7

,.(e-/3..)' C.:::/,S#/?&~c-~

.a--# :;. /. jl 3 T E---5' av:: = l..3/,/E-5 fbs=- _?,27,(5E-3"

J.k-::: 3,~&5-S t;1: ~.5,/,#'Y.ffE-..5 tl:-~e-= 2 <;l,#°.:51"c-5 jJ,,v.41=,,.,;/C°.3e-.s

-~ -0.5/--t c.::: f!.2/3t976c::-;_5 Puk= 5.-/.51.6c-.5 J%.s-=c. £. ??;f!c-s

~=-.t5. :$36c--5

./J;::. ~ R;/tr7c-.5 a,.,-=.t,,¥s/e::-.5

.//~,, ~..5;-¥.&'/E.ef Xe-IJ.5 C;.;2, 7.:>27?7c--.s

//.:.,,v.:::: /-Y39'C-5

. ~:~:{:$ :;:. 3,.//.5 c--:. 5

.t};,#1.;::; ;z.?.<.::{ ¢-S k-'}.t:;. 5,.~lf'3E-~

Ure--=- _;,;;...,,5.Y?C-S ti,.v ;;..2.-/9'?E-~

%e. -1.Y? C~#'.&8ft35C-5 ii*-"... -,

S.lt!!eC 5~ ho,

I

t i

-~ __

%e -/3R. ~=/.&1#?'~71~-11' a.R'= 3,.~/g&.&c-7' 11(,X.1,P= 3,,.16! 6'b75'¢-.Y flp := ~-J 7 ?-vfc-~

~"'::: 3,~f 7~"/:' E-~

t-'J,.K=

7,~/51'.YE-"}/

.Ve-~=.£,,/</&L?fl~E-f" t--7.-ei==- J,,/ ~7 ;z..2 c-i"'

_5-"°'""'" = 4/,t{#~..57,7 c--- 3 Si#!t.."-""{5 o;:.5,/C/.5 7-?c--3

_>1,;,,1,t;~ = 6~ K'.867& 7 rc-:.3 St}'f6#. = 5,.G.-</.2&'-J[-.Y Sv&(s~ = /,. C.2 & 7&7'.:::=-:z 5v'-1!E~t-:;. 7,&/,:Z,ZS/E-.:J

.St/-4'!~1&1*=-5://E~'??c-3

,.... __ '-' *-/..._.,

-.r1---/.,._-~,.I' *vv -"-/

1 1

Jf~ c£s*f!'.~;;-*1-3cs:sn]** --~---1*1- -r-*-r- *:-*

-~--*.---f *-* -, -- -.s1i~'rs.i.

.e~; or**

_ _ _: ____,_J ___ £._._j __ _: __ L__ __ l,.. _J_: __ ;_I_

i I

I i

J_..

l I

/&~ £:1,A'/_:.C~-~.iY/3Ee~:?_:.. _ ~- ___ :,,Je: ?..ih __ {:.~ A_~Jc:~ f.=~- _____.-i _ '_ A"'e-:-~~g_. G :"" /.' ?.<~ <S?3Sc--Y--

- - ~: ~~:~- *.

... -~* ~ zr;~::~~~~i--~------ ~ -=!':~~:::;: -

ib..e =-_3.-G,..?'~-:Z...

. _...... ___.. ~_,,,.: __,ZJ~e:-7 _____ ___........

v.k?= t;,/i:f/&&f.c~3..

___ Ji.,,-c_==-_3,_6.2_e:;::Z_ ---**- _____________

.,,a,1;__=:__.:zL.f-...<_~-::.6. ____ *------------* __

_ _,?1~_=_ ~~2'~/2,?~3 __

-... P¢=._ ~lf£~Z---*-*-*- --- --*** ---*-- ____ Jlye.=_3.-6'se~_?. ______ --*-*---*-** -* *-- ;g,£_=../..d?. r/3~7~-=.2..

1(,,--£5__.

C"'°:..;3.:?~.3375.¢-$

. h#. = /_ 'Y51.?/5.3_~ f'.-. -

lk-~ _= __ I- -?/..?-27'c-9' -.

P~ ;- ;:;_;z&t!JP.?c-:-.,,,

__p,,~_:= h.~5C=?!.. __ _______________ _

. __ -~~13~h:'-'l. __ c"'=~-?l~~:J~c:-~- __ _

. - *-... *- "**- __ fl-1/~. =._tJ5,//!.4~-::-.rf - --------*--

-~-=L/3~7Zc-s_ __ ______ ---** __.

t/CY'e:.=. 7-c~J.:V9_-J

& :::.;5,/3,/56.2C:-:.3..

--- ~~Z&.6&/6-:~ ______________... _1)65~--~&2/72~6..: ____ : ______.-1. _________ ~!!'~-~ =:b:?47f2?~~;z_. ________.

___. a;.-_";_ _~jf,&>jef/£1£:.-:..9'.__. _..... _________ &-_ ~,?-j_sj C-:6._; __________

__ *-~ _..1~~L4-tti; :.::,i.&'~~'5.2 E-: ;z i&Y.e =./,5P/Z7E.~5.

. _.. ___... __ Aff'E'_-=_/.,M..??.c-:S. ____.. __ __

.5?.l/fif?..::r.. =- 2-~~?0J.86't...:--;,z

.. £lv,g_;._ /._~J?~E?~c-:Y.

_ *' ________ ____. _ _!?~~.?.10:3~--c:_ __.. --*-*-** ____ *-*..5t/~~,,,,-= ~E6/~&!'5c--.z wtf?.5 C.=-./.S.2/~#3c-:-.6_

.... _______ KC-/.?J _C.-=:Y.£~-f'Jr.5)£-_'/ _____ ______..... ~5i/'!.ti;('::::.3, ~~t7'f'3c-_2

.auvG;:;.9..'1/e--£ __. ________ ____ glf'=_.-?.,_ft!.?d:L.-::~.-

_ 5i-fH£re--=,2,365&V"'!e-2 __

... ____ lJs_?_ /._.?.:f~:-r. ___________ ----**-**-.. -

-~~../=.i.Z.fi'r~~~*------*-

__________ $j/~IA/~_;_£_.7z:s.25'1.e.~z ___ _

P~

c !-: /~~-:-7...

- -* -**--* __ -~~"'- _//..f.:?5f£'c:--.I'-. _ ___. _______ : _____ ---* ____

1

£2/< ~./_.lf<.:zs2~s _

Zt'E=~;27c-:-:7... -**

.. ~.=...J.&6?5e~_-;z. __

b-E-? C.~.:£51?.3.??8 c-s

/bt_:.._.~:?-(~c-.~--- --* ------

__ A-c _Z.R.6.'~?IC-_~ ____ -*----*--.

.J)Er.:-::::_ J,_7-3~$~.C:.-:f!'. __. -----*-*-- -- _!____. --*

.. _jk._::; _2- -;i.~9 C.-..//____ - -* --- -- --

tfd'=_j,a,6.5?.#.?-:3 __ --**

~e_-/.3_.f~ ___ C?::_~_Yfit'?~E~.5 ____ __________.. _

l

~-: /./.7~.$?8E-~-- *-

. _........ _'.i?a;/c.=.7.?6'11/?<£:::.~.--- ______ '.....

f/.e:#.,. /..3.f&J.z3r-E-.3

.... a~='-tf'7?d£-.f/

~-;:; /_,Z/tf?,??:5_£-3

$-t_=.~ f..5~2~6-'f/.... --- --*

J?~= <1-tV6tl/,,16_[-~

_&=: /./1".51"~6'-3 11v$ ~.<:/.7.:?4/..zLc-3 P~c-.= t:f,6t!f.G~6C.-'f'._ _...

..tl.v~-; /./1-'J~lf c--.3_

.. __ _ _ -~ ______ ~R,,.,,.t.-~ r-__111~r.z1:.:-e. __ _ _ ---.-.. __...... _ _ _

J; -8~ L=8..Y&538f'~-s _.

_.:.Ye-0 ___ c;.-==..r,;.t'f"&JY/:Ze-S

___ _ t),r-tL.=~_qg~~~5c-.:J.. _______. _______ _g,e *=..?-fl>28'.f:.f.£.Ef. _ __ _

a.f/6 ;::. 41-2~Jfl"5c-=-.3

. VC?:7-= - ?.2.9~C<f"c~3.

~

= ~;i~J'fi/tJ?SEi-3 a~ = $~3&.?.3 53c:-i... --.....

tJ~::;.. 5

'l.5~/4'Ji5-:-3.

f?v6-:=. ~-?'S31/8~~

c-= 3,//1/.26:2-5

../J5.? =_ <r.. 68/..26 e-? _

f?&,r_== LJ 3</7~/c-:-~. *-*

_.&~.== 85&f>5c-<f"

_f:b.tt:-==-_3,83/QJ/E-J/.

~=

3~72 7/.:?c--r_

_.. Xe -13?_ C..~' 9.'k?5867f"c-s.

i Fnsg':

I

(/ -tft'3A C: ::-3,~5,.<'7/C-5

~-::;; /-.55 e-- 7

-=

1-:lbE-?

//,/Ve-if' fler&:: ~/f/E-~

fl~:;;

~

-rse--~

IV-#5,,,. C-=-g$5,t?.5?C-.5 Pf/I'-= /.&#1"37./c-~

~Vfl::;. ~ f/(f'j?'/S?'E-3 f?t.5 = ;2.~ &/?..?13£-3

~

.,..z ~7?;,f'f'-<e-3.

f:k==- 4,/?1"6?YE-3 11~ = /, f/~5"~.5c-~

P'41 =;, 6~6!~r#'c-J

,<:;. -S C-= '1,3"'/Sr62&--C-4~.: = /-/5.#'?c-~

ll~ =-

/,~"?/£-~

~

/,~,5p/&-6 IJ,,r-=-

/.,26t:" ?-SE-~

/_57.c-t:'

/,74/,2~-~

(;.-#? C '= ~4&76°//}1E-~

J?-,;::. /,;z??-'7.71!:-.2 aA¥ "'/,.2 r??.7/c--.z

~=

/,55/:ZP/e-2 J/4J, = /. 3/,f'/? "?E-2

~

"=- /l,f6'Jct:J76'C-:Z 1J,z:::,Z""/639U"E-.Z p~ : /..2ef'~r!f.2:5"t:-2

!(, -#tf< C =...?..27~8f.:SE-~

f1-,,, = S.313.t??rc--i

?/Lill/; := 5, '92,P?t!i.2 E-:i

~=,&S~~3Z9

~

"' 5, 6J:2.B i'6?;!E-2 ak = ?. e!/7/4?53£-2 JJf'e = tf. "'/e:.{5,#.~-.2 R&.,-- 5,/56?7/#e-;?

<"'* ;??g'L0.;:??3Z-~

i j;,EirS.i~

1 I

I I

1 I

~

Yc--D'/,dl C-;;;.2,6-%:'533E-6 tlv5;;. /. >J?/E-6

~f::;; 3-?5/c-~

j6,,,:::. 3,.~;1'"<::' c-C

,tf;,,,=-

.2,~,l'~f',t:E-5

~f'~ -::

.!/(. ?"'/;? E-C:

.?'v~"" ;1. t93~E-~

.-Ye-$..>A?" C=2./?/ef'6'r?E-:5-l?u.wc; = 7, 5.::?/tfC-S

/Jt.> ~ /_.31'7..Y?E--1/

!?tr~; /. ;?f"~~.7E-~

~.k: b*9'7J/ E-!5

Pel'E /. 3//~'56--- f tJY~= 9,/.1/#.#'E-5 Ye-1-33 C.=-~/?556'BE-'1 tfirr-:::. 3,tftP&6?t!?C-3 JZ,,_.:::...2.1(3.Y/?/C-3 w~ = tf,tf?Rlf//?~~-=-.J.

~Jiii~.5Jff&i878c-:3 4..t=-

.9,:6'3?~J&'E-3'

~y

/l.6/5.7&:.3.£-3

£95:: 3,,6/~?"41.~i/ E-.5'

-k'.;,,,-,05,.,, C=/,J./61/39'/c-r/

~~G'=- S, 76'?.7&8=-3

.:@..::-:;. 7?'6C~tf'?.76-3 4 = ~//&5

.. 2?e-:J

.f.k-:: f.tJ.!ftf3/?C-3 a6-=- 7. 66'E'?..?5c-3 a,#:=. 6.-is/.r.?~£-3

%c.:-es C=/,3.!??,<f"?'E-1"

~c=

3,5S/7"t:J..7.5"E-3

~

=.5~?/f/7?E-3 J?g,?'I*= 3,::r?Zv3?c-3

!d;t' = ~&3?~..?/e-.z Pee <<.~r?.559£-3

~=-

3.?~.:<~~1"e-3

~e--!'37 C~3.22s::osE-s

, SJ~

56 l'fey 0, l

1 1

i

.Ye-B,#

C.-::- 25?"/6'74 E-1"

£1-,-= 3:- ~.5'tP9~/ e--2

~6= ~/J:1'5d'i!~E-2 j?.i!!S;::: ~7.Z/#76'-.Z t.M==.,&?~3/t!R~J s-/( ::0.,.&'#2//35 fiYE =.f';.:;("~$//,C-::Z j}~"'" J,?_y2.fif'7'&2

f.,}?'fr~==--., / 2 ~&9'3

.5F.1'LP-,11c = /,,Jf//3~.S6-/

.:5V'h /}7 *:: ~16' / ~-5 ttf'

.5v~M "",, /-f/63 71 5t~5/= "2 ?6?f.2.

.:5v:4/ErE~.,/tf'56Y9'

>J/,,,rv/p= "'/ 359f;Z

~

~~-_.:L_j~{~_t_~~~~L]-1&t~a

-l._l I

i

--'----+----'---------~--

'/i.~.,.,"

l'/-ltt'~t:l-?/

I 15.led p7

..(el" CJ '

] ____,___J_

I

-----------'-~; ---

-l./--:-8.3.A ____ (_~f,f'¢rt"?~'f"'E-.5

______

Ye:-:D"IAI C:::..3.*Y?'4".-?5"?e-6 _.

__...fe-1.-~ _ C.= ;z, OJ5?,L.3l1E-: 11'

... -~..:?_=- /-.f;:?e-z __ _

_ 4.f/6 =-....?. 4?.,G'c 6"'-i( _

- //

u-::: 6.....

~:-;:;::;;* -*

~ ~~: ;:;~:

___ /k-= _

_0/_7-:f"c-:~--

Jk-: 3.5.YS?c::-5.

P~ =-_ /..&?-?.

__

JlYe=: ~:Zs?e--~ _

<:---a,, C*:-/../f/'.6"i!R6' e--:-_'f/

J-k-=..2-6#7c-c: _.

___ _e.?.-,q:::_.2./7//e'~C-~ _ ____

)(e"'-/3Jd1-C~3,t:fo.9'&Jt!:??G[-5 4w_--;. /..E,/?fl'/E--~.

_ &,6 ::: 9-f?~J'C"c-:-5 __

_ Us_= 3. "'t'&7/.IRSE-_3' _

_ ___ &~ /. E'~S32E~~--

.4-~=:.~-&6~.35c-.£-7 6'lv./c_- 3_J_:2S:j??$t!.'=.,z.

?'65'~ 3.,'71!9'?.:<J~E-.2.

J.Nt 1

~J-35CcP//C-2 < =

£J,(5t:t:!.36~~-.z Pa-.e-=-4 35/f//,6~;:;? _

- tJ,ifl-=- 3, 19,g? '7(( / -,z -

____ Jk,,~

____ 3_d#.<l$'£~~:..~----- ______ : _______ _ IJA_:;;._ _/.._715!-~&~7E-/f

~ ________.~J!~r~= *. ::<_,Y~L_f2 u,,r=,t,,&tflrl'~b'E-3. __. ___________ g..c _-=- _g_[;3.~~ c-=.S- _.. __

. _ u'lt"=._;z, q'4'i5?Cle--:-r_ __ ________. __.

Pen;~. ~ z;zttc: e--..tf... __ _____ ___ _ __ _

tk~_,2'. __ 0'f5t?.Yc:*:3_ ___ ___ _______ ____

~-~ /._:z&C.3.Sc-.~--

f/ ~,#5 _C~.S,f'3Y.5&>/e-b _________. ______ k'e. *;/.3.3 _ C= /,//~?6'..3e-;_->

____ fluvs~L-~_?/ e-~ __ _ ___

___. ___ _ gK_-3_ <?- ?'53 7Z:Z¢-3 ___ _

5£-/"1.CMt' =-,,;2C&13c:c

..Sv;,;,AS=> *. _;J/J.22f 5if.r~~;:, 2 gg 7/S

fa~: ;;t =- - 521/.~f#

_st;,~e:-:~~-,...,3S'1J6'3

/-f.....,2 b 3 7'/~

____ ~-=-2-2ifS'$'~-:-6._ ______ u------. ___ _,?jp$_:__:}. 2_!.26.2.?C~3 __ _________ u ______ 5;;tw~ _=,,. :2i 6 <:!IP/(.&

~=-

l..fJ:f'E""~-

Pcz ?:_ E..t52J-2G/RE-~ __

t§A-==_/,/7JYP7E~~ __. - --- -. -

~-==_ ?-3~E/.2e-:-3 Mc-= 2/t5?/e~~=-

.Q:.<_:,_'91.z ?2.>2 __ _____.

_.D_".:' /.~-¥:Zt:-~ -- -

t];~ C!'f3/7<f/E-.3_

'/_ -,8"? C.-: /,.73..~&4~~~--- ___

_

91<".it_"' 1-tt'/r_7.:5"_L/?E-:J

____ u-,~_/,_$J961.?¥...E-.:z. _ ---,--- ___. ____ )(e._~/-U'",,v; ___ C= £_;i?Li7~~.::~---------- __________ --~--- ___________ _

~G:: /,53,fl.f!f-?qe-;;2...

.{b5 =_ /_ f 5$56.{ E--.2_ -

tkf-1_-=-__ /.6~~9'.i'!c-::7. __ _

4~ =: 5, 9&r/73 c-:2 __ *

,?k!E :"- ;z f$,;? ;l#j c:-.2 -

____ p""°~-.:::-__ /,_53_ '!!14!'_._~L-::? _

_,r,; -'1$

C '.f..?.. f.'Sf'?_#G-q-

-~=- ¢ r25ri7~'3c:-:.3

¢~_= ~-21/tf.flc-.-;,_ ____

-~= _ _?,f{~63P/C~~--

_ £;,t-_=_ Z.~.2.957Je~:3

&E...~ ~,? ?.t<~?"~C-::3

_f?-v~= $t>J..2335-JC:.-J __ *--* -----*

I J2 *7J5 C = /, t:%C? ?5 ~-:'f/

/?r~ ':_ tf. 7/4",f?78E-Z

~::: ~6.?5.5/'?c.-:;:,. _

£.i'v¢'o= G-_Js_~..s-~c:-:JL _

~-= 7.ef/4#?..(?e-.3

_ h? :__?. &8tY.S.t?c&2 tJ>,,,=,::_ ff'7577C-.3

_ ~

~ 6-35~54..~7.£-Z.

. _ ~-" ~-J-35//~5'/c-Z

___ Pfel(_::::: ___ %4-f!tP. 78'1 c"::z ________ __ __ _ ________ f)EJW. = £.&'l.~£?c c--:-:-.3 _

_ fb.:G"~- £/?6-"'5,F~c-z U~ =- 5../35&:?-le-J J:f~==-. _ 6',5/L?P&<J'e-;:i.... __ _

4 -!'~? C = 5. ?'? ?r.5?'~-:-6 J. C-:= 6:Nll'?97'E-~

FO';-srg; 4- -~ c-:=: 5, b.21/f'?c-s

.?',&.::;.::. 3-/-<c-?

1:; :2. ?..?E-7

".fK:: ~<f/fk~-b Mye-= #~.?IC-~

a.d = ;. ?(f§c-7 tr-~~ c -~ /,~¢%,Yc.-.t/

?f# :::::: J. ?P,t'~?e;-:... ~

dv.,,G::: J_... "'/4'5//c-7

.4?~ =- 5-.t!//,6?:?c->

~::: c?:-44&/..?6 C--/

~k;::-

,9/df'.Z6JJ Ji.re::;; ij...._"~3fl~c-'f/

jJ~,,,-;;;.. 5-~-~46.'/E-;~

~

-tfP.5 c-~?. 4/7&JJ//E-*6*

Pa;.uo;:..2. ?<96 E~

~.?-;:; 3. f't!P2 E-6 lb, = ~-'7? &-6

)?;;,-, :::::,?. 75,!';?~E--'/.

Jr},.-~ ->-?OE-If

!it/~ "'..?- f'&JE-~

):'/.-,!?? C-=/,f/&f'a?SE-~

bf#=,Z_<j',5l/f/t:'3,£-Z

.16NC *.,;..::? *.t/~/1/&"3'C-Z.

~~

==...2 j/S J 93 E-Z

&/)'/"'".<'.57J.:?8'f'c-z U-/-== #-5?.:!:i~-JY c--2

'be-; 4.~3t>>~/9c-:z a.6 ~-..z, -f//.f'?53E-Z

/V-!?8 C. -:=: J,, 5& "7/.,f?/c-- -r-

.?7# = ///.?4/4'6/

/lw.:- '°' '/&63?o/

p~

==

,, // fi'.5.7$f

.J~ = "'/P6J?'f' ilk ::=

,,./.5,t?&J7'l UrE:::

v/J,:-??5' P.v.lfl ~

,, / K<9 /;;24"2 c :- ~ tth~ft.1~~

nit C.tEr>,~

...tt" ~,\\I;_~~ ~-

I

% e -IY'/,-n C= ¢3'1'~ 7-J.Ze--6' Pa.v& = 3-b ?'?

E-~

.tJrs =-

f'-/f?"'f'E-~

t};,:; £VN~-~

/.ik= t{".;?5,ZYC-.5 p~= /./613.:.e'e--5 Wfi~ 4.. ?JGc-~

.Xe-W;i C.='7-f/~b'tf'f"&r-f

~.:= /. "?.Y7? e-.1/

!Jr,,,.==,;..::?S/.e'c- ~

4-1"'

~-&~#7c.--.tr Jk"" /-5&'~/E-~

f}:119::::

3-lt-"~.f"&" E-1' Jh,-;; 2

/;<.:~ie'c-r Ye-/-ZJ c. =I-4itF'/J9..Zc-::J t/rA';:.. 3-3'£-;5'£/~C-;Jo Jk41=5.~9'PYC".1'°b3 J?~ :::. /. ~/?'75-f'E-2 o.~==- /. "3n? /</5C-2 2-,;z4'5/~5&z

,J?,r::= /: 1{}7 s=:;z '~ F.:l.

Um-= /-&17.?.2/fc-z.

fl@-= 7./f5"J-::s;.;ic-::s

-Ye*-o..5...,

c~J;tf, ?~-¥AG' E--~-

4#6::. 4,.6¢1'~J.;zE-.7 ik;==- 6./t!X/.7?4c-.J.

.t-1....r =-.5. 7&~9'//e->

JJ;,e :=: "J'<>S?/ ?/.2 £-3

.??er£;= ~ /?&~;?5 c-3 tJ~.: 41.fJ?E.t'Cf.;;--~

Xe-us c---2.3&<f'tJ???C-¥ 4,.,.,6"; R&~8/,!?.:5Z.'--.3

~$ = /..2Y;2.!?.5EE-.z

~

, l!l/..?/,YS;t

/J,K =. ;?.J,5o/J/C:--Z

.J:Jrr/'- /.t!?5?£'~5r-..z a..i.:::.,ff, 9"/,2:5",ff..ZE-3

,Xe -13? C-- 5://?M~c;- 7

.s.leeZ-5$ -eev o A"~ *--/J8 C.=- /.25~....:S.2e-~

,Cf#'"-=,?_ #'?/~ 4!?6 C-2..

PL.Pl/;:;~ 3'- &283/tlf e:--ill-

~;

. 3,.-"/E/~?fc-.2 t

J,,,: ::- 3. / ?.!'55'f'c7-z.

J.l;.e--:::: d,5.15.5/:5"7c-.z Per"'".,, 1/,&.!?7->1-"?E--..2 j}lli'>::..;:?, 7&&!/?3.£"-,,Z

_$~

=::..* "/'.:.<' 3 ;:/ ;z 6 5"tt#ft.?:V~ -:; ~ '/<lf/;?#C:

.5i/"'1.tlS =

~ 5356J8f 5v."'!&f ~, 9cfl!/.:Z/?

,5~~.::;,c::

' ~9

Z,tltf',2 5v"f[f't:=-

- 6//57

-~tl/!w:::. ~.Y.5/&7'7

,1.-.---, --:--.F'0~~...--:-~--1-~.;-e:-c;ici:11;1t1-1---*--~-r-i-----*----, ---*--i----**- ----.

~'.. *n-/v... -,,, -'-'v" -*-v/
' - I i
.~
i
..-;---"7;/~"h~~
I
~
I '
S/--*r5a A 'ol
/
fs:7°:'"""7rH
_. _ _i_ __. ___ j___
__ I ___, ____, _______ J ___ i _______ I -~-~-
~v _J _
~-~y~ c_~_-5;ff.37d5"6'6'c-.5 ___ '_
' -h-1.f/-'o/ _c_~_~?~6.2;?8'C-~-
~.,,:3-3~7 ------------ --- --
~A ;<. '7."Yc ~ _ _ __ _ __
__ 4:,-"'"' :::= -~J5.2e-:-~_* _
_ lb ::: /.67,#?6 e---5'" _ _
__ _ Uk:: f..S'f'~_e--:::c _________ *-- ______ __ __a,,,::_ L &J&&ec:.-5". __
£f-e = f: &1?~.c-~
- /?~-= _;_ 'l'c-?!.
,K,-Fs,.,. _ c ~ /,5'?,t<.3rr'.ze-~
f?,-;.?/.,,~;?7tY3JC-::> _
.£-/11 -:o-3-Gb.35;?C-if _
__ jJ-* = £. 6-?-'~?? e~3 ___.
~.:: t{_.2'.e-::;. -
..4-<== I 16f'~cc &-2
/J.m:= ~
?f6?5$-~
Pw~ <' ~/55?37e-~
-:ES_ C~8..:f"~/S.<t:c-~
~b:;: :J.::? '9~~- -
. JJ~,;;;. ~t:t/'16-~
fl,,,,,_=-
?l-~4.fi'E-~ _
af__~ ~ 3, 5&:/75 c~_/f__
~re-il-396C*-b f?we>;:: 3.q.?f/C-6
_ P~ ::=- ?- 3'757~s
££ye-:; 1-36'5'.:<C-5 a~ = s: ~8?sc-~
- Xe-O"J.....,
c-~.5..-~'7-&.:/.z~-s
~c-;../.&ifJ4E-f"
--- iJ:F. =_3-~.3_f'/3~.y_ -
- ~
...:: 3.-~5/f?-f/_
12-K = /. ?7:?r5c-~
1~== 3,.5f"//;zC-9'_
J?,_;t<-;,;?. 5~9?? E-1(
x'e-03 C= tS?..Pj/?c--3 __
ffe,#:::=_~7~6'.YC.""::"-!. --- ----.
Jkv,,==-tf: 70<.5&5"6 C -3 iJJs =_/_6"757.21'.E-:.2
_,/lb'f==-)_5~7..?~3C-,Z
&==.?- ~:5-?566'-:Z
~Ye= /,.2 r/,,2$3£-:-,2 _
__ k-/J?~- C:= V7~1'7E-S M#== /..6-°"n9/r,!?C-.Z t?,,IJIG::=-/-
0 7..5&?.:Z63.:;--.2
~:;:.,.&2<P..Z/66 ib,,,, ;:;- /..&'1'5</?7.2£-2 i1-t = 3,s/s~rt'c--.z UrF-== ::?.3-7-3/~/E-2 Jl.,_,c,1-::. ~6Li'J£~/c-2
.5 v-"'r~..,., ~&4"56?r S/;-'/lfa;.,'-.- =,,~2C6//
5M'lp5 :=.. -1;.{f:!;J :2 2 Sc';#-1,lUJ.:
.1 0/!"?4'73 5v~M.5-;f:::: /,. ;:! tb 3 7 3 '/
_ >~7'c-y17=.~6.J-7"e6
.Sv',,..,w/==-, G'-VN 94.::r
<,-~? _<-=_/./?Y8/2-~-:_"f_ __
4-,a :::. ;:?. 48;7:7.Sb'-'c:-2 llv.~ =.?. 4f7i75fc--2
,/{_45== ;3,t:>2t!J..l31e-2_
~
= :z,.t.f5f
.?~c--2 fk-= _g 85~35Yc-;z
_ B"'"'-b?-5&Dg.6c-3-. ________ :-- _
-,f}~,.;-:::- "/, 11'11"'116-76:~ ;z_ -
a~;-;; ;:z. S&'.l.5.ff'E-2 fr--#JJ C-o:..3.'?56J1'E-~
ij#=-
,./...<S_"?5~/
tJ-.n;~,//Etf2.fl:2
ai~== * /:J~/,5'.;:c;
~A
.-;:;., //
~G.2#.:< __ _
iJf< ::::-
I /?G,:Z~.58 Pe~?, 15.2 5.3N
'iV!J::, /:Z/67 5}
k~
C--:----.:l,;?,/.57?Z-'?
_.x'e -/?5,,., c =J,;lftl?c;i..Y?c-.S ttk:f/c = 2. 6'<J//&'/2 ~-~
£/,6S ~ 3, 7-'3"7~,#C-;3
_ ~M=3,lff6:6~efc-3 _
,.£];< ::: fir 1"'~~ <7-rr (!.*--= 3 _
'J;z u-
_ :~v-_J.,.7?7'5Ef'c-'"> _
_ a,,::31 &/'lfc!91E-3
~.:-!ff; C:=-.?,.:5?..z-2B?c-"/ ___ _
4."'c:. f.32J.5.Zlc-fa as.= /_ 5~1f5?7c-2
_£)~:: /,t://&7"8.ZC-:-.2 41( ~--2_9;?_9J.2.l._C-,,2 -
~ye:-=/, :Z;?#.S.Z?'G-2 t?v-6 = /, 6'.?S !)61 t£-;z Xe-r.3'?" C=- ~ 3.!?36:zp e--B
\\
~,~~r7S~j?-'.:t::1f5 I
.1.
1,;~3/?I c::. 5., ?54/..?.7?£-..S
~=3.37c ~=z.//c-7
&= ~/6/c-~
art=-
~/6/.E-d' u~=- ;( ?/E-r
?-R5,,,, C :=.,,t/.Y.:?~&'c--r
~
-f_. 4-'? ?-'57' e--3
~Ml=~ 3. ~lj,f. 7-5C-3 h& :: 7..e937??'7c-3
~-::: 6.S~,;<5,?c-3 Osr.:: /.....? 1(3/.tf/.7 c-:2' aTG-=:.5.tSJf /551.5£-9 j)1115= 9-4/6#/'7Y.c-=--:.
.-j?.s C *~ f./?.3.Y..Y.sc-6'
~vu-: "'3, _"'>J 7e-(;{
a$= 5,./e-6 PJ~ =-
4':."f"?c-.::'
.::.,/{": 3,f~b'7~E-~
~~
~gs-~c-~
,f}Jl/_,,g....3.. 7?'.2~-6'
..-$? c~ /. ?7t!V.5.3~c-9"
£?,,, =.2.3f'7~f'6CF-;z il.,,,,,,,.:=. 2377'Y7'&d:--2
£,. = 2. '70&< "iZ?C---Z i.?.,,., ~.Z.5?/.-<4'5C-.2 Jk- = #-56:f'/-f'?c-..z
~r.,,=-..:f..d-<?JZPC-Z Pwtt =,,;?_ ~/..,(' # 35E-z.
(,-fftf' C. =-3.8/?,,<.3/e-.!/
£f-,p =, /3 & ;:?/f'.5
Pa;_,,,,=
t /2..373&6 t2M" = * /3 73//I
~,,, ;:. * /.z.;3 ;:l.5lP6
& = * /jf.=?!£)8/:5" ibl'tf =. /:5ff<'r9',:9;-
~
= * /.2641/£?
K,.,1 C -.9'.C'1'5(9 /// c-#
,,(e-0-4t C-:=. 5-372.Z~/c-?.
~.::~g195e-6
& = /..76'1'.56"-5
~= /./tSJS&'c-5
'iJR=,R._/7&3c-::5 '
~..1&= /..1/4/Ec-5 z_~-= ~/P.:zc-~
~-03.....,. C=S:$95?86C-5
~v,u; = ;7_7 7/f'?C-9' IJJ.? =
~;:2;? ;z.2?tc---{/
1]>,, = 3_ VJ:'5<ffC-"Y 4;~ = l-15.52.f?C.;.~
j.:1:-1-tS -= 3-763' c-- 7' ag= 2 ?635/6-¥
~-//3 C-= /- Z?P8.;?c-3 4# -=- l-6.7?.J 7'ij£-c?
iJv<G =- ?- 3.p.s/,7'/c-~
n5 =- l-#"9"#1/.23 £-Z
.tl#,,,;.
/-6,P-~..5/;.?c-z
./&K "' _2_f';:<_/7J'4'.C-Z
~Yb= /- e/~?2/3_> 6- °?
W6 " f..*3g319g3c-- 3 x<!"'.' --/s;-- c-;. /-tf"157eJtf<'?<?cr-s iJ.l/.vG "'"/.tlf t5? 5565 E ~
!J5s ~..2.//&J~PJC-3 t;?;,., ::;:: /., f'?,2 tf/ ~[-3
,,a*:: 252.Y/?j?c-*-3 i/el'c--=-.Z 03/6SE.3 j}JV.<'f = /. rd?6t¥6 E-.3 Xe-e.s C=.27'..<~&4' J?v-Rc== I- ~7.:<
3.tf:-Z 45:: /. £26,.3 ?',,:!f"[-.Z
~
= /.S,;,:rRJ;2c--2
& = 2- ~,G3f°7c-Z Jk~ = /- 336.' ?'J#C-2
)J,y,,1 = /-/,?//?re-2
.k'e--U;7 c -=--3. ~.Z.23?E-P
-~
- i.-
S:leei~ 60 A'ev (')
"i"
~-/JR C==- 3.6t!C1?.R~.3c--.5
.t.f#-::: tfl. j?f.,,;?/-f".YE-.iil
~J/G:;: ft '7,?'f'./?JC-3
£- =,;: t9#J~*lf>,!?£-;z.
~
==
7?'#'~/fi"/1'[-J; 4 = /. R/~.39&' c>-z u~ = /-.2 ?.-?&*612~2
,t?Pe!-;: r..&25<7#.Yc--3 5i.1'!r# -::,, ?.!? 3/t!P.S
~v/#!LJ.Alc; ;; ** 6{J)C~9 5t-MLL~--"=. f81!?38
Jr;,',f/$,"'/:.. cf/175':13
511"1.?J.' =,I,~~ 5827 5tt!~£f'E= /,//.J,283
...sv/lfw.& =..,#',< ;zs/,!-<
1
.t::~-/r,,,,,~-7/-v,1?&1-:-P/-
-:--.1,-_ [---1-*iF~d~J-jk~{i_;S_:-~c-:-i---i----*;-*-:---i--1-r-: ---j*--1--*1
-II
!5,{~ ~) 4~-~
~
___ : __ !__ _____ _l ___ L*-
'~/~,;11'/l;t
~
I I
I
~.
(1

_:.-£;7.A _ c_":_...?;5&_3.Lt'tf'"c:-:$_ *--* ____ Xe-:-/3/~. c._~$6-.1".-Y.5J.~~-c *----'--- __ _ )(.c::,_-/..JB. _ C_;,/,ff..?-1?4.::".c-s ___.
-&s.. -=..3~.2Y£-:-Z _____ ____, _______ ~u,;;_ ~/ilC-~------- ______ ___ '_/:f#.~-- ~$&'/?4:!7£--5 __ _
__ 'G,,,_::._:?-~7.?;-z_ ____ ____ ' _
____ a;:=_/,.,,.<?.?£<::~
... £. ______________ : ____ :_/Jv.1~ -=-_ ~#'-f/.P-~.$.57C-.3. ____ _
___ jJ;>L= f'.£-ZZ.kP ------*-*- ___ f?M..~d-/7-S5E-/_ __ _______ __
_ a>.=_S:S?~:?./'?e:::3 _
____ f?en;~_R.F?' Z~~ ______________ -~
,ff~ #Y6' ~:-2 ___. __ __ _____ __ _ ~ t-~ - 5, OlC?.Y.fP.2 e-..3 _
-- _a,&-; __ /,~5£.:-?_ _______ : ____ : __ --* _P..vrF"' /__633.§c-..$".
J'k-.:::0_ ?-6$.t!~/E-:3 k-:-fi-5,m_ c;: =:-/~/&3??Z-.t/
..??..,""' = c;:.5E5 c-?._
ikn.-~ 6',53£9~3'?c-"">
,a-,.,,.=. ~ 5 9'?..?.29 C-3
_ IZ,t/6-=:. 3. L/~1177'.ff'c-3 __
___ ____ _.k.....,.,ry3..,,
C~£,///'7?t"'E-:S.
4vc: = 2. <'/'5-J?/.?<!="--~
I
..0..,,,,;.4~..:/..~Jff/~/!'c-3 *
---'-~--~-: :7-261/f.$$°/C-:.J _ _
~-~l_f..~?&fr1L.-:1!.. ___._:_ - - ----- - --
Pd,,_=_~1~-l1J1".C:-J _____________ __,t;4_=_ ~/&/~/1lc;-~--
1 ~PAf.r#' :-:=- '_, }!5'.6_3£'d<J _
ik =_ /.-..27.2.,2¥':?C-z P~ =-..ZIJ?r/57E<t' 4Yc= 5. ;z/6!C6 ~"Y-.
f/cw=- 4'!/1'.!?7[-:-~
£iv,,:-:-
~.:$,.,....,&:/£VE--~
JJe-=- ~- f';< f,5',"7C-¥ _
t{;_-gs C-:- ~tf-"f,?.;V?c-6'
_ *---*.re>-13'~. -~*~,tffd'.5/S/c-3:
_ ~4/'C::: J.rb/~-~-6
.. J.?#-~.~/~/..5?3£-z __ _
P.t¥=
5. 'Y.LJc~~-- _... _
~i£-.:; _7. 8S2?3/6f-:3.
~,:;; /f- ?5~E_-t?
-=- /-T/:z 7£5£-:.2..
1f_///5.f/~,Y Jk"°. /,,f?t$-"t<?l//3L--::_z._
5?/'/C-t4~ =: _. t'6!7,,lfCJ_
.5~;,/85 -::: /,//7/3/
lsv~fi-':'..:: ~K?8/tf?S8

.?~~1§.t = h ~7flE..>f --.

_______ :_S.V'."f E/'c_-=_ ~
3.:5-:Z~ 7/ _..
7C{.1'J((// ::: /, ~~
6'-3:%;' :_
~-/6/_E-f_
_A.= 3_/&f?f'3~e_-2 _. _ __
12:1 = /ltNV:e,: _.... ___________ ---* !/'~= /e'/f.!f%tffl..5.c-z
/;/-_ -R.7... ;?~/
.. 4f"p#.Jfi'~-:."/. ________
. --~__;J~_g YD..:£$.7:_C:-_:-::.3 ____________, ___. ___ : __
-- e-,.::. 2- ;:?~ ?& 1'8 E--.Z ----- - --.
~-/.35n,.. c;::;. 7,',/ :55/.77c:--~;
Pd/,vs=;::?-?-? ~tSf'.8~z _ _ ____ _
~v//t'._= 8-?tr<Sf"ef/.c-~-
J~ =_,&:.z.?.6,,3-r#
l&.:s -~.L./'1'.~)zC.f'~-:::3 __..
Um_:::_.Z38b~&~~-z___ _______ _ _
i~-==_ /.P!l:Zt:rt!JC~-,:3- ____________________________ _
A--<=
7-,.53-?(~E--:Z._.: ________.. __
/d:L= /,, __ 3$°~~.Z/6-=3 ___._, ____ -----*--* ________.. ---*-
-~~f'c_::_ _l6.2t'.~7.f~£-?... ___,_: _______ z,Jr'&.~j./S~~/..<~=~ ____ ; ___ ---:---- ________ *- __ -----**- ________
1
-. 0-'.d =- z :z3f..4.r.Yc=~ ____ -----* ____
_a,4-::._.7..2$J~.2e-. ~ ___________ _
/;r-8# C*=::J..]£(_7..f&'.3¢--=-.y _____
___ J<C-/3s* __ C~..?..8/4?f7/fSC~'f". _
U# =
I /3~'/g<"E.? --
a~6==,/.23..:!&,'15 t:-a =,_)3;z_.z7~-r....
/4J-"J :::_, _
_!_:?.J..Zt;?/S
~"' -=----1 /b~Jr!X383 --
~l'F= 1 /5°.ff'f///r
..s'"°, /..Zr;_Jg'~,P
f/'_

-gf' < = 354'-<2/(.-;7[-A:l.
Av('c -=:__1:&/4'53J.-r... __
£?~-=- /,tf r~~f.?c-2,__ ---
4sA =j, 5 f.J.:5'/f/E-:2
__ n~== Y- "-'~Jf.1'7..YE-2._ -
. tbrt =:_.? 38?7'7-'tJE'-.7
_ //];~ ~ /, /tf't'.3 r 7 E-.2 _
y~ -r3r C.*-=-233,z25..te:..--=-/f!C_
--, -Fjl *. 1t -
V?"""
""'"/
-;-r--
11 ___
1' -. Fn~~
.. ; --1"S>:l,:£i~'"l'Y--1-*1*- -*1*---1, ___ Jl--.-,-,---i--~I ---.-I - s;f~ ;;-T..(?eFt?- ----
I I
V&L I
I I
I I
I I
J
.,,??/,.,
H I
I I
I I
t/-6°3P? C-;_5,,/$.3Pt'!c-5 __ __:
__ Xe-/Jldl
~ - --- ---*. -----
_____ ] --
.. /e7..51f. c::~V;zce:-c __
fl-.17;::....?. 3$'7't:J'f? ~-3 4ts-~.J,/...?e-?_:_ -.
~~-..z_ ?2c-?-_
IJ;5==_ 1-371'c-s *____ _
__.fk-~:=_.::<,938:83'-?e-~
______ /2s,<- __ : __,;f__'f7Je-~------

~*----- ______ fb.'.L~2Z~'lff~$_ __________________ jJ?~ __ =:_;z,_2'-if.'?.~_~- ____ _

__ _ __ UK.~_ Y: &.:::; -;z;e::-s _
~
-=,z...SS/.7J-7c-.3 _
_ Pere*::: ~: 1//5 '1:-tf __
~ -
""~ -
/,]~ e-7.
_ Pr.Ye=-_ /..£?<'-/?'c-5__
. _ /J-< _= ef/...8~~,41?/c-3 __
,k';-B;'Pt C=-/,~~YS<?.<E~~ _
__ VAA'.,_ _t{.~~~E=-~---
__ Ur~= 3,,,.;;::~&f~I c--.3 Pr-9'-:: "1.611'/69~-3 Xe-OJ,,-, C,= 6;J~.Nf?75'c-.5
__ /J;5~,z.327f7~c:-3 t?u,_,vi;"" 3._'l#76'~2E-~ _
_ _/la,.1/11 =-..:z9'7':£:r7t::-11
--- ____ t?,fi?._= _"Z-.2d2~.?~ff C::-,.-3 --- --*-
_____ fJJ?..~_l/.,1{_.t/.3_3k_-:_'f(_ ____ --- ---* ---- --
~..,-= ~- r:/'.F.5.6&--:-..3 _
__ kt/!~ -~-:?~.?~.:<£-4_ _
_5~?!7',(7= /,/;z36Jcf93 tk-<: =../.:.:?~/fre-:2
__. ___ t;,_=-2/.if'-77/E-~-
. ________..s2'.~.tt:t1c,,./,/~?/~.&'
\\
.I~:'* :=__$,..2/1"..Y.c-5e~
afi-=-
~-5::ZJ7"..:z7c-...?
h--b".5 c - :?. ~67>::?3?,C.-_£"
4.v/c_=._~J//E;,.tt' __ _
'41s* = _:-5.,t/-3 /"E-:6... _ _
/bNT ~ _//: ~9.J ifF-tG
.Y,..:l r.5?'f'E-~
_ 1! £ffl!!- ~ --
'.£-1-Ye-:::..5._ ;3~:;::z,t:-_&:' _
J::?t!f_ ~- //:.//3c=:-~
/(/- ? - c ~
/._~??fiif/.:<'C,"-_1/_
4# =-.Z..92/~/Ge-z
.f?v.. v -:,<.. 6?.Z / '1//"1 £- 2
_ ~.:; ;;_ 21'5<'/d?;z~E-.z
./6,., =..?-/~~/&JC-.z
&=,.@7.Z/8?9 a~::.<, <!Y?.2. 6".5JE-Z.
.</ -'5'11 C ~ 3.?'~..S/r~c- ~
q,, =. /-< i' 1/_"3t:{ 2
.t-2o1¥' "° I /2 &_.Sf(:;'?
0#.!7 :::
l
/ J -r 3 rt.r3 _
~
~ _!/,,;:u:11.sf'.4 r-u~ -
I
/??'/~fi'"f'
.,f~-&-= ' /6"5t!Pb:i.s 1 /237/.f-'7
):j -#
_f~ c :-.-- l :> Y-5 f.2/G-/;I
--&c=... 1'-.*~~~A':<e-f
____ j)/ld~ 3~0541.t"E~'/' __
SMJ.85 :::- i f/ KJ ~
~:.3 S;~(.S.Alf; /,.;?tf'f38Z
___ _,(_'~CV c:;__.~/,B6825'.5'5e-.3 __
5,:,'1f.5-,f=,,2,.3&817...>
_ ____ f7.-,r_:_/_.zK~2/g?e-z____ _ __ __ _ __ ____ $-)l/~!f!'~_/,.5CiS!6/6 ___ _
_ J2,p,;~cfo',.15f/~3'c::-3 _

~ -= -* 6/_~&:3,#/f - -

_______ ;,k ~--02/0'CY-8
_ il-K_=-_ 3..Z.2$373E_-2 ---- *-- ---- --- -
_Jl,,&=
/,.5~66/8..zc--.z.
-h<l?J9'~3~£~._ __

---- - --* ---
... ___ Ke-G.5;.,,, Ci-..:£S5S'lE-6' ________ _
. _ _ £],,_,/~ =- ~
6 J:'.5.SEc -~-. __.. ___ _
____ ___ j},.~-: -=__ __ _£,f5.'f3~/E-~
. - - - ;;g,, "=- ~
6..s;g 71 C--P'.
~"' = '?-.:Zq'6'69'E-'?
-- tlo11.:s=. ~~?.55'7~-1",
/<e-os C=2.8r~~.3'?6=-~
4vs =-/..&.?7f"'GH';rE-2
/Js== /-?3ti?6?<)'~-2 JJ,,,-= /,i/',;?58'&8C-~
£k_== __ 3,Ltf'SPEPE-:Z.
fi'/c -=/,.Y//t:P71IC-:Z Vw& =-,,.? /.f'.3c? 7~ e;-2 Xe -/Jr C=£'1{'.:z?875c-//
I
--~------ ----
-~ *-
F'0.59 f'r -$_,,,~ L =
~8/lf'3ff;;zE-5
=" ;<. ~.2' E- '?
9':
,,2, 55-'?
£1,t, = 7.#krE-~
5)_ = 7, #671£-6' Z.-ct'.t t'J,.a=- /r ~ f"'e-?
/ £..5/Yl C=/,c/?&'31-P
,?,-,,,.

::, 4lt514'"'5°...3 ??
~,;,;. S,93.Y~"'?$E-3
~s-= 7://39.3¥E-3
~
.=- 6,65,f?~JE-3 t_}.{'=, liJ/2.5&::Z.Y z.,-~= 5,/~5/2E-¢ Ur.er= //. 'i/633.:? ?c-3
..-ES c~ 1.~?/?$;t*7c-s tl..u.

. -=* ¥. ¥!1..t c--6' t--iJ.s =
.5, 7 g5e::--~
~t>> r/e-~
~_, *::. ~
3#S~fl.#G ¥-
,~._ =
~JB'.5'?'?Be--r
~:: 5,.519.Se:--~
VIA/8 =- 11, _3.!?:< c--6
~ -$;r c = /,3/6°3-f'J7e-~
t}-,y= /, 8/Qf'..:5"256-.::?
~'l.v.,v.;::. /.$&f.5;;!5E-;;?
/lt:;=,,2,/?/E'.3/-:Z tJw, ::: /, v? &'/It-:2.
a.t'::: 6-4~;:?2;J.<f'c-:Z
~l'E:::
3, ~8~.JA~e-~
t--tr~~ lrff/f.5,#'..5.E~:z --- -
.i. lf-i :l::lt~..s -> / ;z & ~;,
Xe-/31/~ C-=.5:.f'~Y'.5({'.<c:-6'
/')
-:: 5,.Y5C E-6' V.{v.Vt:
Ch-=
/,.3~Jc~
J~ = /..z.J..Yd'c-5 Vs.e-.:::
~,2 7/~/E-5 l"J = /. tt'..36.:?E-5 V.CYe
£(.;4 :: 7.C;ltf.'e-h' Xe -/..J"-3,,., C;; ~~4"Y1S??E-.s u.,.-...;= 2,55;?:2 ?c-9' z:k-: 4/, ?!'f"E?77~-~
t'l:ur =- ~
.3 f":Z ff '7 e -.y RS<::-
Z,,./f?~.Yf"c-9' f

b-e '= 'I,. ~5/;5'~~6'- 4' a,f.:: 3,./tJ>#.-,._;:c-f'
/e-L33 C= /,..8f'~6'7.5E-3 Pn-== /,;235:Z9SC-.:Z a.".= J?.. 3.5/ 66' c-~
fb*= ;?,~g:r'f/?IE-.2
~
= /, f'/9'rcP<-"e-:z Q,~:: 3,34'6"&/65E-.2
~
6)/.5&'3'76' PIY~=
.. /9/ttl.57~'6 k-/3,5,. C,_= 2-6.:Z/#3.:?C-6',
/Ju-,.~=..<' *.Yi?6 ~C-.Y
!?AS=-
3~ /5..5,6'/ C-9'
____ a,,:::,,:<. 94"7-e'?rc-4'
---~K =- _3, °?7.!/'.56' -f"

- __ £)~-= 3,/,!i??.#'.5 C.-"i'

... t1rtJ":::..z $5,ZtPp&-.y
-8$C =
3..S27"&Z.~J~-!L ___.. __ _ _ _ _ J/e-::-135.c=- 2.fi6.:<&.26c=.--r.
/., -
v?-,; -
, /;? J/;i!.33.
jlUM/l., //65/53 as= "/.2f.F7.RC' Jl.M = * //6'51.53
"'1s1t = tiJ 173/v/I?
r
, /f"f '5'/~6
~ //f.5;2;tg C:: 5,;l66+'5E-'S
___________.. _______ _ /Lu_-=.. /, &18/(5'$3.E-Z_..
.... VA3 = /, 7?'/P9',,2 c-:z
_ a,,,:::: /..6363'7.?c-::z.
_ 'fl.SK;:;_ J./6(;' <Y6b C.~.2
V.trE= /. 9'?.5.Y..<.5.e-.:z aa_= /,,2~(f(,!5'93C-;z
~
~/3f! __ C= /,/,?:Z~?e-/,z Sl11eer 13 A'ev (J Xe-136' c = ~¢5".3?..?6e-~.
a,,.~ _6!t;/1.;//3 t?wc,-=- /,'2t!9/&f/f'/E-3
~-= /,,.31?/4/8/t!';-3
~,,;. /, 26/&9#~-.:r J/ =,;<,-$/_23'f'6t£-3
~..>..C
't};t7 /,.&2/6~3C-.3 f1Jo'.:i; /, /.:?t1>6~E-3 5u)#! r"# :::: /~;?B:z.;z.56
.5V'/11t:.V.'V6 :..- l.36?b.568 Sv'""185 = /,ttQ?¥;?,27 sv/lf c'1A :-/,*~f/~"f/7;?
SJl',#1.Sk = ;2, °1'.2? 55 sc-:-nEYE-::: /,,. ???d!'1'5 5c/Ml/V'IJ-= /. 3?/8#'.39'~
Jr -ti'_,,,~ C:: 1', M"~
/.5/E-.5
'S = ;z_ ?C-7'
~= 2-3&:c-7
£11{:. 7. Zf?,;lc-tf"
'1?
= -?.2R9'E-6' Z-;o'.t r-
,

;,.,.41-;:. /.f;ZC-7' A; t;f...5P1 C-= /,577&0E-1'1
-;.#

:: ~ '}//;/6?.5'l9C-3 I j J,,f?4/,8~6E-3
"'.tvV.:
v).s-= t(. f56'33E-3
~;
~S/.3;;zt:3c-.J tlr.t= /.22,t?r~..Ze-2 z.,,~= 5,0.J.J..<5Ec-'f"
~
~3~'57&/E-3
)..-;,-~s c~ /. &3/,5?53c-s ilr<J.::= << &* '? j' c -e:-
1--~.s =
5.9P3E-t:5-
~., *.:: 5,,/.Jd° E-6'"
= 41. l/S~ ?.5c--/
= 5,5:1Sc-6
~
'j}WJ=- 7..3'7.Ye-tt' j(,1 -$~ C = /,/~3?ef'?E-~
4-tf' = /.t5 tr 5 3~
2. C-:Z F-.
.: /, ~&753~;2C-::Z vt;,;,q,;
tlt:;.=:. ;, ~<Y fJ 9'15~ e-2
&: /. r.7&J267E-2
/) = 5, 7~3//5£-;z.
°Vs-It' folE==
3.&f'._~fi'/SE-2..
0 "'"-:= /, £/~.z.f!6c-.:z __
k°'t' -8#C. = 3.35f'77~C-~---*
th=
I //?#.255.
/?w-vl r ///5&1/8
,7e<s=,
/,24".2~.:Z;l J),f!H ~, ///5.R/#
/.J;; = * /65£56',2 Xt?-J.31~_,, C== ~.1/.3/&tf"~c--6
£?U4<!"~.5.5r?l#C-C Cb~ /,3ffC:4"c-5 t~ = /,.;?7.5#C-.5
,,7 = P,t112.Be-5 vs.e a = /..,.{t:'J,ff'C-5 oc-Ye
/;(.;/ ~/~S.c~-6 Xe -1.;ry,,., c::::. ~5.z?~<<-.s Uv,...;=,,.Z.S$'5"7?.8E-~
z.k= +1-t?///~c--'Y t'l:ur-:;. '7:- ~5&'6$C-'l' R.k-: 2.2,25"39C-~
~E= ~ 5/t.tr?3 -re--~
a,f:: 3./'715,.Zc-~
~-1-33 C= /,//76"tP8E-:3 fln-= /,;<of/..2.:Z/c-.z
£1,M~= i?...t/?Rf'..?8c--.3 fb*=,2,//f31<3c-;2
~=
/,YLL-"?7.63E-.z fl.,~= 3,. 35~!1.5/C-.2.
fJe-n?,, & 16'KJ rhl p,.,, =,,1, 41 ? 5 RfJf?c:' c-.:2 k.-/.3S,. C-= /,34??.37c~6 l/u,,tJt:== /..:.7<7G<Ptflc-.Y p.A$=- * /,ff';??75c--<Y
£b,, = /.. 5.:2359E-.y
. _ aK = /, f'//95..J'C-=-.y
/)~-::: /, 6 ~ ;zs3 E-f"
. -a.:,-= /. 3/f3?.f?C-f/
. k~/35 C: ;<.£:.;6-r6'?'E-1'1
-./kt.~= /,t!>7~.Z32<E-;2_
v~ = /,. 737?~,c-.2.
ijµ, = /, ~.3;? t/' Be-2
'/J$K:; _ _3;/,5f,,Zf/b-.2.
,V£Y£-= ~1";?.2&16SE-;z aa= /,lf-'/:22E-2 Xe,-131 C= ?..6'tf6<7f'6C-/~
1,;.1-,~~=-,.,._-'I, "'"'.,,;, '"'
5/J,qer £'1 Rev CJ X'e-13 c =2/r-/s.s6c-6 a,,.-== 5,.5,#'6'.5/c-~
~;; s.,88//f"c-4'
~-= 6,?6';2/t.ft5-~
tfM;. ~,./7,Z9C-~
Vs..<= /,/?.5f'~/E-3
!kt7 ?:J's?!6-;zE-.Y-P.v.:r;;.5,.1f132;2 ?E-~
5 WI'! -r,tl ::: /JI 33* tf'"7 r Sv~Lt1AJ<t; = /, ~.S.:ft~:ZI 5u}-"185;;; /,. ?:'~C/3
..5c//ff.L!ftt -:::: ~ 62 l~Ef' 5vlJ1.:ii:: ;2, 1.Jk2/.Z8 5t-:,.1-1EYE:=,;Z,1!)~5C//
5v'M,,V B -= /,,5"t{/ ?eflff'
Fo:sg.
Jr -~~ C::: ~
<PR.J.2~/E-5
=
..Z~Y'E-7
-:: ;?_/?c-?
--!2tt:: 6. ?&SE-6' tJc,-,,= £. ?t!P.SE-6 i},,.cJ::../...y E- ;;i:
~ £..5P1 C-= ~S3..2b8'E--r
.;.# = //,3/y.Z5C

-3
~.::.:;. 3-74139'{/"f/C-3 i.)s-:: t,{,.7~#/?Y'c-=--_?
~-=- ~,335,,z7{/E-.3 t}A:= /, /7.5/#~C-.Z v~= ~tfff5t:PCE-¥
~
~
2.Ytf"..37~6-3 A."r-8'S c~ /,&-Jl/,<6<9'c:-s tl..u.;-= //./:?.5c-6' f;'1J~ = s. 7'?18'c-6
~4' *.:: 5,.:< 13 E-6
= "l.~tf>9~7-e-~
-#'/<=-~
~-
,;;gcw
~=- ~ ~.z3~--c
{',1 *$7 c:: /,~,,2&/;z@6C- ¥ tf,y = /. 4//S73JC"-2
£1,.,.,.; = /. ~/S?
J3'E-:Z.
/2r:;:::. /. r/tf??53E-:z
~:: /-S/?.Pt5"7e-.z a.e== 5. ~55'J&Ee-:i _
j;.(;iJ!]f~5 -7 61P -o/r~
Xe-/31.-11 C := ~tf??.56#c-6 t?u.v""" 5..6&19'£-~
fb-::- /. ~6'&/lc-~
Vµ = /..2R8rt!---s
£1,g ~ 1:. S.2 3.;Z e-5 at'e= /,,t{,5tP6~5 a.ti= 7,.217.:!'-6 Xe-/..73....., C:::: 6..:57~:z-re--§ Uv,,..;=,:Z,6tl:IG3..ZC~
~= ~9~7'3.2.C--.Y tlu,;. 41, +'&'tt: L:--..y
,p~:::- 2. ;z~ 3E-~
Ck-e= ~S1"6/6'c:..~
ad-; 3./7tP/6c--~
~
-133 C= ~ 735'4:'~..<E-j 11,..,=
/;26~52::Z. c-:z
/J.M,_: fi:56..2't!U?46"-3 fb*=.2. /.Y&t!?$?c-:z
~:: /.,, f°£3&9.&C-.:2.
n,x=.3 *.3897?/le--:z 1b.r./. 623.37~e--:z PIY§~ /.($?~63.Sf'E-2
~-/3S..-. C.:tr;g7'~.3tP~Z:..?
t'1.1..,; = £.3~//t::f"-5 PAS=- B 3'5' /.Z. e:--s
~- !J,,, = 7, $/56 c-s
-- -- ~;(' ~ /. &&&:~.5-.Y
.a=-~==.z, 7,319/3/e-:z __
__________ __ /)~= R,<?....S-/...Sc-.s
£)"'~-:: ~'/123~*&...?E-;;z__ _
... _________ ~= £,76'/efC-:5.
- -!]# C = 3./8f~f!.~&~_-_______________ ~-

-135 C=-2,R.K..Jt5'/.S?c--¢ t-h,::;,/)2d?7?
---. --- ----- --- ____ Jlu~=_/.4J?Zi?5~2t!:-2c.
n;
~=;.~~~~
vu-~ "/tPtffd>.587' v~
t-'?:ts=.. //R/?r~
. _____ iiM= /-#/'SttftffC-:-.Z VJ!lir = p
/,£~~.:589 fl~K:; - "tX:Jl.);}91
/J;K=.,/.57.5~f9
___ -Vu-.E=
/.~/&'~11/&;z
!Ava_= /,/#-.G'~f~c-2
, l<PB#t!?/I Xe-

:/31..C= 5,:Zl>!~J;zJ?c--/.s C:: ?. :J.3.5-<3E-/#
S.lieer ~.5
.Ri!'Y' o Xe-1.Je c.=t~.51"/33~-t:f' a,,.=,;z,?/$38e-~
/lwc,;.2, 8t:f / 7S C-~
~-= 3,.21'6'~.5i:--¥ n
.::..3 -~~.3 r-2 e-9' 1-'tl'f r, = 5, ?.22/C-~
'-S..C fl.r7 3,Btt:.<5.2c-'f'
/1..-a;.2-7f/ef!~.5 E-~
5~7"# ;: /,5??/65
,5tl,4f &.t:V' 6 : ),/ 49;? t/b f 5V.A1B.S::: /, f?~S.2~
,5t;~B.4'! = /,. ?85?.25 5c-~1?.5.< := 3,2/t' 6"?S
-5 i//J:f&YE =.2, 2 tP /lY~C 5 r/.Mflll'iJ = ~ 6.58/?'?
f;- -f,,?,m C = 3,74/St!f'.2?E-S
.Jis =- 2;?&76-7
~:=
/, ?fc-;z Utt~ tf./S?;IE-d' lJ:-Y.t= ff'_ /54c-~
~:.a::. /. 2ef? c - 7
_k/ £..5P1 C-= /.f/'83;7.Y?E-Lf/
J-;.,;.. = "/,/8'53'lE-.3
~.::.=. 3,6;?;-::Z~,.??~3
~s-= t/,.5.5b?~,?~c=-3
~~
'5,/38~~.,,,c-3 t}.t= /,/58/411'6-?-
i,,~= ~ *:;zr;y_:sc:--r
~
4'://~?/7.E-3 A;.-f?s c~ /,tV"/7.s7ec--5 tlM().:.-= f. /.S.J[-G
"'~.s = _5_. ?~..Z c-b"
~.,. *:; 5..2 5.2 e--c
, *= o/.59'286c-4'
~= S,,?-6',<E-~
P~-=- -1.. ~55Z-6
.t... -$T C=8f70!/6:J..2E-s t:f1 = /..71i?/6758E-;z
£--'4.-;q~ = /. 2-;/e:/a:SEE-.z.
tJr'-'= /. S/&3.33t:-2
~:
/,333/&>SE-2 a.e- = ~ ~¢.2,_i:'~~-2 f'r-~=,t:?;2.3'fj'<ff(~
o~~~ /,,2 5Q-'97'f'c--2_ ____ _
(,.. -8# C = 3,.(}/yf/f'GC.-~---**-**-----*
t-i :=:
/t5'6.2::Z.53 -. -.. -
/?u-l, / 0&5.:Z<7//
t?ers=. //2 &/tI/2 J),61r = ~ /47&5...<'4'/
uu =.. /1113~~7 j/'"',;r;;:=
~ /.;?f~.533
-::: "/&3/,c3:z
)('/. C::_,<. ?_...<5J09'E-/&-
Xe-/31,11 C =£,/&.5/.r:SE-6.
t?uw.:--.5; 63 7c-~
{b-~ /,.P-tf'5?c-s J,~ =
~.Zf?"b..3 E-5 v~= /, 57:?..5c-5 t'J = /..&ff&..5C-S V.cl"e a.ti= 7.;?6"c-c:
Xe -/J-3.nr C; £, S-8745'5C-5
/Av-.ff..;?,6/755C-</
~-=,Y,ff?<J?..2 3e-9' t"lu,=:. ~ 5&.535 E-~
Rs.<-:::.z -25.26"7c-r Cj;yE: ~ J,{5 7~C- ~
aa.:: 3,/£56".36-¢ Xe -L.33 c = /,,.?r'&/'.?,G'-C-.3 Pn1= /, -27.;-3.s,,Y-c-~
tl,.,~= &tf/.5~.29~-3 fb*=.2,/5":?3--?/E--:z
~
= /, 7?5/E7c-2 tl.,x= 3,.Y/.t?:;zJ.!/c-.z 1Je;a? /, 6'.3.3.f//S ~c-_ _;?
tl.,,= ~& P3&77~-2 k--/3S,. C...=3,5~3722c-7 tl"**t: = 3,2$",f<';zc=--s-l?A$ :=- //,.2 "7 &'/ E-5 tJ,.,::: 3,. tVSc-s
--- ~K
- 5;/d,;'7-~c-5
_____ __ /)~= ~3/62e-.s __
__ ~-= 3. <r..~J2.c-.s _
. __ _ Jte=/35 C=-.... ~?7/!3/.3cf
__ _ __ *--~ :; /, 6?S86?-5'3E-;z._
iJ.tM = L ::767.38.S.Sc-:z ik,-: /..d"t5l&f5/.YC-:Z fl.$1<;:; _3,~f"?.:233.::3"-.2
-Ver.E= /.3'?9"/3.Zc-2
!Ava:;! /,/7f'5f?e-2
%e~/31 C= 3;;.:5~3.27'?"£-/~
Xe-/.36' C=5-tlf'6'7'io/E-7 a, = /, 3/?5"".c- $"
(}
.; /. *:;;&-:76¥;"<!;--.U
.V~
~-- O*
7
~-= /, 5~.Yc 3c-c/
n
.::. /, ¥5:5".t<36'E-.Y Y/Z'f
&~ = ;2.77..3 41'/2E-Y
£J:-t7 /. /' 7.2 / d?o/' E-f"
,?7..,8.:: /, 3 ~i'3:S-c-'/
5 (I.ii?/#.:; /, 7/;Z!?~;?
5v""1~tt,,./G' ~,,,,,; ?38%9?
sv'"'1B5 *=.2... /4/f'cr?Y
.'51/""1/,J.41:: ~ t-t;z 33/
s*v.A..5.t'-= 3, ¥'7636/
St.~M[;";.f-=
,;?., 385 7 7.t
f7,![]5,g Jr -~?m C =3,7'..?~c!?/:?E-5
~s
= ;2,G'Jc-?
9"= /,.g;zc--;z.
!2.t =- 5.~3S-c-h' l/cY&= S,6.3'Se-~
1)11.0:; /, /e c---;;-
~-;. £.5m C *= /. ~3-<7',,<.5c-'Y
r;.# = ~&-¥6"4/6.Sc-3 U..=. 3,51!S7-6(',,Z9"E-3
~
v;rs-= 6,3o/tf?73E-3 r;Jr,,:; 5-YJ.:J/6Cc-3
/Js;;:= /.//Y7d?/C-.:z z.,,~:: 4';5E5f'tI'6c-'f"
~
3.- 978.Z/.Yc-_s
,\\;.-Es c~ ~lY5/#/5E-S ti..,_,.;-= ~/?D'~-~
,_,,AS= 6.~'2/c-6
~.,*== s,;l7$e-~
<:L= 11.StS.Zc-~
>E::: 5.73c-6 I!'"
tkr=-
~ t!/7?c-6
{',1 -fiT C= 7.875/76"-S if,,,::
I t5l/d?9o; 78
.?k~ =. 6?/&1-?6!7-8
/J:;-=
1, 3:Z$/-f".29c-:2 iJp,:: /./~E~5"sc-.:z
.:lLG g#_5 -7 / 86?...-,i',,:,,
Xe-/Jl,.t1 C:: 6.-/24"7'88c-6 t?"""" -- _-;; t?.s? c -6
£"rb ~ /, 4//'i'..Z E-5" yµ = /,J4'/'7/c-s v~= '7,(f(/lZ;?c-5 aYe= /_, ~ f' /,.2 c-S
£?.,11:: 7, 7$,!f~~
Xe-/JJpt C= &:58R..25</e--s Uvw=..<:t{.Z&.?6 9E-~
J.k= 1':97.;;'&5E- ~
tJu,=-
~3/&??'?'E-~
.Ps.c-:: ;?,.:?5".537C-~
{b-,,;= ~ 5 7 /,,.,:.""' 3 e:-- <JI a.a.::..3. /~t?c~c--r
.Ye-L33C=/,1'77.366&-3 JJ,., = /,..:? 7,!<'#'7 7 c-.z tl..,1:= g~-rs
~
tf.74/t::-3 fks= 2/6&763E-3
~= /. 9'8.Z /?"?E-:Z R,J(= ~
~.2~839'E-.z 1b? /,~3~..?/..2c-2 Pw.s= /,. tfl?df 95 6 E-;:z k-/3.5,. C-:= /, 7.f?9t<'c;; rc-.r t/u,.,;== /. 6 5-7 7 C--..:!>-
l?AS =-,2,/?<;'./7'C'-5 f7 7
-* - - ~....., &J.3/ e-5 a.t'" =.3,f?f'..:Jr'.2t:{C-.2
_______ /J;K =..?,,,:'47/-f/E-5
.f7FIE-'= ;,,(,/tf'.J~eff'E-2___
____ £)~:: ;?, /?g'r/c:-.5 t.irtf-::
/,~9't:f$¢-4"e-.z____ _
___ ~"':::: /, 756~7E-S.
"t- -IJ#C. =
7.E'..5/fiE</E-~----
___ k~l..35 C=-.:<, 7.3'rJ?8.36<£-'7'
£h""',/OW-4".255.
jJlP,,,f Y,.5.r.*3.56tf'E-:z i,,1ers=,/4'58.fi-'6 JJ,,611-=
Y,,s~.3//.ffi"c:-2 U-t -
,/~//f';J.'T J/~tE=./22/~63
-~ ~ 7¥,.:ZE.2 E-2
'(/""' C:: ~ 1S;J
-*--* - _/L.~.= /. 61<'/3/9'26-..-:.Z __ _
... t)d5 = /, &" 7 f' 5 7.;/ ~':-.Z
. _ lb,,,--== /, >?#'IP t?.G" c-.-:2 1J.$K;; _J,6?53 ~-4'.2 [-.:Z
.vu-~=, tJ? /3 74/.5/
fAv.e::.
/./5£/~5G'C-:z
~
~131C=Z3 77/7.?c-/r
.t*
Sliee£ '7 Rev IJ Xe-/.){/ C. =
,,?,.t/5?/5E-?
a_,. =:,{,]69'.!<"E-5 flw.:,-=- 6. 7~4/9'd*--=-5" iJJs-= 7. 7679.Zc--S
/?t,,.::. 7.6?328C-S
!/.s~= /....:.-?377~c-'I" tl:t7 9..ttV~J6-~-s
.Pvo; ~-,_ ~/£f'E-S 5 u.A1 'T"# :::: /. t'9' //
,2-71
.5c/:,+'f,!/,A/G ;;. ~,b(/;7/C?:2 5t/."18.5. :; ;?,2 ?'7'5.25 Si/_,.,, 3-"'!.:,2, ~' f //5.2
,5t--/l'IS,f*.= J, ?554//~
.Sc./,M&y~:;:; ;2.56~:.ZO:/
5r/M,,Vj! = /. Y3C: 52/
FD*s:q:
Jr. -g;,~ c := 3,/,7,85?3£-.5
.l!aliJ.s = /, f/c-7
..,,-.=: /,b'?C-7 Ut{: ~5",/47C-i?
tJcyt= 5, /4f c-~
il,.o=- /_ /;./ 7 c-- ?
~/' tf".5P1 C *= j,3g:.?tP.;? ?E-9 Pr,y: ::: 3,. 96!5.¥7 c-.3
~.;-=- 3. 3G'~<?a>'l'c-.:i v;rs--= b,//fi~.Y~E-3
"""~-==- 5. 7.285&?.3c-3
£}.< =
~ tG..Jt?t!? ?/
..3 e-~.z Z--~1:=- ~ 4",Z6'.23C-~
}~ J.,£?3 Yr.{~.3C-3 A.;. -8S c~ /,&?.-$-o/'~.5Ec--.s tlr().

.-=
~/.ff7'c--t::'
"~.s =
t:f,&?o/'/c-6
~.,-=- 5.2 ?Se-6
=- ~ 5/f'd?/j'E-~
-~-..5, ~~9'e-~
'iJw.o:.Y...y 1.7 e -6 K" -$;T C = r££'8/75/c-S tf1 = f:.5.Y.2_3.,fi'J?E-3
~.r.L/
?tv:.{I,; -
/. 7,7.3$7'C-J f2rs~ /./..JEY-F;z c-.7 IJM::: /.t9;;?2Sf//E-2 a.(-== 3.4'6:Jr6::P6E-2 P'.v1t=== /,#.1,/.61/?66-.2.
£).,rtt-= f.5'T.5.Y£/E-3 *-
((' -8#-C =2.;t?&3?7'E-:!Z_ ____ _
.t-J...,::
1:~?£&8'c-~
t?u-l & ?,7d?&8'?e-.J.
,f,)ers= ~ f?5tJ?:z~~c:.;z
/)~-=.8:- f?tr1&Jgpc=-2 blstt =,/.JJ..26?/
V~Kt"=, //..5336"1°
-= ~ 2&2~t!l<f/-:Z J(/y C:: -~
tG w~~&-7 -7 I ?5 -"'?.-:,.,
X.e-/3/,,,, c:: 6,/.39...<6'C--C
£?""""""' 5,~?~e-6'
[b~ /, ~/?f'SE-5
/,~_,, = /..36?-f"eE-S
,,,, --= %-.:;'<7...<5-.f vs.e rJ = /. 74?/?c-..s V.CYe
£?..,/ ;7.J&Rc-d!f" Xe -1...:r3,.., C== tt...s.t--'ef?<l's;rc-T Ur.1w= ;z.~2&>8.9e-4" z.k= 4':#7b"~...::<'-9' t'J,;,,,-:;. "7. 5//d?7c-~
RS<==.:z. ;zs~-.S¥c-9' Cl'/'E: 9°,,5 r /5 rb-~
t:fr~i; J,~"?.f?$E-zf/
.Ye-L.33 C= /, ?5/672E-3 Pnr= /..,Z,Ei'//E.3c- :z tl.~11;= &6~//7.Yc-3 t1.s*=.Z./tG C/IF.57c-::z.
~:
/,.?6577/C-.z tl,it :::.3...y 2?
'8,-0// c-,2 9~
/,~4/.2/f58E-2 fl,,,.JT= /.tJ?f?5?39'c-.z k -/3S,. C..= 7, 6!~tff"Rq'E-8 tJUI,,,; := g, 'f/;(c-6
/?~=- /, /&?t:#'c-S
_ £b,-:= /.AJ..3.Yt:f"c-S
- *- ai( =/,J2Jh'c-s
__ f)~= /.. // 6'7 c-.:5 a:,-= g. f' 5 c-: c
){e~/3.5 C=-265'59'~?c-~
tkt_~.= /,~.2~E39'E-.:?
£JIM= /,t{.536'/.JE-.:Z ijp,-:::: /, S5..3 'Y'/6C-.2 f}$K::: _ 3. &M?5?d'o/'c=-:z_
VU'£= /,353&,.:ZJ&z
/Ava= /,/Jff..~~c-.z
~
~/3fl.C= /,tf5&'//3E-/.5'
~lteer £#
.Re11 t;J
.t~-1-"'6' C=~/t&6"7";:_Rc-?
a_,,,-:: 3.. ~rtf>.ZE-5
~.=. 3,.2.32/E::--S
~-= 3.. r/£..3tf;;--S t:&:,,.=..3.-37~.YE-5 t:S-;t =
~~ o/'tf,2~*e--5 fi-nF ~362¥E-S f1Jr'.:s;.3.&?..53 c-.s 5 ~
/# ;: /. ~~,2.Ztl? 3 5Vfa?C.{,,~1/0 :.;; /, f 8'?&.5 :z
_S-c/#135 = ;z. q_:>f5?f.ZI 5 tr/I'! g...vt =,;2,;lJ;:! 7/.2
.sv*/41.-.s-;(= 3, ~Fl8?-7?
5t-P'6:-r~ = ;<, "?21".:!??'
5</M,,ViJ -=:,Z,~6-f'?-36
lf"**f.JS9
,tr -~?,m C :::;<,tff56..57'8c-s 1'S = /- 7-?E-7 1_52c:-7 tltt : ~ ?4?3 c- ~-
flcye= ~ 76?3E-it:
~:.cl;; ~ !!C-l?
,tt; £.5/?7 c-= /,.33/§9'5 e - 9 i';..# = 3, ?65// c'-3
~.::; 3,;?6J/?7E-3 1'd..S~ 5,,Ff'~ff53C-3
'J,-3..,~ 5..522.Y.f?7E-3 t'l-t= /. &,_/.8f"7c-.z
/J Ve'E-7, 26 7.~P?'c-7" fJ~ 3~ *?&? / 61!/5 e--3 1;.-Es c~ /,K;.s~.s~.5.£-5 tlpt).::.-=:
~/ff'[-~
"iJ.s = 6. &?.5<Yc-6' AA#f - S, 3 d? °?C-6
,2,.,,~ ;t,,.S?cS<.z~c-4"
~- 5. 76..< c:--~
tJ~=- //. 5 t9,2 E-<:f k~ -8;r C=- ~t?//&Jf',J[-S t:},y= &3..3t5?3e-5
~"tv;f/.. =£ 3.3~?.3C.-3 h>:=... d;'/ef/2//
~:: Cl f"33'7..S.2c-:..3 a.t":: ;l. ?7773EE-2
,t?"'"l'c:::: /..,Ctf* r~ 74/c--::i
£)..-..:-4' ~ cf?, 3 t#:.3 &:J 77C-.3_
kl- -8#-C. =,,.?. s:.:;s-?.Y~c--~--
,t.;.,"" g 73 ~J?'/"crC~.:l jJ'4AVl.tr:-1'5.tf'A'Y8'E-:2.
ir-'l:rs = 9, '7-2 f/ 74l.:z c--;z
/)bf :: 8, 9'5
°',,,?~ 8E-:2 Uu -
/.256'<:..27 f
., l'E=
,, /<f'b75"S<{
~:: #,6iJ6'7'_.P/c-:z.
kl C:: ---&
.1. ~"i g q./? 5 -r 2/
&J P?/:,;
Xe-/31/~ c~ 6,/~7/6c-6 t?~"..:.5..6.!".Yc-.?
~
~ /,.,,-,,;1 tf?.5 E-..5
,~ =
/,.JcV ?/c-5 v~-== '?,.tf.57fc-5 aYe= /, ?&d/,?c-.5
£{,.t/ °?..3.2/E-6 Xe-/J.3.nr C== tf{,S???'~-s
A,,,..,,.;=' 2'5'/E.536'-.y Jk= ~tf'i?7d?<Yc-9' t'Ju,=- ~..5a?rt!f'.

ze--¥ J'S<:=.2.,ZS 3S / e-~
IJ.'J'E: ~.5Gr<f'&'C-~
ad.::.3./-tff.5<!?.<c-.Y
.Ye-L33 C= /, /52//~e-;J Pn-= /,,z 8'...< &'&3' E-.2 tl.,41&:= 8tl6'6 7'9/o/'c-.3.
~-==.2, /~"rff -24" ?.-;z
~
= /.. r#?4l~-f"e-2 fl.,~= 3, ~3/;zOJre--:z.
~
, 4?/t{ ~3'.Z;2.
P.-s= /, 6'}':J~~3et:E-::z.
k. -/.3S,. c_; ~tf/752 8c-&'
tlu..,;== ~ 2 78c-6
£?.J!1S=- S, 6.2.3 E-ttf lbr =.5.2.:J6c--6
- -- a-.c = ~ 7,,2G" C:-&
. _{)~=.5.6,!7~,E-6
-* - ~-= ¢, :?</?'~-~
_x'e-:--135 C=-~"'-t39?.Z6'E-~
- _/k,,~: /. &'<9 f'.'JS Jf"c-:Z. -.
. /)I!.$= ~6-<s 7~s.:::---z ijp,-: /, 5.Z? ?.::??"C::--2
'/J.$1<:; _.2, ?553/?C-2 V£YE=
/,;.3~~d?.:?S-3 E-.2
/;Iva= /,/;2#?tl1'EE-:2
~--:-13? C= /,~7&'.5'b5C-/?
5Aeet" I?
Rev /)
Xe-/.) C. =.5, ?/ J'£.5f/E-8'
/:?-,,,_ = /, '9/G'&?C-.S-tl.v.:,; /,.5.:) 8 8~F-f
~
-: /, 7;1.2 3e:--S t?z,, =- /,£..3&'2c--S-C.s-.c = 3,,//ttf9e-S ti;tiF :z,/&?S9e-.s
/7;.~; /,// f?,.2,8. -S-s ~
7""#
.:::: 7,&>7 6 5/j'
..5P"/11 t./,d/G ::.2./ &W 28 8
5.

/;lf.85.:::,J.--59?~4'
5i/ft!B,;lf.: 2,Jc7... 3b_,f 5i/Ar5i'= ~;22f 3:21
.SV/lfEY[ =
?~85~3 ?5 5<1.M,,Vg = 2.,/6-~///~
Fo
1*\\b,;.ll"'l1:
..-tt....,.
Jr -t;,~ c;:;:.2.Jf&?7;?£-.5 aJlits = 3.~;Ze-7
..,,:= 2&.?/E-7 121( = $, 15~
(£-~
£}:-,,,.= t',/Sf'c-6 iL,.d~ /, ?6"- 7
~;: £.5P7 C-=/,;2J7.5£/t£"-~
J-7,--R = 7. /67/.-?/.t:Cjr
~f
,£~ /S?".5f"/C-3 i-)5~ /,//.7 79"6£-.z
'i~.::. /. 6?41/5 7 Jc-:z
//s.<= /, ~~71T1"c-.2
v~= &6J~?!!i'J?.c-~
tk:r= 6,.J?<f'/.Y~/6'-*-:3
,.\\;.-Es c~ 1.tPsei'?'tf?.Yc:-~
tl..,.,.:.-=,#.Y/.Yc-G
/,~.:; = /,,2/33.E-5
~
.*,-.::: /. V6 3~c-S
= 1,/'?85/E-~
-~=
~5,,?'/c:E-5 Pw.o=- f..l'!21c--&
K-'.gT C =.Y.t-341a?5"-5
/.J,y = /_ 353/.ZS E-2 Xe-/31/11 C ::= 6,1.s;;i-;3:zc--~
£?""""-- ~/3'Et5e::-5
£b-::,2,,,?~54"'E-5 J.~ =
,2,t{/,f(;3C-.5
£7.se = /, v ~:? f" c:-9' aYe= 3, 7'/'/,7c-$
a,141-: /, f'.'ti6"7c-5 Xe -1..J"J,,., C;; b,5.Y?.Y.7..:rE-S
/2,,,w= s 211,z'?"c=-r zk::: 7; r/4,~3C-//
~=-8
... ?9'33'6c:-~
p~::: ~ ~f/67'C-?'
~E: f:/iJ:'_.?fi5c-j" a,,.:: 6-Jr£;37c-f/
.Ye-1-33 C= /, ?SJ7?tJfY-c-3 Pn-== 2. 563;;? 2~~-.:z t:l.~11;= ~ r..3.28'2/c-:z fb*= £/,33//7.Yc-.z
~=
3... i'?2$77C-.z tj," = /~Etf'&J26 c-2 fb.?,J~~85~3fE"-2 p.,4 =,2, /?/?tftf6c-2 k -j35,. C-=,? 3/-f// g-£-fi
.?k,.= /, 353/,,:.zsc--2 t?t:1,,,;==..::r,. /'f/c7-if tJr~::. /..6f,."7?"5c-2 J?AS=-
~.Zt!7.. -:>e:--G"
~.:: /. ~~?7?7c-:z
__.. !J,., = 3.. 72 Ec ai' = ~tt_3*:z322c-2 a =.- r:-7~....
'5K
..._:i, U<'~ TC---r;p
.f'.rl'E-= ;2. 6.&'13f7C-.z___
.... *- *- _____ ___ f)ei-t-==
.&/,..2~/?C.-6 tJ.,..-~-=
/,3'~&:'6~~z~.:z___
tJ;,.:,-=.3, 3 7:?c~c
(/o-8#C. =
,.?.;J5~~?f:C.~---- _. _____ jf~-:--135 C=- ;l,,5¥7',ff.Z/C:..'Y
£?-J.,,,
, /.f.Z 75,,Cl.2_ -* __ -* __. ____ ---*- ___ -* _/Ju.&=..... tP/16J9'E
/}LPNt, /_5f" /~ "f"'f' as=. /?/?E"f!'/
J),,6i/ = I /.5¥/b.Y/l -
t/d§ = _?.-/6..? 7 ~/C-,2 iJ,.,,-::,2, f' ;z //'/7 c:-.z
'fl.$K;; _ 6., ;:J.y' f,2 5.# 6-,2
-Ver£=.z Si7?866~2
//Iva -;,.:?.. /e,,;.c 3~3.5 c-2
~
-.13 7 C=.~ l<
Slit?eC 70 Rl>I! ()
Xe -/.36' C = /, f/e:SE:>.Sc-6?
a~ = /, &?s/&/c:.:.-->
~.=. /,. &1856C::-S
&~ /,Z.Y#5C-5 fiu.=. /,/3'?;:;c--5 li,K =..7,./,:7//C-S
"£It?;; ~6' 5.5 E-S f-7...,.:r.=. /, & 3?:1-5 5 "-'! r',¥-
;z, 283"7& 2
_5J/M;:_v;f/C:: ;?, 315 ({ti{ ;2 St-~/ff;f/5 =:- J *.8-~?'f'f//3 6t://YIJ3.#.:...1.. ~/&fl"'&
Jc,,4f5i'= ~~:>S0?2E 5e;/l'!EW =.3, /.(,S,l/tr
. ~ -
"'c:;v ""',
Fo
-*!!"'!i-.
~*~*
i G9J1rf" P -? f!'.67&? /o/r~
.5Aeet 71 ReY- 0 J'r -$,,,.~ c := /,~&fQ#.5.3-5 r:;- = ~/Jf/-t:
. ::: 1-~/e--T tltt =.2. fl?&?tfc-s i.~,,,,= ;2 ?74-?~e-.s i},.d-; ~- 2 e-- 7
~-; £..SP'! c-= ~ ~&-'5?3/£-s
.

;,,,,. =, ~31,d~,,2 I j
_;. ~ ~S.6'"2"/SE-.2 V.tt.f'"'
Tl i,,)5 -= O,,l4f'r?.2£-:2
'i--~~.s;.#.5~~.z#c--2
£_}.{:=,//&..3~3?'
Z-.~e = r, 5'..2 4f'/ -2.Z ~-3
~
3.. V//..lf ~-~
)..:;.-gs c~ /, ~6"d' f's;?c-5
/,frt11::= ti', 'j1"/l'tf'3 -S
/,~ =
~ ?.?r7E-S
~_,-= 8.f-:z6~c-s
.-=_?:375.3e-..r we- ~2577e-5 f?W,4: 7r.2333£-5
{'_, -$;r C = /,J ???'6' ?s E-~
.,= 3,£5'?.5.l!P.3-2 bk.;=.3,i£5?.>E3e-2 tlr~= ~ 4/~~/?7.3~-2
~:: 3.-V/S:Z?~-2 z&~ =,/Jd:J6?.Z.?
.t?~l'E:: z &?57..?:2.2 -,.?__
O""~~ J... ~7??.Z7c-.z... *****-
'l -8#C = /.2~.3$~.fi'c-~--------**
£?.; ~.. 7~79J26' Pu-i, r/?/s-'#
i?ers=-
, ?J1?/p3 tlJH =,?/7/59',!?
~-
1(--
/, $165~?/
J/EtE-
, f':Z.Z//'.8
<=
, 7..JS 7&7/6' C:: -&<
Xtt-/31~~ c ~ 6,/3/8"/?E-6 t?a.v~~ 9, t;Jg3/-.5
[b ~ 2. 26/'?E-9' J,~ =,Z,4?#87?-E-?'
z,7~:= /,.5~ 36 P?'E-3' f?cye= ;2, p:r.2 '/.5141'.2 E~
a11~ ;l;/tfs~c:--.y Xe -/JJ,,., C.::: 6...323576 c-s Uv.fA:= ~
P~t17.2.2c-3 J.k= "?. 5.Z.!1777e-J t'lu,:::.6, ?~~7/S"c-~
R_j".c"= 3,41g:z3s7c--3 a'l'e'= '7,0/56'//SE-3 at.f= ~ f..Z/8'/~}c-3
%e-L33 C= /~ f,,,?rf-2?.YE-;3 P"=,,2&.:za/~2
£1.,~11;=,/Jr//.2/
ib*=, 3~,Z ?'/t:P9
~=
,.3/~J6 fl.,/(=.. 5~.283f/4/
fJosr,2.5?'/6SS
/}.,,,=, /7J?EtF/
k-/3,5,. C,.:::.:;t 7?S-7"t!".Z c-.~t!f~..
t/11,,,; := /,/,!f'it'E-6' tl..1!3S=- /,.5S?e-lfl'
. ~ = /, ~S°?c-c
. __ - aK = /,.$6..r&-b
__ " __ /)~-= /,5?tfe-::..r: __
.... ~-= /. 2~/E-,6
.Xe-1.Je c.= 3,?.£-73,P/C"-~
a,,.= 3..376' c:--.:f
~.:. 3,55?/~F-6
~-= 4",.6#;zE-6"
~., ;:. 3. 73/E-6' 12s-~ =
?, /&.? 7E-6 at7 ~ 7Prc-ef
.t?Jo'.:1.:: 3;-f/&J.Ye--6 s u;;, 7A'.:: 3, 32283 7 SV'/l'/t.Wl'C :.= 3.3 7~ G' f~
St/"'1P.5.:: ~3113/.2 '1
.s~~lf.o/:: 3, '?52/;!t:
.5 V."!.5-.t = 6. ?.,,?/~'f/6' Sb~£r~-= ~e't:J.2 fr?
5r/Alfll/.8 = 3.. 5~~6J6?3
...... Xe~*/35 C=-,?,4ltf73.?3C- ~-- ____..
-~ - *----~~... 1/3/.38'?'.?....
t?e.7 =,.Z//5.#'~/'
. ik,-==
,/~#-'6P/
fl~K;; -
I :J9f'6/6'7Z-VU'4!':::, /73/.Z~3
/2ta =,/~S.f.16/,Z
%e-Y31 C= -0(
F059 tr -tr_,,~ c = /, fl/7#1'5£-~
q.,-s = ~"- 7-?'e-7
== ;z.37'c-7' tll{: 7. 3f'8~--~
'}? ~= ;r J 9'#6-'5 vCu=
t7,.cJ;;. /. 5 r c--?
A~ £SP1 c*: 3.89$&/37C-5
-;# = /. <f"J'Cjr-28 c-2
~-=-=- /; 73&.sr/C--.:<
i,)5 -.=
3,/~t!1.!"J.3E*-.2
'fr-:5~.::. 2. ?..<Rrtfl7C-:z t}.-t.= s s2s /&6c-z z.~=- ;? *.2.?-.Z9/6E-3 J/~ /,. ?63.!:'f':J'E-.2
..<.;.-if'S c~ ;?, 0:/'13f?tf2E-6 tlrt.1.::=.>,,fl f3 cc:-5 v~.s = 8, ti"/ E3 c-5*
~,, *= 7, ~1".!Plf'C:-5 i<: =
6. "1'/f".3&¥2c-3 rc=ttf? tP#75c-.>
VIAl.iJ: ~ 3/f' E-.$"'
i(',,.g;r C::l3/S//?E-6
£},,,, = 5,. ?' 33 77'? E-3 1--k.:= £i73J:,Z7Yc-_3 flr:>::. G. 7¢/&'t;'?c-;3 f/M:: ~/?'f",;?/e-3 a.e = I&' :z J:~//6C::?
lFl"E

/, /&,::>;7/;f'e -7_ _.
Xe-/31,J! C ::.S,/5t?3tF'CE-£ P""4/.:~ 7.#.5'5?-S
£ks-== /, y~~z ?Ee-.Y t~ = /, 8<SGC.>.?e- -r tJs;--= /;*3.:&r/<P<r.6--3 aYe=,2', 356//e-.Y a"';:: /,,P//8366-4 Xe -/J3.nr C== 5:&>?5~..28E-5" Uvw= 3..3tC>/dtE.3 C *-3 tk= ~~25'~75,.Zc-3 t'kr-:;:. 5,. 7.6'6/.Y.2 5-3 RS<::- ;z,ffY'JtS'7/£-;3 Ci-YE':: 5:?~.3 7Jt5'e-:3 a:s; ~ 6?,$~f11~c-.:s k -J33 C::: /, £'if/cf/~H/c-:;5 flnt =, /7-.~'Y 6' E;z
£1,,.";~,//7..?c5.3r fb*=,;,?fJl.f'fJ
~:,, ;Z 6'd'Jf?f'.:!P.Z fl,/(=, ~6'~33/
1leni:;:.,;z 2237
/Jw.s=, /'/t!?t5;if??Y k-/3S,. C-=6;/.YE'.3.Z/c-/..S tltJJ,.,; = 2-.3C-8 t?.J!l$ =- 3. & c -8
____ ~
= 2,tfe-g
£)wtf-=5, 7t:f.5/7..3E-3 ____ **---
__ ~~,?;5C-,8.
ti- -8#-C = 3,;7Cf'/.F~2E~__.2
__________. __ k-::-135 C=- /.3/56'-<J'C.-~
£?, "-".-/?#4"?/?g"
_IJ~.;~=.C£~c37'1'5E-~
pi#,.,;
~7ers=
J)~=
~I{'=
t"Et'E--
;.? t£56535
,;<'1"~6!g;77
.. ;?C5£535
.3/.r/£7~?
, 3'L//67;?7
.. -<72S2,2 t?~ = "/-3 ;I
,t?"Y-.,~..2
~=,,/3/J~*~'g'.
'IJ.$K::: _, ;? 5 f',z t!f-;i 2 VV'E=,//f""f';..., 2 '?
!Av.a : f,. t:{ '1&: J? '? c-.2
~-131 C= k2 Rev 0 Xe-136' C=,2,//7f'/!1c!--/5
/,:?,,. =.5~ 9c-8
~-=-~2?-8
£b-~ ;7./C-#
t?x-r.::.
6~5~'0 -!?
t-:S-,1: = /, ::? -¥ E-7 at7£3C-5
/7;,'.:.r;.s; j'E-$
5W'f'TH
.:::= 3.. 86127~'5' s<>'/ffc:t-AIG = _s,8r3~,&'7 5t./,4'! gs ~ _-;~ //
tf 'JI S 5.,.,,4'1J3*J." = "/, 6:5"152 a /,"'/1955
.5.://1.5/(' =
c,.-, A.
St/,# C. r'E.; £ 3' ~JCQ 85 S 5<1.M,,Vg-= '/,i:§?j'3388
f;-
-£!..,,~ c = /.8311~?8.£-7 17..:s ~ 7. ;z e -8
-.=t;_3e--&'
tltt = ;, f~c-tt th.:= /_ f.t/ ?-~
i';,,o-; '/.I c -8
~~ tf".5m c:_ *= /.2 6.25-7/?C-S
-;.,,,. = /. #~?t!?~~c--.z 4,,v,/'* /. ~49 /5'3/ c-

z v)s-= *. <-Ef'..55~7-2
~~
2
?/6'35?~-z
~.t.= 5d/3Z26C-7..
z,,~= 2.o.1 f.y.:z-:z3c:-:.;J i~
,1;ff/6 7/?e-.z 1;. -ES c~ ~ <P/6?25c-6 tlr<J.::= j, 7~133-~
"'~~ = ;?.41,:f';z~Sc-~
~" *:;.2. lr65Jc-1"
r.
= /.$8/c/Jc-;z
~:= 2.3.:.:.?~#~---~
£)wg: /. 81/S°.Sj'tt3"-V t" -$7 C =- 5.56l.St9.S 1£-8 4,,, = ({. "-/:7~')"/6C:-¢
?k~.:. 6476-.Yt' C-¥ lJ,:;.::. 7.13(:; /5/c-~
~: 6, f38'f9E-'f' a.t' = ;z. J/;zS..S5c-3
.t?.rlE:: /, 7 ~
t!'?-¥ 6"-3
£).irtr-= ~,5//.ti/fE"-9 *--
~t- -8#C = ;7..tf&7/5YE..~------* __
t-h"',/"'/f /&4'7 -
JJUM/l,/tt///&,27
£,~s=,1.5?'.Z25R tl~ =, l.Y//&1:<?
tJI(' =, 2t>.'fc'3S/I
}/~~=
I /t!/"f/,,Z77
"',/4"'1'?5&9 C:: Q Xe-/31.-11 c~...s:&~?&rc-tl"'
t?"""'"~ ;z,:1112 /e'c-4"
~=
5'/tf?.322c-f/
J~ = 5 /5t£/9c-+'
Vs./" J,.E/&.Je'/-t=-:3 a,,,e= t::". 7.2 ~.Ye=~
a./,,2...,!f(f1;r,t?/E-1" Xe -1JJ..,., C== ~tf/2-Y/C-c-5
!211".A;; £.8'541/c?c-3 Jk= /,. 6 f/74/cJ7 7c-2 t"lu, =-/, 5;z 37'?¥ c-:z RS<== ~.:5/?8C-?c:-;
£iyE: /, 5?-f/"/3Yc-.z ad; /, & 76-ftt/e-2
.Ye-l-33 C= /.'53.:<6'.2/C-3 Pn1=, ~e!?~.2#/..z a.,Mt;: 1 327J9~-;;t:
fb*=,,$/#3//5
~::::, '?5&6'.Z6'ff' tl.,1:::: /.. 2 I',,f/ ~~
an;:-, t;{.? CJ 73$
/}.-.IT= '* ~/S 313.Y k-/3S,. C--::::3.878'7?~c-..z~
tJu,.t: =
~ C:::
J?.AS=-
IQ
£b., -= -,£?
a =
~K.
-~
-- - /}~;; -
~
t1.1J-= -
~
_J{e-:-135 C=-?. 3&Y8?8E-:S
-- -./lu.~_= -,,/3 j'&-~9<?
iJl!.5 =,..:2 23 ?'"?? &'S ij,,,, --::: *...?,//J,? ~
/ ;z 2
'fl.sK::: _
1-"dfJ r/tf $~
-V£Y5=,/8327P-.7'
!Ava==. /51'.Y/.ZS
~
~/3f!_ C= &.
Xe -1.}(j' C = 7- /&.5/;l6E-..Z/
a,,. -:: --- &:.?
~~..,__o<._
~-~.... 62
~..,.::. -<-4;
&..<=
~- &?
a~ -..&c t';.'.:r; -
(5;:;:
5 "-At "T"# ::::.ti, ~55.25 ff
.St/.MLtl-</6 =
~5~~.5(5! 7
~
{""'/ 135 =
b~.36 3 416 7-5 t/;1'/ µ = s; bOJ:J rr 3 ;z
5v'l#'!Sk =- /tJJ, l/??/7 s.,**/41£1' c-::=. ~.3195 7 7~
5v'Mlll/iJ-= ~E36'6{t;;b'
l!1::.' o* -* \\f"lt.'
<f:****;;,:::::;ir7 Jr -t',.?,,-, C:: /.;2~~??~E-7
=/,.Ye-?
=/,;?£-9 tftt: 3, 73E-8
!}CJ',:= 3, 73£-6 i'"'°::. 7.Pc-/R
,,t;.-£5P? C-= '?. '156;?/f E-7
/,-"' = tf../?c;z

zc-?"
~.:-.=. 7. 6:-i,£1tb~3E-~
~.s:= /..2d//J?t:ff'c-=..'3
~-=- /,/f/~.25/e-:J t?s..t= 2.26.2&e-3 v~:: 9:.;zc~e-s
~
.!?. 6!.3E..3J E- ~
N- -$S c~
3,~/6C{)t;;?C-~
tl""'.:.-= 2 IQ#/,2 -5 t--~ =
3,&5?/e-5
.tl.., *::;..:?,6 30) 3 c -s 0
.. =
.2. -:Z.7.S.2/?e-3
~=,,2,8.5.S?E-5
~
~::-...?.,..?3/'7c--S k" *fi'? C =-s,,&;3ys3e-I/
£?,.,: ff.. OJ/9 7-t:
kk.; = tf;.&6?f c -6
/lr:;== ?, 7.23E-6
~: g, s-,?,;?E-&
a.r =
.:<.t'c.-<S:'/-S
.tJ"°~::: /,.PY</l'<?c-.5 0W""tr-:: 8.&53-6 j~69~9'6Z*7 $&d?e!.t*'n Xe-/3/,,,, C::. /,65~366'c-6
£?'""1.:-..,.z.~//'#?E-.5
£b-:: ~,~6f'6'E-5" t?,,, =
~
/.3' 7.$" E-.5 Vs.e = 1". 53.56.::>c-.,
aYe-: $. (f)~'f':,:?c-:5°
£?..,11~ 3,.Y.3 7 /YC-5
/,36'??4'.3e-.s Xe -1,.73_,., c;;;: ff,:.<.z'f<;'iff".s Uvw= f; /Z/#.3.5E-~
z.k= /.~fl/J"~E-3
£u;=:./, ~7.,??:ZSE-3 J'S<= /?363~3E-jl
~E= /;/j'5/S.?E-J aa.:: /, /#,.7tr>tffE-_.3 Ye-L33 C= ~5~?77'c--~
Pn1= $,6219.:577'C-2 fluMt:: 5: T?°Jllf"t55C-,2 fb*=?. "1"?7.2P8c-.,2
~=
8?//~.?'f'E-2 tlitk =,/561~ 3/5 fb.? ~,2&'7~.28C-;z IJ,.,4= ~R7/d?9'tGE-..Z k -/3.S,. c_:: -?R i'J d?
. VU/4,;.-
/?J!JS =-
15?
-- -* fb,-= ~
- *- ~~= IX
__ £)~-= 6<
.... an,-= l9 f'I' -Bl'C = 7.6C97/-5t.e~--- _
X'e~l.35 C=- /,~~7.3.Se--s...
t) -
.ll
'_5/2C -
.J TJ -
7, J~ p.;,.-C:-:-._
/?w.vl
~//.?ti & 7c-3 as=
~.5$,,25~.YE-Y tl.H = ~//,Z,5dY?7&-.3 Us-t =
/,//l}?t><,;z,F[-3 u~= 5.,.Z~7J't?~E-3
-= ?f :z~#U#E-:..s C;- lQ.
... ___.tl.a = ~ 8?7lY*'?'Ec--3 iJ~ = /, 5?'..3¥/?e~..z
~-:: /,.,,..?:.-7-.24"5.:£~.z
'IJ.$K:::: _.2,,#j>T,.,,?/J £-;z
-VLY.E = /,.3l!.7"T 6'.f Ee-..z a.8= /,. ~?8'7.3.:Zc-:Z A'f! :131!. C= 62 t::/t-/1-AI'- v~ -v1
.5Aeet" 7~
Re11 t?
,X',g-/~ c - -,. ~
. - ;;:; ~.)i ;; M:
a,,.-;:: tS?
~.:. t:2
~~&
~,,.::.
a.e= 19 a;7 &
"7..v.:r; 19 5w-17"'# ::: ~.51£6 35
.5tl/lfitllf/'G-= ~
5it;*~,2'~'7 Sc/A/3S = 6, 118215,t' 5~1t?,ff/YI :: 5; 1 /4/ ~ ((!?
S~l,4f5A' = /~,30?9~87
.51///.?fe = 6:3.?t?.27_7' 5rlAtwB = ~ fJ?3~7.3
FCt59
1>7ll"9"ft7&>&' --:-..,. _576' d?er..:.,
C.t;-/J-,,,,_
5Me'C 75
.R..-?v CJ
,tr-$,,.,~ c = /.3?67($; 7£-//
4,- =
,,2.;?E-//
-: /.. ~ C-//
tlt( ~ 5,.86"-/ 6!
t'l:r-t= 5..8E-/~i i7,.o:::. /...Zc-//
.(~-ESP'! c*= 5,6/,,271/f'c-:-o
-;._.,.

,z, 80> 7..576'-~
~.;.:. ;z, 'f'~"l 3 ;~C -i" v;s-= ~;.?Yfl"/?-c--$
'i~;:_ ~//£5/,,ZE-7*
/.},{ = 7. ? tf f.~ 3C- ~
v~ = 3./~;(#c

-5
~
_z,, 76 &.:3f' c--'f A;.-ts c~ 3,o;i/56'3c:*e--c:
tf..u.:.-= /.. EJ"J' ?#C-Y t;~.s =
? *. ?37'.YYE-f/
~~ *= 211~//4'c-Y
, J. =
_..:...,,,. & 76""#~1/~-;z
~=.z. G'r267!J?C-¢
---Pwa:,Z,t>?31{f.YE-Y
{'., -$7 c = ~ ?7&.356:-~3' t:j.,,,, = /.6'8c:-~
,t,,"k4.;-= /rt!?8c--$
tJ,:;;:=:. /3:<G"-$
!JM:: /./~C--8 a,..t- = 3,8/9C-8 J?,-~== 2. ~Pc-#
Ow-tf~ /, lf??c:--8 1- -8tf'C = lf.&:1.3c..\\.,tr>9,~E-?
£7-J ~
3'-~'19..5~/[-_3.
Pu-l --~ Y#'1/&.?9c"'._~
as-=..3.-tf'#/ 71ftFE-J tl,6tf = 3
~t!'.Yt!S!?f?[-:3 U~ = --5. /,-::7.56'#.Y E-.3
~l'E = 11, ~ i' c? 7.f' 5 tfi" -;J
~'3,57.35?6"-3 C

: ~
X.e-/31~~ C= /;5/tf'~3C-.6
£/'"""'"~,ZJ!Q667E-i/
t;b---=: £ ?tf -Y"f"Ec-:Y t~ =
_5, 3&'1'.5/i,..-.Y vSi:= 3, 1'/C!r'61$?c=--;y.
aYe= 6~~/,ff~/E- ~
a.ti::,?, 7'"-7& #/c-f' Xe-1J.3.nr c :::15: ?--Y7"t5~"5E-~
a.,~-=.5..:5.3#~ ?£-3 J.k= /~~361595~-:z tlu,-=-
~ 533~&;:u;;*-_3*
Jlsc-::' ~ rtf"df" ftf';? C-3 Ck-./:: ?-tf'6///Ye-3 a.r.f;,;f', ?J7f"&/C-:-3
_Ye-L33 C= 4.tslD/?t?c-.Y J:lr.,=,. 1"/E:J? ?f' 4,,.11; =,.;? 8,? #/?
,,2 fb*=.. ?&6',?ef~E Pp, :.. 6 f',f:l,Y,r.;?C/
~k
== /,//'j'/f:5.Y fb.?
,5.36-?3~
Pw.,=.-35£'.f?..Jf"ti k -/3,5,. c_;:.'62
!Ji#..,;==
({)
/?..1!1$ =-
kl
£b., = i9
--~.e-= 6J
_____ __ Pen--= 19
. ~: ($>
. __ -~~/35 C=- /,
08'?.>25..3£".-6 Xe-/36' C= &*
a,,.==
Q
~; 6) as-= 62..
~,,.::. tY
.Os..c-= Q
-:? -
.Kl
{/if:~
U'-
t?J.".:s; (5..
5UA1r# ;: 1':/'J#?'~~
..5t/I'! Ltlltk-' ;:; e'/, b"'E '!-157.7 S"t~-"18.5'== 7. :2 2 358":2 5t--'/1'184'/ = C, 51.S //5
~,;~..A'f 5*;.,- = //, 11?5 75/
5v>"7 d°YE;;: £ 7~..:J'°;Z/ c(i' 5v'A1/,ll/fi = S,,..l,!f~.5-7/
- ---- -- -~~
_= __ /,/?,?,2.2f/ ~-,2 --
-.. iJIM = ~ ms J?..2.. :5 E-2. _
__ _ ~-== /, ?#t&-:5-38'c-.z 17.$K::: -
_;::..Ytd?? 1/.1' E-.2
-V.er<!= /,. :5577..5/c-2 aa_=
/,3/.:Za,,;...,.J c-;,z
~73?.C= 8:2
s:~~
t11t::::
~z::..
aY't=.-19 il,,o=-
~&..
.f/ #m C-= /,2 ?Ot:,f?E-/3 i-J,-p = /,.~/E-6 il,.; =-
~ 2;? 3E-(!
~.s-= :< *.z /.? e -,;
ry~::..?.&77/C-/
~A:= 3, f61#c-6 z,,-~ = /,, 5 ?:?E-?
~
/,3/l?e~~
Kr-ES c~ /, 7'/?tf!6?GE-tt tlrt1.:.-= 6', f'.55//E-~
(.,-~ = /,, t:!&;z? ?~--3
~~*= #, ?,#'8.5E- ~
=
~r/'4"/5//C-2 re= f.5_"'?.5°89.E-~
'f}wg =- 7, ~
5~",!" 1'.£ _.,,,.
{",, -$;r C =- 2 2 71/179£-.:>s t:].,, = /. ?c-//
bk.-=/.. ?E~//
12,:;-= 2 / 6-:. //
~.: /.#C-//
a.('"=&./?-//
fol'E-:::: 3-3-//
Ow-"'-= t:?E-//
<,.. -8$C. = 3p 7?6"".]Z!c:._'l-7!-.---
th "".. /. ? 7~-(1{
//uwl /. tf'.:5' C -6' U:rs= /:5'?6--6 tl,,!H =_ ;. 6~c-~
a~=. :2. ?1e-G f
.,~~ ~-~C-b'
- /. ?;zc--~
~
C: EJ Xe-/31/11 c;:. f,_2/~111?E-?
t/"4V~""' 3,f&~/C-'I lb-= r, 7~4/6.. Pc-£/
p~ =
,. 7C:°.37?C-'Y'
JSi'= b-&2566>..2~-3 aYe

/, /{f. f'_?,'?c!fc-3 a11::,5;6;);?3.18c-1' Xe -1J3_,,,, C;...>.. f:.A2 3'/201:-;r U11w= /. 55:3,t5/E-3 Jk=,2, ?'959/fE-_3 t'lut=-2 7.2'//S2e:--_3 Ji.k::- /.3C...Z4?7t£c-_""J a'f'E:...... : 7.§?f3i/t;-:_3 a,f= /. Y26'19g'1E-3
,Ye-L.3'.3 C= 5Jl9E ;z;z::.e.--5 jlr¥::, 3 6.. <"7/e;;f g tl,41&= " ;z 115:.3// 4/
tb*=,~/..3&./ff
~::::.-56235/.Y fl.,~ :; ' ? 76/6 /.5.3
~
,. '/t!o/'8ES1 Pw§::,.3 //&.!iY-f>
~
-/3s,,,.. c...= D tl1.1..,; = Kl p~=-
fb,, ::: Q a =
'SK to
£)~=
.I"')
.. -----* ~*---
()...<*
. -. ~-== 0
-*. _______ /k.t..&=.Ztf~/4"<=:-,.s _
. *-* J)~= /5~8?~£--r a_.,-: ~"f/..527yE-Y
<1l.$K;:; _ 2, 8/.5..? 3 c--r vv-£= /. :2 i!6' 4:',2 c--=-¥ fka:::. /,&'tf6'?#'c-~
X'e_-131 C= Q Xe-/.%' C= Q a,,.=: Q
~;Q
~-= ~
t?z..,:;. ls:
12s-~= CJ...
tl-ttF p..,.1;;
&?
5f#;!r#.:=S,.3&/G87
5c;.jtjft_,M16*,;_5;/3.2C.59 5t//'1 i3.5== 7. #&/I rf E ;Z.
.:fv'..A18""!= "7. /~ 2//S
5t//115k -=-/2,5536~55
.:5 v'.4/ 6/-" tF::; *?,.tf_ 5:5 ~5"
.::t702 PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET ATTACHMENT 4 EA-A-NL-91-086-01 Sheet 77 Rev # --=-0--
TEDE - WHOLE BODY CREMI 0
10 20 30
'fO 50 SKIN DOSE CREMI 0
10 20 30
'fO 50 THYROID DOSE CREMI Q,
10 20 30
'fO 50 0
(")
0 0 z
-t
0 0 r N
0 0 0 0
0 3:
0
""'O rn w
0 0 0
0
-t
-t 0
0 3:
rn D
0
-~
U>
r: 0 rn 00 c
0 U>
U>
-t -
U1 3:
0 rn 0
ED.L"t'
...,..,,.., J
,/
.-, J'I I ***
, T t.*...,
17oq..
PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET ATTACHMENT 5 EA-A-NL-91-086-01 Sheet 79 Rev # --=-0--
5 REM PROGRAM TO CALCULATE CONTROL ROOM DOSES AND CONCENTRATIONS 6 DIM SUMSUB(7), SUMINH(7), TOTALDOS(7), F(4), CONC(4), XQ(4), DCFINH(7),
DCFSUB(7), CON2(4), DCFINH2(7), DCFSUB2(7) 10 FOR 1=1 TO 7 20 SUM SUB (I) =O !
30 SUMINH(I)=O!
35 NEXT I 40 ADDIN=O 50 INPUT"START TIME OF INTERVAL, MINUTES";ST 60 INPUT"END TIME OF INTERVAL, MINUTES";ET 70 INPUT"NUCLIDE NAME";NUC$
80 INPUT"RELEASE RATE, uCi /Hr"; RRATE 90 RRATE=RRATE*.000001/3600 91 INPUT"INITIAL CR CONCENTRATION uCi/ml";CONC(3) 92 I NPUT"DAUGHTER NAME"; NUC2$
93 INPUT"DAUGHTER RELEASE RA TE"; RRAT2 94 INPUT"INITIAL DAUGHTER CONCENTRATION";CON2(3) 95 RRAT2=RRAT2*.000001/3600 100 FI LEFF= 1 !
101 FILEFF2=.99 102 FRAC=l !
110 XQ(l) =.0013 120 XQ(2) =.00068 130 XQ(4) =.00285 140 BR =.000232 150 CRVOL = 1076.888 160 F(l) = (2.831685E-02/60)*11.6 170 F(2) = (2.831685E-02/60)*1000!
180 F(3) = (2.831685E-02/60)*2200!
190 F(4) = (2.831685E-02/60)*0!
200 occ =.6 210 THYROIO=l 220 LUNG=2 230 BONE=3 240 MARROW=4 250 SKIN=5 260 EYE=6 270 WB=7 275 CLS 290 REM Kr-83m SUBMERSION 300 REM 0.0, 0.0, 6.475E-6, 5.653E-6, 1.747E-4, 1.747E-4, 3.649E-6, 6.313E-3 310 REM Kr-85m SUBMERSION 320 REM 3.083E-2, 2.672E-2, 4.831E-2, 4.522E-2, 8.531E-2, 3.494E-3, 3.031E-2,
2. 579E-3 330 REM Kr-85 SUBMERSION 340 REM 0.0, 4.419E-4, 6.372E-4, 5.585E-4, 4.831E-2, 6.064E-4, 4.738E-4, 1.23E-7 350 REM Kr-87 SUBMERSION 360 REM l.439E-l, l.439E-l, l.747E-l, 1.542E-l, 5.139E-1, 2.775E-1, l.447E-l, 9.084E-3 370 REM Kr-88 SUBMERSION 380 REM 3.801E-1, 3.597E-l, 4.008E-l, 3.597E-l, 5.344E-l, 4.625E-1, 3.69E-l, 4.068E-3 390 REM Kr-89 SUBMERSION
FILE: DAUGHTER.BAS
PAGE: 1 of 2. Length: 6655
Lines Created: 01/24/9.:56 bytes.
Queued:
01/24/9
32 1 to 110 400 REM 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 2.194E-1 410 REM Xe-131m SUBMERSION 420 REM 0.0, 1.028E-3, 2.569E-3, 2.364E-3, l.747E-2, 3.083E-3, 1.324E-3, 4.065E-5 430 REM Xe-133m SUBMERSION 440 REM 0.0,.004419,.008222,.007606,.003803,.007708,.005375,.0002198 450 REM Xe-133 SUBMERSION 460 REM 7.297E-3, 4.933E-3, 1.233E-2, 1.131E-2, 1.953E-2, 9.353E-3, 6.259E-3, 9.177E-5 470 REM Xe-135m SUBMERSION 480 REM 0.0, 7.194E-2, 9.456E-2, 8.839E-2, 1.131E-l, 9.558E-2, 7.647E-2, 4.513E-2 490 REM Xe-135 SUBMERSION 500 DATA 0.0, 4.212E-2, 6.783E-2, 6.372E-2, l.233E-l, 5.55E-2, 4.676E-2, 1.268E-3 510 REM Xe-137 SUBMERSION 520 REM 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, l.809E-1 530 REM Xe-138 SUBMERSION 540 REM l.953E-l, 2.056E-l, 2.364E-l, 2.158E-1, 4.lllE-1, 2.775E-l, l.969E-l, 4.906E-2 550 REM I-131 INHALATION 560 REM l.073E+6, 0.0, 0.0, 0.0, 0.0, 0.0, 3.256E+4, 5.987E-5 570 REM I-132 INHALATION 580 REM 6.29E+3, 9.99E+2, 0.0, 0.0, 0.0, 0.0, 3.367E+2, 5.023E-3 590 REM I-133 INHALATION 600 REM l.813E+5, 0.0, 0.0, 0.0, 0.0, 0.0, 5.55E+3, 5.554E-4 610 REM I-134 INHALATION 620 REM l.073E+3, 5.18E+2, 0.0, 0.0, 0.0, 0.0, 1.106E+2, l.318E-2 630 REM I-135 INHALATION 640 REM 3.145E+4, 1.628E+3, 0.0, 0.0, 0.0, 0.0, l.121E+3, l.748E-3 650 REM Cs-135 INHALATION 660 REM 4.44E+3, 5.18E+3, 4.44E+3, 4.44E+3, 0.0, 0.0, 4.525E+3, 5.733E-13 670 REM Cs-137 INHALATION 680 REM 2.923E+4, 3.256E+4, 2.923E+4, 3.071E+4, 0.0, 0.0, 3.219E+4, 4.371E-8 690 REM Cs-138 INHALATION 700 REM 0.0, 5.92E+2, 0.0, 0.0, 0.0, 0.0, 8.732E+l, 2.153E-2 710 REM Rb-87 INHALATION 720 REM 2.664E+3, 4.07E+3, 8.88E+3, 4.81E+3, 0.0, 0.0, 3.252E+3, 2.788E-16 730 REM Rb-88 INHALATION 740 REM 0.0, 5.55E+2, 0.0, 0.0, 0.0, 0.0, 8.029E+l, 3.894E-2 750 REM Rb-89 INHALATION 760 REM 0.0, 2.516E+2, 0.0, 0.0, 0.0, 0.0, 3.7E+l, 4.489E-2 770 REM Sr-89 INHALATION 780 REM 0.0, 3.108E+5, 3.108E+4, 2.072E+4, 0.0, 0.0, 4.192E+4, 4.611E-8 785 FOR I=l TO 7 790 READ DCFINH(I) 795 DCFSUB(I)=O!
798 NEXT I 799 READ LAMBDA 800 CONC(l)=XQ(l)*RRATE 810 CONC(2)=XQ(2)*RRATE 820 CONC(4)=XQ(4)*RRATE 830 RATEIN=(CONC(l)*F(l))+(CONC(2)*F(2)*(1-FILEFF))+(CONC(4)*F(4))
831 FOR I = 1 TO 7 832 READ DCFINH2(I)
833 DCFSUB2(I)=O!
834 NEXT I 835 READ LAMB2 836 CON2(1)=XQ(l)*RRAT2 837 CON2(2)=XQ(2)*RRAT2 838 CON2(4)=XQ(4)*RRAT2 839 RATEIN2=(CON2(l)*F(l))+(CON2(2)*F(2)*(1-FILEFF2))+(CON2(4)*F(4))
840 FLOWOUT=F(l)+F(2)+F(4) 850 OT=(FLOWOUT~(F(3)*FILEFF))/CRVOL 855 OT2=(FLOWOUT+(F(3)*FILEFF2))/CRVOL 860 BEGIN=FIX(ST) 870 EN=FIX(ET) 875 CHECK=O 880 FDR I=BEGIN+l TO EN 890 IF (BEGIN=ST) OR (I>(BEGIN+l)) THEN GOTO 950 900 DELTAT=(BEGIN+l-ST)*60!
910 GOTO 960 950 DELTAT=60!
960 CONC(3)=(CONC(3)*EXP(-OT*DELTAT))+((RATEIN/(CRVOL*OT))*(l-EXP(-OT
DELTAT)))
965 CON2(3)=(CON2(3)*EXP(-OT2*DELTAT))+((RATEIN2/(CRVOL*OT2))*
(1-EXP(-OT2*DELTAT)))
1160 DEKAY=CONC(3)*EXP(-LAMBDA*(DELTAT/60!))
1170 ADDIN=ADDIN+CONC(3)-DEKAY 1175 CON2(3)=CON2(3)*EXP(-LAMB2*(DELTAT/60!))+((CONC(3)-DEKAY)*FRAC) 1180 CONC(3)=DEKAY 2000 DOSESUB(THYROID)=CON2(3)*0CC*DCFSUB2(THYROID)*DELTAT 2010 DOSESUB(LUNG)=CON2(3)*0CC*DCFSUB2(LUNG)*DELTAT 2020 DOSESUB(BONE)=CON2(3)*0CC*DCFSUB2(BONE)*DELTAT 2030 DOSESUB(MARROW)=CON2(3)*0CC*OCFSUB2(MARROW)*DELTAT 2040 DOSESUB(SKIN)=CON2(3)*0CC*DCFSUB2(SKIN)*DELTAT 2050 DOSESUB(EYE)=CON2(3)*0CC*DCFSUB2(EYE)*DELTAT 2060 DOSESUB(WB)=CON2(3)*0CC*DCFSUB2(WB)*DELTAT 2070 DO~EINH(THYROID)=CON2(3)*0CC*DCFINH2(THYROID)*BR*DELTAT 2080 OOSEINH(LUNG)=CON2(3)*0CC*DCFINH2(LUNG)*BR*DELTAT 2090 DOSEINH(BONE)=CON2(3)*0CC*DCFINH2(BONE)*BR*DELTAT 2100 DOSEINH(MARROW)=CON2(3)*0CC*DCFINH2(MARROW)*BR*DELTAT 2110 DOSEINH(SKIN)=CON2(3)*0CC*DCFINH2(SKIN)*BR*DELTAT 2120 DOSEINH(EYE)=CON2(3)*0CC*DCFINH2(EYE)*BR*DELTAT 2130 DOSEINH(WB)=CON2(3)*0CC*DCFINH2(WB)*BR*DELTAT 2140 FOR J=l TO 7 2150 SUMSUB(J)=SUMSUB(J)+DOSESUB(J) 2160 SUMINH(J)=SUMINH(J)+DOSEINH(J) 2170 TOTALDDS(J)=SUMINH(J)+SUMSUB(J) 2171 NEXT J 2173 IF I=EN THEN PRINT"THE VALUE OF TIME COUNTER IS ",I," MINUTES" 2174 IF (CHECK=l) OR (EN=ET) THEN GOTO 2178 2175 DELTAT=(ET-EN)*60!
2176 CHECK=l 2177 GOTO 960 2178 NEXT I 2180 PRINT"THE CONCENTRATION OF ",NUC2$," IN THE CR IS ",CON2(3),"
uCi/ml" 2190 PRINT"THE AMOUNT DECAYED TO A DAUGHTER IS ",ADDIN," uCi/ml"
FILE: DAUGHTER.BAS PAGE: 2 of 2. Length: 6655
Lines Created: 01/24/9.:56 bytes.
Queued: 01/24/9
32 111 to 176
~********
2191 PRINT"THE CONC OF ",NUC$," IS ",CONC(3)," uCi/ml" 2200 PRINT 2210 PRINT"THE DOSES TO ORGANS ARE AS FOLLOWS:"
2220 PRINT" INHALATION 2230 PRINT"THYROID
", SUMINH(l)."
2240 PRINT"LUNG
",SUMINH(2),"
2250 PRINT"BONE SURFACE ", SUMINH(3)."
2260 PRINT"BONE MARROW
",SUMINH(4),"
2270 PRINT"SKIN
",SUMINH(5),"
2280 PRINT"EYE LENS
",SUMINH(6),"
2290 PRINT"WHOLE BODY
", SUMINH(7),"
",SUMSUB(l)
",SUMSUB(2)
",SUMSUB(3)
",SUMSUB(4)
",SUMSUB(5)
",SUMSUB(6)
", SUMSUB ( 7)
SUBMERSION"
PALISADES NUCLEAR PLANT ANALYSIS CONTINUATION SHEET ATIACHMENT 6 EA-A-NL-91-086-01 Sheet 82 Rev # _..,:O __
'F'OS~->~-:zos.
~ -8'5.- ~:
2.5/7/#5'3e~
)",,- -g5:: 41-5,,(57?/E-?.,t. C.:1//)(;?_ S/7~6'3e-.&J i'l-87 ~-:;:
./. 5G'3b.:5$.5-7 0-87 =~
/,563~5.9E-?
~
-88.~
= /.li?3;l6?SE-r
/(b-Pg =
/,S?J.2~?5 £-7 t-:.-d? ~=
5-3:l.41?63e-6 Rtb-89 ::.s,3;u:i7te3£-6
= ~.:>r.3/.23 e-7 x'e -/33,.,,, ~::,;,
..Y?t/&1.551!£"-/4?
-:r-/21..3,#t:.~ = /.~d? 77.::u~*-g
..V ~ -/3J = g, 56< 2.P.55 £-s- -16, "/V,;s.se-/& -r (. 9-,1)(/. ~&?7.2c-~) =.8..5&36??8c--s Xe- /3S,,, ~
=/.-/19.3537E-~
f-/35~:.3,;?¥~?/-3£-8
~
-/35: /..Y?t!?IP.J?'.£~5' r/.lt1'35.37E-6-"' f.#'!'6)0.:Z-11"/7/.3~-'9) = /,.S$.3/.:5'3E-5 Ye-/.35 ~/
= /,#6'.5/fl.2£"-9 Cs -/35== /, #6.5/P..2 £-B
..t"e -
/.::J?
~""'
/,JP?36'..2;2E-.5 Cs -/37 =/.4?736'.2.:Z.e--s
.Xe-/3~ ~::
3.//18.Z;z~-~
c.s -/JI? = 3,//7'tt!J.2:?C:-t:'
1"-l:JJ~::: tf.11'3&?2/7c-/~
~-/31,,, -= ;z,~5??.2!~-7 (,411)(6.6.3t!rl.;<1-rE-/tJ?) =,?,~57Pe?7'c--7
/1
-~c;; '-"/
5Aee-Z- #3' ~v ti_
E'. l!

"'W W'...'.'. ~
~.... ~~'. ~;;~* '
..:t70:9*
i"/ -85"" ~.:
/. t!?Br'S:Z~E-6' rl</-g5 = 3-W6/9~t£C-~
t'/-g'? ~::
/,3??;?3</'E-8 i'6-,8"17 := 56 ??193~E-/.7
,fj. -#8 ~:
/,2tf??7.//rc-IG'
/?6-$~ := 7. 7.556??E-~
/:r -#?.= 6)
~' -g'? ;;. t!f<
Xe -133,- ~
=- /...3'?'.zr!Jl~E-6 Xe -/:33 = ~&98.3.2 c-9' Ye -/J.5,.,, ~
3,,./313.z.32-;2~
k. - 85" = /, :Ztl7539' E-5 Cs "'/, ?&1/6i"6 E-?
(e-137 =&;
Cs -1317 =&
Ye -a~ -z-CX.
C:.5-/.3$ ~&
.:T-f;:J/ ~
= 7-:25?,?"f/6E-7"
.A"e -/3/.-, = /. ~S-.Y.37~c-6
L F0519*
Form 3698 9-89 PALISADES NUCLEAR PLANT ENGINEERING ANALYSIS CHECKLIST Items Affected By This EA Other EAs
2.
Design Documents Elec E-38 through E-49
3.
Design Documents Mech M259, M664, M665 4.0 LICENSING DOCUMENTS 4.1 Final Safety Analysis Report (FSAR) 4.2 Technical Specifications 4.3 Standing Order 54 5.0 PROCEDURES 5.1 Administrative Procedures 5.2 Working Procedures 5.3 Tech Spec Surveillance Procedures 6.0 OTHER DOCUMENTS Q-List
.2 Plant Drawings Equipment Data Base 6.4 Spare Parts (Stock/MMS) 6.5 Fire Protection Program Report (FPPR) 6.6 Design Basis Documents 6.7 Operating Checklists 6.8 SPCC/PIPP Oil and Hazardous Material Spill Prevention Plan 6.9 EEQ Documents Affected Revision Yes No Required D E'f D
0 D
0 D B D
~
D
~
D IE D
g D N D
1231 D
0 D
~
D
~
D L8!
D 18]
D
~
Do any of the following documents need to be generated as a result of this EA:
Yes No
1.
Corrective Action Document?
D 12'.r Reference
2.
Safety Evaluation?
D
.gi Reference
3.
EEQ Evaluation Sheet?
D l3 Reference Is PRC Review ofthis EA Required?
D
~
ompleted By ~-----
Identify Section, No, Drawing, Document, etc.
Identify*
Closeout Date /h5d.z
171.. ::1.
TECJllIC.U, RQIEM CHECKLIST EA
1-A/<-9/-t:JBo/'--o/ REV.
Q Proc No 9.11 Athchrnent s Revision S Page 1 of 1 This checklist provides guidance for the review of engineering analyses.
Answer questions Y1s or No, or N/A if they do not apply.
OocU111nt all conwnents on 1 3110 For111. Satisfactory resolution of COlllllnts and completion of this checklist is noted by th* Technically Reviewed signature on the Initiation and Review record block of Fon1 3619.
1. Have the proper input cod1s, standards and design principl1s b11n sp1cifild?
2.
Hav1 th* input cod1s, standards and design principles been prop1rly app111d?
3. Ar* all inputs and assU11Ptions valid and the basis for their use docU111ntld?
4.
Is Y1ndor tnfon11tion usld as input addressed correctly in th* analysis?
S. If the analysis 1rgU111nt d1parts fra11 Vendor Infon11tton/R1ea1m1ndations, ts the d1p1rture justification docU111ntld?
6. Are assumptions accurately described and reasonable?
1.
Has the use of 1nginHring judg-nt bun doc-.ntldand justified?
8. Are all constants, vartlbles and formulas col'l"ICt and properly applied?
9.
Have any *tnor (tnstptftcant) '""°" beH tdenttftld? If yes; Identify oa the 3110 For11 andl Justtfy thefr 1nstgntftcanc1.
t
10. Dols an1l11t1 tnvolve *ldtng? If Yes; v1rtf1 tM
followtng tnforatta ts accurately repns111tlCI on the analysts drawing (OUtput doc..... t).
Type of V.141
Stzaof V.11
Ptll*l*l Betng.Jof nld
'IV<<-** of Matertal Bltng Joined
L.UU* of Vtld(s)
Approprtata Veld S,_log
11. Has th* objecttve of the analysis belft *t?
12. Have adlltntstrattve requtr111111ts such as nUlllllring and for111t belft sattsftldt (V, N, N/A)
?
p
'l1-
+-=
IJ/;+.
zt=:
I
~
~3ll0~
~*
NUCLEAR OPER S DEPARTMENT Revision Number St4"f.
5 IN p.,1'"
c{, (
iae.e"'-
V"c.S o 1".aJ.. ?
5,t\\t.e
~ E'A

+----'-=-="--'--'-==-=-=~-=------- --- kelV\\.'+ c:;.cf'..,,ll'"l tt.e.

JoteJ it e0 1.1 IJ
~ r: '"'el oif-w :-t"-aJf
<E'.r~Lf,__. Q-
.fL.
reJ :~... f
-fr'W'<(, "'-'-t'
~~'...!._i+.ev~_~Ju~s~o""'t.~tl;~*\\)~~~~_:___~~2k.......~~'AL-~~.2.9!l~~a~!h~:;.e:'=----i JCQ cvvJ1 i '.1.
~-1-----+---5~r.f_"-_~--1k. --~~~lb.t~ -flu. ___,41\\QJJ
+<:!... ~/oe~_gc~~~L__--~~~~~~~~~~~te.......J
-~-~~ flv...~_~ ___ f<\\t~~----~~~--
~ ctJ~~-j-~ +L.
rtol""'
i" +<<<e
0.,.
"'"=~
c:, _...,c...~:__--+-<~~L-...!~~a.!o~----------~
df'V";,,~J...
Reviewer
-r: <!'" :W PF"(
Organization 1l+ S.A Document Sponsor
-:P. A.
1-1 ARJ)Er.J Date "nrm 'H 1n 1-R?
NUCLEAR OPER S DEPARTMENT Document Review Sheet Document Title
'BEA.!CUMlll~l("/l'll-OF -r.1/£'
c-.:uv'l>CJSE
~aZIE Fol<
Ca.IV'T/f?o L.
Document Number Revision Number
/loo/I'\\
/llJIT'A BIL 1 C '4lcv<. 11!1-noN.r cl-I"'
Page Z.. of 3
Item
Page and /or Number Section Number Comments Response or Resolution i-tk
{~-.~o~=-:.~_v~J~~~J-~,~~~~2-____::C~oJ~~~--.J..llZ~~~~L.J:~'La........U.~~~e_,~~
____ _,__w_h 'j+-
d oe~~--f-'o j Vtt-.
l: J +,' ~-f~,,. __ -t~ **-_'-.J~fZ..--=c:. __
~c:::::.:01:.:..:-e..::::.__ __
~~Co.__L~u::__~~:.a.-sdli::~:.......!..=.....IO.!i:=....~~ No w
--~~~-----~_:ff-.e.--e~:t-
~f;-:." _R~c..~-=--+~~~-~J~Q:::.r~c.~V'~:e."fi.!Jic.'5~~-:::...:~ __
-l=..=k:.A!.~~cg__.L.L--'t.~~>-L.tc.~~~...f<-'°~~z~e...!.""=----1
.,.. ~!. -. ~-~ - --~~--~'.'~~~ f'
~
~~~-__:_o_,,,._J_*....:.".:.J_1-:___* -r__:d'"'~____:+:...:L=-----+LLL-'d:~~~~~~a..L..-.Lo~"--~__.:;::_:.y.....-=---1 st.+-~------
~l} -+k_
VD.\\\\b11.)
f...v-01"",jC-\\"":-'cf C.~c.4L
~.c
~
v~il.> ~""'*"4'.er 1r-+
s/..wJlJ.
k sr~c~£*d.
--+---~~~L....v-.... -t~+/-__JL.., ____ C.*_c!:!_ ___ o"l~ __ __'.~~.:....""'~lc..~J -~hs~.r_-fl-~:.__--JL<<.a.L.liC..:.£::.......:.=-.:..=~--1-k.:.a.::_--=:.c.-=--...:~~~"'---I 1,-----+-------t--~~cJ.;o __ l\\.1_c.f;J!! ___ ~;:.~-~
J....,,.e,.
.s~..f to l:.l1P
'D... +k
'"DCf 1.r ko."""~ C\\wt-( tva.-
Ic..RP-'S~ fw.~
l---=~---4------4--------*-*---**--------------*-__!....'.-=-=-_:___-*-----*--------i:~~C-LL~~~~~=~~-=-~==!!:-L==-i 1---+-J~"'_,~* n~---- --~4_
___ f~-----~~~~----r.~~~fj_j_ tf __ ~u__+M) s ~lJ °".)~-~4;:___-4.QQ!~[...L.l..s£..J~-12L.:.e.......J~::.__.,:;ea:::...L1.4~~4 5", /
5f:.o.111if~..( 5-fy-o~Qr wa,,.JI""' ~
s~~,,IJ ~f o~f.,;~eJ)
..._ __.. _______ r..:.--***-*--*-****-** -* *-*"--- --* ******- --*--****-*-**-*-V**--*-----*------*----*--~-----+-'-..t;L<---=c.L !f._Li~~~~~::l£_~~~:..a:!~'---l i--@_l 2--1---------- _12_~eJ -~~~;_".\\_~ ____ "tk ___ ~_ei.jh_t4-ch,)u~~f'ts; ~"'_bc..t...:.c*"'..::s~-J---=--+£<Z--==~------*------_,
~--+--------1---'--IL_
S"l!Y't r-eJv(f1 o.l
<:4lcvl"..V."l tl.
du~ -f'-e e_c._:_c."--<1~'1~c:;-"-+~~~~~..!'.:!!:::~:::.._.~La-s.~~.sf£LJ.~---t
~~~-~.r.,~ f'-:
~rrr~rY<~+~
w_~_\\~~~~~,*~~~~~~(t~~~v~*~f::__:_f __
--1--fLk.C~__..E._~..L..!e:gt::...~~'.'!£)W2.~--?J.~.£L.L~
~-_...-------+-- So ~f"t~---'d' ~ tle... _ J{JCu.)f;...... t _._'i_-f_"'-_l\\"f _ _.:J~DJ_.f~'-* *
.J----<~.J__G-'_,,,..
_µl~;.,~*~V.....;~~.,_;~!:_~~~~~,1~2G~,~--------f M~aJ.
(§)Ves d/ld t; cl;_ C 1-!S"..Sr<?/1,
Reviewer
-r.c."])JPF"'f' Organization
'R +-SA Daf
J. :n/q~
Revi Date
.3/_'?
Document Sponsor
-:P. A. J.I AfU>ErJ Date r:"rrn ~110 1-R?
NUCLEAR OPER S DEPARTMENT Document Number Revision tt-1"'
j6 Document Title i'JEwcuAJt/11~1;1,J(f.
t:>F r"H£'
CoAJ'i)o.S.£ C-abE Fo/I!.
C.,.Al'f"/li!!o L.
/2ool"\\.
,l/~/!>IT"A BIL 1
C 14£.Cv(. ~'TiON.r Revision Number Page
~
of3 0
. ~,
~-~--1-~-~---+--------------------------------1--....... ----R"_po_n*_o_rR_"°_1u_t_ion ____
~_...~m
~-
---==--~:..:L--=-=-:..::.=.!..!!!.-:::__-l-.J:.._--!£f<L.L.-.=._.£(.~-=-~:--.::~~-=:..<....E'--"';~'------4~~
~-
(l5)
-----------+-~~--=~~=-=~~~~_.£._LJ1i!=:o....=~~.;
,,._. _.j._ ____ Tu
~ 2.2. --~ ---~-"' -~*-*

1-L-H.£..l._LJ~~--------4-----I

.1 e"'-':':'""~!. _______ fu ____ ~,J..c. -~~~-~- -~oQ.,.!=____ ~
._..:_* "'-'-.fl-=~=~--l "------+---'~-=*:..o.:r....:..'i'_~::.;~=~""'"'-'~=""-------+------1
_&-tl..e_~ -th.-.- ___ wlu I.-< __
_,._:""..,t~.1 *

l-@_17..!'...!~~-~~~~...L..s;;;;.~=-=~-~

._ __ __.. _____ _, _____ 11)2~-
¥.,...
,n_~~L ___ _!!~--
'~
4o,;..
-rc.~lc./cn..
w Ov 1--1_'7_+--A_-ti __
Z._<1-_3_-1--~r ~-~~---Lo:T".s _!~~- __ ser..... J sl..~ef-ft:. fP-.r/zy-
-t.-L_~__:e~!!<_c.f!__-fc_C!i. __
c:h-=-=._~tlJ~"-~--.s-~-=-o...J------~
1---~-S-~'1'"_5"_/'---~--=Cq~l,_.,{_
... -t~-~l~----+/-~---c;~ *.~_ll_t..a. ___
I o-iu._') __
V""~_~_.J_lf:_..::~'-------f----+.;_L __
e--1J-"'---c_i"t __
~-...+-* _['_: ---1
~'Z.
-~-c-=-al¥'e~f--*~---**----~~"}--~elL__~-~-~h~.J c"\\lt._... (..:..
... f,!...:..:..
-=i...~J~--+---=-Vl.....:.k,~-~~'--__:~=--*
_:_A_:___'J_Ci_<*--',)::...c:(-~(};'..Q-=:__o(f..:.....~-°"~'-i 1-----4---~U"'T __ 3_'-___,__~-~A _____ vy*~--- "f~*-*****- -~~~.? ~-~g----~~~-~1+/-:~--~~{_~ I: l\\.c..
~~ I __ ---"'rl-~_""-_+ ___
h_~
~
____ ~_.--1 1----+------+-~-'
~-~~---fb ____ ~J~--
f.Q-lfu~~.!__~ ""'tP.--=~=-=-=---*---4-----"'-f;~~'P+--_/_~_~fl
~____._-'--r-,J_,__----i 1k <J\\A?A
~ ~ fr'\\"'-SClr;p.f.'1-A--voorJ ""'lcrJ.e
.N~-
0~
(.S.
1------1-~-~~---1-~
=------l---------'-=o.----1\\.---..!..-~~--1
_w,.\\t:1.__ ~-
-fL..
k...,,J
<:4.(0:.5.
11.eJaL.,,,.,,...J

'-------------~(.() :J/JriL_ ________ __,. ___

~_q_v_,_*1-_t£_t::. __ __,_,..,_.,lf----------------;
(t Document Sponsor Date 1'. A.
1-1 AfUJE,.J c... rm '111'1 1.R?
LINE #
COUNT IT I SENT KFLOW KFILT KBR KXQ KOCC ELAPTIME LASTTHY LAST SKI LASTWBE SUMINH(1)
SUMINH(2)
SUMINH(3)
SUMINH(4)
SUMINH(5)
SUMlNHC6)
SUMINH(7)
CR VOL CR VOL NUMBR BRTlMEC 1)
BRTlME(2)
BRTJME(3) llUMOCC OCCTllME( 1)
OCCTIMEC2)
OCCTIME(3)
NUMXQ XQTIME( 1)
XQTIME(2)
XQTIME(3)
XQTIME(4)
NUMFLOW 1700 FLOWTIME(1) 1730 1700 FLOWT!ME(2) 1730 1800 NLIMFILT FILTIME(1) 1970 N~lRITES TWRITE( 1)
TWRITE(2)
TWRITE(3)
O.OOE+OO 1.00E+OO 1.00E+OO CONVERSION TO METER 3 1.00E+OO CONVERSION 1.00E+OO TO METER3/SEC 1.00E+OO 1.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 3.8030E+04 1.0769E+03 3.00E+OO O.OOE+OO 4.80E+02 1.44E+03 3.00E+OO O.OOE+OO 1.44E+03 5.76E+03 4.00E+OO O.OOE+OO 4.80E+02 1.44E+03 5.76E+03 2.00E+OO SUMSUB(1)
SUMSUB(2)
SUMSUB(3)
SUMSUB(4)
SUMSUBC5)
SUMSUB(6)
SUMSUB(7)
BR(1)
BR(2)
BR(3)
OCCFAC(1)
OCCFAC(2)
OCCFAC(3)
XQ(1,1)
XQ(1,2)
XQ(1,3)
XQ(1,4)
O.OOE+OO FLOWRATEC1,1)
FLOWRATE(1,1) 1.28E+OO FLOWRATEC1,2)
FLOWRATE(1,2) 1.00E+OO O.OOE+OO FILTEFFC1,1,1)
FILTEFF(2, 1,1) 2.50E+01 1.00E+OO 5.00E+OO 1.00E+01 2.83E-02 4.72E-04 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 3.47E-04
1. 75E-04 2.32E-04 1.00E+OO 6.00E-01 4.00E-01 1.84E-04 1.65E-04 1.30E-03 9.00E-04 XQ(2,1)
XQ(2,2)
XQC2,3)
XQ(2,4)
O.OOE+OO FLOYRATEC2,1)
O.OOE+OO,fLOWRATE(2,1) 1.16E+01 FLOWRATE(2,2) 5.47E-03 FLOWRATE(2,2)
O.OOE+OO FILTEFF(1,2,1)
O.OOE+OO FILTEFFC2,2,1)
LC)TU S
( 1 ~
1.22E-03 XQ(4, 1) 1.02E-03 XQC4,2) 6.BOE-04 XQ(4,3) 3.98E-04 XQC4,4)
O.OOE+OO FLOWRATE(3, 1)
O.OOE+OO FLOWRATEC3,1) 1.00E+03 FLO\\JRATE(3,2)
4. 72E-01 FLOWRATE(3,2)
O.OOE+OO FILTEFF(1,3,1) 9.90E-01 FILTEFF(2,3,1)
TWRITE(4) 1.90E+01 TWRITE(5) 3.00E+01 2100 INTRVALS 2.40E+01 TIMEINT(1)
O.OOE+OO TIMEINT(2) 1.00E+OO TIMEINT(3) 2.28E+OO TIMEINT(4) 5.00E+OO TIMEINT(5) 1.90E+01 TIMEINT(6) 3.05E+03 TIMEINT(7) 6.00E+01 TIMEINT(8) 7.00E+01 TIMEINT(9) 9.00E+01 TIMEINT(10) 1.05E+02 TIMEINT(11) 1.20E+02 TIMEINT(12) 1.35E+02 TIMEINT(13) 1.50E+02 TIMEINT(14) 1.65E+02 TIMEINT(15) 1.80E+02 TIMEINT(16) 1.95E+02 Tl ME I NT( 17) 2.10E+02 TIMEINT(18) 2.40E+02 TIMEINT(19) 4.80E+02 TIMEINT(20) 7.20E+02 TIMEINT(21) 1.44E+03 TIMEINT(22) 1.80E+03 TIMEINT(23) 5.76E+03 TIMEINT(24) 4.32E+04 2210 NREL 1.80E+01 2300 CONVERT 2.78E*10 2390 NUMNUC 2.50E+01 2510 KR-83M 1
DCFINH(1,1) DCFINH(1,2)
O.OOE+OO O.OOE+OO DCFSUB(1,1) DCFSUB(1,2)
O.OOE+OO O.OOE+OO GROUP LAMBDA 1
6.31E-03 KR-85M 2
DCFINH(2,1) DCFINH(2,2)
O.OOE+OO O.OOE+OO DCFSUB(2,1) DCFSUB(2,2) 3.0BE-02 2.67E-02 GROUP LAMBDA 1
2.SBE-03 UNITS 1.00E+OO DCFINH(1,3) DCFINH(1,4)
O.OOE+OO O.OOE+OO DCFSUB(1,3) DCFSUB(1,4) 6.47E-06 5.65E-06 DAUGHTER DAUFRAC 0
O.OOE+OO DCFINH(2,3) DCFINH(2,4)
O.OOE+OO O.OOE+OO DCFSU8(2,3) DCFSUB(2,4) 4.83E-02 4.52E-02 DAUGHTER DAUFRAC 0
2.11E-01 DCFINH(1,5) DCFINH(1,6)
O.OOE+OO O.OOE+OO DCFSUB(1,5) DCFSUB(1,6) 1.75E-04 1.75E-04 DCFINH(2,5) DCFINH(2,6)
O.OOE+OO O.OOE+OO DCFSUB(2,5) DCFSUB(2,6) 8.53E-02 3.4940E-03 DCFINH(1,7)
O.OOE+OO DCFSUB(1,7) 3.65E-06 DCFINH(2,7)
O.OOE+OO DCFSUB(2,7) 3.03E-02
KR-85 3
DCFINH(3,1) DCFINH(3,2)
DCFINH(3,3) DCFINH(3,4)
DCFINH(3,5) DCFINH(3,6)
DCFINH(3,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 111 DCFSUB(3,1) DCFSUB(3,2)
DCFSUB(3,3) DCFSUBC3,4)
DCFSUB(3,5) DCFSUB(3,6)
DCFSUBC3,7)
O.OOE+OO 4.42E-04 6.37E-.04 5.58E*04 4.83E*02 6.06E-04 4.74E-04 Q
GROUP LAMBDA DAUGHTER DAUFRAC 1
1.23E*07 0
O.OOE+OO
,.fl KR-87 4
'° DCFINH(4,1) DCFINHC4,2)
DCFINHC4,3) DCFINHC4,4)
DCFINHC4,5) DCFINH(4,6)
DCFINHC4,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(4,1) DCFSUB(4,2)
DCFSUB(4,3) DCFSUB(4,4)
DCFSUB(4,5) DCFSUB(4,6)
DCFSUB(4,7)
~
1.44E-01 1.44E-01
1. 75E-01 1.54E*01 5.14E-01 2.78E-01 1.45E-01 GROUP LAMBDA DAUGHTER DAUFRAC
'-J 1
9.08E-03 0
1.00E+OO
~
KR-88 5
'-J DCFINHC5,1) DCFINHC5,2)
DCFINHC5,3) DCFINHC5,4)
DCFINHC5,5) DCFINHC5,6)
DCFINH(5,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC5,1) DCFSUBC5,2)
DCFSUBC5,3) DCFSUB(5,4)
DCFSUB(5,5) DCFSUB(5,6)
DCFSUB(5,7) 3.80E-01 3.60E-01 4.01E-01 3.60E-01 5.34E-01 4.63E-01 3.69E*01 GROUP LAMBDA DAUGHTER DAUFRAC 1
4.07E-03 0
1.00E+OO KR-89 6
DCFINH(6,1) DCFINH(6,2)
DCFINHC5,3) DCFINHC5,4)
DCFINHC5,5) DCFINH(5,6)
DCFINHC5,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(5,1) DCFSUBC5,2)
DCFSUB(5,3) DCFSUB(5,4)
DCFSUBC5,5) DCFSUBC5,6)
DCFSUB(5,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 1
2.19E-01 0
1.00E+OO XE-131M 7
DCFINHC7,1) OCFINH(7,2)
DCFINH(7,3) DCFINHC7,4)
DCFINHC7,5) DCFINHC7,6)
DCFINH(7,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC7, 1) DCFSUB(7,2)
DCFSUBC7,3) DCFSUBC7,4)
DCFSUBC7,5) DCFSUB(7,6)
DCFSUBC7 I 7)
O.OOE+OO 1.03E-03 2.57E-03 2.36E*03
1. 75E-02 3.08E-03 1.32E-03 GROUP LAMBDA DAUGHTER DAUFRAC 1
4.06E-05 O.OOE+OO O.OOE+OO XE*133M 8
DCFINHC8,1) DCFINHC8,2)
DCFINHC8,3) DCFINHC8,4)
DCFINHC8,5) DCFINH(8,6)
DCFINH(8,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(8,1) DCFSUB(8,2)
DCFSUB(8,3) DCFSUB(8,4)
DCFSUB(8,5) DCFSUB(8,6)
DCFSUBC8,7)
O.OOE+OO 4.42E-03 8.22E*03 7.61E-03 3.80E-02 7.71E*03 5.37E-03 GROUP LAMBDA DAUGHTER DAUFRAC 1.00E+OO 2.20E-04 O.OOE+OO 1.00E+OO XE-133 9
DCFINH(9,1) DCFINHC9,2)
DCFINH(9,3) DCFINH(9,4)
DCFINH(9,5) DCFINH(9,6)
DCFINH(9,7)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC9,1) DCFSUBC9,2)
DCFSUB(9,3) DCFSUB(9,4)
DCFSUB(9,5) DCFSUBC9,6)
DCFSUBC9,7)
I r*~
7.30E-03 GROUP 1.00E+OO 4.93E-03 LAMBDA 9.18E-05 XE-135M 10 1.23E-02 DAUGHTER O.OOE+OO 1.13E-02 DAUFRAC O.OOE+OO 1.95E-02 9.35E-03 DCFINHC10,1)DCFINH(10,2) DCFINHC10,3) DCFINHC10,4) DCFINHC10,5) DCFINHC10,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(10,1)DCFSUB(10,2) DCFSUB(10,3) DCFSUBC10,4) DCFSUB(10,5) DCFSUB(10,6)
O.OOE+OO 7.19E-02 9.46E-02 8.84E-02 1.13E-01 9.56E-02 GROUP LAMBDA DAUGHTER DAUFRAC 1.00E+OO
.4.51E-02 O.OOE+OO 1.00E+OO XE-135 11 DCFINHC11,1)DCFINHC11,2) DCFINHC11,3) DCFINHC11,4) DCFINHC11,5) DCFINHC11,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(11,1)DCFSUB(11,2) DCFSUB(11,3) DCFSUB(11,4) DCFSUB(11,5) DCFSUBC11,6)
O.OOE+OO 4.21E-02 6.78E-02 6.37E-02 1.23E-01 5.55E-02 GROUP LAMBDA DAUGHTER DAUFRAC 1.00E+OO 1.27E-03 O.OOE+OO 1.00E+OO XE-137 12 DCFINHC12,1)DCFINH(12,2) DCFINHC12,3) DCFINHC12,4) DCFINHC12,5) DCFINH(12,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC12,1)DCFSUBC12,2) DCFSUB(12,3) DCFSUB(12,4) DCFSUBC12,5) DCFSUB(12,6)
O.OOE+OO O.OOE+OO O.OOE+OO. O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 1.00E+OO 1.81E-01 O.OOE+OO 1.00E+OO XE-138 13 DCFINH(13,1)DCFINH(13,2) DCFINHC13,3) DCFINHC13,4) DCFINHC13,5) DCFINH(13,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC13,1)DCFSUB(13,2) DCFSUBC13,3) DCFSUB(13,4) DCFSUBC13,5) DCFSUB(13,6) 1.95E-01 2.06E-01 2.36E-01 2.16E-01 4.11E-01 2.78E-01 GROUP LAMBDA DAUGHTER DAUFRAC 1.00E+OO 4.91E-02 O.OOE+OO 1.00E+OO 1-131 14 DCFINHC14,1)DCFINHC14,2) DCFINHC14,3) DCFINHC14,4) DCFINHC14,5) DCFINHC14,6) 1.07E+06 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(14,1)DCFSUB(14,2) DCF.SUBC14,3) DCFSUBC14,4) DCFSUBC14,5) DCFSUB(14,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 2.00E+OO 5.99E-05 O.OOE+OO 1.00E-02 I-132 15 DCFINHC15,1)DCFINHC15,2) DCFINHC15,3) DCFINHC15,4) DCFINHC15,5) DCFINH(15,6) 6.29E+03 9.99E+02 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC15,1)DCFSUB(15,2) DCFSUB(15,3) DCFSUB(15,4) DCFSUBC15,5) DCFSUB(15,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 2.00E+OO 5.02E-03 O.OOE+OO O.OOE+OO 6.26E-03 DCFINHC10,7)
O.OOE+OO DCFSUB(10,7) 7.65E-02 DCFINHC11,7)
O.OOE+OO DCFSUB( 11, 7) 4.68E-02 DCFINHC12, 7)
O.OOE+OO DCFSUB(12,7)
O.OOE+OO DCFINHC13, 7)
O.OOE+OO DCFSUBC13,7) 1.97E-01 DCFINHC14, 7) 3.26E+04 DCFSUB(14,7)
O.OOE+OO DCFINHC15,7) 3.37E+02 DCFSUBC15,7)
O.OOE+OO
1*133 16 DCFINH(16,1)DCFINHC16,2) DCFINH(16,3) DCFINH(16,4) DCFINH(16,5) DCFINHC16,6) 1.81E+05 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(16,1)DCFSUB(16,2) DCFSUB(16,3) DCFSUB(16,4) DCFSUB(16,5) DCFSUB(16,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 2.00E+OO 5.55E*04 O.OOE+OO 9.71E*01 1*134 17 DCFINHC17,1)DCFINHC17,2) DCFINH(17,3) DCFINHC17,4) DCFINHC17,5) DCFINHC17,6) 1.07E+03 5.18E+02 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(17, 1)DCFSUBC17,2) DCFSUB(17,3) DCFSUB(17,4) DCFSUB(17,5) DCFSUB(17,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 2.00E+OO 1.32E*02 O.OOE+OO O.OOE+OO 1-135 18 DCFINH(18,1)DCFINH(18,2) DCFINH(18,3) DCFINHC18,4) DCFINH(18,5) DCFINH(18,6) 3.15E+04 1.63E+03 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(18,1)DCFSUB(18,2) DCFSUB(18,3) DCFSUB(18,4) DCFSUB(18,5) DCFSUB(18,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 2.00E+OO 1.75E*03 O.OOE+OO 8.46E*01 CS-135 19 DCFINH(19,1)DCFINH(19,2) DCFINH(19,3) DCFINHC19,4) DCFINH(19,5) DCFINH(19,6) 4.44E+03 5.18E+03 4.44E+03 4.44E+03 O.OOE+OO O.OOE+OO DCFSUB(19,1)DCFSUB(19,2) DCFSUB(19,3) DCFSUB(19,4) DCFSUB(19,5) DCFSUB(19,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 5.73E*13 O.OOE+OO O.OOE+OO CS-137 20 DCFINHC20,1)DCFINHC20,2) DCFINH(20,3) DCFINHC20,4) DCFINH(20,5) DCFINH(20,6) 2.92E+04 3.26E+04
. 2.92E+04 3.07E+04 O.OOE+OO O.OOE+OO DCFSUB(20,1)DCFSUB(20,2) DCFSUB(20,3) DCFSUB(20,4) DCFSUB(20,5) DCFSUB(20,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 4.37E*08 O.OOE+OO O.OOE+OO CS-138 21 DCFINHC21, 1)DCFINHC21,2) DCFINHC21,3) DCFINHC21,4) DCFINHC21,5) DCFINHC21,6)
O.OOE+OO 5.92E+02 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUBC21,1)DCFSUB(21,2) DCFSUB(21,3) DCFSUBC21,4) DCFSUB(21,5) DCFSUB(21,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 2.15E*02 O.OOE+OO O.OOE+OO RB-87 22 DCFINH(22,1)DCFINHC22,2) DCFINHC22,3) DCFINHC22,4) DCFINHC22,5) DCFINHC22,6) 2.66E+03 4.07E+03 8.88E+03 4.81E+03 O.OOE+OO O.OOE+OO DCFSUB(22,1)DCFSUB(22,2) DCFSUB(22,3) DCFSUB(22,4) DCFSUB(22,5) DCFSUB(22,6)
DCFINH(16,7) 5.55E+03 DCFSUB(16,7)
O.OOE+OO DCFINH(17,7) 1.11E+02 DCFSUB(17,7)
O.OOE+OO DCFINHC18,7) 1.12E+03 DCFSUBC18,7)
O.OOE+OO DCFINHC19,7) 4.53E+03 DCFSUBC19,7)
O.OOE+OO DCFINH(20,7) 3.22E+04 DCFSUB(20,7)
O.OOE+OO DCFINHC21,7) 8.73E+01 DCFSUB(21,7)
O.OOE+OO DCFINHC22,7) 3.25E+03 DCFSUB(22,7)
1~
O.OOE+OO GROUP 3.00E+OO O.OOE+OO LAMBDA 2.79E*16 RB-88 23 O.OOE+OO DAUGHTER O.OOE+OO O.OOE+OO DAUFRAC O.OOE+OO O.OOE+OO O.OOE+OO DCFINH(23,1)DCFINH(23,2) DCFINH(23,3) DCFINH(23,4) DCFINH(23,5) DCFINH(23,6)
O.OOE+OO 5.SSE+02 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(23,1)DCFSUB(23,2) DCFSUB(23,3) DCFSUB(23,4) DCFSUB(23,5) DCFSUB(23,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 3.89E-02 O.OOE+OO O.OOE+OO RB-89 24 DCFINH(24, 1)DCFINH(24,2) DCFINH(24,3) DCFINH(24,4) DCFINHC24,5) DCFINHC24,6)
O.OOE+OO 2.52E+02 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO DCFSUB(24,1)DCFSUBC24,2) DCFSUBC24,3) DCFSUB(24,4) DCFSUB(24,5) DCFSUB(24,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 4.49E-02 O.OOE+OO 1.00E+OO SR-89 25 DCFINHC25, 1)DCFINHC25,2) DCFINHC25,3) DCFINHC25,4) DCFINHC25,5) DCFINHC25,6)
O.OOE+OO 3.11E+OS 3.11E+04 2.07E+04 O.OOE+OO O.OOE+OO DCFSUBC25,1)DCFSUB(25,2) DCFSUB(25,3) DCFSUB(25,4) DCFSUB(25,5) DCFSUB(25,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO GROUP LAMBDA DAUGHTER DAUFRAC 3.00E+OO 4.61E-08 O.OOE+OO O.OOE+OO RELEASE FOR O.OOE+OO TIME=
O.OOE+OO NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 8.75E-02 1.90E-01 8.78E-03 3.36E-01 4.94E-01 S.25E-01 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.17E-03 S.72E-02 1.65E+OO 4.86E-01 2.86E-01 1.26E+OO NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.27E+OO 2.15E-01 3.03E-01 3.53E-01 4.53E-01 3.61E-01 RELEASE FOR TIMEINTC2)
TIME=
1.00E+OO NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 8.69E-02 1.89E-01 8.78E-03 3.33E-01 4.92E-01 4.03E-01 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.17E-03 S.72E-02 1.65E+OO 4.61E-01 2.86E-01 1.01E+OO NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.19E+OO 2.14E-01 3.00E-01 3.SOE-01 4.42E*01 3.58E-01 RELEASE FOR TIMEINT(3)
TIME=
2.28E+OO NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 8.58E-02 1.89E-01 8.78E-03 3.28E-01 4.89E-01 2.69E-01 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.17E-03 5.72E-02 1.65E+OO 4.22E-01 2.86E-01 7.28E-01 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.09E+OO 2.11E-01 2.94E-01 3.44E-01 4.25E-01 3.53E-01 O.OOE+OO DCFINH(23,7) 8.03E+01 DCFSUBC23,7)
O.OOE+OO DCFINHC24,7) 3.70E+01 DCFSUB(24,7)
O.OOE+OO DCFINH(25,7) 4.19E+04 DCFSUBC25,7)
O.OOE+OO
RELEASE FOR TIMEINT(4)
TIME=
5.00E+OO NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 8.14E*02 1.84E-01 8.78E-03 3.03E-01 4.72E-01 6.00E-02
'1'i NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 d
5.14E-03 5.69E-02 1.65E+OO 2.94E-01 2.83E*01 2.04E-01 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 tll 7.36E-01 8.61E*02 1.16E-01 1.40E-01 1.61E*01 1.42E-01 t)
RELEASE FOR TIMEINT(5)
TIME=
1.90E+01 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 7.53E-02
1. 79E-01 8.78E*03 2.71E-01 4.47E-01 3.36E*03 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12
~
5.14E-03 5.69E-02 1.65E+OO 1.66E-01 2.77E-01 1.96E-02
\\J NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 3.97E-01 6.83E-02 8.56E-02 1.11E-01 1.05E-01 1.10E-01 rJ RELEASE FOR TIMEINT(6)
TIME=
3.05E+03
~
NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 6.94E-02
1. 73E-01 8.78E-03 2.41E-01 4.25E-01 2.31E-04 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.14E-03 5.67E-02 1.65E+OO 9.28E-02 2.73E-01 2.15E-03 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.13E-01 6.75E-02 7.94E-02 1.09E-01 8.75E-02 1.06E-01 RELEASE FOR TIHEINT(7)
TIME=
6.00E+01 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 6.33E-02 1.66E*01 8.78E*03
2. 10E-01 4.00E-01 8.50E-06 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12
5. 14E-03 5.67E-02 1.65E+OO 4.69E-02 2.68E-01 1.44E-04 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.02E-01 6.69E-02 7.28E-02 1.07E-01 7.11E-02 1.02E-01 RELEASE FOR TIHEINT(8)
TIME=
7.00E+01 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 5.78E-02 1.60E-01 8.78E-03 1.83E-01 3.75E*01 3.14E-07 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.14E-03 5.64E-02 1.64E+OO 2.38E-02 2.63E-01 9.72E-06 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 4.92E-02 6.64E-02 6.69E-02 1.05E-01 5.81E-02 9.89E-02 RELEASE FOR TIMEINT(9)
TIME=
9.00E+01 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 5.25E-02 1.54E-01 8.78E-03 1.59E-01 3.53E-01 1.15E-08 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.14E-03 5.61E-02 1.64E+OO 1.21E-02 2.58E*01 6.53E-07 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.37E-02 6.58E*02 6.17E-02 1.03E-01 4.72E-02 9.58E*02 RELEASE FOR TIMEINT(10)
TIME=
1.05E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 4.81E-02 1.48E-01 8;78E*03 1.39E-01 3.33E*01 4.25E-10
NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.14E*03 5.61E*02 1.64E+OO 6.11E*03 2.53E*01 4.39E*08 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.14E*02 6.56E*02 5.69E*02 1.02E*01 3.86E-02 9.31E*02 RELEASE FOR TIMEINT(11)
TIME=
1.20E+02
~*
NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 U1 4.36E*02 1.42E*01 8.78E*03 1.21E*01 3.14E-01 1.56E*11 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12
~~
5.14E*03 5.58E*02 1.64E+OO 3.11E-03 2.48E-01 2.94E-09 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 5.47E-03 6.53E*02 5.28E-02 1.01E-01 3.17E*02 9.03E-02 kt
\\I N
RELEASE FOR TIMEINT(12)
TIME=
1.35E+02 iV NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 3.97E*02 1.37E-01 8.78E*03 1.06E*01 2.94E-01 5.75E*13 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.14E-03 5.56E-02 1.63E+OO 1.57E-03 2.44E-01 1.98E*10 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.63E-03 6.50E-02 4.86E-02 9.97E-02 2.58E-02
8. 75E-02 RELEASE FOR TIMEINT(13)
TIME=
1.50E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 3.61E*02 1.32E-01 8.78E-03 9.22E-02 2.77E*01 2.12E-14 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.11E-03 5.56E-02 1.63E+OO 7.97E-04 2.39E-01 1.33E-11 WIRWIRWIRWIRWIR NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.27E-03 6.47E-02 4.50E-02 9.86E-02 2.11E-02 8.53E-02 RELEASE FOR TIMEINT(14)
TIME=
1.65E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 3.31E-02 1.27E*01 8.78E-03 8.06E-02 2.61E-01 7.81E-16 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.11E-03 5.53E-02 1.63E+OO 4.03E-04 2.34E-01 8.94E-13 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 6.08E-04 6.44E*02
4. 17E-02 9.78E-02
1. 73E-02 8.28E*02 RELEASE FOR TIMEINT(15)
TIME=
1.80E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 3.00E-02 1.22E-01 8.78E-03 7.03E-02 2.45E-01 2.89E-17 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.11E*03 5.50E-02 1.63E+OO 2.05E-04 2.30E-01 6.00E-14 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.92E*04 6.44E*02 3.86E-02 9.67E*02 1.42E-02 8.06E-02 RELEASE FOR TIMEINT(16)
TIME=
1.95E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 2.74E-02 1.17E-01 8.78E*03 6.11E-02 2.31E*01 1.06E*18
NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.11E-03 5.50E-02 1.62E+OO 1.04E-04 2.26E-01 4.03E-15 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 1.41E-04 6.42E-02 3.58E-02 9.58E-02 1.16E-02 7.83E-02 RELEASE FOR TIMEINT(17)
TIME=
2.10E+02 Q
NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 m
2.50E-02 1.13E-01 8.78E-03 5.33E-02 2.17E-01 3.89E-20 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12
~
5.11E-03 5.47E-02 1.62E+OO 5.25E-05 2.21E-01 2.71E-16 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 6.78E-05 6.42E-02 3.31E-02 9.50E-02 9.56E-03 7.64E-02 RELEASE FOR TIMEINT(18)
TIME=
2.40E+02
~
NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6
\\j 2.17E-02 1.06E-01 8.78E-03 4.36E-02 1.98E-01 7.44E-22 rJ NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 w
5.11E-03 5.44E-02 1.62E+OO 2.01E-05 2.15E-01 9.75E-18 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.41E-05 6.42E-02 2.94E-02 9.39E-02 7.14E-03 7.33E-02 RELEASE FOR TIMEINT(19)
TIME=
4.80E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 1.03E-02 7.64E-02 8.78E-03 1.54E-02 1.19E-01 1.26E-25 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.08E-03 5.28E-02 1.60E+OO 8.67E-07 1.82E-01 5.53E-21 NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 9.06E-07 6.36E-02 1.59E-02 8.69E-02
1. 76E-03 5.83E-02 RELEASE FOR TIMEINTC20)
TIME=
7.20E+02 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 2.31E-03 4.11E-02 8.78E-03
1. 72E-03 4.47E-02 O.OOE+OO NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 5.03E-03 5.00E-02 1.56E+OO 1.65E-11 1.34E-01 O.OOE+OO NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 7.42E-12 6.25E-02 4.72E-03 7.61E-02 7.44E-05 3.83E-02 RELEASE FOR TIMEINTC21)
TIME=
1.44E+03 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 2.22E-04 1.35E-02 8.78E-03/
7.22E-05 8.56E-03 O.OOE+OO NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 4.92E-03 4.53E-02 1.50E+OO 1.04E-16 7.50E-02 O.OOE+OO NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 2.02E-17 6.08E-02 6.53E-04 5.86E-02 1.09E-06 1.75E-02 RELEASE FOR TIMEINT(22)
TIME=
1.80E+03 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 2.29E-06 1.51E-03 4.39E-03 9.81E-08 3.69E-04 O.OOE+OO NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 2.41E-03 2.00E-02 7.11E-01 O.OOE+OO 1.84E-02 O.OOE+OO NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 O.OOE+OO 4.81E-02 2.42E-05 3.53E-02 1.34E-10 5.25E-03
RELEASE FOR TIMEINT(23)
TIME=
5. 76E+03 NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6 2.49E*08 8.97E-05 4.39E-03 3.47E-10 1.01E*05 O.OOE+OO 11 NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 2.21E-03 1.28E-02 5.86E-01 O.OOE+OO 2.86E*03 O.OOE+OO Q
NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 bfl O.OOE+OO 4.22E-02 4.28E-07 1.29E-02 1.07E-13 5.42E-04
'° B
c D
E F
G H
RELEASE FOR TIMEINT(24)
TIME=
4.32E+04
~
NUCLIDE 1 NUCLIDE 2 NUCLIDE 3 NUCLIDE 4 NUCLIDE 5 NUCLIDE 6
\\I 5.47E-20 3.47E-10 4.33E-03 7.58E-27 1.08E-13 O.OOE+OO ru NUCLIDE 7 NUCLIDE 8 NUCLIDE 9 NUCLIDE 10 NUCLIDE 11 NUCLIDE 12 1.04E-03 9.75E-04 1.37E-01 O.OOE+OO 1.99E*06 O.OOE+OO
~
NUCLIDE 13 NUCLIDE 14 NUCLIDE 15 NUCLIDE 16 NUCLIDE 17 NUCLIDE 18 O.OOE+OO 1.47E-02 9.47E-17 1.69E-04 O.OOE+OO 5.50E*08 2800 SETS ALL RELEASE RATES FOR UNSPECIFIED NUCLIDES = 0.0 2930 INITIALIZE CONCENTRATIONS IN CONT ROOM TO ZERO CONC(3, 1)
CONC(3,2)
CONC(3,3)
CONC(3,4)
CONC(3,5)
CONC(3,6)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO CONC(3,7)
CONC(3,8)
CONC(3,9)
CONC(3,10)
CONC(3,11)
CONC(3,12)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO CONC(3, 13) CONC(3, 14)
CONC(3, 15) CONC(3,16)
CONC(3, 17) CONC(3,18)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO CONC(3, 19) CONC(3,20)
CONC(3,21)
CONC(3,22)
CONC(3,23)
CONC(3,24)
O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO CONC(3,25)
O.OOE+OO COUNTINT=O COUNTINT=COUNTINT+1=1 3140 COUNT IT=
1.00E+OO TIMEINT(COUNTIT)= TIMEINT(1)=
O.OOE+OO 3150 BEGININT= TIMEINT(1)=
O.OOE+OO TIMEINT(COUNTIT+1)= TIMEINT(2) 1.00E+OO 3160 ENDINT= TIMEINT(2)=
1.00E+OO 3180 DO 400 FOR 1=1 3190 DEL TAT=
6.00E+01 1=1 3260 2 GE 2 TRUE AND ABS(0-1) LT.01 FALSE GOTO 3370 ELSEIF
3370 2 GE 2 TRUE AND 0 GT 1 FALSE GOTO 3480 ELSE 3610 ELAPTIME= 0 + 60/60 =
1.00E+OO ELAPTIME=
1.00E+OO 3620 CALL DOSECALC THYROID=
LUNG=
BONE=
MARROW=
SKIN=
EYE=
WBEQUIV=
1.00E+OO 2.00E+OO 3.00E+OO 4.00E+OO 5.00E+OO 6.00E+OO 7.00E+OO NUCLIDE=1 KXQ=1 KFLOW=1 FLOWOUT= FLOWRATE(1,1)+FLOWRATE(2,1)+FLOWRATE(4,1) 4880 FLOWOUT= 2.4145E-01 4890 DO THRU 100 AS NUCLIDE = 1 - 25 I=
1 KR-83M OUT= 2.2421E-04 CONC(1,1)= 1.6100E-05 CONC(2,1)= 1.0675E-04 CONC(4,1)= 3.3687E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 8.1338E-05 5030 CONC(3,1)= 4.5015E-06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
1.75E-09 DOSESUB(BONEMAR)=
1.53E-09 DOSESUB(SKIN)=
4.72E-08 DOSESUB(EYE)=
4.72E-08 DOSESUB(WB)=
9.86E-10 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
O.OOE+OO SUMINH(THY)=
O.OOE+OO TOTALDOS(THY)=
O.OOE+OO SUMSUB(LUNG)=
O.OOE+OO SUMINH(LUNG)=
O.OOE+OO TOTALDOS(LUNG)=
0.00E+OO SUMSUB(BONE)=
1.75E-09 SUMINH(BONE)=
O.OOE+OO
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
fOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY= CONC(3,1) 1.75E*09 1.53E*09 O.OOE+OO 1.53E-09 4.72E-08 O.OOE+OO 4.72E*08 4.72E-08 O.OOE+OO 4.72E*08 9.86E-10 O.OOE+OO 9.86E-10 4.4731E*06 4.4731E-06 I=
2 KR-85M OUT= 2.2421E-04 CONC(1,2)= 3.4960E*05 CONCC2,2)= 2.3180E-04 CONC(4,2)= 7.3150E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.7662E-04 5030 CONC(3,2)= 9.7746E*06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
1.8081E-05 DOSESUB(LUNG)=
1.5671E-05 OOSESUB(BONE)=
2.8333E-05 DOSESUB(BONEMAR)= 2.6521E-05 DOSESUB(SKIN)=
5.0032E-05 DOSESUB(EYE)=
2.0492E-06 OOSESUB(WB)=
1.7776E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.8081E-05 SUMINHCTHY)=
O.OOOOE+OO TOTALDOS(THY)=
1.8081E-05 SUMSUB(LUNG)=
1.5671E-05 SUMINH(LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
1.5671E-05 SUMSUB(BONE)=
2.8335E-05 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.8335E-05 I
\\
SUMSUB)BONEMAR)=
2.6522E-05 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 2.6522E-05 SUMSUB(SKIN)=
5.00BOE-05 SUMINHCSKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
5.00BOE-05 SUMSUBCEYE)=
2.0963E-06 SUMINHCEYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.0963E-06 SUMSUBCWB)=
1.7777E-05 SUMINHCWB)=
O.OOOOE+OO TOTALDOS(WB)=
1.7777E-05 6030 DEKAY= 9.7495E-06 DEKAY = CONCC3,2) 9.7495E-06 I=
3 KR-85 OUT=
2.2421E-04 CONC(1,3)= 1.6151E-06 CONCC2,3)= 1.0709E-05 CONCC4,3)= 3.3794E-05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 8.1596E-06 '
5030 CONCC3,3)= 4.5158E-07 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
1.1973E-08 DOSESUB(BONE)=
1.7265E-08 DOSESUB(BONEMAR)=
1.5132E-08 DOSESUB(SKIN)=
1.3089E-06 DOSESUB(EYE)=
1.6430E-08 DOSESUB(WB)=
1.2837E-08 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
0.00E+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.8081E-05 SUMINHCTHY)=
O.OOOOE+OO TOTALDOSCTHY)=
1.8081E-05 SUMSUB(LUNG)=
1.5683E-05 SUMINHCLUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
1.5683E-05 SUMSUBCBONE)=
2.8352E-05 SUMINHCBONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.8352E-05 SUMSUB)BONEMAR)=
2.6537E-05
SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 2.6537E-05 SUMSUBCSKIN)=
5.1389E-05 SUMINHCSKIN>=
O.OOOOE+OO TOTALDOSCSKIN)=
5.1389E-05 SUMSUB(EYE)=
2.1128E-06 SUMINHCEYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.1128E-06 SUMSUBCWB)=
1.7790E-05 SUMINHCWB)=
O.OOOOE+OO TOTALDOS(WB)=
1.7790E-05 6030 DEKAY= 4.515BE-07 DEKAY = CONC(3,3) 4.5158E-07 I=
4 KR-87 OUT= 2.2421E-04 CONC(1,4)= 6.1844E-05 CONCC2,4)= 4.1006E-04 CONCC4,4)= 1.2940E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.1244E-04 5030 CONCC3,4)= 1.7291E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
1.4929E-04 DOSESUB(LUNG)=
1.4929E-04 DOSESUBCBONE)=
1.8125E-04 DOSESUBCBONEMAR)=
1.5998E-04 DOSESUB(SKIN)=
5.3316E-04 DOSESUB(EYE)=
2.8790E-04 DOSESUB(WB)=
1.5012E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO OOSEINHCEYE)=
O.OOE+OO OOSEINHCWB)=
0.00E+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.6737E-04 SUMINHCTHY)=
O.OOOOE+OO TOTALOOS(THY)=
1.6737E-04 SUMSUB(LUNG)=
1.6498E-04 SUMINHCLUNG)=
O.OOOOE+OO TOTALOOS(LUNG)=
1.6498E-04 SUMSUB(BONE)=
2.0960E-04 SUMINHCBONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0960E-04 SUMSUB)BONEMAR)=
1.8652E-04 SUMINHCBONEMAR)=
O.OOOOE+OO
TOTALDOS(BONEMAR)= 1.8652E-04 SUMSUB(SKIN)=
5.8455E-04 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
5.8455E-04 SUMSUB(EYE)=
2.9001E-04 SUMI NH( EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.9001E-04 SUMSUB(WB)=
1.6791E-04 SUMINH(WB)=
O.OOOOE+OO TOTALDOS(WB)=
1.6791E-04 6030 DEKAY=
1.7135E-05 DEKAY = CONC(3,4) 1.7135E-05 I=
5 KR-88 OUT= 2.2421E-04 CONCC1,5)= 9.0978E-05 CONCC2,5)= 6.0322E-04 CONCC4,5)= 1.9036E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.5962E-04 5030 CONC(3,5)= 2.5437E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
5.8027E-04 DOSESUB(LUNG)=
5.4913E-04 DOSESUB(BONE)=
6.1171E-04 DOSESUB(BONEMAR)= 5.4898E-04 DOSESUB(SKIN)=
8.1561E-04 DOSESUBCEYE)=
7.0587E-04 DOSESUB(WB)=
5.6317E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
7.4764E-04 SUMINHCTHY)=
O.OOOOE+OO TOTALDOSCTHY)=
7.4764E-04 SUMSUBCLUNG)=
7.1411E-04 SUMINHCLUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
7.1411E-04 SUMSUB(BONE)=
8.2131E-04 SUMINHCBONE)=
O.OOO!rE+OO TOTALDOS(BONE)=
8.2131E-04 SUMSUB)BONEMAR)=
7.3550E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOSCBONEMAR)= 7.3550E-04
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB("B)=
SUMINH("B)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,5) 1.4002E*03 O.OOOOE+OO 1.4002E-03
'9.9589E-04 O.OOOOE+OO 9.9589E-04 7.3109E-04 O.OOOOE+OO 7.3109E-04 2.5334E-05 2.5334E-05 I=
6 KR-89 OUT= 2.2421E-04 CONC(1,6)= 9.6600E-05 CONC(2,6)= 6.4050E-04 CONCC4,6)= 2.0213E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.8803E-04 5030 CONC(3,6)= 2.7009E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
O.OOOOE+OO DOSESUB(BONE)=
O.OOOOE+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUB(EYE)=
O.OOOOE+OO DOSESUBCWB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHC"B)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
7.4764E-04 SUMINHCTHY)=
O.OOOOE+OO TOTALDOS(THY)=
7.4764E-04 SUMSUB(LUNG)=
7.1411E-04 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
7.1411E-04 SUMSUB(BONE)=
8.2131E-04 SUMINHCBONE)=
O.OOOOE+OO TOTALDOS(BONE)=
8.2131E-04 SUMSUB)BONEMAR)=
7.3550E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 7.3550E-04 SUMSUB(SKIN)=
1.4002E-03
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,6)
O.OOODE+OO 1.4002E-03 9.9589E-04 O.OOOOE+OO 9.9589E-04 7.3109E-04 O.OOOOE+OO 7.3109E-04 2.1688E-05 2.1688E-05 I=
7 XE-131M OUT= 2.2421E-04 CONC(1,7)= 9.5067E-07 CONC(2,7)= 6.3033E-06 CONC(4,7)= 1.9892E-05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.8028E-06 5030 CONC(3,7)= 2.6580E-07 511D CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OD DOSESUB(LUNG)=
1.6395E-08 DOSESUB(BONE)=
4.0971E-08 DOSESUB(BONEMAR)= 3.7701E-08 DOSESUB(SKIN)=
2.7861E-07 DOSESUB(EYE)=
4.9168E-08 DOSESUB(WB)=
2.1115E-08 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
7.4764E-04 SUMINH(THY)=
O.OOOOE+OO TOTALDOS(THY)=
7.4764E-04 SUMSUB(LUNG)=
7.1413E-04 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
7.1413E-04 SUMSUB(BONE)=
8.2135E-04 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
8.2135E-04 SUMSUB)BONEMAR)=
7.3553E-04 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 7.3553E-04 SUMSUB(SKIN)=
1.4004E-03 SUMINH(SKIN)=
O.OOOOE+OO I
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE>=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,7) 1.4004E-03 9.9594E-04 O.OOOOE+OO 9.9594E-04 7.3111E-04 O.OOOOE+OO 7.3111E-04 2.6579E-07 2.6579E-07 I=
8 XE-133M OUT= 2.2421E-04 CONC(1,8)= 1.0529E-05 CONC(2,8)= 6.9811E-05 CONC(4,8)= 2.2031E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 5.3192E-05 5030 CONC(3,8)= 2.9438E-06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
7.8053E-07 DOSESUB(BONE)=
1.4522E-06 DOSESUB(BONEMAR)=
1.3434E-06 DOSESUB(SKIN)=
6.7172E-06 DOSESUBCEYE)=
1.3615E-06 DOSESUB(WB)=
9.4938E-07 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
7.4764E-04 SUMINH(THY)=
O.OOOOE+OO TOTALDOS(THY)=
7.4764E-04 SUMSUB(LUNG)=
7.1491E-04 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
7.1491E-04 SUMSUB(BONE)=
8.2280E-04 SUMINHCBONE)=
O.OOOOE+OO TOTALDOSCBONE)=
8.2280E-04 SUMSUB)BONEMAR)=
7.3688E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 7.3688E-04 SUMSUB(SKIN)=
1.4072E-03 SUMINHCSKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
1.4072E-03
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOSCEYE)=
SUMSUB(WB)=
SUMINHCWB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,8) 9.9730E-04 O.OOOOE+OO 9.9730E-04 7.3206E-04 O.OOOOE+OO 7.3206E-04 2.9432E-06 2.9432E-06 I=.
9 XE-133 OUT=
2.2421E-04 CONC(1,9)= 3.0411E-04 CONC(2,9)= 2.0164E-03 CONC(4,9)= 6.3632E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.5364E-03 5030 CONC(3,9)= 8.5028E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
3.7227E-05 DOSESUBCLUNG)=
2.5167E-05 DOSESUB(BONE)=
6.2904E-05 DOSESUBCBONEMAR)= 5.7700E-05 DOSESUB(SKIN)=
9.9636E-05 DOSESUBCEYE)=
4.7716E-05 DOSESUBCWB)=
3.1931E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
0.00E+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
7.8487E-04 SUMINHCTHY)=
O.OOOOE+OO TOTALDOSCTHY)=
7.8487E-04 SUMSUB(LUNG)=
7.4007E-04 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
7.4007E-04 SUMSUBCBONE)=
8.8570E-04 SUMI NH( BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
8.8570E-04 SUMSUB)BONEMAR)=
7.9458E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 7.9458E-04 SUMSUB(SKIN)=
1.5068E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
1.5068E-03 SUMSUBCEYE)=
1.0450E-03
\\
~
\\J w w
SUMINHCEYE)=
TOJALDOSCEYE)=
SUMSUB(MB)=
SUMINHCMB)=
TOTALDOS(MB)=
6030 DEKAY=
DEKAY = CONC(3,9)
O.OOOOE+OO 1.0450E*03 7.6399E*04 O.OOOOE+OO 7.6399E*04 8.5020E-05 8.5020E*05 I=
10 XE*135M OUT=
2.2421E-04 CONCC1,10)= 8.9444E*05 CONCC2,10)= 5.9306E*04 CONCC4,10)= 1.8715E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.5188E-04 5030 CONC(3,10)= 2.5008E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY>=
O.OOOOE+OO DOSESUB(LUNG)=
1.0795E-04 DOSESUB(BONE)=
1.4189E-04 DOSESUB(BONEMAR)=
1.3263E-04 DOSESUB(SKIN)=
1.6971E-04 DOSESUB(EYE)=
1.4342E-04 DOSESUBCMB)=
1.1474E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCMB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
7.8487E-04 SUMINHCTHY)=
O.OOOOE+OO TOTALDOSCTHY)=
7.8487E-04 SUMSUBCLUNG)=
8.4802E-04 SUMI NH( LUNG)=
0.0000E+OO TOTALDOS(LUNG)=
8.4802E-04 SUMSUB(BONE)=
1.0276E*03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
1.0276E*03 SUMSUB)BONEMAR)=
9.2721E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 9.2721E-04 SUMSUB(SKIN)=
1.6765E-03 SUMINHCSKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
1.6765E-03 SUMSUB(EYE)=
1.1884E-03 SUMINHCEYE)=
O.OOOOE+OO
TOTALDOSCEYE)=
1.1884E*03 SUMSUB(MB)=
8.7873E*04 SUMINHCMB)=
O.OOOOE+OO TOTALDOS(MB)=
8.7873E-04 6030 DEKAY= 2.3905E-05 DEKAY= CONC(3,10) 2.3905E*05 I=
11 XE-135 OUT= 2.2421E-04 CONC(1,11)= 5.2644E-05 CONCC2,11)= 3.4906E*04 CONCC4,11)= 1.1015E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.6596E-04 5030 CONCC3,11)= 1.4719E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
3.7216E-05 DOSESUB(BONE)=
5.9904E-05 DOSESUB(BONEMAR)= 5.6274E-05 DOSESUB(SKIN)=
1.0889E-04 DOSESUB(EYE)=
4.9015E-05 DOSESUB(WB)=
4.1296E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
0.00E+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
7.8487E-04 SUMINH(THY)=
0.0000E+OO TOTALDOS(THY)=
7.8487E-04 SUMSUB(LUNG)=
8.8523E-04 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
8.8523E*04 SUMSUB(BONE)=
1.0875E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
1.0875E-03 SUMSUB)BONEMAR)=
9.8348E*04 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 9.8348E-04 SUMSUB(SKIN)=
1.7854E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
1.7854E-03 SUMSUB(EYE)=
1.2374E-03 SUMINH(EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
1.2374E-03
SUMSUB(WB)=
9.2003E-04 SUMINHCWB)=
O.OOOOE+OO TOTALDOS(WB)=
9.2003E-04 6030 DEKAY=
1.4700E-05 DEKAY= CONC(3,11) 1.4700E-05 I=
12 XE-137 OUT= 2.2421E-04 CONC(1,12)= 2.3204E-04 CONC(2,12)= 1.5386E-03 CONCC4,12)= 4.8553E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.1723E-03 5030 CONC(3,12)= 6.4878E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOOOE+OO DOSESUB(LUNG)=
O.OOOOE+OO DOSESUB(BONE)=
O.DOOOE+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUB(EYE)=
O.OOOOE+OO DOSESUB(WB)=
O.DODOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
0.00E+OO DOSEINHCSKIN)=
D.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
7.8487E-04 SUMINH(THY)=
O.OOOOE+OO TOTALDOS(THY)=
7.8487E-04 SUMSUB(LUNG)=
8.8523E-04 SUMINHCLUNG)=
0.0000E+OO TOTALDOS(LUNG)=
8.8523E-04 SUMSUB(BONE)=
1.0875E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
1.0875E-03 SUMSUB)BONEMAR)=
9.8348E-04 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 9.8348E-04 SUMSUB(SKIN)=
1.7854E-03 SUMINHCSKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
1.7854E-03 SUMSUB(EYE)=
1.2374E-03 SUMI NH( EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
1.2374E-03 SUMSUB(WB)=
9.2003E-04
SUMINH(MB)=
O.OOOOE+OO TOTALDOS(MB)=
9.2003E-04 6030 DEKAY= 5.4142E-05 DEKAY= CONC(3,12) 5.4142E-05 I=
13 XE-138 OUT= 2.2421E-04 CONC(1,13)= 2.3307E-04 CONC(2,132)= 1.5453E-03 CONC(4,132)= 4.8767E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.1775E-03 5030 CONC(3,13)= 6.5164E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
7.6359E-04 DOSESUB(LUNG)=
8.0387E-04 DOSESUB(BONE)=
9.2429E-04 DOSESUB(BONEMAR)= 8.4375E-04 DOSESUB(SKIN)=
1.6073E-03 DOSESUB(EYE)=
1.0850E-03 DOSESUB(MB)=
7.6985E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(MB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.5485E-03 SUMI NH( THY)=
O.OOOOE+OO TOTALDOS(THY)=
1.5485E-03 SUMSUB(LUNG)=
1.6891E-03 SUMI NH( LUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
1.6891E-03 SUMSUB(BONE)=
2.0118E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0118E-03 SUMSUB)BONEMAR)=
1.8272E-03 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 1.8272E-03 SUMSUB(SKIN)=
3.3927E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
3.3927E-03 SUMSUB(EYE)=
2.3224E-03 SUMINH(EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.3224E-03 SUMSUB(MB)=
1.6899E-03 SUMINH(MB)=
O.OOOOE+OO
TOTALDOS(WB)=
1.6899E*03 6030 DEKAY= 6.2044E-05 DEKAY= CONC(3,13) 6.2044E*05 I=
14 1*131 OUT= 2.2421E*04 CONC(1,14)= 3.9560E-05 CONCC2,14)= 2.6230E-04 CONC(4,14)= 8.2775E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.9986E-04 5030 CONC(3,14)= 1.1061E*05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
O.OOOOE+OO DOSESUB(BONE)=
O.OOOOE+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUB(EYE)=
O.OOOOE+OO DOSESUB(WB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
2.47E-01 DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
7.SOE-03 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.5485E-03 SUMI NH( THY)=
2.4710E-01 TOTALDOS(THY)=
2.4864E-01 SUMSUB(LUNG)=
1.6891E-03 SUMI NH CLUNG)=
O.OOOOE+OO TOTALDOS(LUNG)=
1.6891E-03 SUMSUB(BONE)=
2.0118E-03 SUMI NH( BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0118E-03 SUMSUB)BONEMAR)=
1.8272E-03 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 1.8272E-03 SUMSUB(SKIN)=
3.3927E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
3.3927E-03 SUMSUB(EYE)=
2.3224E-03 SUMINH(EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.3224E-03 SUMSUB(WB)=
1.6899E*03 SUMINHCWB)=
7.4981E-03 TOTALDOS(WB)=
9.1880E-03
6030 DEKAY=
1.1060E-05 DEKAY= CONC(3,14) 1.1060E-05 I=
15 1-132 OUT= 2.2421E-04 CONC(1,15)= 5.5711E-05 CONC(2,15)= 3.6939E-04 CONC(4,15)= 1.1657E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.8145E-04 5030 CONC(3,15)= 1.5577E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
O.OOOOE+OO DOSESUB(BONE)=
0.0000E+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUB(EYE>=
O.OOOOE+OO DOSESUB(WB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
2.04E-03 DOSE I NH( LUNG)=
3.24E-04 DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
1.09E-04 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.5485E-03 SUMINH(THY)=
2.4914E-01 TOTALDOS(THY)=
2.5068E-01 SUMSUB(LUNG)=
1.6891E-03 SUMINH(LUNG)=
3.2398E-04 TOTALDOS(LUNG)=
2.0131E-03 SUMSUB(BONE)=
2.0118E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0118E-03 SUMSUB)BONEMAR)=
1.8272E-03 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 1.8272E-03 SUMSUB(SKIN)=
3.3927E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
3.3927E-03 SUMSUB(EYE)=
2.3224E-03 SUMINH(EYE)=
O.OOOOE+OO TOTALDOS(EYE)=
2.3224E-03 SUMSUB(WB)=
1.6899E-03 SUMINH(WB)=
7.6073E-03 TOTALDOS(WB)=
9.2972E-03 6030 DEKAY=
1.5498E-05
DEKAY= CONC(3,15) 1.5498E-05 I=
16 1-133 OUT= 2.2421E-04 CONCC1,16)= 6.4911E-05 CONC(2,16)= 4.3039E-04 CONC(4,16)= 1.3582E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.2793E-04 5030 CONC(3,16)= 1.8149E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOOOE+OO DOSESUBCLUNG)=
O.OOOOE+OO DOSESUB(BONE)=
O.OOOOE+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUBCEYE)=
O.OOOOE+OO DOSESUBCWB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
6.BSE-02 DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
2.10E-03 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.5485E-03 SUMINHCTHY)=
3.1764E-01 TOTALDOS(THY)=
3.1919E-01 SUMSUB(LUNG)=
1.6891E-03 SUMI NH( LUNG)=
3.2398E-04 TOTALDOS(LUNG)=
2.0131E-03 SUMSUBCBONE)=
2.0118E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0118E-03 SUMSUB)BONEMAR)=
1.8272E-03 SUMINHCBONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 1.8272E-03 SUMSUB(SKIN)=
3.3927E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOS(SKIN)=
3.3927E-03 SUMSUBCEYE)=
2.3224E-03 SUMINHCEYE)=
O.OOOOE+OO TOTALDOSCEYE)=
2.3224E-03 SUMSUB(WB)=
1.6899E-03 SUMINHCWB)=
9.7044E-03 TOTALDOSCWB)=
1.1394E-02 6030 DEKAY=
1.8139E-05 DEKAY= CONC(3,16) 1.8139E-05
. I=
17 1-134 OUT= 2.2421E-04 CONC(1,17)= 8.3311E-05 CONC(2,17)= 5.5239E-04 CONC(4,17)= 1.7432E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.2089E-04 5030 CONC(3,17)= 2.3293E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUB(LUNG)=
O.OOOOE+OO DOSESUB(BONE>=
O.OOOOE+OO DOSE SUB (BONE MAR)=.0. OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUB(EYE)=
O.OOOOE+OO DOSESUB(WB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
5.20E-04 DOSEINH(LUNG)=
2.51E-04 DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
5.36E-05 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.5485E-03 SUMINH(THY)=
3.1816E-01 TOTALDOS(THY)=
3.1971E-01 SUMSUB(LUNG)=
1.6891E-03 SUMINH(LUNG)=
5.7519E-04 TOTALDOS(LUNG)=
2.2643E-03 SUMSUB(BONE)=
2.0118E-03 SUMINH(BONE)=
O.OOOOE+OO TOTALDOS(BONE)=
2.0118E-03 SUMSUB)BONEMAR)=
1.8272E-03 SUMINH(BONEMAR)=
O.OOOOE+OO TOTALDOS(BONEMAR)= 1.8272E-03 SUMSUB(SKIN)=
3.3927E-03 SUMINH(SKIN)=
O.OOOOE+OO TOTALDOSCSKIN)=
3.3927E-03 SUMSUB(EYE)=
2.3224E-03 SUMINHCEYE)=
O.OOOOE+OO TOTALDOSCEYE)=
2.3224E-03 SUMSUBCWB)=
1.6899E-03 SUMINHCWB)=
9.75BOE-03 TOTALDOS(WB)=
1.1448E-02 6030 DEKAY= 2.2988E-05 DEKAY= CONC(3,17) 2.2988E-05
I=
18 1-135 OUT= 2-2421E-04 CONC(1,18)= 6.6444E-05 CONC(2,18)= 4.4056E-04 CONC(4,18)= 1.3903E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.3568E-04 5030 CONC(3,18)= 1.8578E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOOOE+OO DOSESUBCLUNG)=
O.OOOOE+OO DOSESUB(BONE)=
O.OOOOE+OO DOSESUB(BONEMAR)=
O.OOOOE+OO DOSESUB(SKIN)=
O.OOOOE+OO DOSESUBCEYE)=
O.OOOOE+OO' DOSESUB(llB)=
O.OOOOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
1.22E-02 DOSEINH(LUNG)=
6.30E-04 DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCllB)=
4.34E-04 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
SUMINHCTHY)=
TOTALDOS(THY)=
SUMSUBCLUNG)=
SUMINH(LUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUBCllB)=
SUMINH(llB)=
TOTALDOS(llB)=
6030 DEKAY=
DEKAY= CONC(3,18) 1.55E-03 3.30E-01 3.32E-01 1.69E-03 1.20E-03 2.89E-03 2.01E-03 O.OOE+OO 2.01E-03 1.83E-03 O.OOE+OO 1.83E-03 3.39E-03 O.OOE+OO 3.39E-03 2.32E-03 O.OOE+OO 2.32E-03 1.69E-03 1.02E-02 1.19E-02 1.85E-05 1.85E-05 RETURN TO MAIN AT 3630
COUNTINT=1 COUNTINT=COUNTINT+1=2 3140 COUNT IT=
2.00E+OO TIMEINT(COUNTIT)= TIMEINTC2)=
3150 BEGININT= TIMEINT(2)=
TIMEINTCCOUNTIT+1)= TIMEINT(3) 3160 ENDINT= TIMEINTC3)=
3180 DO 400 FOR 1=2 3190 DEL TAT=
6.00E+01 1=1 1.00E+OO 1.00E+OO 2.28E+OO 2.28E+OO 3260 2 GE 2 TRUE AND ABS(1*1) LT.01 TRUE AND 2.28 NE. 2 TRUE GOTO 3290 DELTAT=
1.68E+01 3610 ELAPTIME=
1.28E+OO 1.28E+OO ELAPTIME=
1.28E+OO 3310 CALL DOSECALC NUCLIDE=1 KXQ=1 KFLOW=1 FLOWOUT= FLOWRATEC1,1)+FLOWRATEC2,1)+FLOWRATEC4,1) 4880 FLOWOUT=
2.4145E*01 4890 DO THRU 100 AS NUCLIDE = 1
25 I=
1 OUT= 2.2421E*04 CONC(1, 1)= 1.5998E-05 CONC(2,1)= 1.0607E*04 CONCC4,1)= 3.3474E*04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 8.0821E-05 5030 CONC(3,1)= 5.7148E*06 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
6.22E*10 DOSESUBCBONEMAR)=
5.43E*10 DOSESUBCSKIN)=
1.68E*OB DOSESUB(EYE)=
1.68E-08 DOSESUBCWB)=
3.50E*10 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINH(EYE)=
0.00E+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.55E*03 SUMINHCTHY)=
3.30E*01 TOTALDOS(THY)=
3.32E*01
SUMSUBCLUNG)=
SUMINHCLUNG)=
TOTALDOSCLUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUBCSKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUBCWB)=
SUMINHCWB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY= CONC(3,1)
I=
2 1.69E-03 1.20E-03 2.89E-03 2.01E-03 O.OOE+OO
. 2.01E-03 1.83E-03 O.OOE+OO 1.83E-03 3.39E-03 O.OOE+OO 3.39E-03 2.32E-03 O.OOE+OO 2.32E-03 1.69E-03 1.02E-02 1.19E-02 5.7047E-06
5. 7047E-06 OUT=
2.2421E-04 CONC(1,2)= 3.4858E-05 CONC(2,2)= 2.3112E-04 CONCC4,2)= 7.2936E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.7610E-04 5030 CONCC3,2)= 1.2455E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
6.45E-06 DOSESUBCLUNG)=
5.59E-06 DOSESUBCBONE)=
1.01E-05 DOSESUB(BONEHAR)=
9.46E-06 DOSESUBCSKIN)=
1.79E-05 DOSESUB(EYE)=
7.31E-07 DOSESUB(WB)=
6.34E-06 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCWB)=
0.00E+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.55E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUBCLUNG)=
1.69E-03
SUMI NH CLUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(\\18)=
SUMINHC\\IB)=
TOTALDOS(\\18)=
6030 DEKAY=
DEKAY = CONC(3,2)
I=
3 1.20E*03 2.90E-03 2.02E*03 O.OOE+OO 2.02E*03 1.84E*03 O.OOE+OO 1.84E*03 3.41E*03 O.OOE+OO 3.41E*03 2.32E*03 O.OOE+OO 2.32E*03 1.70E*03 1.02E-02 1.19E*02 1.2446E-05 1.2446E*05 OUT=
2.2421E*04 CONC(1,3)= 1.6151E*06 CONC(2,3)= 1.0709E-05 CONCC4,3)= 3.3794E*05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 8.1596E*06 5030 CONC(3,3)= 5.7693E-07 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
4.28E*09 DOSESUB(BONE)=
6.18E*09 DOSESUB(BONEMAR)=
5.41E*09 DOSESUB(SKIN)=
4.68E-07 DOSESUB(EYE)=
5.BBE-09 DOSESUB(\\IB)=
4.59E-09 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
0.00E+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.55E*03 SUMINHCTHY)=
3.30E*01 TOTALDOS(THY)=
3.32E*01 SUMSUB(LUNG)=
1.69E*03 SUMINH(LUNG)=
1.20E*03
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINHCBONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(lolB)=
SUMINH(lolB)=
TOTALDOS(lolB)=
6030 DEKAY=
DEKAY = CONC(3,3)
I=
4 2.90E-03 2.02E-03 O.OOE+OO 2.02E-03 1.84E-03 O.OOE+OO 1.84E-03 3.41E-03 O.OOE+OO 3.41E-03 2.32E-03 O.OOE+OO 2.32E-03
1. 70E-03 1.02E-02 1.19E-02 5.7693E-07 5.7693E-07 OUT= 2.2421E-04 CONC(1,4)= 6.1333E-05 CONC(2,4)= 4.0667E-04 CONC(4,4)= 1.2833E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.0986E-04 5030 CONC(3,4)= 2.1895E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
5.29E-05 DOSESUB(LUNG)=
5.29E-05 DOSESUB(BONE)=
6.43E-05 DOSESUB(BONEMAR)=
5.67E-05 DOSESUB(SKIN)=
1.89E-04 DOSESUB(EYE)=
1.02E-04 DOSESUB(lolB)=
5.32E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.61E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
1.75E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
2.95E-03
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR>=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,4)
I=
5 2.09E-03 O.OOE+OO 2.09E-03 1.89E-03 O.OOE+OO 1.89E-03 3.60E-03 O.OOE+OO 3.60E-03 2.43E-03 O.OOE+OO 2.43E*03
1. 75E-03 1.02E-02 1.19E*02 2.1840E-05 2.1840E*05 OUT= 2.2421E-04 CONC(1,5)= 9.0467E-05 CONC(2,5)= 5.9983E-04 CONC(4,5)= 1.8929E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.5704E-04 5030 CONC(3,5)= 3.2355E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
2.07E-04 DOSESUB(LUNG)=
1.96E-04 DOSESUB(BONE)=
2.18E-04 DOSESUB(BONEMAR)=
1.96E-04 DOSESUB(SKIN)=
2.90E*04 DOSESUB(EYE)=
2.51E*04 DOSESUB(WB)=
2.01E*04 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO
suM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.81E-03 SUMINH(THY)=
3.30E-01 TOTALDOS(THY)=
3.32E*01 SUMSUB(LUNG)=
1.94E*03 SUMINH(LUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.15E-03 SUMSUB(BONE)=
2.30E-03
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(llB)=
SUMINH(llB)=
TOTALDOS(llB)=
6030 DEKAY=
DEKAY = CONC(3,5)
I=
6 O.OOE+OO 2.30E-03 2.09E-03 O.OOE+OO 2.09E-03 3.89E-03 O.OOE+OO 3.89E-03 2.68E-03 O.OOE+OO 2.68E-03 1.95E-03 1.02E-02 1.21E-02 3.231BE-05 3.231BE-05 OUT=
2.2421E-04 CONC(1,6)= 7.4111E-05 CONCC2,6)= 4.9139E-04 CONC(4,6)= 1.5507E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.7441E-04 5030 CONC(3,6)= 2.7437E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUB(llB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
o.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCllB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.81E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
1.94E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.15E-03 SUMSUB(BONE)=
2.30E-03 SUMINH(BONE)=
0.00E+OO
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUBCSKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUBCWB)=
SUMINHCWB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONCC3,6)
I=
7 2.30E-03 2.09E-03 O.OOE+OO 2.09E-03 3.89E-03 O.OOE+OO 3.89E-03 2.68E-03 O.OOE+OO 2.68E-03 1.95E-03 1.02E-02 1.21E-02 2.5802E-05 2.5802E-05 OUT=
2.2421E-04 CONCC1,7)= 9.5067E-07 CONCC2,7)= 6.3033E-06 CONCC4,7)= 1.9892E-05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.8028E-06 5030 CONC(3,7)= 3.3958E-07 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
5.86E-09 DOSESUB(BONE)=
1.47E-08 DOSESUB(BONEMAR)=
1.35E-08 DOSESUB(SKIN)=
9.97E-08 DOSESUB(EYE)=
1.76E-08 DOSESUBCWB)=
7.55E-09 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.81E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
1.94E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.15E-03 SUMSUBCBONE)=
2.30E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOS(BONE)=
2.30E-03
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,7)
I=
8 2.09E-03 O.OOE+OO 2.09E-03 3.89E-03 O.OOE+OO 3.89E-03 2.68E-03 O.OOE+OO 2.68E-03 1.95E-03 1.02E-02 1.21E-02 3.3957E-07 3.3957E-07 OUT=
2.2421E-04 CONCC1,8)= 1.0529E-05 CONC(2,8)= 6.9811E-05 CONC(4,8)= 2.2031E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 5.3192E-05 5030 CONC(3,8)= 3.7604E-06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUBCLUNG)=
2.79E-07 DOSESUB(BONE)=
5.19E-07 DOSESUB(BONEMAR)=
4.81E-07 DOSESUB(SKIN)=
2.40E-06 DOSESUB(EYE)=
4.87E-07 DOSESUB(WB)=
3.40E-07 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.81E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
1.94E-03 SUMI NH CLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.15E-03 SUMSUB(BONE)=
2.30E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOSCBONE)=
2.30E-03 SUMSUB)BONEMAR)=
2.09E-03
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUBCSKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(llB)=
SUMINH(llB)=
TOTALDOSCllB)=
6030 DEKAY=
DEKAY = CONC(3,8)
I=
9 O.OOE+OO 2.09E*03 3.89E*03 O.OOE+OO 3.89E-03 2.68E-03 O.OOE+OO 2.68E-03 1.95E-03 1.02E-02 1.21E-02 3.7601E-06 3.7601E-06 OUT= 2.2421E-04 CONC(1,9)= 3.0411E-04 CONCC2,9)= 2.0164E-03 CONCC4,9)= 6.3632E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.5364E-03 5030 CONCC3,9)= 1.0862E-04 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
1.33E-05 DOSESUB(LUNG)=
9.00E-06 DOSESUB(BONE)=
2.2SE-05 DOSESUBCBONEMAR)=
2.06E-05 DOSESUB(SKIN)=
3.56E-05 DOSESUBCEYE)=
1.71E-05 DOSESUB(llB)=
1.14E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
0.00E+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCllB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.83E-03 SUMINHCTHY)=
3.30E-01 TOTALDOSCTHY)=
3.32E-01 SUMSUB(LUNG)=
1.95E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.16E-03 SUMSUBCBONE)=
2.33E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.33E-03 SUMSUB)BONEMAR)=
2.11E-03 SUMINH(BONEMAR)=
O.OOE+OO li
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(llB)=
SUMINH(llB)=
TOTALDOS(llB)=
6D30 DEKAY=
DEKAY = CONC(3,9)
I=
10 2.11E*03 3.93E*03 O.OOE+OO 3.93E-03 2.69E-03 O.OOE+OO 2.69E-03 1.96E-03 1.02E-02 1.22E-02 1.0862E-04 1.0862E-04 OUT= 2.2421E-04 CONC(1,10)= 8.4844E-05 CONC(2,10)= 5.6256E-04 CONC(4,10)= 1.7753E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.2864E-04 5030 CONC(3,10)= 3.0489E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
3.68E-05 DOSESUB(BONE)=
4.84E-05 DOSESUB(BONEMAR)=
4.53E-05 DOSESUB(SKIN)=
5.79E-05 DOSESUB(EYE)=
4.90E-05 DOSESUB(WB)=
3.92E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
1.83E-03 SUMI NH( THY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUBCLUNG)=
1.99E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.19E-03 SUMSUB(BONE)=
2.38E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.38E-03 SUMSUB)BONEMAR)=
2.16E-03 SUMINHCBONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.16E-03
SUMSUBCSKIN)=
3.99E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
3.99E-03 SUMSUB(EYE)=
2.74E-03 SUMINHCEYE)=
O.OOE+OO TOTALDOS(EYE)=
2.74E-03 SUMSUBCWB)=
2.00E-03 SUMINH(WB)=
1.02E-02 TOTALDOS(WB)=
1.22E-02 6030 DEKAY= 3.0106E-05 DEKAY= CONC(3,10) 3.0106E-05 I=
11 OUT= 2.2421E-04 CONC(1,11)= 5.2644E-05 CONC(2,11)= 3.4906E-04 CONC(4,11)= 1.1015E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.6596E-04 5030 CONC(3,11)= 1.8787E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
0.00E+OO DOSESUB(LUNG)=
1.33E-05 DOSESUB(BONE)=
2.14E-05 DOSESUB(BONEMAR)=
2.01E-05 DOSESUB(SKIN)=
3.89E-05 DOSESUB(EYE)=
1.75E-05 DOSESUB(WB)=
1.48E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.83E-03 SUMINH(THY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
2.00E-03 SUMINH(LUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.21E-03 SUMSUB(BONE)=
2.40E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.40E-03 SUMSUB)BONEMAR)=
2.18E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.18E-03 SUMSUB(SKIN)=
4.03E-03
SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
4.03E-03 SUMSUB(EYE)=
2.76E-03 SUMINH(EYE)=
O.OOE+OO TOTALDOS(EYE)=
2.76E-03 SUMSUB(WB)=
2.02E-03 SUMINH(WB)=
1.02E-02 TOTALDOS(WB)=
1.22E-02 6030 DEKAY=
1.8780E-05 DEKAY= CONC(3,11) 1.8780E-05 I=
12 OUT= 2.2421E-04 CONC(1, 12)= 1.8656E-04 CONC(2,12)= 1.2369E-03 CONC(4,12)= 3.9035E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 9.4249E-04 5030 CONC(3,12)= 6.8614E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
0.00E+OO DOSESUBCBONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
1.83E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUB(LUNG)=
2.00E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.21E-03 SUMSUB(BONE)=
2.40E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOSCBONE)=
2.40E-03 SUMSUB)BONEMAR)=
2.18E-03 SUMINHCBONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.18E-03 SUMSUB(SKIN)=
4.03E-03 SUMINHCSKIN)=
O.OOE+OO
TOTALDOS(SKIN)=
4.03E-03 SUMSUB(EYE)=
2.76E-03 SUMINH(EYE)=
O.OOE+OO TOTALDOS(EYE)=
2.76E-03 SUMSUB(WB)=
2.02E-03 SUMINHCWB)=
1.02E-02 TOTALDOS(WB)=
1.22E-02 6030 DEKAY= 6.5225E-05 DEKAY= CONC(3,12) 6.5225E-05 I=
13 OUT=
2.2421E-04 CONC(1,13)= 2.1978E-04 CONC(2,132)= 1.4572E-03 CONC(4,132)= 4.5986E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.1103E-03 5030 CONC(3, 13)= 7.9100E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
2.60E-04 DOSESUB(LUNG)=
2.73E-04 DOSESUB(BONE)=
3.14E-04 DOSESUB(BONEMAR)=
2.87E-04 DOSESUB(SKIN)=
5.46E-04 DOSESUB(EYE)=
3.69E-04 DOSESUB(WB)=
2.62E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
2.09E-03 SUMINHCTHY)=
3.30E-01 TOTALDOS(THY)=
3.32E-01 SUMSUBCLUNG)=
2.28E-03 SUMINHCLUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.48E-03 SUMSUBCBONE)=
2.71E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOS(BONE)=
2.71E-03 SUMSUB)BONEMAR)=
2.46E-03 SUMINHCBONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.46E-03 SUMSUBCSKIN)=
4.57E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOSCSKIN)=
4.57E-03
SUMSUB(EYE)=
3.13E-03 SUMINH(EYE)=
O.OOE+OO TOTALDOS(EYE)=
3.13E-03 SUMSUB(WB)=
2.28E-03 SUMINH(WB)=
1.02E-02 TOTALDOS(WB)=
1.25E-02 6030 DEKAY= 7.8021E-05 DEKAY= CONC(3,13) 7.8021E-05 I=
14 OUT=
2.2421E-04 CONC(1,14)= 3.9356E-05 CONC(2,14)= 2.6094E-04 CONC(4,14)= 8.2347E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 1.9883E-04 5030 CONC(3,14)= 1.4114E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
8.83E-02 DOSE I NH( LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
0.00E+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
2.68E-03 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
2.09E-03 SUMINH(THY)=
4.19E-01 TOTALDOS(THY)=
4.21E-01 SUMSUB(LUNG)=
2.28E-03 SUMINH(LUNG)=
1.20E-03 TOTALDOS(LUNG)=
3.48E-03 SUMSUB(BONE)=
2.71E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.71E-03 SUMSUB)BONEMAR)=
2.46E-03.
SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.46E-03 SUMSUB(SKIN)=
4.57E-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
4.57E-03 SUMSUB(EYE)=
3.13E-03 I
I
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUBCWB)=
SUMINHCWB)=
TOTALDOSCWB)=
6030 DEKAY=
DEKAY= CONCC3,14)
I=
15 O.OOE+OO 3.13E-03 2.28E-03 1.29E-02 1.51E-02 1.4114E-05 1.4114E-05 OUT=
2.2421E-04 CONCC1,15)= 5.5200E-05 CONCC2,15)= 3.6600E-04 CONCC4,15)= 1.1550E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.7887E-04 5030 CONC(3,15)= 1.9783E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUBCLUNG)=
O.OOE+OO DOSESUBCBONE)=
O.OOE+OO DOSESUBCBONEMAR)=
O.OOE+OO DOSESUBCSKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUBCWB)=
0.00E+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
7.25E-04 DOSEINHCLUNG)=
1.15E-04 DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
3.88E-05 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
2.09E-03 SUMINHCTHY)=
4.19E-01 TOTALDOS(THY)=
4.21E-01 SUMSUBCLUNG)=
2.28E-03 SUMINHCLUNG)=
1.32E-03 TOTALDOSCLUNG)=
3.60E-03 SUMSUB(BONE)=
2.71E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOSCBONE)=
2.71E-03 SUMSUB)BONEMAR)=
2.46E-03 SUMINHCBONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.46E-03 SUMSUBCSKIN)=
4.57E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
4.57E-03 SUMSUBCEYE)=
3.13E-03 SUMINHCEYE)=
O.OOE+OO
TOTALDOSCEYE)=
SUMSUBOIB)=
SUMINHCWB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY= CONC(3,15)
I=
16 3.13E*03 2.28E-03 1.29E-02 1.52E-02 1.9755E-05 1.9755E-05 OUT= 2.2421E-04 CONCC1,16)= 6.4400E-05 CONC(2,16)= 4.2700E-04 CONC(4,16)= 1.3475E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.2535E-04 5030 CONC(3,16)= 2.3137E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUBCWB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
2.45E-02 DOSEINHCLUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
0.00E+OO DOSEINH(WB)=
7.49E-04 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
2.09E-03 SUMINH(THY)=
4.44E-01 TOTALDOSCTHY)=
4.46E-01 SUMSUB(LUNG)=
2.28E-03 SUMINHCLUNG)=
1.32E-03 TOTALDOS(LUNG)=
3.60E-03 SUMSUBCBONE)=
2.71E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOS(BONE)=
2.71E-03 SUMSUB)BONEMAR)=
2.46E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
2.46E-03 SUMSUB(SKIN)=
4.57E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
4.57E-03 SUMSUBCEYE)=
3.13E-03 SUMINHCEYE)=
O.OOE+OO TOTALDOS(EYE)=
3.13E-03
SUMSUB(WB)=
2.28E-03 SUMINH(WB)=
1.37E-02 TOTALDOSCWB)=
1.59E-02 6030 DEKAY=
2.3133E-05 DEKAY= CONC(3,16) 2.3133E-05 I=
17 OUT=
2.2421E-04 CONC(1,17)= 8.1267E-05 CONCC2,17)= 5.3883E-04 CONCC4,17)= 1.7004E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 4.1056E-04 5030 CONC(3,17)= 2.9295E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUBCLUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUBCSKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUBCWB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
1.83E-04 DOSEINH(LUNG)=
8.85E-05 DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
1.89E-05 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
SUMINH(THY)=
TOTALDOSCTHY)=
SUMSUB(LUNG)=
SUMINH(LUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUBCSKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
2.09E-D3 4.44E-D1 4.46E-01 2.28E-03 1.41E-03 3.68E-03 2.71E-03 O.OOE+OO 2.71E-03 2.46E-03 O.OOE+OO 2.46E-03 4.57E-03 O.OOE+OO 4.57E-03 3.13E-03 O.OOE+OO 3.13E-03 2.28E-03
SUMINH(WB)=
1.37E*02 TOTALDOS(WB)=
1.60E*02 6030 DEKAY= 2.9187E*05 DEKAY= CONC(3,17) 2.9187E-05 I=
18 OUT= 2.2421E-04 CONC(1,18)= 6.5933E*05 CONC(2,18)= 4.3717E*04 CONC(4,18)= 1.3796E*03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.3310E*04 5030 CONC(3,18)= 2.3662E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
4.34E-03 DOSE I NH( LUNG)=
2.25E*04 DOSEINH(BONE>=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
1.55E-04 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
SUMINHCTHY)=
TOTALDOS(THY)=
SUMSUB(LUNG)=
SUMINH(LUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOSCBONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
2.09E-03 4.48E-01 4.50E-01 2.28E*03 1.63E-03 3.91E-03 2.71E-03 O.OOE+OO 2.71E*03 2.46E-03 O.OOE+OO 2.46E-03 4.57E*03 O.OOE+OO 4.57E-03 3.13E-03 O.OOE+OO 3.13E-03 2.28E-03 1.38E*02
TOTALDOS(WB)=
1.61E-02 6030 DEKAY= 2.3650E-05 DEKAY= CONC(3,18) 2.3650E-05 RETURN TO MAIN AT DEL TAT=
3610 ELAPTIHE=
ELAPTIHE=
3310 CALL DOSECALC 3.42E+03 4.32E+01 2.00E+OO 2.00E+OO 3460 KFLOll=KFLOW+1= 2 2.00E+OO NUCLIDE=1 KXQ=1 KFLOW=2 3470 CALL DOSECALC FLOllOUT= FLOWRATEC1,2)+FLOllRATEC2,2)+FLOWRATEC4,2) 4880 FLOllOUT= 4.7742E-01 4890 DO THRU 100 AS NUCLIDE = 1 - 25 I=
1 OUT= 4.4333E-04 CONC(1,1)= 1.599BE-05 CONCC2,1)= 1.0607E-04 CONC(4,1)= 3.3474E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
5.014BE-05 5030 CONCC3,1)= 7.5891E-06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
2.12E-09 DOSESUB(BONEHAR)=
1.85E-09 DOSESUBCSKIN)=
5.73E-08 DOSESUBCEYE)=
5.73E-OB DOSESUB(WB)=
1.20E-09 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR>=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
2.09E-03 SUMINHCTHY)=
4.4BE-01 TOTALDOSCTHY)=
4.50E-01 SUMSUB(LUNG)=
2.28E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
3.91E-03 SUMSUB(BONE)=
2.71E-03 SUMINHCBONE)=
O.OOE+OO
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB OIB) =
SUMINH(llB)=
TOTALDOS(llB)=
6030 DEKAY=
DEKAY= CONC(3,1)
I=
2 2.71E*03 2.46E*03 O.OOE+OO 2.46E*03 4.57E*03 O.OOE+OO 4.57E*03 3.13E*03 O.OOE+OO
3. 13E*03 2.28E*03 1.38E*02 1.61E*02 7.5547E*06 7.5547E*06 OUT= 4.4333E*04 CONC(1,2)= 3.4858E-05 CONC(2,2)= 2.3112E*04 CONC(4,2)= 7.2936E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.0927E-04 5030 CONC(3,2)= 1.6551E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
2.20E-05 DOSESUB(LUNG)=
1.91E-05 DOSESUB(BONE)=
3.45E-05 DOSESUB(BONEMAR)=
3.23E-05 DOSESUB(SKIN)=
6.10E-05 DOSESUB(EYE)=
2.SOE-06 DOSESUB(llB)=
2.17E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCllB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
2.11E-03 SUMINHCTHY)=
4.48E*01 TOTALDOS(THY)=
4.50E-01 SUMSUB(LUNG)=
2.29E-03 SUMI NH( LUNG)=
1.63E-03 TOTALDOS(LUNG)=
3.93E-03 SUMSUB(BONE)=
2.75E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.75E*03
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINHCSKIN)= '
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(\\IB)=
SUHINH(\\IB)=
TOTALDOS(\\IB)=
6030 DEKAY=
DEKAY = CONC(3,2)
I=
3 2.49E-03 O.OOE+OO 2.49E-03 4.63E-03 O.OOE+OO 4.63E-03 3.13E-03 O.OOE+OO 3.13E-03 2.30E-03 1.38E-02 1.61E-02 1.6521E-05 1.6521E-05 OUT=
4.4333E-04 CONCC1,3)=
1.6151E-06 CONCC2,3)= 1.0709E-05 CONCC4,3)= 3.3794E-05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 5.0629E-06 5030 CONCC3,3)= 7.6716E-07 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
1.46E-08 DOSESUB(BONE)=
2.11E-08 DOSESUBCBONEMAR)=
1.85E-08 DOSESUBCSKIN)=
1.60E-06 DOSESUBCEYE)=
2.01E-08 DOSESUB(\\IB)=
1.57E-08 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(\\IB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
2.11E-03 SUMINH(THY)=
4.48E-01 TOTALDOS(THY)=
4.50E-01 SUMSUB(LUNG)=
2.29E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
3.93E-03 SUMSUB(BONE)=
2.75E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
2.75E-03 SUHSUB)BONEMAR)=
2.49E-03
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINHCSKIN)=
TOTALDOSCSKIN)=
SUMSUBCEYE)=
SUMINH(EYE)=
TOTALDOSCEYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOSCWB)=
6030 DEKAY=
DEKAY = CONC(3,3)
I=
4 O.OOE+OO 2.49E-03 4.63E-03 O.OOE+OO 4.63E-03 3.13E-03 O.OOE+OO 3.13E-03 2.30E-03 1.38E-02 1.61E-02 7.6573E-07 7.6573E-07 OUT= 4.4333E-04 CONCC1,4)= 6.1333E-05 CONCC2,4)= 4.0667E-04 CONCC4,4)= 1.2833E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.9226E-04 5030 CONC(3,4)= 2.9065E-05 5110* CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
1.81E-04 DOSESUBCLUNG)=
1.81E-04 DOSESUBCBONE)=
2.19E-04 DOSESUB(BONEMAR)=
1.94E-04 DOSESUB(SKIN)=
6.45E-04 DOSESUBCEYE)=
3.48E-04 DOSESUB(WB)=
1.82E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
SUMINH(THY)=
TOTALDOS(THY)=
SUMSUBCLUNG)=
SUMINHCLUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
2.29E-03 4.48E-01 4.51E-01 2.48E-03 1.63E-03 4.11E-03 2.96E-03 O.OOE+OO 2.96E-03 2.69E-03 O.OOE+OO
-~_J
TOTALDOSCBONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOSCEYE)=
SUMSUBCllB)=
SUMINHCllB)=
TOTALDOS(llB)=
6030 DEKAY=
DEKAY = CONC(3,4)
I=
5 2.69E*03 5.28E*03 O.OOE+OO 5.28E*03 3.48E*03 O.OOE+OO 3.48E*03 2.48E*03 1.38E-02 1.63E-02 2.8875E*05 2.8875E-05 OUT= 4.4333E*04 CONCC1,5)= 9.0467E*05 CONCC2,5)= 5.9983E*04 CONCC4,5)= 1.8929E*03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.8359E*04 5030 CONC(3,5)= 4.2973E*05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
7.06E*04 DOSESUB(LUNG)=
6.68E*04 DOSESUB(BONE)=
7.44E*04 DOSESUB(BONEMAR)=
6.68E*04 DOSESUB(SKIN)=
9.92E*04 DOSESUB(EYE)=
8.59E*04 DOSESUBCWB)=
6.85E*04 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
0.00E+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(llB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.00E*03 SUMINHCTHY)=
4.48E-01 TOTALDOSCTHY)=
4.51E-01 SUMSUB(LUNG)=
3.14E-03 SUMINHCLUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.78E-03 SUMSUB(BONE)=
3.71E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOSCBONE)=
3.71E*03 SUMSUB)BONEMAR)=
3.36E-03 SUMINHCBONEMAR)=
0.00E+OO TOTALDOS(BONEMAR)=
3.36E*03
r-----
SUHSUB(SKIN)=
SUHINH(SKIN)=
TOTALDOS(SKIN)=
SUHSUB(EYE)=
SUHINH(EYE)=
TOTALDOS(EYE)=
SUHSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,5)
I=
6 6.27E-03 O.OOE+OO 6.27E-03 4.34E-03 O.OOE+OO 4.34E-03 3.17E-03 1.38E-02
1. 70E-02 4.2847E-05 4.2847E-05 OUT= 4.4333E-04 CONC(1,6)= 7.4111E-05 CONC(2,6)= 4.9139E-04 CONC(4,6)= 1.5507E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
2.3232E-04 5030 CONC(3,6)= 3.4543E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUBCBONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUBCYB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCYB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIHE STEP SUMSUBCTHY)=
3.00E-03 SUMINHCTHY)=
4.48E-01 TOTALDOS(THY)=
4.51E-01 SUMSUBCLUNG)=
3.14E-03 SUMINHCLUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.78E-03 SUMSUB(BONE)=
3.71E-03 SUHINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
3.71E-03 SUMSUB)BONEHAR)=
3.36E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
3.36E-03 SUMSUB(SKIN)=
6.27E-03
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB OIB) =
SUMINHOIB)=
TOTALDOSOIB)=
6030 DEKAY=
DEKAY = CONC(3,6)
I=
7 O.OOE+OO 6.27E*03 4.34E*03 O.OOE+OO 4.34E*03 3.17E*03 1.38E*02 1.70E*02 2.9496E*05 2.9496E*05 OUT= 4.4333E*04 CONCC1,7)= 9.5067E*07 CONC(2,7)= 6.3033E*06 CONCC4,7)= 1.9892E*05 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.9800E*06 5030 CONC(3,7)= 4.5154E*07 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUBCLUNG)=
2.01E*08 DOSESUB(BONE)=
5.01E*08 DOSESUB(BONEMAR)=
4.61E*08 OOSESUB(SKIN)=
3.41E*07 DOSESUB(EYE)=
6.01E*08 DOSESUB(WB)=
2.58E*08 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
D.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
0.0DE+DO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
3.00E-03 SUMINH(THY)=
4.48E*01 TOTALDOS(THY)=
4.51E*01 SUMSUB(LUNG)=
3.14E*03 SUMINH(LUNG)=
1.63E*03 TOTALDOS(LUNG)=
4.78E*03 SUMSUB(BONE)=
3.71E*03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
3.71E*03 SUMSUB)BONEMAR)=
3.36E*03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
3.36E*03 SUMSUB(SKIN)=
6.27E*03 SUMINHCSKIN)=
O.OOE+OO
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,7)
I=
8 6.27E-03 4.34E-03 O.OOE+OO 4.34E-03 3.17E-03 1.38E-02 1.70E-02 4.5153E-07 4.5153E-07 OUT= 4.4333E-04 CONC(1,8)= 1.0529E-05 CONCCZ,8)= 6.9811E-05 CONC(4,8)= 2.2031E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 3.3005E-05 5030 CONC(3,8)= 5.000ZE-06 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
9.55E-07 DOSESUB(BONE)=
1.78E-06 DOSESUB(BONEMAR)=
1.64E-06 DOSESUB(SKIN)=
8.21E-06 DOSESUB(EYE)=
1.67E-06 DOSESUB(WB)=
1.16E-06 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.00E-03 SUMI NH( THY)=
4.48E-01 TOTALDOS(THY)=
4.51E-01 SUMSUB(LUNG)=
3.14E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.78E-03 SUMSUB(BONE)=
3.71E-03 SUMI NH( BONE)=
O.OOE+OO TOTALDOS(BONE)=
3.71E-03 SUMSUB)BONEMAR)=
3.36E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
3.36E-03 SUMSUB(SKIN)=
6.ZBE-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
6.ZBE-03
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
6030 DEKAY=
DEKAY = CONC(3,8)
I=
9 4.34E-03 O.OOE+OD 4.34E-03 3.17E-03 1.38E-02
1. 70E-02 4.9994E-06 4.9994E-06 OUT= 4.4333E-04 CONC(1,9)= 3.0411E-04 CONC(2,9)= 2.0164E-03 CONC(4,9)= 6.3632E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 9.5329E-04 5030 CONC(3,9)= 1.4444E-04 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
4.55E-05 DOSESUB(LUNG)=
3.0SE-05 DOSESUB(BONE)=
7.69E-05 DOSESUB(BONEMAR)~
7.06E-05 DOSESUB(SKIN)=
1.22E-04 DOSESUB(EYE)=
5.84E-05 DOSESUB(WB)=
3.91E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSEINH(LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.04E-03 SUMINH(THY)=
4.48E-01 TOTALDOS(THY)=
4.51E-01 SUMSUB(LUNG)=
3.18E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.81E-03 SUMSUB(BONE)=
3.79E-03 SUMI NH( BONE)=
O.OOE+OO TOTALDOS(BONE)=
3.79E-03 SUMSUB)BONEMAR)=
3.43E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
3.43E-03 SUMSUB(SKIN)=
6.40E-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
6.40E-03 SUMSUB(EYE)=
4.40E-03
SUHINHCEYE)=
TOTALDOS(EYE)=
SUHSUB(WB)=
SUHINHCWB)=
TOTALDOSCWB)=
6030 DEKAY=
DEKAY = CONC(3,9)
I=
10 O.OOE+OO 4.40E-03 3.21E-03 1.38E-02
1. 70E-02 1.4442E-04 1.4442E-04 OUT= 4.4333E-04 CONCC1,10)= 8.4844E-05 CONC(2,10)= 5.6256E-04 CONCC4,10)= 1.7753E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
2.6596E-04 5030 CONCC3,10)= 4.0103E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
1.25E-04 DOSESUB(BONE)=
1.64E-04 DOSESUB(BONEHAR)=
1.53E-04 DOSESUB(SKIN)=
1.96E-04 DOSESUB(EYE)=
1.66E-04 DOSESUB(WB)=
1.32E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEHAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.04E-03 SUMINHCTHY)=
4.48E-01 TOTALDOS(THY)=
4.51E-01 SUMSUB(LUNG)=
3.30E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.93E-03 SUMSUB(BONE)=
3.95E-03 SUHINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
3.95E-03 SUMSUB)BONEHAR)=
3.58E-03 SUMINH(BONEHAR)=
O.OOE+OO TOTALDOS(BONEHAR)=
3.58E-03 SUMSUBCSKIN)=
6.60E-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
6.60E-03 SUMSUB(EYE)=
4.56E-03 SUHINH(EYE)=
O.OOE+OO ff! *'
TOTALDOS(EYE)=
4.56E-03 SUMSUB(WB)=
3.34E-03 SUMINH(UB)=
1.38E*02 TOTALDOS(UB)=
1.72E-02 6030 DEKAY= 3.8821E-05 DEKAY= CONC(3,10) 3.8821E-05 I=
11 OUT= 4.4333E-04 CONC(1,11)= 5.2644E-05 CONC(2,11)= 3.4906E-04 CONC(4,11)~ 1.1015E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.6502E-04 5030 CONC(3,11)= 2.4981E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
4.55E-05 DOSESUB(BONE)=
7.32E-05 DOSESUB(BONEMAR)=
6.88E-05 DOSESUB(SKIN)=
1.33E-04' DOSESUB(EYE)=
5.99E-05 DOSESUB(WB)=
5.05E-05 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINH(WB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.04E-03 SUMINHCTHY)=
4.48E-01 TOTALDOS(THY)=
4.51E-01 SUMSUB(LUNG)=
3.35E-03 SUMINH(LUNG)=
1.63E-03 TOTALDOS(LUNG)=
4.98E-03 SUMSUB(BONE)=
4.02E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
4.02E-03 SUMSUB)BONEMAR)=
3.65E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
3.65E-03 SUMSUB(SKIN)=
6.73E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
6.73E-03 SUMSUB(EYE)=
4.62E-03 SUMINHCEYE)=
O.OOE+OO TOTALDOS(EYE)=
4.62E-03
SUMSUBCWB)=
3.39E-03 SUMINHCWB)=
1.3BE-02 TOTALDOS(WB)=
1.72E-02 6030 DEKAY= 2.495BE-05 DEKAY= CONCC3,11) 2.495BE-05 I=
12 OUT= 4.4333E-04 CONC(1,12)= 1.B656E-04 CONCC2,12)= 1.2369E-03 CONCC4,12)= 3.9035E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 5.8479E-04 5030 CONCC3,12)= 8.7224E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUBCBONE)=
O.OOE+OO DOSESUBCBONEMAR)=
O.OOE+OO DOSESUBCSKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUBCWB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSE I NH( LUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINH(EYE)=
O.OOE+OO DOSEINHCWB)=
D.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
SUMINH(THY)=
TOTALDOS(THY)=
SUMSUB(LUNG)=
SUMINH(LUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINHCBONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALOOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUBCEYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
3.04E-03 4.4BE-01 4.51E-01 3.35E-03 1.63E-03 4.9BE-03 4.02E-03 O.OOE+OO 4.02E-03 3.65E-03 D.OOE+OO 3.65E-03 6.73E-03 O.OOE+OO 6.73E-03 4.62E-03 O.OOE+OO 4.62E-03 3.39E-03
SUMINHCllB)=
1.38E-02 TOTALDOS(llB)=
1.72E-02 6030 DEKAY= 7.6572E-05 DEKAY= CONC(3,12) 7.6572E*05 I=
13 OUT= 4.4333E-04 CONC(1,13)= 2.1978E-04 CONCC2,132)= 1.4572E-03 CONC(4,132)= 4.5986E*03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 6.8894E-04 5030 CONC(3,13)= 1.0392E-04 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
8.77E-04 DOSESUB(LUNG)=
9.23E-04 DOSESUB(BONE)=
1.06E-03 DOSESUB(BONEMAR)=
9.69E-04 DOSESUB(SKIN)=
1.85E-03 DOSESUB(EYE)=
1.25E-03 DOSESUBCllB)=
8.84E-04 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
O.OOE+OO DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
O.OOE+OO SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
SUMINH(THY)=
TOTALDOS(THY)=
SUMSUB(LUNG)=
SUMINHCLUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINHCBONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINHCSKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINHCEYE)=
TOTALDOS(EYE)=
SUMSUB(l.IB)=
SUMINH(llB)=
3.92E-03 4.48E-01 4.52E-01 4.27E-03 1.63E-03 5.90E-03 5.09E-03 O.OOE+OO 5.09E-03 4.62E-03 O.OOE+OO 4.62E-03 8.58E-03 O.OOE+OO 8.58E-03 5.87E-03 O.OOE+OO 5.87E-03 4.27E-03 1.38E-02
TOTALDOS(WB)=
1.81E-02 6030 DEKAY=
1.0031E-04 DEKAY= CONC(3,13) 1.0031E-04 I=
14 OUT=
1.3978E-03 CONC(1,14)= 3.9356E-05 CONC(2,14)= 2.6094E-04 CONC(4,14)= 8.2347E-04 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
1.4470E-06 5030 CONC(3,14)= 1.3343E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
0.00E+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUBCWB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
2.15E-01 DOSE I NH( LUNG)=
O.OOE+OO DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
6.51E-03 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
SUMINH(THY)=
TOTALDOS(THY)=
SUMSUB(LUNG)=
SUMINH(LUNG)=
TOTALDOS(LUNG)=
SUMSUB(BONE)=
SUMINH(BONE)=
TOTALDOS(BONE)=
SUMSUB)BONEMAR)=
SUMINH(BONEMAR)=
TOTALDOS(BONEMAR)=
SUMSUB(SKIN)=
SUMINH(SKIN)=
TOTALDOS(SKIN)=
SUMSUB(EYE)=
SUMINH(EYE)=
TOTALDOS(EYE)=
SUMSUB(WB)=
SUMINH(WB)=
TOTALDOS(WB)=
3.92E-03 6.63E-01 6.67E-01 4.27E-03 1.63E-03 5.90E-03 5.09E-03 O.OOE+OO 5.09E-03 4.62E-03 O.OOE+OO 4.62E-03 8.58E-03 O.OOE+OO 8.58E-03 5.87E-03 O.OOE+OO 5.87E-03 4.27E-03 2.03E-02 2.46E-02
6030 DEKAY=
1.3343E-05 DEKAY= CONC(3,14) 1.3343E-05 I=
15 OUT=
1.3978E-03 CONC(1,15)= 5.5200E-05 CONC(2,15)= 3.6600E-04 CONC(4,15)= 1.1550E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN=
2.0295E-06 5030 CONC(3,15)= 1.8676E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUB(LUNG)=
0.00E+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUBCEYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
1.76E-03 DOSE I NH( LUNG)=
2.80E-04 DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
9.43E-05 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
3.92E-03 SUMINHCTHY)=
6.65E-01 TOTALDOS(THY)=
6.69E-01 SUMSUB(LUNG)=
4.27E-03 SUMINHCLUNG)=
1.91E-03 TOTALDOS(LUNG)=
6.18E-03 SUMSUB(BONE)=
5.09E-03 SUMI NH( BONE)=
O.OOE+OO TOTALDOS(BONE)=
5.09E-03 SUMSUB)BONEMAR)=
4.62E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
4.62E-03 SUMSUB(SKIN)=
8.58E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
8.58E-03 SUMSUB(EYE)=
5.87E-03 SUMINHCEYE)=
O.OOE+OO TOTALDOS(EYE)=
5.87E-03 SUMSUB(WB)=
4.27E-03 SUMINH(WB)=
2.04E-02 TOTALDOS(WB)=
2.47E-02 6030 DEKAY=
1.8609E-05
DEKAY= CONC(3,15) 1.8609E-05
. I=
16 OUT= 1.3978E-03 CONC(1,16)= 6.4400E-05 CONC(2,16)= 4.2700E-04 CONC(4,16)= 1.3475E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.3678E-06 5030 CONC(3,16)= 2.1870E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUB(THY)=
O.OOE+OO DOSESUBCLUNG)=
O.OOE+OO DOSESUBCBONE)=
O.OOE+OO DOSESUBCBONEMAR)=
O.OOE+OO DOSESUBCSKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
5.94E-02 DOSEINHCLUNG)=
O.OOE+OO DOSEINHCBONE)=
O.OOE+OO DOSEINH(BONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
1.82E-03 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUBCTHY)=
3.92E-03 SUMINH(THY)=
7.24E-01 TOTALDOSCTHY)=
7.28E-01 SUMSUB(LUNG)=
4.27E-03 SUMINH(LUNG)=
1.91E-03 TOTALDOS(LUNG)=
6.18E-03 SUMSUB(BONE)=
5.09E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
5.09E-03 SUMSUB)BONEMAR)=
4.62E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
4.62E-03 SUMSUB(SKIN)=
8.58E-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
B.5BE-03 SUMSUBCEYE)=
5.87E-03 SUMINHCEYE)=
O.OOE+OO
TOTALDOS(EYE)=
5.87E-03 SUMSUB(WB)=
4.27E-03 SUMINHCWB)=
2.23E-02 TOTALDOS(WB)=
2.65E-02 6030 DEKAY=
2.1861E-05 DEKAY= CONC(3,16) 2.1861E-05
I=
17 OUT= 1.397SE-03 CONCC1,17>= S.1267E-05 CONC(2,17)= 5.3883E-04 CONC(4,17)= 1.7004E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.9879E-06 5030 CONC(3,17)= 2.7593E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
O.OOE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
O.OOE+OO DOSESUB(SKIN)=
O.OOE+OO DOSESUB(EYE)=
O.OOE+OO DOSESUBCWB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINHCTHY)=
4.44E-04 DOSEINHCLUNG)=
2.14E-04 DOSEINH(BONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINHCSKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINHCWB)=
4.57E-05 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.92E-03 SUMINHCTHY)=
7.25E-01 TOTALDOS(THY)=
7.29E-01 SUMSUB(LUNG)=
4.27E-03 SUMINHCLUNG)=
2.13E-03 TOTALDOS(LUNG)=
6.40E-03 SUMSUB(BONE)=
5.09E-03 SUMINH(BONE)=
O.OOE+OO TOTALDOS(BONE)=
5.09E-03 SUMSUB)BONEMAR)=
4.62E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
4.62E-03 SUMSUB(SKIN)=
S.5SE-03 SUMINH(SKIN)=
O.OOE+OO TOTALDOS(SKIN)=
S.5SE-03 SUMSUB(EYE)=
5.87E-03 SUMINHCEYE)=
O.OOE+OO TOTALDOS(EYE)=
5.87E-03 SUMSUB(WB)=
4.27E-03 SUMINHCWB)=
2.23E-02 TOTALDOS(WB)=
2.66E-02 6030 DEKAY=
2.7332E-05 DEKAY= CONC(3,17) 2.7332E-05
I=
18 OUT= 1.3978E-03 CONCC1,18)= 6.5933E-05 CONCC2,18)= 4.3717E-04 CONCC4,18)= 1.3796E-03 4970 OUT NOT EQUAL 0 CONTINUE RATEIN= 2.4242E-06 5030 CONC(3,18)= 2.2359E-05 5110 CALC DOSES DUE TO SUBMERSION DOSESUBCTHY)=
D.ODE+OO DOSESUB(LUNG)=
O.OOE+OO DOSESUB(BONE)=
O.OOE+OO DOSESUB(BONEMAR)=
0.00E+OO DOSESUB(SKIN)=
0.00E+OD DOSESUBCEYE)=
O.OOE+OO DOSESUB(WB)=
O.OOE+OO 5270 CALC DOSES DUE TO SUBMERSION DOSEINH(THY)=
1.0SE-02 DOSE I NH( LUNG)=
5.46E-04 DOSEINHCBONE)=
O.OOE+OO DOSEINHCBONEMAR)=
O.OOE+OO DOSEINH(SKIN)=
O.OOE+OO DOSEINHCEYE)=
O.OOE+OO DOSEINH(WB)=
3.76E-04 SUM THE DOSES TO EACH ORGAN AND OVER EACH TIME STEP SUMSUB(THY)=
3.92E-03 SUMINHCTHY>=
7.35E-01 TOTALDOS(THY)=
7.39E-01 SUMSUB(LUNG)=
4.27E-03 SUMI NH( LUNG)=
2.67E-03 TOTALDOS(LUNG)=
6.94E-03 SUMSUB(BONE)=
5.09E-03 SUMINHCBONE)=
O.OOE+OO TOTALDOS(BONE)=
5.09E-03 SUMSUB)BONEMAR)=
4.62E-03 SUMINH(BONEMAR)=
O.OOE+OO TOTALDOS(BONEMAR)=
4.62E-03 SUMSUB(SKIN)=
8.58E-03 SUMINHCSKIN)=
O.OOE+OO TOTALDOS(SKIN)=
8.58E-03 SUMSUB(EYE)=
5.87E-03 SUMI NH( EYE)=
O.OOE+OO TOTALDOS(EYE)=
5.87E-03 SUMSUB(WB)=
4.27E-03 SUMINHCWB)=
2.27E-02 TOTALDOS(WB)=
2.70E-02 6030 DEKAY= 2.2331E-05 DEKAY= CONC(3,18) 2.2331E-05 I L~
/

ML18058A408

Contents

Text

SUMMARY

2.0 REFERENCES

Subject:

Subject:

Subject:

3.0 BACKGROUND

SUMMARY

11.0 CONCLUSION

=- /...3'?'.zr!Jl~E-6 Xe -/:33 = ~&98.3.2 c-9' Ye -/J.5,.,, ~

Navigation menu

ML18058A408

Text

SUMMARY

2.0 REFERENCES

Subject:

Subject:

Subject:

3.0 BACKGROUND

SUMMARY

11.0 CONCLUSION

=- /...3'?'.zr!Jl~E-6 Xe -/:33 = ~&98.3.2 c-9' Ye -/J.5,.,, ~

Navigation menu

Search