Rev 3 to Calculation HNP-M/FHB-1002, Temp Increase in Charcoal Beds W/O Bleed Flow

ML18016A505
Person / Time
Site:	Harris
Issue date:	08/11/1998
From:	Franklin D, White G CAROLINA POWER & LIGHT CO.
To:
Shared Package
ML18016A504	List: HNP-98-112, Application for Amend to License NPF-63,deleting SR 4.9.12.d.4 Which Requires Verifying That Filter Cooling Bypass Valve for Fuel Handling Bldg Emergency Exhaust Sys Is Locked in Balanced Position at Least Once Per 18 Months ML18016A505
References
HNP-M-FHB-1002, HNP-M-FHB-1002-R03, HNP-M-FHB-1002-R3, NUDOCS 9808190133
Download: ML18016A505 (34)
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ENCLOSURE 2 TO SERIAL: HNP-98-112 SHEARON HARRIS NUCLEAR POWER PLANT NRC DOCKET NO. 50-400/LICENSE NO. NPF-63 REQUEST FOR LICENSE AMENDMENT TECHNICALSPECIFICATION TS 3/4.9.12 SUPPLEMENTAL INFORMATION TEMPERATURE INCREASE IN CHARCOAI BEDS WITHOUTBLEED FLOW CALCULATIONI-INP-M/FHB-1002 Page E2-1

'P808i90i33 9808i4 PDR ADQCK 05000400 P

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SYSTEMS CALC.

TYPE 8352 MECHANICAL CAROLINA POWER

& LIGHT COMPANY HNP-M FHB-1002 (CALCULATION ll)

Tem erature Increase In Charcoal Beds Without Bleed Flow (TITLE)

SHEARON HARRIS NUCLEAR POWER PLANT CALCULATION CATEGORY:

C REV.

NO.

RESPONSIBLE ENGINEER DATE l3 DESIGN VERIFIED BY 0 CHECKED BY DATE APPROVED BY RESPONSIBLE SUPERVISOR DATE s/(i Is sp(/~z REASON FOR CHANGE: Corrected table on page 3 so it agrees with revised heat generation calc (Att.B, Rev.2).

Also, made corrections to a e numberin (rev. nos.) in Attachments B and D.

REASON FOR CHANGE:

REASON FOR CHANGE:

SYSVEMN

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TYPE CAROLINA POWER Ec LIGHT COMPANY (CALCULATION g) n h r (TITLE) 1 F

w SHEARON HARRIS NUCLEAR POWER PLANT CALCULATION CATEGORY:

C REV.

NO.

RESPONSIBLE ENGINEER DATE ll" <o- 'L7 El DESIGN VERIFIED BY 0 CHECKED BY DATE Ir i 97 APPROVED BY RESPONSIBLE SUPERVISOR DATE J~~~/

REASON FOR CHANGE: 0 ice,aL is@~.

Iz lt -s7 Ins REASON FOR CHANGP ~i,~;

~c, +h,W~ ~Mens~

Crc ~ ~R. l1.ca 137 Og/PO Jq S z siL~

REASON FOR CHANGE: t-Mac <P<R~1 C

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8 Al AilC. ~ l ~ ~ ~ P 0 l CALCULATI PAGE ii REV 2 HNP-M/FHB-1002 TABLE OF CONTENTS List of Effective Pages Page No. Table of Contents Purpose List of References Engineering Analysis Software Body of Calculation Conclusions ~ ~ 1 na 2 Attachment A (Spreadsheet Output) Attachment B (Health Physics Calc) Attachment C (Vendor Fax) 'Attachment D (Design Verification) 1 Page(s) 21 Page (s) 1 Page(s) 6 Page (s) ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~II ~ o ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ t ~, ~ \\ ~ t ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ' I ~ ~ ~ ' I ~ I, ~ ~ ~ ~ ' ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ o ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ o ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ ~ ~ ~ ~, ~ ~ t ~ ~ o ~ ~ ~ ~ ~ \\', ~ ~ ~ ' I ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ o ~ ~ ~ o ~. ~ ~ o ~ ~ ~ I ~ o ~ ~ o 4 ~ ~ ~ ~ ~ ~ ~ ~ ' ~ ~ ~ ~ ~ ' ~ I ~ ~ ' ~ ~ ~ ' ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~, ~ ~ ~ I ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ I ~ ~ Computed by: Checked by: Project No.: Date: Date: CAROLINA POWER & LIGHT COMPANY CALCULATIONSHEET Calculation ID: HNP-M/FHB-1002 Pg. 2 Rev.2 File: Project

Title:

Calculation

Title:

Temperature Increase In Charcoal Beds Without Bleed Flow ASSUMPTIONS (continued)

The initial heat generation rate due to iodine decay is taken as 16.0 Btu/hr per Reference 1.

In arriving at this value, Reference 1 conservatively assumes that all the iodine that makes it to the surface of the fuel pool is subsequently trapped on one (not both) of the FHBEES charcoal adsorbers.

Also, it conservatively assumes that all the energy from each disintegration, including gamma radiation, is deposited in the charcoal.

(High energy gamma radiation willtend to pass through the charcoal.)

There is no credit given in this analysis for heat loss from the charcoal.

Thus, the final charcoal temperature given in this calculation is a maximum, theoretical value.

5.

The specific heat of the charcoal is taken as 0.25 Btu/Ib/F per Reference 4 The mass of the charcoal in the filter unit is taken as 910 Ibs, which is the lower limit specified by Reference 3. Typically, the filter units are loaded with around 1,050 Ibs of charcoal per completed work tickets.

The half-life of I-131 is given as 8.05 days in Reference 1 (Attachment B).

CALCULATION The following method will be used to determine the total temperature increase of the charcoal:

Governing Equation:

Heat Gen. Rate Time

=

Mass " Specific Heat Temp. Change 0

t=MCbT gCA D

Step No. 1:

Step No. 2:

Step No. 3:

hT, = ((16.0 Btu/hr)/1" Half-Life) / (Mass Specific Heat) bT~ = ((16.0 Btu/hr)/2" Half-Life) / (Mass Specific Heat]

bT, = ((16.0 Btu/hr)/4'alf-Life) /(Mass Specific Heat)

Step No. N:

hT= ((16.0 Btu/hr)/2'""

Half-Life) / (Mass Specific Heat)

Individual bT's are calculated until there is no longer any measurable increase in temperature (GT<0.1 'C). The total temperature increase of the charcoal is the sum of all the individual hT's.

Note that the initial heat generation rate of 16.0 Btu/hr is halved at each step to account for the heat generation that is lost as some of the iodine decays.

The fact that a constant heat generation rate is used across each interval is conservative.

The half-life used in the above calculation is, based on an examination of the half-lives and heat generation contribuitions of each iodine isotope.

The contribution of each isotope to the total decay heat generation rate of 16.0 Btu/hr calculated in Reference 1 (Attachment B) is proportional to the product of the total Curies of each isotope and the effective energy per disintegration:

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+'I 7 ~c Hw1E'UV ft INPUTS:

Parameter Value Units

-or-Value Units Charcoal Specific Heat Charcoal Mass I-131 Half-Life Initial Heat Gen. Rate 0.25 Btu/ib/F 910 Ib 8.05 days 16 Btu/hr 1.047 kJ/kg/C 413 kg 405 kJ/day HEAT UP CALC:

'emp incr. per Interval (C)

Temp Incr. per Interval (F)

Interval / Days Passed At End Of Interval 1

2 3

4 5

6 7

8.05 16.1 24.15 32.2 40.25 48.3 56.35 7.55 3.77 1.89 0.94 0.47 0.24 0.12 13.59 6.79 3.40 1.70 0.85 0.42 0.21 pl.

Total Temperature Increase:

15 C

27 F

I-129 CONTRIBUTION:

Parameter I-129 Ci I-129 MeV/dis I-129 Btu/hr Value Units 1.69E-03 Ci 0.079 Me V/dis 2.69E-06 Btu/hr The Btu/h contribution of I-129 is so small as to be considered negligible in the heat up calculation.

Page 1

CP&L MS-980167 l-

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p,g7A-C4JvtWT 8 pass i

To:

From:

Tony Maness Karl Neuachaefer ~(

Date:

Subject:

July 30, 1998 Decay Heat Generation We have calculated the decay heat generated from the iodine source term following a design basis fuel handling accident.

The final number has increased slightly from the previous number we provided you in October 1997.

This is due to changes in source term and water level associated with a design basis fuel handling accident as described in calculation CPL VIII-006C (Revision 2).

The new number (16 Btu/h) should be used to update calculation HNP-M/FHB-1002.

Our calculation is attached and has been reviewed by a qualified design verifier. Ifyou have any questions please contact Ed Wills.

EW/lbc Attachment c:

Ben Morgan Leslie Oakley Ed Wills

PUP-M/pHs-lZ p.su+ >

P,~>~~ A~'7 PAGE 2

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. %Vw Decay Heat Generation m FHBKES Rev. I

l leap ~ I F 4 0 i c o w p~~

z Rv1 R-c HWt-~7 PAGE Decay Heat Generation in FHBEES Charcoal Absorbers Following a Design Basis Fuel Handling Accident Rcv. I Prepared by:

Edward L. Wills, Jr.

Supervisor - Spent Fuel Management Date: 7'g-g 8 Reviewed by:

enjamin W. Mor, HP Senior Analyst - Radiation Control Date:

0 ~/golgi

~Pur ose The purpose ofthis calculation is to determine the decay heat generated from all iodine isotopes released from the spent fuel pool in a design basis fuel handling accident occurring inside the Fuel Handling Building.

~Assum Sieur The followingconservative assumptions were used:

Alliodine that makes it to the surface ofthe water is subsequently trapped on one ofthe Fuel Handling Building Emergency Exhaust System (FHBEES) charcoal absorbers.

Allthe energy from each disintegration is deposited in the charcoal.

No credit is taken for decay aAer deposition.

r The source term for this calculation is taken from HNP calculation CPL-VIII-006CRev 2, titled Fuel Handling Accident Inside the Fuel Handling Building With Filtration for the Shearon Harris Nuclear Power Plant. The accident as described in CPL-Vill-006C involves a PWR assembly falling onto a stored PWR assembly then toppling onto a BWR storage rack. In such a case 314 PWR rods and 52 BWR assemblies are assumed to fail. The methods used in CPL-Vill-006C Rev 2 are consistent with the methods described in Reg. Guide 1.25, see calculation CPL-Vill-006C Rev. 2 for further details.

Method To calculate the total Btu/h from each isotope present requires the following information:

1.

Total curies for that reach the surface for each iodine isotope (Cii).This is summarized in Appendix A and is taken from calculation CPL-Vill-006C Rev. 2.

2.

Effective energy pcr disintegration in MeV/dis (cff. energy). This is determined by multiplying each energy by its fractional yield and summing these for each isotope.

The energies for each isotope were taken from the Rad Decay computer program (version 4.01, Grove Engineering, Inc.

1991) and are presented in Appendix B.

3.

The followingconversion factors werc taken from the Radiological Health Handbook:

~

2.22 E12 dpm/Ci

~

1.602 E-6 erg/MeV

~

9.43 E-I 1 Btu/crg Total Btu/h is calculated as follows; Btu/h=Z(Ci, x eff. energy,) x (2.22E12 dpm/Ci x 1.602E-6 erg/MeV x 9.43E-I I Btu/erg x 60m in/h)

Using this equation and the values in the Appendices yields 16 Btu/h.

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pea-MCFps-l<xsz

~avW Z-I pmecugMa 8 APPENDIX A 5

Iodine ActivityReleased to the FHB in a Design Basis Fuel Handling Accident Nuclide 1-129 1-131 I-l,32 1-133 1-135 Inorganic (Ci) 1.91 E-03 9.84E+02 1.37E-IO 8.03E+01 5.60E-02 Organic (Ci) 4.16I';04 2.15E+02 2.98E-I I 1.75E+01 1.22E-02 Total (Ci) 2.33E-03 1.20E+03 1.67E-IO 9.78E+01 6.82E-02 Reference HNP Calculation CPL-VIII-006C Rev. 2

Appendix B Iodine Decay Energies - Summary Table Nuclide I-129 I-131 I-132 I-133 I-134 l-135 MeV/dis 0.079 0.572 2.782 1.017 3.233 1.944 Page 1 of 16

Appendix B MeV/dis 0.078939 Atomic number Atomic weight Half life 53 129 15700000 years MKLCl>

probability energy average per decay (MEV)

(MEV) energy/dis MeV 1

0.15242 0.0409 Electrons subtotal 0.0409 0.0409 probability energy per decay (MEV) 0.73539 0.00343 2

0.789 0.00502 3

0.087579 0.0246 4

0.107 0.034128 5

0.0216 0.038439 6

0.00714 0.039373 subtotal 0.002522 0.003961 0.002154 0.003652 0.00083 0.000281 0.013401

Gammas 8 X-rays

probability energy per decay (MEV) 1 0.08171 0.00411 2

0.19956 0.029458 3

0.37024 0.029779 4

0.13162 0.0336 5

0.0752 0.039581 subtotal 0.000336 0.005879 0.011025 0.004422 0.002976 0.024639 Page 2 of 16

Appendix B Atomic number Atomic weight Half life Daughter Branching f on I-131 53 131 8.04 days Xe-131m

.01086 MeV/dis 0.571551 Betas probability energy average per decay (MEV)

(MEV) 1 0.0212 0.24791 2

0.00627 0.30388 3

0.0736 0.33383 4

0.893 0.60632 5

0.00393 0.80687 6

0.00069 0.6297

== Electrons==

probability energy per decay (MEV) 0.06936 0.08695 0.09662 0.19158 0.28325 0.20022 subtotal 0.00147 0.000545 0.007111 0.171081 0.001113 0.000138 0.181459 0.049501 2

0.005911 3

0.035346 4

0.004634 5

0.001176 6

0.002481 7

0.015421 8

0.002443 0.00343 0.0246 0.045622 0.07473 0.079041 0.24974 0.32992 0.35903 subtotal 0.00017 0.000145 0.001613 0.000346 0.000093 0.00062 0.005088 0.000877 0.008951 Page 3 of 16

Appendix B I-131

Gammas 8 X-rays

probability energy per decay (MEV) 1 0.0055 2

0.013468 3

0.024987 4

0.008883 5

0.026182 6

0.002648 7

0.060521 8

0.002507 9

0.81164 10 0.003605 11 0.072605 12 0.002195 13 0.018025 14 0.002304 0.00411 0.029458 0.029779 0.0336 0.080183 0.17721 0.2843 0.32578 0.36448 0.50299 0.63697 0.6427 0.72289 0.32939 subtotal 0.000023 0.000397 0.000744 0.000298 0.002099 0.000469 0.017206 0.000817 0.295827 0.001813 0.046247 0.001411 0.01303 0.000759 0.38114 Page 4 of 16

Atomic number Atomic weight Half life I-132 53 132 2.3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> Appendix B MeV/dis 2.781708 9NP-M/~dpi - (gc)Z Q&J W Z-A V7hcu'A~a Qi

~c tO

==== Betas====

probability energy per decay (MEV) average (MEV) 1 0.0026 2

0.0012 3

0.0019 4

0.0053 5

0.0033 6

0.0076 7

0.124 8

0019 9

0.0032 10 0.0355 11 0.081 12 0.0275 13 0.0336 14 0.0249 15 0.189 16 0.0095 17 0.00113 18 0.017 19 0.101 20 0 02 21 0.0014 22 0.124 23 0.169 24 0.004954 0.3191 0.3532 0.4244 0.50332 0.52176 0.68919 0.74114 0.73974 0.82557 0.90999 0.9664 0.99132 0.99607 1.1551 1.1851 1.2291 1.3927 1.4126 1.4698 1.468 1.5396 1.6169 2.1396 0.44 0.092 0.103 0.127 0.154 0.161 0.223 0.242 0.242 0.275 0.309 0.331 0.342 0.343 0.409 0.422 0.44 0.51 0.519 0.543 0.543 0.574 0.608 0.841 0.13448 subtotal 0.000239 0.000124 0.000241 0.000816 0.000531 0.001695 0.030008 0.004598 0.00088 0.01097 0.026811 0.009405 0.011525 0.010184 0.079758 0.00418 0.000576 0.008823 0.054843 0.0108.6 0.000804 0.075392 0.142129 0.000666 0.486058 Page 5 of 16

I-132 Appendix B p~- ~!PWB /002.

QTrscHA~< B p~e (l

~

== Electrons==

probability per decay 0.00551 0.000755 0.001384 0.003514 0.001905 energy (MEV) 0.00343 0.0246 0.48809 0.63313 0.73805 subtotal 0.000019 0.000019 0.000676 0.002225 0.001406 0.004344

Gammas & X-rays

probability energy per decay (MEV) 2 3

4 5

6 7

8 9

10 11

. 12 13 14 15 16 17 18 19 20 21 22 23 24 25 0.000612 0.00172 0.003192 0.001135 0.002369 0.001382 0.001875 0.01441 0.007205 0.001382 0.004935 0.002961 0.004738 0.004836 0.006021 0.001777 0.00148 0.004145 0.050337 0.16088 0.005231 0.001086 0.012535 0.001382 0.003948 0.00411 0.029458 0.029779 0.0336 0.1472 0.1833 0.2548 0.2627 0.2848 0.3165 0.3635 0.3878 0.4168 0.4319 0.446 0.4739 0.4785 0.4882 0.5059 0.52265 0.5355 0.54 0.5471 0.6 0.6208 2.5E-06 0.000051 0.000095 0.000038 0.000349 0.000253 0.000478 0.003786 0.002052 0.000437 0.001794 0.001148 0.001975 0.002089 0.002685 0.000842 0.000708 0.002024 0.025465 0.084084 0.002801 0.000586 0.006858 0.000829 0.002451 Page 6 of 16

I-132

Gammas 8 X-rays

Appendix B HAP-M/ppp - loon 2-QT7ACpAn~T.B l~

26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 probability per decay 0.015792 0.13719 0.026649 0.003948 0.987 0.04935 0.052311 0.031584 0.021714 0.010857 0.003948 0.76196 0.012338 0.004244 0.028623 0.056259 0.005823 0.010758 0.009179 0.004145 0.18062 0.005626 0.004738 0.02961 0.013522 0.002764 0.010857 0.001777 0.011351 0.01974 0.008883 0.001184 0.024675 0.071064 0.014213 0.001352 0.002961 0.011844 0.010857 energy (MEV) 0.6212 0.63022 0.6506 0.659 0.66769 0.6698 0.6716 0.727 0.7272 0.7285 0.7645 0.77261 0.7802 0.7845 0.8098 0.8122 0.8633 0.8768 0.9103 0.9276 0.95455 0.9837 1.0347 1.136 1.1434 1.1474 1.1732 1.2727 1.2907 1.2953 1.2976 1.3178 1.3721 1.3986 1 4426 1.4768 1.7575 1.9211 2.0022 0.00981 0.08646 0.017338 0.002602 0.65901 0.033055 0.035132 0.022962 0.01579 0.007909 0.003018 0.588698 0.009626 0.003329 0.023179 0.045694 0.005027 0.009433 0.008356 0.003845 0.172411 0.005534 0.004902 0.033637 0.015461 0.003171 0.012737 0.002262 0.014651 0.025569 0.011527 0.00156 0.033857 0.09939 0.020504 0.001997 0.005204 0.022754 0.021738 Page 7 of 16

l-132

Gammas 8 X-rays

probability energy per decay (MEV) 65 0.002369 2.0868 66 0.001974 2.1727 67 0.001184 2.2232 68 0.001678 2.3905 69 0.031946 1.0146 Appendix B subtotal y Hgp g(p-+zr- (ooz

~~M Z-p~~ An9d'T 3 F sec l5 0.004944 0.004289 0.002632 0.004011 0.032412 2.291306 Page 8 of16

Atomic number Atomic weight Half life Daughter Branching fraction Daughter Branching fraction l-133 53 133 20.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> Xe-133

.9712 Xe-133m

.0288 Appendix B Me V/dis 1.016526

~

PNP -A/Pk&

1OOZ.

peg ~

Z-p~c.

(9 Betas probability energy average per decay (MEV)

(MEV) 1 0.0041 2

0.0124 3

0.00397 4

0.0375 5

0.0313 6

0.00542 7

0.0416 8

0.0181 9

0835 10 0.0107 11 0.00027 0.16998 0.37385 0.40962 0.46176 0.52357 0.7077 0.88467 1.0162 1.2301 1.5268 0.85 0.046 0.11 0.122 0.14 0.162 0.23 0.299 0.352 0.441 0.573 0.284 subtotal 0.000189 0.001364 0.000484 0.00525 0.005071 0.001247 0.012438 0.006371 0.368235 0.006131 0.000077 0.406857

== Electrons==

probability energy perdecay (MEV) 1 0.004845 2

0.000664 3

0.005982 0.00343 0.0246 0.49531 subtotal 0.000017 0.000016 0.002963 0.002996 Page 9 of 16

I-133

Gammas 8 X-rays

probability energy per decay (MEV)

Appendix B I-I>> -<lFae-io~~

~a/k Z.

gm~emz p pme I g 1

0.000538 2

0.001513 3

0.002807 4

0.000998 5

0.003565 6

0.001165 7

0.001036 8

0.001122 9

0.001528 10 0.00309 11 0.018127 12 0.8632 13 0.005395 14 0.006448 15 0.014933 16 0.004566 17 0.001536 18 0.012344 19 0.044714 20 0.002124 21 0.005516 22 0.001372 23 0.014933 24 0.023306 25 0.001485 26 0.006072 0.00411 0.029458 0.029779 0.0336 0.2627 0.26717 0.34543 0.36108 0.41805 0.42291 0.51053 0.52987 0.61797 0.68025 0.70658 0.76838 0.82051 0.85628 0.87533 0.90967 1.0523 1.0601 1.2364 1.2982 1.3504 0.53524 subtotal 2.2E-06 0.000045 0.000084 0.000034 0.000937 0.000311 0.000358 0.000405 0.000639 0.001307 0.009254 0.457384 0.003334 0.004386 0.010551 0.003508 0.00126 0.01057 0.03914 0.001932 0.005804 0.001454 0.018463 0.030256 0.002005 0.00325 0.606674 Page 10 of 16

Appendix B HtJP-Mf~g-lOcz j~m~ Z.

p@6~

(Q Atomic number Atomic weight Half life l-134 53 134 52.6 minutes Me V/dis 3.232997

========== Betas probability energy per decay (MEV) average (MEV) 1 0.0148 2

0.0033 3

0.00153 4

0.0122 5

0.325 6

0.0053 7

0.081 8

0.163 9

0.0367 10 0.076 11 0.112 12 0.0112 13 0.037 14 0.115 15 0.00226

======== Electrons 0.77458 0.78956 0.8355 1.0662 1.2826 1.3771 1.4962 1.5615 1.6024 1.7415 1.797 1.8479 2.2304 2.4188 0.795 0.255 0.261 0.279 0.372 0.46 0.5 0.55 0.58 0.6 0.66 0.69 0.71 0.88 0.97 0.26355 subtotal 0.003774 0.000861 0.000427 0.004538 0.1495 0.00265 0.04455 0.09454 0.02202 0.05016 0.07728 0.007952 0.03256 0.11155

.0.000596 0.602958 probability energy per decay (MEV) 1 0.015183 2

0.001896 3

0.011428 4

0.001496 5

0.001409 6

0.001124 7

0.001927 8

0.001194 0.00343 0.0246 0.10084 0.12995 0.20091 0.37089 0.81246 0.84953 subtotal 0.000052 0.000047 0.001152 0.000194 0.000283 0.000417 0.001566 0.001014 0.004725 Page 11 of 16

I

~

I-134

Gammas 8 X-rays

probability energy per decay (MEV)

Appendix B Wl> M/%8 - (ooz jWEu+

A~A ~An&J, T PA4,E 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 0.001687 0.004321 0.008016 0.00285 0.037592 0.006869 0.001059 0.002576 0.006965 0.002481 0.019845 0.001307 0.005152 0.004961 0.073466 0.006106 0.041885 0.012976 0.003626 0.014121 0.023375 0.078236 0.008778 0.002099 0.11354 0.10591 0.023662 0.084915 0.008301 0.019082 0.007633 0.041026 0.005247 0.9541 0.069649 0.001908 0.6526 0.001431 0.040358 0.00411 0.029458 0.029779 0.0336 0.1354 0.13903 0.15198 0.16248 0.18847 0.217 0.23547 0.2788 0.31981 0.35108 0.40545 0.411 0.43335 0.45892 0.4655 0.48888 0.5144 0.54083 0.56552 0.57075 0.59536 0.62179 0.62796 0.67734 0.70665 0.73074 0.73918 0.76668 0.81638 0.84702 0.85729 0.864 0.88409 0.9226 0.94786 6.9E-06

.0.000127 0.000239 0.000096 0.00509 0.000955 0.000161 0.000419 0.001313 0.000538 0.004673 0.000364 0.001648 0.001742 0.029787 0.00251 0.018151 0.005955 0.001688 0.006903 0.012024 0.042312 0.004964 0.001198 0.067597 0.065854 0.014859 0.057516 0.005866 0.013944 0.005642 0.031454 0.004284 0.808142 0.059709 0.001649 0.576957 0.00132 0.038254 Page 12 of 16

I

~

I-134

Gammas 8 X-rays

probability energy per decay (MEV)

Appendix B

~ /~ 8 iQOz

/~~ ht 6al f B pic I '5 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 0.00353 0.046751 0.019082 0.15266 0.006869 0.007251 0.097318 0.00353 0.001336 0.00353 0.002099 0.005629 0.001049 0.001431 0.004484 0.002194 0.001717 0.001717 0.022898 0.007728 0.001145 0.005057 0.043602 0.002576 0.004007 0.00229 0.026715 0.057246 0.001813 0.001717 0.002099 0.002385 0.001527 0.013348 0.9669 0.97467 1.0403 1.0726 1.1001 1.1032 1.1362 1.1591 1.164 1.19 1.239 1.2695 1.3224 1.336 1.3526 1 4143 1.4282 1.4314 1.4552 1.47 1.5055 1.5415 1.6138 1.6292 1.6443 1.6552 1.7415 1.8068 1.9259 2.0206 2.1599 2.3124 2.4674 1.7872 subtotal 0.003413 0.045567 0.019851 0.163743 0.007557 0.007999 0.110573 0.004092 0.001555 0.004201 0.002601 0.007146 0.001387 0.001912 0.006065 0.003103 0.002452 0.002458 0.033321 0.01136 0.001724 0.007795 0.070365 0.004197 0.006589 0.00379 0.046524 0.103432 0.003492 0.003469 0.004534 0.005515 0.003768 0.023856 2.625314 Page 13 of 16

Atomic number Atomic weight Half life Daughter Branching fraction Daughter Branching fraction 1-135 53 135 6.61 hours7.060185e-4 days <br />0.0169 hours <br />1.008598e-4 weeks <br />2.32105e-5 months <br /> Xe-135

.835 Xe-135m

.165 Appendix B Mev/dis 1.94394 JAP-e IFFY@ -Io ox

~w+ 2 gvtocu ~~v pea I

I Betas probability energy per decay (MEV) average (MEV) 1 0.0014 2

0.00126 3

0.0014 4

0.0108 5

0.0091 6

0.0139 7

0.0473 8

0.0733 9

0.0157 10 0.011 11 0.079 12 0.0061 13 0.087 14 0.218 15.

0.079 16 0.074 17 0.001 18 0.236 19 0.012 20 0.019 21 0.00154 0.23591 0.24489 0.26369 0.30228 0.33901 0.35376 0.45553 0.47796 0.61806 0.66511 0.74268 0.81656 0.91978 1.0329 1.1457 1.2534 1.2626 1.4506 1.5795 2.1845 0.647 0.066 0.068 0.074 0.086 0.098 0.103 0.138 0.145 0.196 0.213 0.243 0.272 0.313 0.359 0.405 0.451 0.454 0.535 0.591 0.858 0.20722 subtotal 0.000092 0.000086 0.000104 0.000929 0.000892 0.001432 0.006527 0.010629 0.003077 0.002343 0.019197 0.001659 0.027231 0.078262 0.031995 0.033374 0.000454 0.12626 0.007092 0.016302 0.000319 0.368255 Page 14 of 16

I-135

======== Electrons Appendix B HNT

~Fpg (0 oz QBJ4 Z c) pm~ waul q AC QX) probability energy per decay (MEV) 0.002197 0.000301 0.001501 0.001211 0.00343 0.0246 0.18594 0.25389 subtotal 7.5E-06 7.4E-06 0.000279 0.000307 0.000601

Gammas 8 X-rays

probability energy per decay (MEV) 1 2

3 4

5 6

7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 0.000244 0.000686 0.001273 0.000452 0.017452 0.002317 0.00184 0.030899 0.003033 0.00186 0.002317 0.003004 0.03519 0.003033 0.005522 0.003147 0.071239 0.001287 0.004549 0.001287 0.00658 0.001516 0.001717 0.066661 0.001459 0.008869 0.00411 0.029458 0.029779 0.0336 0.2205 0.22972 0.26426 0.28845 0.29027 0.36185 0.40303 0.41483 0.41763 0.42993 0.43374 0.45163 0.54656 0.57597 0.64985 0.69013 0.70792 0.78548 0.79771 0.8368 0.96146 0.97196 1.0E-06 0.00002 0.000038 0.000015 0.003848 0.000532 0.000486 0.008913 0.00088 0.000673 0.000934 0.001246 0.014696 0.001304 0.002395 0.001421 0.038936 0.000741 0.002956 0.000888 0.004658 0.001191 0.00137 0.055782 0.001403 0.00862 Page 15 of 16

1-135

Gammas 8 X-rays

Appendix B QNp-H lFHP.,looL pue a probability per decay 27 0.012016 28 0.001545 29 0.07925 30 0.016022 31 0.036049 32 0.22516 33 0.00103 34 0.008726 35 0.009012 36 0.2861 37 0.006065 38 0.003147 39 0.086402 40 0.010729 41 0.012875 42 0.095271 43 0.040912

'4 0.076961 45 0.005779 46 0.002947 47 0.008697 48 0.006122 49 0.009527 50 0.014948 energy (MEV) 0.97261 0.99509 1.0388 1.1016 1.124 1.1315 1.1599 1.169 1.2405 1.2604 1.3679 1.4484 1.4576 1.5028 1.5664 1.678 1.7065 1.7912 1.8307 1.9273 2.0459 2.2555 2.4087 1.0734 subtotal 0.011687 0.001537 0.082325 0.01765 0.040519 0.254769 0.001195 0.010201 0.011179 0.3606 0.008296 0.004558 0.12594 0.016124 0.020167 0.159865 0.069816 0.137853 0.01058 0.00568 0.017793 0.013808 0.022948 0.016045 1.575084 Page 16 of 16

TELEFAX NUCON International, Ino.

C1 Nov 14,97 10:55 No.005 P.01 pup. M/'f46 to<>z.

g,~. o P~<

(

FN-13 P.O. BOX 29161 7000 HUNTLEYROAD COLUM8US, OH 43229 USA TELEPHONE:

FAX:

1-614-846 5710 1 61M31 0858 Total Pages Including This Sheets To:

PSL Date:

From:W e e Attn.:

Fax No.:

-2 32 Ref e

c e

Project: 4UA

Dear IVlr. Scattergood:

The value we use for activated carbon specific heat is 0.25 BTU/lb-'F.

Best regards, Peter Freeman

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ATTACHMENT2 Sheet1 of 1 Record of Lead Review H~ir. ~it-i~S-iu~C.

g>>.3 p,g~mm W

'P~~ i Design Q'>"

Revision The signature below of the Lead Reviewer records that:

the review indicated behw has been performed by the Lead Reviewer, appropriate reviews were performed and errors/deficiencies (for all reviews performed) have been resolved and these records are included in the design package; the review was performed in accordance with EGR-NGGC-0003.

Design Verification Review g Design Review Q Alternate Calculation Q Qualification Testing P

Special Engineering Review Q

Engineering Review Owner Review Q YES Q N/A Other Records are attached.

aaec e (ah/ts Lead Reviewer (print/sign)

Discipline ate Item No.

Deficien Resolution/Date 864c PNBO 4+ 8////78 FORM EGR-NGGC4003-24 EGR-NGGC-0003 Rev.3 Page 24 of 26

AITACHMENT3 Sheets of 1 Record of Concurrent Review PNP-Ml'F'pp-f00~

Q.Q/LS(gnJ.~ Z.

+~c 2 Design C

/ 02 Concurrent Reviewer ~'+'

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Print/Sign)

Revision Discipline //cslk A Sic

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Design Verification Review QD sign Review Alternate Calculation

@Qualification Testing rt(HNCN T I' Special Engineering Review Q

Engineering Review Q

Owner Review Item No.

Deficienc Resolution/Date EGR.NGGC-0003-3-0 EG R-NGGC-0003 Rev. 4 Page 25 of 26

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