WCAP-17590-NP, Revision 2, Peach Bottom Units 2 and 3, Replacement Steam Dryer, Acoustic Load Definition.

ML14070A143
Person / Time
Site:	Peach Bottom
Issue date:	02/28/2014
From:	Longoni G Westinghouse
To:	Office of Nuclear Reactor Regulation
References
WCAP-17590-NP, Rev 2
Download: ML14070A143 (43)
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Text

Attachment 8 Peach Bottom Atomic Power Station Units 2 and 3 NRC Docket Nos. 50-277 and 50-278 WCAP-17590, Rev 2, Acoustic Load Definition

Westinghouse Non-Proprietary Class 3 WCAP-17590-NP Feb ruary 2014 Revision 2 Peach Bottom Units 2 & 3 Replacement Steam Dryer Acoustic Load Definition Westinghouse

WESTINGHOUSE NON-PROPRIETARY CLASS 3 WCAP-17590-NP Revision 2 Peach Bottom Units 2 & 3 Replacement Steam Dryer Acoustic Load Definition Gianluca Longoni*

BWR Plant and Stress Analysis February 2014 Reviewer: David A. Suddaby*

BWR Plant and Stress Analysis Approved: David R. Forsyth*, Manager BWR Plant and Stress Analysis

• Electronically approved records are authenticated in the electronic document management system.

Westinghouse Electric Company LLC 1000 Westinghouse Drive Cranberry Township, PA 16066, USA

© 2014 Westinghouse Electric Company LLC All Rights Reserved WCAP-1 7590-NP.docx-021414

ii Record of Revisions Rev Date Revision Description 0 August Acoustic load input developed with [ ax 2012 I June 2013 Acoustic load input developed c with [

2 February Acoustic load input developed with [ ]a'c 2014 WCAP- 17590-NP February 2014 Revision 2

TABLE OF CONTENTS LIST OF TABLES ....................................................................................................................................... iv LIST OF FIGURES ....................................................................................................................................... v LIST OF ACRONYM S/ABBREVIATION S ............................................................................................. vii 1 EX ECUTIVE SUM M A RY .......................................................................................................... 1-1 2 [ ]"'! THE REPLACEMENT STEAM DRYER ......................... 2-1 2.1 [ ] .................................... 2-1 2.2 [],c ................ 2-8 3 [ ......................................... 3-1 3.1 [

] ................................................................................................................ 3 -3 3.2 [ ]* ................................................ 3-5 3.3 [ ],, ........................................................... 3-11 3.4 [........... 3-14 3.5 [ ]"C... 3-18 4 REFEREN CES ............................................................................................................................. 4-1 February 2014 WCAP- 17590-NP WCAP- 17590-NP February 2014 Revision 2

iv LIST OF TABLES R ecord of R evision s ..................................................................................................................................... ii Table 1-1 ACE Revision 2.0 Differential Pressure Loads at EPU*1.02 Conditions ....................... 1-2 Table 1-2 ACE+SPM Revision 2.0 Differential Pressure Loads at EPU* 1.02 Conditions ............. 1-2 Tab le 3-1 []ac ................................................................................................... 3-4 Table 3-la [ ]a,c ................................................ 3-4 Table 3-2a []a,b,c .............................. 3-6 Table 3-2b [ a~b,c ..3-6 Table 3-3 [b.c .................................................... 3-6 Table 3-4 [ ].b, .......................................... 3-6 Table 3-5 [ ]a,b.c ............................................ 3-7 Table 3-6 [ ],l.c........................... 3-7 Table 3-7 [],b,c ............................ 3-8 Table 3-8 [ ]a,b . ...................... 3-8 Table 3-9

]a ............................................................................................................. 3 -12 Table 3-10

]a,c ........................................................................................................... 3-12 WCAP- 17590-NP February 2014 Revision 2

V LIST OF FIGURES Figure 2-1 ],C ......................................................................... 2 -2 Figure 2-2a [ ]a,c2-3 Figure 2-2b [ ]~C24 Figure 2-2c ]a ......................................... 2 -5 Figure 2-3a .................................................. 2 -6

]a,c ............................................................................................................... 2 -6 Figure 2-3b [ ]P ..................... 2-7 Figure 2-4 [ ]a,c. .................................................................. 2 -8

]a ....................................................................... 2 -9 Figure 2-5 [

]apc ............................................................................................. 3 -1 Figure 3-1 [

]a"c ....................................................... 3 -9 Figure 3-2a [

]ac ............................................................. 3 -9 Figure 3-2b [

Figure 3-3a [ ]a,c ................................................................... 3 -10 Figure 3-3b [ ]a,c ............................................................ 3 -10

]a,c .......................................... 3-13 Figure 3-4 [

Figure 3-5 [ ] -c.......................................... 3 -13 Figure 3-6 [

]a.c ............................................................. 3 -14 Figure 3-7 [

]a,c ............................................................. 3 -14 Figure 3-8 [

]a,c ............................................... 3 -15 Figure 3-9 [

]a"' ..................................................... 3 -15 Figure 3-10 [

]a'c ................................................. 3 -16 Figure 3-11 [

]a31 ................................................... 3-16 Figure 3-12 [

]"tc ..................................................... 3 -17 Figure 3-13 [

]a'c ..................................................... 3-17 WCAP- 17590-NP February 2014 Revision 2

vi Figure 3-14 [

]ax....................................... 3-18 Figure 3-15 [

....................................... 3-18 Figure 3-16 [

]a.c ....................................... 3-19 Figure 3-17 [

]a.c ....................................... 3-19 Figure 3-18 [

]a~c ....................................... 3-20 Figure 3-19 [

]a,c ....................................... 3-20 Figure 3-20 [

....................................... 3-21 Figure 3-21 [

]a,c ....................................... 3 -2 1 February 2014 WCAP- 17590-NP WCAP- 17590-NP February 2014 Revision 2

vii LIST OF ACRONYMS/ABBREVIATIONS Acronym Definition 3-D three-dimensional ACE acoustic circuit enhanced CLTP current licensed thermal power EPU extended power uprate FIV flow-induced vibration MSL main steam line PBAPS Peach Bottom Atomic Power Station PSD power spectral density RMS root mean square RPV reactor pressure vessel RSD replacement steam dryer SNR signal-to-noise ratio SPM skirt protection model SRSS square root of the sum of the squares SRV safety relief valve SSV spring safety valve WCAP- 17590-NP February 2014 Revision 2

1-1 1 EXECUTIVE

SUMMARY

The qualification [ ]C of the Peach Bottom Units 2 & 3

]C analysis of the alternating stresses acting Replacement Steam Dryer (RSD) design requires on the structure. [

]a b,c WCAP- 17590-NP February 2014 Revision 2

1-2 ACE Revision 2.0 Differential Pressure Loads at EPU*1.02 Conditions a,b,c Table 1-1 1 Table 1-2 ACE+SPM Revision 2.0 Differential Pressure Loads at EPU*1.02 Conditions I a,b,c WCAP- 17590-NP February 2014 Revision 2

2-1 2 [ ]a'C THE REPLACEMENT STEAM DRYER In order to qualify the Peach Bottom Atomic Power Station (PBAPS) Units 2 & 3 replacement steam dryer design for acoustic pressure loads originating from flow-induced vibration (FIV) phenomena, it is necessary to define [

2.1 Ia,c I

ac WCAP- 17590-NP February 2014 Revision 2

2-2

]a.c a,c Figure 2-1 [ lac WCAP- 17590-NP February 2014 Revision 2

2-3 a,c

'as Figure 2-2a WCAP-17590-NP February 2014 Revision 2

2-4 a,c Figure 2-2b [ 8a,c WCAP- 17590-NP February 2014 Revision 2

2-5 1a,c Figure 2-2c [ IH.C WCAP- 17590-NP February 2014 Revision 2

2-6 a,c Figure 2-3a [

Ia,c WCAP- 17590-NP February 2014 Revision 2

2-7 a,c Figure 2-3b [ I 2,C WCAP- 17590-NP February 2014 Revision 2

2-8 2.2 ]a,c

[

a,c

]ac a,c Figure 2-4 1 as

]ac a,c WCAP- I 7590-NP February 2014 Revision 2

2-9 II la,c II Ia,c I I a,c

]a,c F a,c I ac 7a,c Figure 2-5 [ I a,c WCAP- 17590-NP February 2014 Revision 2

2-10 ac WCAP-17590-NP February 2014 Revision 2

3-1 3 Ia,c I

1a,b.c a,c Figure 3-1 [ Ia,C WCAP- 17590-NP February 2014 Revision 2

3-2 I

]a,c a,c a,c

[I

]ac a,c I

Ia,c WCAP- 17590-NP February 2014 Revision 2

3-3 I a,c I

]a.c a,c I

]a~c 3.1 Ia,c I

ja, WCAP- 17590-NP February 2014 Revision 2

3-4 1 Table 3-1 I Ia.c Pa,b,c abc 11a,b,c Table 3-la I la,c WCAP- 17590-NP February 2014 Revision 2

3-5 3.2 [a,c

]ac a,b,c

[

]axc WCAP- 17590-NP Februarv 2014 Revision 2

3-6 Table 3-2a [ ]a,b.c a,b,c Table 3-2b rbca,b,c

[Table 3-3 ]a,b,c a,b,c T1 Table 3-4 a*b'c IL-WCAP- 17590-NP February 2014 Revision 2

3-7 a,b,c Table 3-5 I 11 Table 3-6 ],b,1 a,b,c WCAP- 17590-NP February 2014 Revision 2

3-8 a,b,c 1 Table 3-7 1 ab,

]a,b,c a,b,c Table 3-8 I WCAP- 17590-NP February 2014 Revision 2

3-9 a,b,c Figure 3-2a [ Il2,C a,b,c Figure 3-2b [ Ia,C WCAP-17590-NP February 2014 Revision 2

3-10 a,b,c Figure 3-3a [ Il,c a,b,c Figure 3-3b [ a,c WCAP-17590-NP February 2014 Revision 2

3-11 3.3 Ia,c

[

]ac a,c

[

]a,b,c WCAP-17590-NP February 2014 Revision 2

3-12

-11 Table 3-9 ] ...

a,b,c Table 3-10 1 I3,c a,b,c WCAP- 17590-NP February 2014 Revision 2

3-13 a,b,c Figure 3-4 [ Ila,c a,b,c Figure 3-5 IaC WCAP- 17590-NP February 2014 Revision 2

3-14 3.4 [ Iac II la~b~c Figure 3-6 [

IOc a,b,c Figure 3-7 [

Iae WCAP- 17590-NP February 2014 Revision 2

3-15 a,b,c Figure 3-8 [

la,c a,b,c Figure 3-9 [

I a,c WCAP- 17590-NP February 2014 Revision 2

3-16 a,b,c Figure 3-10 [

I a.c a,b,c Figure 3-11 [

a2,C WCAP- 17590-NP February 2014 Revision 2

3-17 a,b,c Figure 3-12 [

Ia,c a,b,c Figure 3-13 1 Sa2, WCAP- 17590-NP February 2014 Revision 2

3-18 3.5 1 I a,c

[

abc a,b,c Figure 3-14 [

IU,C a,b,c Figure 3-15 [

I a,c WCAP- 17590-NP February 2014 Revision 2

3-19 a,b,c Figure 3-16 [

Ia,C Figure 3-17 [

Sa8, WCAP- 17590-NP February 2014 Revision 2

3-20 a,b,c Figure 3-18 [

] SC a,b,c Figure 3-19 [

I a,C WCAP- 17590-NP February 2014 Revision 2

3-21 a,b,c Figure 3-20 [

Ia,c a,b c Figure 3-21 [

Ia,c WCAP- 17590-NP February 2014 Revision 2

4-1 4 REFERENCES

1. Westinghouse Calculation Note CN-A&SA-12-06, Rev. 3, "Acoustic Load Definition for the Peach Bottom Units 2 & 3 Replacement Steam Dryers," January 31, 2014 (Westinghouse Proprietary Class 2).

2. Westinghouse Report, WCAP 17626 Rev. 1, "Processing of Peach Bottom Unit 2 and Unit 3 MSL Strain Gauge Data and Computation of Predicted EPU Signature," February 12, 2014 (Westinghouse Proprietary Class 2).

3. Westinghouse Letter, LTR-A&SA 11, Rev. 0, "Field Preparation of Main Steam Lines at Peach Bottom Unit 2 for Strain Gauge Installation," November 4, 2010 (Westinghouse Proprietary Class 2).

4. Westinghouse Letter, LTR-A&SA-1 1-53, Rev. 0, "Field Preparation of Main Steam Lines at Peach Bottom Unit 3 for Strain Gauge Installation," October 6, 2011 (Westinghouse Proprietary Class 2).

5. Exelon Transmittal of Design Information TODI EPU-MOD-RSD-02-1, "Design Parameters for Replacement Stream Dryer Design," April 17, 2012.

6. Structural Integrity Calculation Package, 1000102.301, Rev. 0, "Peach Bottom Unit 2 Strain Gage Uncertainty Evaluation and Pressure Conversion Factors," Structural Integrity Associates, Inc., November 8, 2010.

7. Structural Integrity Calculation Package, 1000102.303, Rev. 0, "Peach Bottom Unit 3 Strain Gage Uncertainty Evaluation and Pressure Conversion Factors," Structural Integrity Associates, Inc., October 25, 2011.

17590-NP February 2014 WCAP- 17590-NP February 2014 Revision 2