Text

GTST AP1000- O27-3.4.6, Rev. 1

Advanced Passive 1000 (AP1000)

Generic Technical Specification Traveler (GTST)

Title:

Changes Related to LCO 3.4.6, Pressurizer Safety Valves

I. Technical Specifications Task Force (TSTF) Travelers, Approved Since Revision 2 of STS NUREG-1431, and Used to Develop this GTST

TSTF Number and

Title:

TSTF-479-A, Rev 0, Changes to Reflect Revision of 10 CFR 50.55a

STS NUREGs Affected:

TSTF-479-A, Rev 0: NUREGs 1430, 1431, 1432, 1433, and 1434

NRC Approval Date:

TSTF-479-A, Rev 0: 06-Dec-05

TSTF Classification:

TSTF-479-A, Rev 0: Technical Change

Date report generated:

Wednesday, May 27, 2015 Page 1 GTST AP1000- O27-3.4.6, Rev. 1

II. Reference Combined License (RCOL) Standard Departures (Std. Dep.), RCOL COL Items, and RCOL Plant-Specific Technical Specifications (PTS) Changes Used to Develop this GTST

RCOL Std. Dep. Number and

Title:

There are no Vogtle departures applicable to Specification 3.4.6.

RCOL COL Item Number and

Title:

There are no Vogtle COL items applicable to Specification 3.4.6.

RCOL PTS Change Number and

Title:

VEGP LAR DOC A003: References to various Chapters and Sections of the Final Safety Analysis Report (FSAR) are revised to include FSAR.

VEGP LAR DOC A044: Mode 4 Applicability is editorially revised VEGP LAR DOC A052: Editorial change of Condition statement VEGP LAR DOC M07: Pressurizer Safety Valves, Applicability Note revision

Date report generated:

Wednesday, May 27, 2015 Page 2 GTST AP1000- O27-3.4.6, Rev. 1

III. Comments on Relations Among TSTFs, RCOL Std. Dep., RCOL COL Items, and RCOL PTS Changes

This section discusses the considered changes that are: (1) applicable to operating reactor designs, but not to the AP1000 design; (2) already incorporated in the GTS; or (3) superseded by another change.

TSTF-479-A has been applied to AP1000 GTS 3.4.6, Rev 19 by Westinghouse. TSTF -479-A will not be discussed further as a part of this GTST.

Date report generated:

Wednesday, May 27, 2015 Page 3 GTST AP1000- O27-3.4.6, Rev. 1

IV. Additional Changes Proposed as Part of this GTST (modifications proposed by NRC staff and/or clear editorial changes or deviations identified by preparer of GTST)

APOG Recommended Changes to Improve the Bases

Throughout the Bases, references to Sections and Chapters of the FSAR do not include the FSAR clarifier. Since these Section and Chapter references are to an external document, it is appropriate to include the FSAR modifier. (DOC A003)

Date report generated:

Wednesday, May 27, 2015 Page 4 GTST AP1000- O27-3.4.6, Rev. 1

V. Applicability

Affected Generic Technical Specifications and Bases:

Subsection 3.4.6, Pressurizer Safety Valves

Changes to the Generic Technical Specifications and Bases:

LCO 3.4.6 Applicability statement is revised to split MODE 4 statement into two parts and the corresponding Bases are updated. This is consistent with TS Writer's Guide (Reference 4).

(DOC A044)

LCO 3.4.6 Applicability Note is revised to allow for hot lift setting adjustment and the corresponding Bases are updated. This provides assurance that during MODES 3 and 4, at least one pressurizer safety valve that has had a preliminary cold setting is available to provide overpressure protection. (DOC M07)

Clarification is added to Condition B statement. This is consistent with TS Writer's Guide (Reference 4). (DOC A052)

The acronym FSAR is added to modify Section and Chapter in references to the FSAR throughout the Bases. (DOC A003) (APOG Comment)

Date report generated:

Wednesday, May 27, 2015 Page 5 GTST AP1000- O27-3.4.6, Rev. 1

VI. Traveler Information

Description of TSTF changes:

Not applicable

Rationale for TSTF changes:

Not applicable

Description of changes in RCOL Std. Dep., RCOL COL Item(s), and RCOL PTS Changes:

VEGP LAR DOC A044 revises the Mode 4 Applicability editorially into two Applicabilities.

VEGP LAR DOC A052 revises the Condition B first entry condition by addition of of Condition A.

VEGP LAR DOC M07 revises the Applicability Note to include a requirement that One pressurizer safety valve at a time may be inoperable for hot lift setting adjustment.

A more detailed description of each DOC can be found in Reference 2, VEGP TSU LAR, and the NRC staff safety evaluation can be found in Reference 3, VEGP LAR SER. The VEGP TSU LAR was modified in response to NRC staff RAIs in Reference 5 and the Southern Nuclear Operating Company RAI Response in Reference 6.

Rationale for changes in RCOL Std. Dep., RCOL COL Item(s), and RCOL PTS Changes:

Applicability editorial change and Condition B entry statement change per VEGP LAR DOC A044 and DOC A052 are consistent with the TS Writer's Guide (Reference 4).

VEGP LAR DOC M07 revision of the Applicability Note permits testing and examination of the safety valves at high pressure and temperature near their normal operating range, but only after the valves have had a preliminary cold setting.

Description of additional changes proposed by NRC staff/preparer of GTST:

The acronym FSAR is added to modify Section and Chapter in references to the FSAR throughout the Bases. (DOC A003) (APOG Comment)

Rationale for additional changes proposed by NRC staff/preparer of GTST :

Since Bases references to FSAR Sections and Chapters are to an external document, it is appropriate to include the FSAR modifier.

Date report generated:

Wednesday, May 27, 2015 Page 6 GTST AP1000- O27-3.4.6, Rev. 1

VII. GTST Safety Evaluation

Technical Analysis:

VEGP LAR DOC M07 revises the LCO Applicability Note. The GTS Applicability Note states The lift settings are not required to be within the LCO limits during MODES 3 and 4 for the purpose of setting the pressurizer safety valves under ambient (hot) conditions. The Note allows entry into MODES 3 and 4 with the lift setpoints outside the LCO limits. This permits testing and examination of the safety valves at high pressure and temperature near their normal operating range, but only after the valves have had a preliminary cold setting. The cold setting gives assurance that the valves are OPERABLE near their design condition. However, the associated Bases go further, stating that Only one valve at a time will be removed from service for testing. This prohibition, limiting how lift settings and testing are performed, is not stated in the Applicability Note. The proposed Note provides assurance that during MODES 3 and 4, at least one pressurizer safety valve that has had a preliminary cold setting is available to provide overpressure protection.

The remaining changes are editorial, clarifying, grammatical, or otherwise considered administrative. These changes do not affect the technical content, but improve the readability, implementation, and understanding of the requirements, and are therefore acceptable.

Having found that this GTSTs proposed changes to the GTS and Bases are acceptable, the NRC staff concludes that AP1000 STS Subsection 3.4.6 is an acceptable model Specification for the AP1000 standard reactor design.

References to Previous NRC Safety Evaluation Reports (SERs):

None

Date report generated:

Wednesday, May 27, 2015 Page 7 GTST AP1000- O27-3.4.6, Rev. 1

VIII. Review Information

Evaluator Comments:

None

Randy Belles Oak Ridge National Laboratory 865-574- 0388 bellesrj@ornl.gov

Review Information:

Availability for public review and comment on Revision 0 of this traveler approved by NRC staff on 5/16/2014.

APOG Comments (Ref. 7) and Resolutions:

1. (Internal # 3) Throughout the Bases, references to Sections and Chapters of the FSAR do not include the FSAR clarifier. Since these Section and Chapter references are to an external document, it is appropriate (DOC A003) to include the FSAR modifier. This is resolved by adding the FSAR modifier as appropriate.

2. (Internal # 6) The GTST sections often repeat VEGP LAR DOCs, which reference existing and current requirements. The inclusion in the GTST of references to existing and current, are not always valid in the context of the GTS. Each occurrence of existing and current should be revised to be clear and specific to GTS, MTS, or VEGP COL TS (or other), as appropriate. Noted ambiguities are corrected in the GTST body.

3. (Internal # 7)Section VII, GTST Safety Evaluation, inconsistently completes the subsection References to Previous NRC Safety Evaluation Reports (SERs) by citing the associated SE for VEGP 3&4 COL Amendment 13. It is not clear whether there is a substantive intended difference when omitting the SE citation. This is resolved by removing the SE citation in Section VII of the GTST and ensuring that appropriate references to the consistent citation of this reference in Section X of the GTST are made.

4. (Internal # 241) APOG notes that GTS LCO 3.4.6 has an Applicability Note that is mistakenly entered in the GTST as an LCO Note. The GTS evaluation and the corresponding Bases, continue to reflect the existence of Applicability Notes. The Note should be moved from after the LCO statement to after the Applicability statements. This is resolved by moving the Note.

NRC Final Approval Date: 5/27/2015

Date report generated:

Wednesday, May 27, 2015 Page 8 GTST AP1000- O27-3.4.6, Rev. 1

NRC

Contact:

Hien Le United States Nuclear Regulatory Commission 301-415-1511 Hien.Le@nrc.gov

Date report generated:

Wednesday, May 27, 2015 Page 9 GTST AP1000- O27-3.4.6, Rev. 1

IX. Evaluator Comments for Consideration in Finalizing Technical Specifications and Bases

None

Date report generated:

Wednesday, May 27, 2015 Page 10 GTST AP1000- O27-3.4.6, Rev. 1

X. References Used in GTST

1. AP1000 DCD, Revision 19, Section 16, Technical Specifications, June 2011 (ML11171A500).

2. Southern Nuclear Operating Company, Vogtle Electric Generating Plant, Units 3 and 4, Technical Specifications Upgrade License Amendment Request, February 24, 2011 (ML12065A057).

3. NRC Safety Evaluation (SE) for Amendment No. 13 to Combined License (COL) No.

NPF-91 for Vogtle Electric Generating Plant (VEGP) Unit 3, and Amendment No. 13 to COL No. NPF-92 for VEGP Unit 4, September 9, 2013, ADAMS Package Accession No. ML13238A337, which contains:

ML13238A355 Cover Letter - Issuance of License Amendment No. 13 for Vogtle Units 3 and 4 (LAR 12- 002).

ML13238A359 Enclosure 1 - Amendment No. 13 to COL No. NPF-91 ML13239A256 Enclosure 2 - Amendment No. 13 to COL No. NPF-92 ML13239A284 Enclosure 3 - Revised plant-specific TS pages (Attachment to Amendment No. 13)

ML13239A287 Enclosure 4 - Safety Evaluation (SE), and Attachment 1 - Acronyms ML13239A288 SE Attachment 2 - Table A - Administrative Changes ML13239A319 SE Attachment 3 - Table M - More Restrictive Changes ML13239A333 SE Attachment 4 - Table R - Relocated Specifications ML13239A331 SE Attachment 5 - Table D - Detail Removed Changes ML13239A316 SE Attachment 6 - Table L - Less Restrictive Changes

The following documents were subsequently issued to correct an administrative error in Enclosure 3:

ML13277A616 Letter - Correction To The Attachment (Replacement Pages) - Vogtle Electric Generating Plant Units 3 and 4-Issuance of Amendment Re:

Technical Specifications Upgrade (LAR 12- 002) (TAC No. RP9402)

ML13277A637 Enclosure 3 - Revised plant-specific TS pages (Attachment to Amendment No. 13) (corrected)

4. TSTF-GG-05-01, Writer's Guide for Plant-Specific Improved Technical Specifications, June 2005.

5. RAI Letter No. 01 Related to License Amendment Request (LAR) 12- 002 for the Vogtle Electric Generating Plant Units 3 and 4 Combined Licenses, September 7, 2012 (ML12251A355).

6. Southern Nuclear Operating Company, Vogtle Electric Generating Plant, Units 3 and 4, Response to Request for Additional Information Letter No. 01 Related to License Amendment Request LAR 002, ND 2015, October 04, 2012 (ML12286A363 and ML12286A360)

Date report generated:

Wednesday, May 27, 2015 Page 11 GTST AP1000- O27-3.4.6, Rev. 1

7. APOG-2014- 008, APOG (AP1000 Utilities) Comments on AP1000 Standardized Technical Specifications (STS) Generic Technical Specification Travelers (GTSTs), Docket ID NRC-2014- 0147, September 22, 2014 (ML14265A493).

Date report generated:

Wednesday, May 27, 2015 Page 12 GTST AP1000- O27-3.4.6, Rev. 1

XI. MARKUP of the Applicable GTS Subsection for Preparation of the STS NUREG

The entire section of the Specifications and the Bases associated with this GTST is presented next.

Changes to the Specifications and Bases are denoted as follows: Deleted portions are marked in strikethrough red font, and inserted portions in bold blue font.

Date report generated:

Wednesday, May 27, 2015 Page 13 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves 3.4.6

3.4 REACTOR COOLANT SYSTEM (RCS)

3.4.6 Pressurizer Safety Va l v e s

LCO 3.4.6 Two pressurizer safety valves shall be OPERABLE with lift settings psig and 2510 psig.

fCABfifq MlaEp 1I OInd PI MlaEithmieatovystoNpFs. or, MODE 4 with RCS temperature 275°F.

NOTE----------------------------------------------

The lift settings are not required to be within the LCO limits during MODES 3 and 4 for the purpose of setting the pressurizer safety valves under ambient (hot) conditions. One pressurizer safety valve at a time may be inoperable for hot lift setting adjustment.

This exception is allowed for 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> following entry into MODE 3, provided a preliminary cold setting was made prior to heatup.

ACTIONS

CONDITION REQUIRED ACTION COMPLETION TIME

A. One pressurizer safety A.1 Restore valve to 15 minutes valve inoperable. OPERABLE status.

B. Required Action and B.1 Be in MODE 3. 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> associated Completion Ti m e of Condition A not AND met.

B.2 Be in MODE 4 with RNS 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> OR aligned to the RCS and RCS temperature < 275°F.

Two pressurizer safety valves inoperable.

AP1000 STS 3.4.6-1 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 14 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves 3.4.6

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.4.6.1 Verify each pressurizer safety valve OPERABLE in In accordance accordance with the Inservice Testing Program. with the Inservice Following testing, lift settings shall be within +/-1%. Testing Program

AP1000 STS 3.4.6-2 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 15 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

B 3.4 REACTOR COOLANT SYSTEM (RCS)

B 3.4.6 Pressurizer Safety Valves

BASES

BACKGROUND The two pressurizer safety valves provide, in conjunction with the Protection and Safety Monitoring System (PMS), overpressure protection for the RCS. The pressurizer safety valves are totally enclosed, spring loaded, self-actuated valves with backpressure compensation. The safety valves are designed to prevent the system pressure from exceeding the system Safety Limit (SL), 2733.5 psig, which is 110% of the design pressure.

Because the safety valves are totally enclosed and self actuating, they are considered independent components. The minimum relief capacity for each valve, 750,000 lb/hr, is based on postulated overpressure transient conditions resulting from a complete loss of steam flow to the turbine. This event results in the maximum surge rate into the pressurizer, which specifies the minimum relief capacity for the safety valves. The pressurizer safety valves discharge into the containment atmosphere. This discharge flow is indicated by an increase in temperature downstream of the pressurizer safety valves.

Overpressure protection is required in MODES 1, 2, 3, 4, 5, and 6 when the reactor vessel head is on; however, in MODE 4 with the RNS aligned, MODE 5, and MODE 6 with the reactor vessel head on, overpressure protection is provided by operating procedures and by meeting the requirements of LCO 3.4.14, Low Temperature Overpressure Protection

( LT O P ) System.

The upper and lower pressure limits are based on the +/- 1% tolerance requirement (Ref. 1) for lifting pressures above 1000 psig. The lift setting is for the ambient conditions associated with MODES 1, 2, and 3. This requires either that the valves be set hot or that a correlation between hot and cold settings be established.

The pressurizer safety valves are part of the primary success path and mitigate the effects of postulated accidents. OPERABILITY of the safety valves ensures that the RCS pressure will be limited to 110% of design pressure.

AP1000 STS B 3.4.6-1 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 16 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

BACKGROUND (continued)

The consequences of exceeding the ASME Code,Section III pressure limit (Ref. 1) could include damage to RCS components, increased LEAKAGE, or a requirement to perform additional stress analyses prior to resumption of reactor operation.

APPLICABLE All accident and safety analyses in FSAR Chapter 15 (Ref. 3) that require SAFETY safety valve actuation assume operation of two pressurizer safety valves ANALYSES to limit increases in the RCS pressure. The overpressure protection analysis (Ref. 2) is also based on operation of the two safety valves.

Accidents that could result in overpressurization if not properly terminated include:

a. Uncontrolled rod withdrawal from full power;

b. Loss of reactor coolant flow;

c. Loss of external electrical load;

d. Locked rotor; and

e. Loss of AC power/loss of normal feedwater

Detailed analyses of the above transients are contained in Reference 3.

Compliance with this LCO is consistent with the design bases and accident analyses assumptions.

Pressurizer Safety Valves satisfy Criterion 3 of 10 CFR 50.36(c)(2)(ii).

LCO The two pressurizer safety valves are set to open at the RCS design pressure (2500 psia), and within the ASME specified tolerance, to avoid exceeding the maximum design pressure SL, to maintain accident analyses assumptions, and to comply with ASME requirements. The upper and lower pressure tolerance limits are based on the +/- 1%

tolerance requirements (Ref. 1) for lifting pressures above 1000 psig.

The limit protected by this specification is the Reactor Coolant Pressure Boundary (RCPB) SL of 110% of design pressure. Inoperability of one or more valves could result in exceeding the SL if a transient were to occur.

The consequences of exceeding the ASME pressure limit could include damage to one or more RCS components, increased leakage, or

AP1000 STS B 3.4.6-2 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 17 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

LCO (continued)

additional stress analysis being required prior to resumption of reactor operation.

APPLICABILITY In MODES 1, 2, and 3, and portions of MODE 4 with the Normal Residual Heat Removal System (RNS) isolated or and portions of MODE 4 with the RCS temperature 275°F, OPERABILITY of two valves is required because tomned city is rrop reactoolant seo w10B oftsiiertcis.

MlaEtionsf MlaEre conservativyluded alt tist accis not rrthe setyvorrection.

ls applicable in MlaEith oNp o not isolated, in MODE 4 with RCS temperature 275 and in MODE 5, because LTOP is provided. Overpressure protection is not required in MODE 6 with reactor vessel head detensioned.

The Note allows entry into MODES 3 and 4 with the lift setpoints outside the LCO limits. This permits testing and examination of the safety valves at high pressure and temperature near their normal operating range, but only after the valves have had a preliminary cold setting. The cold setting gives assurance that the valves are OPERABLE near their design condition. Only one valve at a time may be made inoperable for hot lift setting adjustment. Only one valve at a time will be removed from service for testing. The 36 hour4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> exception is based on 18 hour2.083333e-4 days <br />0.005 hours <br />2.97619e-5 weeks <br />6.849e-6 months <br /> outage time for each of the two valves. The 18 hour2.083333e-4 days <br />0.005 hours <br />2.97619e-5 weeks <br />6.849e-6 months <br /> period is derived from operating experience that hot testing can be performed in this time frame.

ACTIONS A.1

With one pressurizer safety valve inoperable, restoration must take place within 15 minutes. The Completion Time of 15 minutes reflects the importance of maintaining the RCS Overpressure Protection System. An inoperable safety valve coincident with an RCS overpressure event could challenge the integrity of the pressure boundary.

AP1000 STS B 3.4.6-3 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 18 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

ACTIONS (continued)

B.1 and B.2

If the Required Action of A.1 cannot be met within the required Completion Time or if two pressurizer safety valves are inoperable, the plant must be placed in a MODE in which the requirement does not apply. To achieve this status, the plant must be brought to at least MODE 3 within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and to MODE 4 with the RNS aligned to the RCS and RCS temperature < 275°F within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

lion qimr reasonabled on operi periencoeach rred planttionsrl ctionsrderly mannerithout challng plantystems.

tittNp aligned ttCpI ovprsure prtisri tqlmyste m.change frlaEII olaE r tCp encore power prsurIs the potenti frsurizurgesI and thery rf se prottion wo prsurizetyv.

osEfiiC po P nMEp pos arspecifithe fvicqtirram. mrsizerafy vv areottne at a time and ice witthe rrts of ApME lModeo.FIch prides the activiti ys yoisfy tos. tirts specified.

surizetyve spoisB f lmEoABfqvI and the vues areet trn witn 1Bi pvllance tl f drift.

FENCEp ApMiler and mrsure ssodeItion fffIB

tm - AmvprsurmrtitI Ail O00T.

FSAR Chapter 15, Accident Analyses.

4. ASME OM Code, Code for Operation and Maintenance of Nuclear Power Plants.

AP1000 STS B 3.4.6-4 Amendment 0Rev. 0 Revision 19 Date report generated:

Wednesday, May 27, 2015 Page 19 GTST AP1000- O27-3.4.6, Rev. 1

XII. Applicable STS Subsection After Incorporation of this GTSTs Modifications

The entire subsection of the Specifications and the Bases associated with this GTST, following incorporation of the modifications, is presented next.

Date report generated:

Wednesday, May 27, 2015 Page 20 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves 3.4.6

3.4 REACTOR COOLANT SYSTEM (RCS)

3.4.6 Pressurizer Safety Valves

LCO 3.4.6 Two pressurizer safety valves shall be OPERABLE with lift settings psig and 2510 psig.

fCABfifq MlaEp 1I OInd PI MlaEithmieatovystoNpFs I Mlh RCS temperature 275°F.

qE ----------

qhe lift stingsrt rro be witn limitsing MlaEp f purpose ofetti prsizetyv under amenthotF tions. lrsuriz syve at a tim m benoperablf hotiftettitmt.

qhis exceptis allor PS hoursliryMlaE PI ided a priminaryd sti made pri to heatup.

Afl

NafqflN na AflN ClMmiEqNE

lne prsurizety 1 ote vve t inutes vve inoperabl lmEoABiE status.

ored Action 1 Be inl. s siomion m e of Ction A n A me O Be inlh 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> io the oCp RCS temperature < 275°F.

qwsurizety vvnoperabl

AP1000 STS 3.4.6-1 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 21 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves 3.4.6

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.4.6.1 Verify each pressurizer safety valve OPERABLE in In accordance accordance with the Inservice Testing Program. with the Inservice Following testing, lift settings shall be within +/-1%. Testing Program

AP1000 STS 3.4.6-2 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 22 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

B 3.4 REACTOR COOLANT SYSTEM (RCS)

B 3.4.6 Pressurizer Safety Valves

BASES

BACKGROUND The two pressurizer safety valves provide, in conjunction with the Protection and Safety Monitoring System (PMS), overpressure protection for the RCS. The pressurizer safety valves are totally enclosed, spring loaded, self-actuated valves with backpressure compensation. The safety valves are designed to prevent the system pressure from exceeding the system Safety Limit (SL), 2733.5 psig, which is 110% of the design pressure.

Because the safety valves are totally enclosed and self actuating, they are considered independent components. The minimum relief capacity for each valve, 750,000 lb/hr, is based on postulated overpressure transient conditions resulting from a complete loss of steam flow to the turbine. This event results in the maximum surge rate into the pressurizer, which specifies the minimum relief capacity for the safety valves. The pressurizer safety valves discharge into the containment atmosphere. This discharge flow is indicated by an increase in temperature downstream of the pressurizer safety valves.

Overpressure protection is required in MODES 1, 2, 3, 4, 5, and 6 when the reactor vessel head is on; however, in MODE 4 with the RNS aligned, MODE 5, and MODE 6 with the reactor vessel head on, overpressure protection is provided by operating procedures and by meeting the requirements of LCO 3.4.14, Low Temperature Overpressure Protection (LTOP).

The upper and lower pressure limits are based on the +/- 1% tolerance requirement (Ref. 1) for lifting pressures above 1000 psig. The lift setting is for the ambient conditions associated with MODES 1, 2, and 3. This requires either that the valves be set hot or that a correlation between hot and cold settings be established.

The pressurizer safety valves are part of the primary success path and mitigate the effects of postulated accidents. OPERABILITY of the safety valves ensures that the RCS pressure will be limited to 110% of design pressure.

AP1000 STS B 3.4.6-1 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 23 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

BACKGROUND (continued)

The consequences of exceeding the ASME Code,Section III pressure limit (Ref. 1) could include damage to RCS components, increased LEAKAGE, or a requirement to perform additional stress analyses prior to resumption of reactor operation.

APPLICABLE All accident and safety analyses in FSAR Chapter 15 (Ref. 3) that require SAFETY safety valve actuation assume operation of two pressurizer safety valves ANALYSES to limit increases in the RCS pressure. The overpressure protection analysis (Ref. 2) is also based on operation of the two safety valves.

Accidents that could result in overpressurization if not properly terminated include:

a. Uncontrolled rod withdrawal from full power;

b. Loss of reactor coolant flow;

c. Loss of external electrical load;

d. Locked rotor; and

e. Loss of AC power/loss of normal feedwater

Detailed analyses of the above transients are contained in Reference 3.

Compliance with this LCO is consistent with the design bases and accident analyses assumptions.

Pressurizer Safety Valves satisfy Criterion 3 of 10 CFR 50.36(c)(2)(ii).

LCO The two pressurizer safety valves are set to open at the RCS design pressure (2500 psia), and within the ASME specified tolerance, to avoid exceeding the maximum design pressure SL, to maintain accident analyses assumptions, and to comply with ASME requirements. The upper and lower pressure tolerance limits are based on the +/- 1%

tolerance requirements (Ref. 1) for lifting pressures above 1000 psig.

The limit protected by this specification is the Reactor Coolant Pressure Boundary (RCPB) SL of 110% of design pressure. Inoperability of one or more valves could result in exceeding the SL if a transient were to occur.

The consequences of exceeding the ASME pressure limit could include damage to one or more RCS components, increased leakage, or

AP1000 STS B 3.4.6-2 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 24 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

LCO (continued)

additional stress analysis being required prior to resumption of reactor operation.

APPLICABILITY In MODES 1, 2, and 3, portions of MODE 4 with the Normal Residual Heat Removal System (RNS) isolated and portions of MODE 4 with the RCS temperature 275°F, OPERABfqvf twvvsequired because tomned city is rrop reactoolant se10B oftsiiertcis.

MlaEtionsf MlaEre conservativyluded alt tist accisa yre tety vv for prection.

ls applicable in MlaEith oNp nsI l 4 with RCS temperature 275° F, and in MODE 5, because LTOP is provided. Overpressure protection is not required in MODE 6 with reactor vessel head detensioned.

The Note allows entry into MODES 3 and 4 with the lift setpoints outside the LCO limits. This permits testing and examination of the safety valves at high pressure and temperature near their normal operating range, but only after the valves have had a preliminary cold setting. The cold setting gives assurance that the valves are OPERABLE near their design condition. Only one valve at a time may be made inoperable for hot lift setting adjustment. The 36 hour4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> exception is based on 18 hour2.083333e-4 days <br />0.005 hours <br />2.97619e-5 weeks <br />6.849e-6 months <br /> outage time for each of the two valves. The 18 hour2.083333e-4 days <br />0.005 hours <br />2.97619e-5 weeks <br />6.849e-6 months <br /> period is derived from operating experience that hot testing can be performed in this time frame.

ACTIONS A.1

With one pressurizer safety valve inoperable, restoration must take place within 15 minutes. The Completion Time of 15 minutes reflects the importance of maintaining the RCS Overpressure Protection System. An inoperable safety valve coincident with an RCS overpressure event could challenge the integrity of the pressure boundary.

AP1000 STS B 3.4.6-3 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 25 GTST AP1000- O27-3.4.6, Rev. 1

Pressurizer Safety Valves B 3.4.6

BASES

ACTIONS (continued)

B.1 and B.2

If the Required Action of A.1 cannot be met within the required Completion Time or if two pressurizer safety valves are inoperable, the plant must be placed in a MODE in which the requirement does not apply. To achieve this status, the plant must be brought to at least MODE 3 within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and to MODE 4 with the RNS aligned to the RCS and RCS temperature < 275°F within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

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ApME lModeI Cfrind Melear mlants.

AP1000 STS B 3.4.6-4 Rev. 0

Date report generated:

Wednesday, May 27, 2015 Page 26