Unit & ISFSI - Calculation No. NUH24PTH.0423, Nuhoms HSM-H Temperature Rise Vs. Decay Heat Calculation

ML11228A088
Person / Time
Site:	Robinson, 07201004, 07200060
Issue date:	06/07/2005
From:	Guzeyev S AREVA, Transnuclear
To:	Office of Nuclear Material Safety and Safeguards
References
RNP-RA/11-0067 NUH24PTH.0423, Rev 0
Download: ML11228A088 (8)
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Text

United States Nuclear Regulatory Commission Attachment to Serial: RNP-RA/1 1-0067 8 Pages (including cover page)

H. B. ROBINSON STEAM ELECTRIC PLANT, UNIT NO. 2 NUHOMS HSM-H TEMPERATURE RISE VS. DECAY HEAT CALCULATION NUH24PTH.0423 Revision 0

Page 1of 7 Z12 -Attachmentl2 EC EC 58024RO 58024R0 Z12 - Attachment1 2 Page 1 of 7 AA TRANSNU C:: LEAR Calculation Calculation No.:

Revision No.: 0 Pg:1o NUH24PTH.0423 AN ARF-VA COMPANY Page: 1 of 6 DCR NO: N/A, original issue PROJECT NAME: High Burnup NUHOMS 24PTH System PROJECT NO: NUH24PTH CLIENT: Transnuclear, Inc CALCULATION TITLE:

NUIIOMS HSM-H Air Temperature Rise vs. Decay Heat Calculation

SUMMARY

DESCRIPTION:

Determine the difference between the HSM-H inlet and outlet air temperature for various decay heats and ambient temperatures.

If original Issue, is licensing review per TIP 3.5 required?

Yes 0 No El (explain below) Licensing Review No.: 721004-300 Software Utilized: Version: Number of CDs:

None --- None Calculation is complete:,,- ..-

(Originator Signature) (Date)

Calculation has been check for consistency, completeness and correctness:

(hceSignature) -Date)

Calculation is approved for use:

(Project Engineer Signature) (Date)

EC 58024RO Z12 - Attachmentl2 Page 2 of 7 A Calculation No.:

CalcultionRevision No.: NUH24PTH.0423 0

TRANSNUC LEAR calculation AN AREV ^ COMPANY Page: 2 of 6 REVISION

SUMMARY

DESCRIPTION AFFECTED AFFECTED REV. DATE PAGES DISCS o Initial issue all none

EC 58024RO Z12 -Attachment12 Page 3 of 7 A Calculation Calculation No.:

Revision No.: 0 NUH24PTH.0423 TRANSNUCLEAR AN AREVA COMPANY Page: 3 of 6 TABLE OF CONTENTS Page

1. P u rp o s e ............................................................................................................................. 4

2. A ssum ptio ns ..................................................................................................................... 4

3. C o nse rvatism s .................................................................................................................. 4

4. Design input / data .................................................................................................... 4

5. METHODOLOGY .............................................................................................................. 4

6. R efe re n ce s ........................................................................................................................ 4

7. R e s u lts .............................................................................................................................. 5 LIST OF TABLES Page Table 7-1 HSM-H Air Temperature Rise as Function of Decay Heat Load and Ambient Temperature, °F5 LIST OF FIGURES Page Figure 7-1 HSM-H Air Temperature Rise as Function of Decay Heat Load and Ambient Temperature ..6

EC 58024RO Z1 2 - Attachment 12 Page 4 of 7 A Calculation Calculation No.:

Revision No.:

NUH24PTH.0423 0

TRANSNUCLEAR AN AREVA COMPANY Page: 4 of 6

1. Purpose Calculation [1] predicts an air temperature rise for airflow through the NUHOMS HSM-H with total decay heat load of 24, 31.2, and 40.8 kW for normal and off-normal operating conditions.

Purpose of this calculation is to expand the data presented in [1] by calculating HSM-H airflow temperature rise as a function of decay heat load and ambient air temperature.

2. Assumptions Assumptions of [1] are used in this calculation.

3. Conservatisms Conservatisms of [1] are used in this calculation.

4. Design input I data Design input and material properties listed in [1] are used in this calculation.

The HSM-H air temperature rise calculation is based upon the following ambient temperature conditions:

Tamb=-40 0 F, -20 0 F, 00 F, 20 0 F, 40°F, 60°F, 70°F, 80°F, 90°F, 1000 F, 110°F, and 117 0 F.

A total decay heat loads from Q = 8 kW to Q = 40.8 kW per DSC are considered in this calculation.

5. METHODOLOGY The methodology described in [1] is used in this calculation.

6. References

1. Calculation, NUHOMSHSM-H Air Flow Calculation of HSM-H, Transnuclear, Inc.,

Calculation No. NUH24PTH.0420, Revision 2.

EC 58024RO Z1 2 - Attachment 12 Page 5 of 7 A Calculation Calculation No.:

Revision No.:

NUH24PTH.0423 0

TRANSNUCLEAR AN AREVA COMPANY Page: 5 of 6

7. Results The results of HSM-H air temperature rise as a function of decay heat load Q (kW/DSC) and ambient air temperature Tamb are listed in Table 7-1 below and shown in Figure 7-1.

Table 7-1 HSM-H Air Temperature Rise as Function of Decay Heat Load and Ambient Temperature, IF Q, Tamb= Tarb= Tamb= Tamb= Temb= Tamb= Tamb= TBmb= Tamb= Tamb= Tomb= Tamb=

kW/DSC -40OF -200 F OOF 2O°F 40OF GOOF 70OF 81FF 90OF 100°F HOO°F 117 F 8 21 22 24 25 26 27 28 29 29 29 30 30 10 25 26 27 29 30 32 33 33 34 34 35 35 12 28 30 31 33 34 36 37 37 38 39 39 40 14 31 33 35 36 38 40 41 42 42 43 44 44 16 34 36 38 40 42 44 45 46 46 47 48 48 18 37 39 41 43 45 48 48 49 50 51 52 53 20 40 42 44 46 49 51 52 53 54 55 56 56 22 43 45 47 50 52 55 56 57 58 59 60 60 24 45 48 50 53 55 58 59 60 61 62 63 64 26 48 50 53 56 59 61 62 64 65 66 67 68 28 51 53 56 59 62 64 66 67 68 69 70 71 30 53 56 59 62 65 68 69 70 71 73 74 75 32 56 58 61 65 68 71 72 74 75 76 77 78 34 58 61 64 67 71 74 75 77 78 79 81 82 36 60 63 67 70 74 77 78 80 81 83 84 85 38 63 66 69 73 77 80 81 83 84 86 87 88 40 65 68 72 76 79 83 84 86 87 89 91 92 40.8 66 69 73 77 80 84 85 87 89 90 92 93

EC 58024RO Z12 - Attachmentl2 Page 6 of 7 Calculation No.: NUH24PTH.0423 Revision No.: 0 Page: 6 of 6 90 80 7r*

60 CL E

50 40 30 20 8 12 16 20 24 28 32 36 40 40.8 DSC/HSM-H Heat Load, kW Figure 7-1 HSM-H Air Temperature Rise as Function of Decay Heat Load and Ambient Temperature

EC 58024RO Z12 - Attachment12 Page 7 of 7 ATTACHMENT 2 Sheet 1 of 1 Record of Lead Review Document NUH24PTHTH.0423. NUHOMS0 HSM-H Air Temperature Rise vs. Decay Heat Calculation Revision 0 The signature below of the Lead Reviewer records that:

- the review indicated below 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.

I- Design Verification Review F] Engineering Review N Owner's Review EL Design Review EI Alternate Calculation M7 Qualification Testing LI Special Engineering Review 0 YES El N/A Other Records are attached.

M. S. Connelly/ ý-*echanical 7/21/05 Lead Reviewer (pri n) Discipline Date JJ Item Deficidfncy Resolution No.

1 Progress Energy does not have access to Progress Energy does not need the calculation another TransNuclear calculation for the NUH24PTH.0420.

assumptions, design inputs and The methodology used inthe NUH24PTH-0423 methodology that this vendor calculation calculation is the same as the methodology references. described in the NUHOMS CoG 1004 Amendment 8 SAR Section P.4.4.3. The details of the Section P.4.4.3 are presented in the generic calculation NUH24PTH-0420. The calculation NUH24PTH.0420 is available for review at the TN offices. Therefore, as long as Progress has access to the Section P.4.4.3 of the Amendment 8 SAR, it is not necessary for Progress to have Calculation NUH24PTH.0420 in their files.

i FORM EGR-NGGC-0003-2-10 This form is a QA Record when completed and included with a completed design package.

Owner's Reviews may be processed as stand alone QA records when Owner's Review is completed.

IEGR-NGGC-0003 I Rev. 10 1 Page 20 of 131