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Category:CONTRACTED REPORT - RTA
MONTHYEARML18107A3191999-05-21021 May 1999 Review of Submittal in Response to NRC GL-88-20,Suppl 4: 'Ipeees,' Fire Submittal Screening Review Technical Evaluation Rept:Salem Generating Station,Rev 1. ML18102A9181997-01-23023 January 1997 Technical Evaluation of Public Service Electric & Gas Co Responses Dtd 960619 & 1202 to NRR Rept, 'Safe Shutdown Capability Reassessment for Salem Nuclear Generating Station Units 1 & 2.' ML18101B1931995-11-30030 November 1995 Final TER Salem Nuclear Power Station. L-95-040, Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan1995-09-30030 September 1995 Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan ML18101B2881995-08-31031 August 1995 TER on IPE Submittal Human Reliability Analysis, Final Rept ML18101B2871995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Exam Back-End Submittal, Final Rept ML18101B2861995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Front End Analysis. ML18101A3751994-11-30030 November 1994 Evaluation of Util Response to Suppl 1 to NRC Bulletin 90-001:Hope Creek & Salem-1/2. ML17349A9271992-08-31031 August 1992 Technical Evaluation Rept,Pump & Valve Insevice Testing Program,Salem Generating Station,Units 1 & 2. ML18096A3881991-12-13013 December 1991 Final, Technical Evaluation Rept,Salem Generating Station, Station Blackout Evaluation. ML18096A2381991-08-31031 August 1991 Auxiliary Feedwater System RISK-BASED Inspection Guide for the Salem Nuclear Power Plant ML18094B4241989-11-30030 November 1989 Technical Evaluation Rept on Second 10-Yr Interval Inservice Insp Program Plan:Salem Generating Station,Unit 1. ML20211N5031987-01-0909 January 1987 Reactor Trip Sys Reliability Conformance to Item 4.5.2 of Generic Ltr 83-28,HB Robinson Steam Electric Plant,Unit 2, Salem Generating Station Units 1 & 2,Shearon Harris Nuclear Power Plant Unit 1..., Technical Evaluation Rept ML20205Q6161986-05-0505 May 1986 Preimplementation Audit Rept for SPDS at Salem Nuclear Generation Station 1 & 2 ML18092A9591985-12-0505 December 1985 Review of Licensee & Applicant Responses to NRC Generic Ltr 83-28 (Required Actions Based on Generic Implications of Salem ATWS Events),Item 1.2, 'Post-Trip Review:Data & Info Capabilities,' for Salem..., Technical Evaluation Rept ML20141C7011985-12-0202 December 1985 Suppl to Technical Evaluation Rept, Dcrdr for Salem Generating Station,Units 1 & 2 ML20115A7891985-01-16016 January 1985 Pre-Implementation Audit of Detailed Control Room Design Review of Salem Generating Station Units 1 & 2, Technical Evaluation Rept ML20087N5301984-03-31031 March 1984 Evaluation of Detailed Control Room Design Review Summary Rept for Salem Stations 1 & 2, Technical Evaluation Rept ML20023E1781983-05-31031 May 1983 Copper in the Intake and Discharge Zones of the Surry and Salem Nuclear Power Stations ML18087A9101983-04-0707 April 1983 Evaluation of Failure to Trip,Of Reactor Trip Circuit Breakers on 830222 & 25,Salem Nuclear Generating Station Unit 1, Interim Technical Evaluation Rept ML20090H7001983-03-31031 March 1983 Conformance to Reg Guide 1.97,Salem Nuclear Generating Station Units 1 & 2 ML20076C5111983-03-18018 March 1983 Masonry Wall Design (B-59) Public Svc Electric & Gas Co,Salem Generating Station Units 1 & 2 ML20077K8231983-02-23023 February 1983 Selected Operating Reactor Issues Program Ii:Rcs Vents (NUREG-0737,Item II.B.1), Final Technical Evaluation Rept for Salem 1 & 2 ML20065E2321982-09-28028 September 1982 PWR Main Steam Line Break W/Continued Feedwater Addition (B-69) Pse&G,Salem Nuclear Generating Station Units 1 & 2, Technical Evaluation Rept ML20077K0221982-09-28028 September 1982 ECCS Repts (F-47) TMI Action Plan Reqirements,Pse&G,Salem Nuclear Generating Station Unit 1, Technical Evaluation Rept ML18086B5831982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Technical Evaluation Rept,Vols 1 & 2 ML20064L7521982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Public Svc Electric & Gas Co,Salem Nuclear Generating Station,Unit 1, Vols 1 & 2,Technical Evaluation Rept ML18086B4871982-04-19019 April 1982 PWR Moderator Dilution, Technical Evaluation Rept ML20049H9151982-03-0303 March 1982 to Request for Addl Info Re Equipment Environ Qualification Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification Safety Evaluation Repts & TMI Action Plan Installed Equipment. ML18086A8211981-06-30030 June 1981 Adequacy of Station Electric Distribution Sys Voltages, Salem Nuclear Power Station Units 1 & 2, Technical Evaluation Rept ML18086A7251981-04-27027 April 1981 Auxiliary Feedwater Sys Automatic Initiation & Flow Indication,Salem Unit 1, Technical Evaluation Rept ML20003F1181981-03-0909 March 1981 Adequacy of Station Electric Distribution Sys Voltages, Preliminary Safety Evaluation ML19345G2231981-02-28028 February 1981 Inservice Testing Program,Salem Nuclear Generating Station, Unit 1, Safety Evaluation for 790501-801201 ML18085A8631980-11-30030 November 1980 Fracture Toughness of Steam Generator & Reactor Coolant Pump Supports,Salem Unit 1. Revision 1 to Technical Evaluation Rept ML19336A5991980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 2, Interim Rept ML19340B9761980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 1, May 1979-Nov 1980 ML18081B1241980-01-31031 January 1980 Technical Evaluation Rept of Electrical,Instrument & Control Aspects of Inadvertent Safety Injections at Salem, Unit 1. ML19322E2821979-11-30030 November 1979 Electrical Instrumentation & Control Aspects of Override of Containment Purge Valve Isolation & Other Safety Feature Signals, Informal Rept ML18079A2821977-07-31031 July 1977 Corrosion of Matls in Spent Fuel Storage Pools. 1999-05-21
[Table view] Category:QUICK LOOK
MONTHYEARML18107A3191999-05-21021 May 1999 Review of Submittal in Response to NRC GL-88-20,Suppl 4: 'Ipeees,' Fire Submittal Screening Review Technical Evaluation Rept:Salem Generating Station,Rev 1. ML18102A9181997-01-23023 January 1997 Technical Evaluation of Public Service Electric & Gas Co Responses Dtd 960619 & 1202 to NRR Rept, 'Safe Shutdown Capability Reassessment for Salem Nuclear Generating Station Units 1 & 2.' ML18101B1931995-11-30030 November 1995 Final TER Salem Nuclear Power Station. L-95-040, Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan1995-09-30030 September 1995 Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan ML18101B2881995-08-31031 August 1995 TER on IPE Submittal Human Reliability Analysis, Final Rept ML18101B2871995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Exam Back-End Submittal, Final Rept ML18101B2861995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Front End Analysis. ML18101A3751994-11-30030 November 1994 Evaluation of Util Response to Suppl 1 to NRC Bulletin 90-001:Hope Creek & Salem-1/2. ML17349A9271992-08-31031 August 1992 Technical Evaluation Rept,Pump & Valve Insevice Testing Program,Salem Generating Station,Units 1 & 2. ML18096A3881991-12-13013 December 1991 Final, Technical Evaluation Rept,Salem Generating Station, Station Blackout Evaluation. ML18096A2381991-08-31031 August 1991 Auxiliary Feedwater System RISK-BASED Inspection Guide for the Salem Nuclear Power Plant ML18094B4241989-11-30030 November 1989 Technical Evaluation Rept on Second 10-Yr Interval Inservice Insp Program Plan:Salem Generating Station,Unit 1. ML20211N5031987-01-0909 January 1987 Reactor Trip Sys Reliability Conformance to Item 4.5.2 of Generic Ltr 83-28,HB Robinson Steam Electric Plant,Unit 2, Salem Generating Station Units 1 & 2,Shearon Harris Nuclear Power Plant Unit 1..., Technical Evaluation Rept ML20205Q6161986-05-0505 May 1986 Preimplementation Audit Rept for SPDS at Salem Nuclear Generation Station 1 & 2 ML18092A9591985-12-0505 December 1985 Review of Licensee & Applicant Responses to NRC Generic Ltr 83-28 (Required Actions Based on Generic Implications of Salem ATWS Events),Item 1.2, 'Post-Trip Review:Data & Info Capabilities,' for Salem..., Technical Evaluation Rept ML20141C7011985-12-0202 December 1985 Suppl to Technical Evaluation Rept, Dcrdr for Salem Generating Station,Units 1 & 2 ML20115A7891985-01-16016 January 1985 Pre-Implementation Audit of Detailed Control Room Design Review of Salem Generating Station Units 1 & 2, Technical Evaluation Rept ML20087N5301984-03-31031 March 1984 Evaluation of Detailed Control Room Design Review Summary Rept for Salem Stations 1 & 2, Technical Evaluation Rept ML20023E1781983-05-31031 May 1983 Copper in the Intake and Discharge Zones of the Surry and Salem Nuclear Power Stations ML18087A9101983-04-0707 April 1983 Evaluation of Failure to Trip,Of Reactor Trip Circuit Breakers on 830222 & 25,Salem Nuclear Generating Station Unit 1, Interim Technical Evaluation Rept ML20090H7001983-03-31031 March 1983 Conformance to Reg Guide 1.97,Salem Nuclear Generating Station Units 1 & 2 ML20076C5111983-03-18018 March 1983 Masonry Wall Design (B-59) Public Svc Electric & Gas Co,Salem Generating Station Units 1 & 2 ML20077K8231983-02-23023 February 1983 Selected Operating Reactor Issues Program Ii:Rcs Vents (NUREG-0737,Item II.B.1), Final Technical Evaluation Rept for Salem 1 & 2 ML20065E2321982-09-28028 September 1982 PWR Main Steam Line Break W/Continued Feedwater Addition (B-69) Pse&G,Salem Nuclear Generating Station Units 1 & 2, Technical Evaluation Rept ML20077K0221982-09-28028 September 1982 ECCS Repts (F-47) TMI Action Plan Reqirements,Pse&G,Salem Nuclear Generating Station Unit 1, Technical Evaluation Rept ML18086B5831982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Technical Evaluation Rept,Vols 1 & 2 ML20064L7521982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Public Svc Electric & Gas Co,Salem Nuclear Generating Station,Unit 1, Vols 1 & 2,Technical Evaluation Rept ML18086B4871982-04-19019 April 1982 PWR Moderator Dilution, Technical Evaluation Rept ML20049H9151982-03-0303 March 1982 to Request for Addl Info Re Equipment Environ Qualification Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification Safety Evaluation Repts & TMI Action Plan Installed Equipment. ML18086A8211981-06-30030 June 1981 Adequacy of Station Electric Distribution Sys Voltages, Salem Nuclear Power Station Units 1 & 2, Technical Evaluation Rept ML18086A7251981-04-27027 April 1981 Auxiliary Feedwater Sys Automatic Initiation & Flow Indication,Salem Unit 1, Technical Evaluation Rept ML20003F1181981-03-0909 March 1981 Adequacy of Station Electric Distribution Sys Voltages, Preliminary Safety Evaluation ML19345G2231981-02-28028 February 1981 Inservice Testing Program,Salem Nuclear Generating Station, Unit 1, Safety Evaluation for 790501-801201 ML18085A8631980-11-30030 November 1980 Fracture Toughness of Steam Generator & Reactor Coolant Pump Supports,Salem Unit 1. Revision 1 to Technical Evaluation Rept ML19336A5991980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 2, Interim Rept ML19340B9761980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 1, May 1979-Nov 1980 ML18081B1241980-01-31031 January 1980 Technical Evaluation Rept of Electrical,Instrument & Control Aspects of Inadvertent Safety Injections at Salem, Unit 1. ML19322E2821979-11-30030 November 1979 Electrical Instrumentation & Control Aspects of Override of Containment Purge Valve Isolation & Other Safety Feature Signals, Informal Rept ML18079A2821977-07-31031 July 1977 Corrosion of Matls in Spent Fuel Storage Pools. 1999-05-21
[Table view] Category:ETC. (PERIODIC
MONTHYEARML18107A3191999-05-21021 May 1999 Review of Submittal in Response to NRC GL-88-20,Suppl 4: 'Ipeees,' Fire Submittal Screening Review Technical Evaluation Rept:Salem Generating Station,Rev 1. ML18102A9181997-01-23023 January 1997 Technical Evaluation of Public Service Electric & Gas Co Responses Dtd 960619 & 1202 to NRR Rept, 'Safe Shutdown Capability Reassessment for Salem Nuclear Generating Station Units 1 & 2.' ML18101B1931995-11-30030 November 1995 Final TER Salem Nuclear Power Station. L-95-040, Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan1995-09-30030 September 1995 Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan ML18101B2881995-08-31031 August 1995 TER on IPE Submittal Human Reliability Analysis, Final Rept ML18101B2871995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Exam Back-End Submittal, Final Rept ML18101B2861995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Front End Analysis. ML18101A3751994-11-30030 November 1994 Evaluation of Util Response to Suppl 1 to NRC Bulletin 90-001:Hope Creek & Salem-1/2. ML17349A9271992-08-31031 August 1992 Technical Evaluation Rept,Pump & Valve Insevice Testing Program,Salem Generating Station,Units 1 & 2. ML18096A3881991-12-13013 December 1991 Final, Technical Evaluation Rept,Salem Generating Station, Station Blackout Evaluation. ML18096A2381991-08-31031 August 1991 Auxiliary Feedwater System RISK-BASED Inspection Guide for the Salem Nuclear Power Plant ML18094B4241989-11-30030 November 1989 Technical Evaluation Rept on Second 10-Yr Interval Inservice Insp Program Plan:Salem Generating Station,Unit 1. ML20211N5031987-01-0909 January 1987 Reactor Trip Sys Reliability Conformance to Item 4.5.2 of Generic Ltr 83-28,HB Robinson Steam Electric Plant,Unit 2, Salem Generating Station Units 1 & 2,Shearon Harris Nuclear Power Plant Unit 1..., Technical Evaluation Rept ML20205Q6161986-05-0505 May 1986 Preimplementation Audit Rept for SPDS at Salem Nuclear Generation Station 1 & 2 ML18092A9591985-12-0505 December 1985 Review of Licensee & Applicant Responses to NRC Generic Ltr 83-28 (Required Actions Based on Generic Implications of Salem ATWS Events),Item 1.2, 'Post-Trip Review:Data & Info Capabilities,' for Salem..., Technical Evaluation Rept ML20141C7011985-12-0202 December 1985 Suppl to Technical Evaluation Rept, Dcrdr for Salem Generating Station,Units 1 & 2 ML20115A7891985-01-16016 January 1985 Pre-Implementation Audit of Detailed Control Room Design Review of Salem Generating Station Units 1 & 2, Technical Evaluation Rept ML20087N5301984-03-31031 March 1984 Evaluation of Detailed Control Room Design Review Summary Rept for Salem Stations 1 & 2, Technical Evaluation Rept ML20023E1781983-05-31031 May 1983 Copper in the Intake and Discharge Zones of the Surry and Salem Nuclear Power Stations ML18087A9101983-04-0707 April 1983 Evaluation of Failure to Trip,Of Reactor Trip Circuit Breakers on 830222 & 25,Salem Nuclear Generating Station Unit 1, Interim Technical Evaluation Rept ML20090H7001983-03-31031 March 1983 Conformance to Reg Guide 1.97,Salem Nuclear Generating Station Units 1 & 2 ML20076C5111983-03-18018 March 1983 Masonry Wall Design (B-59) Public Svc Electric & Gas Co,Salem Generating Station Units 1 & 2 ML20077K8231983-02-23023 February 1983 Selected Operating Reactor Issues Program Ii:Rcs Vents (NUREG-0737,Item II.B.1), Final Technical Evaluation Rept for Salem 1 & 2 ML20065E2321982-09-28028 September 1982 PWR Main Steam Line Break W/Continued Feedwater Addition (B-69) Pse&G,Salem Nuclear Generating Station Units 1 & 2, Technical Evaluation Rept ML20077K0221982-09-28028 September 1982 ECCS Repts (F-47) TMI Action Plan Reqirements,Pse&G,Salem Nuclear Generating Station Unit 1, Technical Evaluation Rept ML18086B5831982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Technical Evaluation Rept,Vols 1 & 2 ML20064L7521982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Public Svc Electric & Gas Co,Salem Nuclear Generating Station,Unit 1, Vols 1 & 2,Technical Evaluation Rept ML18086B4871982-04-19019 April 1982 PWR Moderator Dilution, Technical Evaluation Rept ML20049H9151982-03-0303 March 1982 to Request for Addl Info Re Equipment Environ Qualification Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification Safety Evaluation Repts & TMI Action Plan Installed Equipment. ML18086A8211981-06-30030 June 1981 Adequacy of Station Electric Distribution Sys Voltages, Salem Nuclear Power Station Units 1 & 2, Technical Evaluation Rept ML18086A7251981-04-27027 April 1981 Auxiliary Feedwater Sys Automatic Initiation & Flow Indication,Salem Unit 1, Technical Evaluation Rept ML20003F1181981-03-0909 March 1981 Adequacy of Station Electric Distribution Sys Voltages, Preliminary Safety Evaluation ML19345G2231981-02-28028 February 1981 Inservice Testing Program,Salem Nuclear Generating Station, Unit 1, Safety Evaluation for 790501-801201 ML18085A8631980-11-30030 November 1980 Fracture Toughness of Steam Generator & Reactor Coolant Pump Supports,Salem Unit 1. Revision 1 to Technical Evaluation Rept ML19336A5991980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 2, Interim Rept ML19340B9761980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 1, May 1979-Nov 1980 ML18081B1241980-01-31031 January 1980 Technical Evaluation Rept of Electrical,Instrument & Control Aspects of Inadvertent Safety Injections at Salem, Unit 1. ML19322E2821979-11-30030 November 1979 Electrical Instrumentation & Control Aspects of Override of Containment Purge Valve Isolation & Other Safety Feature Signals, Informal Rept ML18079A2821977-07-31031 July 1977 Corrosion of Matls in Spent Fuel Storage Pools. 1999-05-21
[Table view] Category:TEXT-PROCUREMENT & CONTRACTS
MONTHYEARML18107A3191999-05-21021 May 1999 Review of Submittal in Response to NRC GL-88-20,Suppl 4: 'Ipeees,' Fire Submittal Screening Review Technical Evaluation Rept:Salem Generating Station,Rev 1. ML18102A9181997-01-23023 January 1997 Technical Evaluation of Public Service Electric & Gas Co Responses Dtd 960619 & 1202 to NRR Rept, 'Safe Shutdown Capability Reassessment for Salem Nuclear Generating Station Units 1 & 2.' ML18101B1931995-11-30030 November 1995 Final TER Salem Nuclear Power Station. L-95-040, Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan1995-09-30030 September 1995 Technical Evaluation Rept on Second 10-Yr Inservice Insp Program Plan ML18101B2881995-08-31031 August 1995 TER on IPE Submittal Human Reliability Analysis, Final Rept ML18101B2871995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Exam Back-End Submittal, Final Rept ML18101B2861995-08-31031 August 1995 Technical Evaluation Rept of Plant IPE Front End Analysis. ML18101A3751994-11-30030 November 1994 Evaluation of Util Response to Suppl 1 to NRC Bulletin 90-001:Hope Creek & Salem-1/2. ML17349A9271992-08-31031 August 1992 Technical Evaluation Rept,Pump & Valve Insevice Testing Program,Salem Generating Station,Units 1 & 2. ML18096A3881991-12-13013 December 1991 Final, Technical Evaluation Rept,Salem Generating Station, Station Blackout Evaluation. ML18096A2381991-08-31031 August 1991 Auxiliary Feedwater System RISK-BASED Inspection Guide for the Salem Nuclear Power Plant ML18094B4241989-11-30030 November 1989 Technical Evaluation Rept on Second 10-Yr Interval Inservice Insp Program Plan:Salem Generating Station,Unit 1. ML20211N5031987-01-0909 January 1987 Reactor Trip Sys Reliability Conformance to Item 4.5.2 of Generic Ltr 83-28,HB Robinson Steam Electric Plant,Unit 2, Salem Generating Station Units 1 & 2,Shearon Harris Nuclear Power Plant Unit 1..., Technical Evaluation Rept ML20205Q6161986-05-0505 May 1986 Preimplementation Audit Rept for SPDS at Salem Nuclear Generation Station 1 & 2 ML18092A9591985-12-0505 December 1985 Review of Licensee & Applicant Responses to NRC Generic Ltr 83-28 (Required Actions Based on Generic Implications of Salem ATWS Events),Item 1.2, 'Post-Trip Review:Data & Info Capabilities,' for Salem..., Technical Evaluation Rept ML20141C7011985-12-0202 December 1985 Suppl to Technical Evaluation Rept, Dcrdr for Salem Generating Station,Units 1 & 2 ML20115A7891985-01-16016 January 1985 Pre-Implementation Audit of Detailed Control Room Design Review of Salem Generating Station Units 1 & 2, Technical Evaluation Rept ML20087N5301984-03-31031 March 1984 Evaluation of Detailed Control Room Design Review Summary Rept for Salem Stations 1 & 2, Technical Evaluation Rept ML20023E1781983-05-31031 May 1983 Copper in the Intake and Discharge Zones of the Surry and Salem Nuclear Power Stations ML18087A9101983-04-0707 April 1983 Evaluation of Failure to Trip,Of Reactor Trip Circuit Breakers on 830222 & 25,Salem Nuclear Generating Station Unit 1, Interim Technical Evaluation Rept ML20090H7001983-03-31031 March 1983 Conformance to Reg Guide 1.97,Salem Nuclear Generating Station Units 1 & 2 ML20076C5111983-03-18018 March 1983 Masonry Wall Design (B-59) Public Svc Electric & Gas Co,Salem Generating Station Units 1 & 2 ML20077K8231983-02-23023 February 1983 Selected Operating Reactor Issues Program Ii:Rcs Vents (NUREG-0737,Item II.B.1), Final Technical Evaluation Rept for Salem 1 & 2 ML20065E2321982-09-28028 September 1982 PWR Main Steam Line Break W/Continued Feedwater Addition (B-69) Pse&G,Salem Nuclear Generating Station Units 1 & 2, Technical Evaluation Rept ML20077K0221982-09-28028 September 1982 ECCS Repts (F-47) TMI Action Plan Reqirements,Pse&G,Salem Nuclear Generating Station Unit 1, Technical Evaluation Rept ML18086B5831982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Technical Evaluation Rept,Vols 1 & 2 ML20064L7521982-07-15015 July 1982 Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification SERs (F-11 & B-60), Public Svc Electric & Gas Co,Salem Nuclear Generating Station,Unit 1, Vols 1 & 2,Technical Evaluation Rept ML18086B4871982-04-19019 April 1982 PWR Moderator Dilution, Technical Evaluation Rept ML20049H9151982-03-0303 March 1982 to Request for Addl Info Re Equipment Environ Qualification Review of Licensee Resolution of Outstanding Issues from NRC Equipment Environ Qualification Safety Evaluation Repts & TMI Action Plan Installed Equipment. ML18086A8211981-06-30030 June 1981 Adequacy of Station Electric Distribution Sys Voltages, Salem Nuclear Power Station Units 1 & 2, Technical Evaluation Rept ML18086A7251981-04-27027 April 1981 Auxiliary Feedwater Sys Automatic Initiation & Flow Indication,Salem Unit 1, Technical Evaluation Rept ML20003F1181981-03-0909 March 1981 Adequacy of Station Electric Distribution Sys Voltages, Preliminary Safety Evaluation ML19345G2231981-02-28028 February 1981 Inservice Testing Program,Salem Nuclear Generating Station, Unit 1, Safety Evaluation for 790501-801201 ML18085A8631980-11-30030 November 1980 Fracture Toughness of Steam Generator & Reactor Coolant Pump Supports,Salem Unit 1. Revision 1 to Technical Evaluation Rept ML19336A5991980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 2, Interim Rept ML19340B9761980-10-31031 October 1980 Ser,Inservice Testing Program,Salem Nuclear Generating Station Unit 1, May 1979-Nov 1980 ML18081B1241980-01-31031 January 1980 Technical Evaluation Rept of Electrical,Instrument & Control Aspects of Inadvertent Safety Injections at Salem, Unit 1. ML19322E2821979-11-30030 November 1979 Electrical Instrumentation & Control Aspects of Override of Containment Purge Valve Isolation & Other Safety Feature Signals, Informal Rept ML18079A2821977-07-31031 July 1977 Corrosion of Matls in Spent Fuel Storage Pools. 1999-05-21
[Table view] |
Text
( CORROSION OF MATERIALS IN SPENT FUEL STORAGE POOLS J.R. Weeks July 1977 Corrosion Group Department of Applied Science Brookhaven National Laborato"ry Upton, New York 11973 BNL-NUREG-23021 INFORMAL REPORT I t f. t I I TABLE OF CONTENTS LIST OF TABLES-------------------------------------------------
INTRODUCTION---------------------------------------------------
I MATERIALS-------------------------------------------------
II WATER CHEMISTRY-------------------------------------------
- 1. BWR Fuel Pool Chemistry------------------------------
- 2. PWR Fuel Pool Chemistry------------------------------
- 3. Biocides---------------------------------------------
III CORROSION OF MATERIALS IN FUEL STORAGE POOLS--------------
- 1. Stainless Steels-------------------------------------
- 2. Aluminum Alloys---------------------------------------
- 3. Zircaloy Cladding-------------------------------------
- 4. Other Materials----------------*-*---------.------------
- 5. Stress Corrosion------------------------------------
- 6. Galvanic Corrosion---------------------------------
IV SURVEILLANCE-------------------------------.----------------
V
SUMMARY
AND CONCLUSIONS-----------------------------------
ACKNOWLEDGEMENTS-----------------------------------------------
i ii 1 2 3 3 3 4 5 5 5 6 6 6 7 9 10 11 12 13, 14, 15 I: ,, *. '* TABLE 1 --* ___ . __ . ......_ ______ .. __ , ___ * .. LIST OF TABLES MATERIALS AND WATER CHEMISTRIES IN LWR FUEL STORAGE POOLS-----------------------------------13
& 14 ii INTRODUCTION The current delays in establishing a national fuel ing center have required many of the LWR licensees to expand their fuel storage capabilities either by modification of existing pools or addition of new fuel storage *pools. This report reviews the potential corrosion problems that might develop during the term {10 plus years) storage of nuclear fuels in these storage pools. A detailed review of the integrity of the fuel* in storage pools is being prepared by Johnson for ERDA, Cl) which has served as a basis for much of this report. Zircaloy-clad fuels with
- burnups up to 33,000 MWd/MTU have been successfully stored in fuel storage pools for periods up to 13 years in U.S. pools and 14 years (at lower burnups) in Canadian pools. 1
""* ,; ' -: J: t [ I I . r I MATERIALS Three types of materials are_ generally in contact with the fuel storage pool water: the pool liner which is commonly less steel, the storage racks which are commonly stainless steel or aluminum, and the materials present in the fuel element bundles which commonly include stainless steel, Inconel 718, 17-4 PH, and Zircaloy 2 or Zircaloy 4 cladding.
Table 1 lists the materials and water*chemistry used in the fuel storage pools at a number of LWR nuclear stations, as available to the writer as of July 15, 1977. Experience with storing these materials for long periods of time in reactor canals has been reviewed by A.B. Johnson, Jr. (l) Maximum residence in U.S. Pools of spent zircaloy-clad fuel is 13 years. None of these materials should suffer significant corrosion in this environment in periods well in excess of 10 years, as has* been borne out by experience.
2
' \. t !' f: [. II WATER CHEMISTRY Because during the fuel unloading procedure the water in the fuel storage pool and the reactor primary coolant mix, an attempt is made to maintain water purity in the fuel storage pool to proximately the same limits that are set for the primary reactor coolant. 1. BWR Fuel Pool Chemistry In a BWR this means that high purity demineralized water is typically maintained with a filter-demineralizer to a total heavy ion content of< 0.1 ppm, a pH range of 6.0 to 7.5, and a conductivity of < 1 µmho/cm. The water is sampled daily to ure conductivity, and weekly for other impurities, including chlorides.
The demineralizers primarily remove silicates from the water, and are typically checked for their capacity to remove this species once weekly. The primary source of the silicates may be dust from the air; the pools are normally uncovered.
On the age, fresh resin beds are installed monthly, primarily because of increased drops from silicate absorption.
<2> The primary contribution to the conductivity is dissolved co 2; when the tivity exceeds i µmho/cm the demineralizers are changed. <2> During a visit in June, 1977, _the water in the Vermont Yankee fuel pool appeared extremely clear, with a distinct blue tinge to it, ently as a result of scattering of the longer -light waves by the water and the use of mercury vapor lighting.
- 2. PWR Fuel Pool* Cherni*stry In a PWR, the fuel pool frequently contains several sand ppm boric acid, .which is added to other otherwise highly pure water. No neutralization with LiOH is used* in the fuel storage pools; a typical pHC 3> value is 4.5. A portion-of the fuel pool 3 e* coolant is continuously passed through *a derriineralizer resin and impurities, .such as halides or sodium ions, maintained below 0.15 ppm. Periodically the demineralizer resins are checked for their ability to remove halides and sodium ions; resins have been oped by Rohm and Haas that are specific for rernovi:rig halides.in the presence of boric acid. The manufacturer's claims in th.is ter have been confirmed experimentally by one of the reactor dors. <4> 3.
Biocides are not commonly used in fuel storage pools at nuclear power plants. Maintaining the water of the high purity needed for safe *storage of fuel appears to inhibit . growth, .and the use of stainless steel liners in the storage pool also tends to control biological growth. The radiation levels from the spent fuel stored iri. the pool also tend to sterilize the water, radiation resistant bacteria are known. Finally, the continuous demineralization of a portion of the pool water serves to filter out any biological growth. No fouling has been observed in 3 1/2 years operation of the* Prairie Island spent fuel poo1,<3> in 3 1/2 years operation of the Vermont Ya.nkee, >-5 years operation of the Maine Yankee, and > 10 years operation of the Yankee-Rowe fuel storage pools,<2> and no biocides have been added. The use of biocides can lead to -the presence of chloride ions in the pool which are potentially harmful to the corrosion resistance of the materials stored in the pool, and would be ceptable during the mixing with the reactor primary coolant that occurs during refueling.
They have been used in the ICPT fuel pool at Idaho Falls, which is a painted concrete pool. (l) 4 ..
-*** .
III CORROS'I'ON
- oF MATERIALS" IN FUEL *s:TORAGE P-OOLS-The corrosion rates of zirconium, stainless steels and Inconel in water of the quality maintained in the fuel storage pools should be negligible during periods upwards of twenty years. Gener.al corrosion rate measurements for these materials in water of this quality and temperature are not generally available, and any mates of corrosion rates must be extrapolated from measw::ements at much higher temperatures.
The *primary difference between the water chemistry in the fuel pools and that in the reactor (other than the temperature) is that the pools are exposed to the air and are presumed to contain dissolved oxygeri up to the saturation point. Since all the materials used are passivated by oxide films, the presence of oxygen in the water should not affect their rosion rates. 1. Stainless -Steels Since the stainless*
steels *are used for the *primary ing at substantially higher temperatures and in the presence of oxygen in BWR's where *stainless steels are deemed satisfactory for periods to 40 years, corrosion in the fuel pool should be much less than in the reactor, because of the lower temperature.
- 2. Aluminum Alloys The anticipated corrosion of the aluminum alloys, 1100 or 6061, is negligible in water of this quality at temperatures up to the boiling point of water: at 12S 0 c (257°F) a corrosion rate of 1.5 x 10-4 mils/day(S) has been measured for alloy 6061 aluminum, in water of pH 7, which corresponds to a total corrosion of 1.1 mils in twenty years. Since the oxidation rate will tinue to decrease slightly over this period, this estimate should be conservative.
At lower temperatures, the rate will be even 5
_._ ----:. -____ .... ___ ... ___ :.._.: __ lower. There is little difference in the corrosion rates of these two alloys at temperatures below 1so 0 c. The anodization of the aluminum components, which is occasionally used, .should protect them even further from corrosion.
- 3. *zircaloy Cladding The rate of corrosion of zircaloy in fuel storage *pool waters is very low. Berry(G) gives a corrosion rate in soo 0 water of 2 x 10-2 mils/year, shows it to be continually creasing up to times* in excess of 10 or 15 yea*rs. At the *1ower temperatures that prevail in fuer storage pools, .the corrosion rates should be even lower. Morgan <7> describes the corrosion rate of zircaloy in pool water as being sufficiently low to vide an adequate containment barrier for at least 100 years. The oxygen concentration in the pool water should not adversely affect corrosion of zircaloys.
Zirconium and its alloys are protected from aqueous corrosion by a strongly passivating oxide film. The oxygen in the water* should serve to promote and maintain this passivation.
Further, Uhlig (_S) has stated that this passivity is maintained both in strong acids and in strong alkalis. 4. Other Materials The fuel bundle and storage rack materials may also include type 17-4 PH stainless steel and Inconel 718. Neither of these alloys should undergo measurable.
general corrosion in fuel storage pool waters. 5.
- Stress' Corrosion Stress corrosion of stainless steels and zircaloys in fuel storage pools is highly unlikely to occur provided the water 6 "
l [ t
* chemistry is maintained within the specified l.imits. Stress rosion of sensitized stainless steels that are highly stressed has been observed in oxygenated water acidified to pH 5 nitric acid at temperatures up to 140°F. C 9) This is, however, a slow process which took 6 years to develop and occurred only in one highly* stressed, highly sensitized area. While it is impossible to rule *out completely that stress corrosion of the stainless steel or Inconel components will occur in the fuel storage pool, any such occurrence would be highly localized and rare, and not lead to serious problems with the storage racks or fuel bundle components.
No significant difficulties have been observed in fuel bundles examined from a number of reactors.
Stress corrosion of 17-4 PH is unlikely to occur if the material has received an ll00°F heat treatment.
This heat treatment is commonly specified for this material when it will be exposed to reactor coolants.
Components of 17-4 PH given this heat treatment have been in service in the Brookhaven High Flux Beam Reactor (HFBR), which contains high purity o 2 o acidified with nitric acid to a pD of 5 and containing greater than 8 parts per million of oxygen, for periods in excess of 12 years without any evidence of stress corrosion or pitting.Clo)
This water chemistry and temperature (145°F max.) are similar to that prevelant in PWR fuel storage pools. -6. Galvanic Corrosion Galvanic couples between stainless steels, Inconel and zircaloy do not appear to give rise to any localized corrosion in fuel pool environments, since all of these materials are protected by highly passivating oxide films, and are, therefore, at similar potentials in pure water. Aluminum alloys, which are also protected by passivating films, nevertheless can be pitted in an acid ment such as that present in PWR fuel storage pools, when coupled to stainless steel. The anodization of aluminum fuel storage racks 7
.----should minimize *this occurrence.
In BWR storage pools, .the high electrical resi*stivity of the *water should also serve to prevent . galvanic attack. At the Oyster Creek Nuclear Power Station, aluminum racks were originally placed directly in contact with the less steel pool liner. Some of these racks have been removed and examined after approximately 7 years of service in typical BWR pool water. (ll} No obsei:vable pitting of the aluminum was found at the point where it contacted the stainless steel. ( ll) . ---*------*--
At least one nuclear utility (Vermont Yankee} has also elected to provide additional prote.ction against this potential probl'em by placing stainless steel feet on the racks, which, .in turn, .are electrically insulated from the aluminum with ABS *plastic inserts. These have beeri determined to be *sufficiently far from the' radia-* tion source to prevent their decomposition by high energy gamma fltix. <2> These inse*rts are, in my opinion, additional insurance that galvanic corrosion will not occur. 8 t-*-I f, .. IV SURVEILLANCE A spent UnReprocessed Fuel (SURF) program is under development by the ERDA Division of Waste Management, Production and ing, to be initiated in FY 1978. (l 2) Under this program, the char-. acteristics and condition of spent fuel in storage will be evaluated on a continuing basis. Although the details of the examination to be performed in this program have not yet been worked out, the national scope of this program, including periodic examination of a few selected fuel bundles from both PWR and BWR storage pools, will provide additional assurance to the NRC of the continued rity of fuels in storage throughout the country. 9 t r: V
SUMMARY
Significant corrosion of nuclear fuel components is highly likely to occur during storage in fuel storage pools at the reactor sites in periods of upwards of 20 years, provided that the quality in the fuel storage pools is maintained within tions, and that chloride levels in the pool water are kept to minimum levels (< 1 ppm). Stress corrosion of stainless steel ponents or Zircaloy cladding cannot be entirely ruled out because of the lack of understanding of the stress states and the degree of sensitization of stainless steel. Should such a problem develop on the Zircaloy cladding it would be readily detected by routine monitoring of the fuel pool water for radioactivity.
Should it develop on the stainless steel or Inconel components of the fuel bundles, it would be highly localized and unlikely to lead to nif icant overall deterioration.
Periodic surveillance of the materials in storage at a number of nuclear utilities is being planned under the auspices of the U.S. Energy Research and ment Administration.
10 y--** ,. . ' i: t -. ACKNOWLEDGEMENTS The assistance of Dr. A.B. Johnson, Jr., of Battelle Northwest Laboratory, in providing draft copies of his review (Reference
- 1) and in several useful discussions is gratefully nowledged.
Representatives of the Northern States Power Company, Yankee Atomic Electric Company, Duquesne Power and Light Company, Jersey Central Power and Light Company, and the Portland General Electric Company were very helpful in preparing this review. This work was performed under the auspices of the United States Nuclear Regulatory Commission 11
,, 1. 2 .. 3. 4. REFERENCES A.B. Johnson, Jr., 1*Behavior of; Spent Nuclear Fuel in Water Pool Storage", BNWL-2256, Draft, May, .1977, .also private communications, May, June *and July, 1977. John R. Hoffman, Yankee Atomic Electric Company, .Private communications, June 6 and 7, .and July 14, .1977. Peter Jones, Northern States Power Company, .l?riva te cations June *1 and July 15, 1977. C. McCracken, Combustion Engineering, Private communication, June 3, 1977. 5. J.E. Draley and W.E. Ruther, Report No. ANL-5001, .February, 1953. 6.. W. E. _Berry, "Corrosion in Nuclear Applications", John Wiley & Sons, N.Y., 1971, pages 107-116 7. W .w. Morgan, "The Management of Spent CANDU Fuel'", Nuclear Technology
-24, 1974, 409-417, 8. H.H. Uhlig, "Corrosion and Corrosion Control", John Wiley & Sons, N.Y., Second Edition, 1971, pages 367-371. 9. R.W. Powell, J.G.Y ... Chow, W.J. Brynda, M .. H. Brooks, J.R. Weeks "Experience With Stress* Corrosion Cracking and Materials patibility at the High 'Flux Beam Reactor", CONF-730801, .166-180, 1973. 10. 11. 12. R.W .. Powell & J.G.Y. Chow, .Brookhaven National Laboratory, Private communications.
T.J. Madden, Jersey Central Power & Light Company, Private communication, May 19, .19 77. C.R .. Cooley, .u.s.E .. R.D.A., Private communication, July 14, 1977 12 r-f t ' I. ,. L t'* 1* ' J -i '** I .... . i. ( t TABLE I MATERIALS AND WATER CHEMISTRIES IN LWR FUEL STORAGE POOLS PLANT ARKANSAS (PWR) BEAVER VALLEY (PWR) BRUNSWICK . (BWR) DRESDEN 1, 2 and 3 (BWR) FT. CALHOUN GINNA, R.E. (PWR) LACROSSE (BWR) MILLSTONE POINT I (BWR) MILLSTONE POINT 2 (PWR} MATERIAL 304 SS A-276-71 A-167-74 308 or 308L 304L ASTM-A-167 SS, 17-4 PH 304 SS E308 17-4 PH -Hll50, Hl025 Stainless steel Al-6061-T6 ASTM-B-209 or 304 SS ASTM-A-276-71 or A-167-74 308 or 308L 304 SS Borated SS and 304 SS 304 SS 304 SS 13 USE Rack Electrode Liner Racks, bolts Liner, racks Electrodes Bolts Liner Racks Racks Weld Racks Racks Liner, racks Liner, racks ENVIRONMENT 1800 ppm bOron as boric acid 120°F 2000 ppm boron as boric acid, -Cl , F < 0.15 ppm 125°F (max 150°F) cond < µmho/an pH 6.0 -7.5 Cl < 0.2 ppm Demineralized water cuno filters and deep bed alizers 120°F 2000 ppm boron as boric acid Boric acid Demineralized water Demineralized water Filter and deminer-alizer Demineralized water + 2000 ppm boron as boric acid
.-*. .... PLANT NINE MILE POINT 1 (BWR) OYSTER CREEK (BWR) PALISADES (PWR) PILGRIM (BWR) POINT BEACH 1 and 2 (PWR} PRAIRIE ISLAND 1 and 2 (PWR) QUAD CITIES 1 and 2 (BWR) TROJAN (PWR) TABLE I (continued)
MATERIAL USE 304 SS Rack Entire rack 304 SS ASTM-A-240 AS'IM-A-193 ASTM-A-194 308 SS, AS.ME SFA 5.9 304 SS Same rack design as Vermont Yankee 304 SS 304 SS Zircaloy, IN-718 Same rack design as Dresden 304 SS Inconel 17-4 PH -HllOO 14 Plate, bar sheet Rivets, bolts Nuts Weld material Racks Racks Racks, liner Fuel bundles Racks, liner Grid Mat'l. Bolts and Module threaded feet ENVIRONMENT Demineralized water of BWR primary ant quality 125°F Demineralized water Undissolved solids < 0.5 ppm 122°F -1570F 2000 ppm boron as boric acid 2000 ppm boron as boric acid 130°F Demineralized water (Cl-, F-< 0.15 ppm + 2000 ppm boron as boric acid pH 4.5, 120°F 2000 ppm boron as boric acid 140°F Cl I F , 0.15 ppm maximum each
--f' " PLANT TURKEY POINT 3 and 4 (PWR) VERMONT YANKEE (BWR) YANKEE ROWE ZION {PWR) TABLE I (continued)
MATERIAL Entire rack 304 SS Free standing rack ASTM-A-240 ASTM-A-276 AWS-E-308-15 AWS-E-308-16 356-TSl ASTM-B-26 Alum. 6061-0 or S052-H32 Alum. 6061-TGSl Alum. 2024-T4 Alum. All aluminum alloys, anodized 304 SS ABS plastic insulators between feet & alum. cans 6061-T6 Alum. Stainless Steel 304 SS 15 USE Sheet, plate Bar Weld wire Weld wire Grid castings , Cans Plates Bolts, Pins Liner, feet Rack Liner Rack ENVIRONMENT Demineralized water with 1950 ppm boron as boric acid pH 6 -7 .5 (Cu, Ni, Fe, Hg, etc.) < 0.1 ppm 12S°F Radionuclide
< 10-4 0 130 F, some boron, chlorides
< 0.5 ppm Borated water lOS°F DISTRIBUTION LIST L.C. Shao { 5) R.J. Stuart w.s. Hazelton F.M. Almeter H. Levin (5) W.Y. Kato D.H. Gurinsky Corrosion Group Files (10) 16