ML070430096
| ML070430096 | |
| Person / Time | |
|---|---|
| Site: | Hatch  |
| Issue date: | 08/31/2005 |
| From: | Southern Nuclear Operating Co |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| Download: ML070430096 (24) | |
Text
SOUTHERN NUCLEAR OPERATING COMPANY MATERIALS AND INSPECTION SERVICES PRESSURE TEST SECTION FOURTH TEN-YEAR EXAMINATION PLAN E. I. HATCH NUCLEAR PLANT UNIT 1 SNC PREP'D REV'D APPV.
VER DATE DESCRIPTION 1 .O 813 1/05 4"' Interval IS1 Document Update
Hatch Unit 1 Third Ten-Year Examination Plan Pressure Test Section (Volume 6)
List of Effective Pages Section Version List of Effective Pages Page 1 1.0 Distribution Page 1 1.0 Introduction Page 1 1.0 Page 2 1.0 Page 3 1.0 Pressure Test Logic Page 1 1.0 Page 2 1.0 Page 3 1.0 Page 4 1.0 Page 5 1.0 Page 6 1.0 Page 7 1.0 Pressure Test Diagrams Page 1 1.0 Page 2 1.0 Page 3 1.0 Table 1 - Test Descriptions Page 1 1.0 Page 2 1.0 Page 3 1.0 Page 4 1.0 Page 5 1.0 Page 6 1.0 Table 2 -Test Schedule Page 1 1.0 Page 2 1.0 h1ptlep.doc 1 of 1 Ver. 1.0
Hatch Unit 1 Fourth Ten-Year Examination Plan Volume 6 Distribution List Manual Number Manual Holder 1 Document Control Note: One manual is provided to Site Document Control to meet requirements for life of plant QA Record. This manual is available electronically at:
S:\Workgroups\SNC Southern Nuclear\Corporate\Technical Services\Inspection and Testing Services\Department Data\Approved M&IS Documents\Hatch\ISI In addition, the site pressure test engineer and the ANII will be provided current copies of the Pressure Test Diagrams.
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Edwin I. Hatch Nuclear Plant - Unit 1 System Pressure Test Plan Examination Categories B-P, C-H, D-B 1.0 Code Applicability and Pressure Testing Interval All pressure testing shall be performed in accordance with the ASME Section XI Code, 2001 Edition through 2003 Addenda, Subsections IWA-5000, IWB-5000, IWC-5000, IWD-5000, and in accordance with approved code cases, alternatives, and relief requests.
The 4th and current Inservice Inspection Interval begins 12/31/2005 and goes thru 12/31/2015.
2.0 General Criteria Pressure testing shall be performed in accordance with site approved testing procedures.
Table 1 of this section contains an itemized list of all required pressure tests and provides information relative to the requirements and test parameters for each. Table 2 of this section provides the test schedule for each test and will be updated periodically to reflect those tests that have been performed.
The boundaries of each test are identified on the Pressure Test Diagrams. A complete listing of the diagrams is included in Attachment 1 the Pressure Test Diagram Section.
Table 1 Parameters TEST I.D./
DIAGRAM - Provides the test identification (e.g. 1B21-LT-1) and a list of the applicable pressure test diagrams.
ASME CODE CATEGORY - The applicable ASME Section XI, 2001 Edition through 2003 Addenda, Code examination category.
ASME ITEM NUMBER - The applicable ASME Section XI, 2001 Edition through 2003 Addenda, Code examination item number.
ASME TEST TYPE - The Code required test type as defined in IWA-5211.
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TEST FREQUENCY- The Code required frequency for the performance of the test as defined in ASME Section XI, 2001 Edition through 2003 Addenda, Tables IWB-2500, IWC-2500 and IWD-2500.
TEST PRESSURE - The Code required test pressure.
HOLD TIME - The Code required "Hold Time" applicable prior to performing the leakage examination.
TEST PROCEDURE- The applicable pressure testing procedure(s) for performing the pressure test.
SURVEILLANCE PROCEDURE- The applicable surveillance procedure(s) utilized in conjunction with the test procedure (if applicable).
REMARKS AND REFERENCES - Information relative to test particulars.
Table 2 Parameters TEST I.D. - The applicable test identification.
TEST TYPE - The Code required test type as defined in IWA-5211.
TEST FREQUENCY- The Code required frequency for the performance of the test as defined in ASME Section XI, 2001 Edition through 2003 Addenda, Tables IWB-2500, IWC-2500 and IWD-2500.
PERIOD 1 PERIOD 2 PERIOD 3 - The ASME Section XI, period used to schedule the pressure test as defined by Tables IWB-2412-1, IWC-2412-1 and IWD-2412-1 (i.e. 3-years, 4-years, 3-years). Three ISI inspection periods make up one ISI inspection interval.
REMARKS/
NOTES - Information relative to test particulars.
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3.0 Examination The boundary for each pressure test defined in this section shall be visually examined while the subject boundary is at the required test pressure utilizing an approved VT-2 (as defined by ASME XI, IWA-2212) examination procedure. VT-2 personnel are to be qualified in accordance with the requirements of IWA-2300.
4.0 Testing Frequency The frequency for performing each pressure test is established in Table 2. Each pressure test shall be performed in accordance with the schedule as defined in Table 2.
5.0 Examination and Acceptance Criteria No evidence of leakage is allowed from welds or component bodies. The acceptance criteria of ASME Section XI, paragraph IWB-3522 shall also be considered when evaluating examination results. The applicable test procedures may also identify additional examination acceptance criteria.
6.0 Buried Piping Portions of the HPCI, RCIC, PSW and RHRSW system piping are buried. IWA-5244 provides requirements for pressure testing of buried components. IWA-5244(b)(1) is applicable for the subject buried piping and requires either a test to determine the rate of pressure loss or a test that determines the change in flow between the ends of the buried piping. SNC is evaluating various test options for these buried piping sections and will formalize a test plan within the test frequency required by the ASME XI Code.
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EDWIN I. HATCH NUCLEAR PLANT - UNIT 1 PRESSURE TEST LOGIC General Pressure Test Logic Applications Reporting Test performed are required to be reported to the NRC in accordance with procedure ES-MIS-340.
Class 1 Table IWB-2500-1, Examination Category B-P, requires a system leakage test (IWA-5211(a)) each refueling outage. Once every 10-years, the system leakage test will extend to all Class 1 pressure containing components within the system boundary in accordance with IWB-5222(b).
Per ISI Alternative ISI-ALT-05, opening of the first isolation for 1 and under valves for the 10-year Class 1 leakage test is not required.
Class 2 IWC-2500-1, Examination Category C-H, requires a system leakage test conducted while the system is in operation, during a system operability test, or while the system is at test conditions using an external pressurization source. Class 2 components/piping not required to operate during normal plant operation are subject to a 10 minute hold time. Class 2 components/piping required to operate during normal plant operation are subject to no hold time, provided the system has been operating for at least 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> for insulated components and 10 minutes for non-insulated components.
The primary containment includes numerous penetrations provided with isolation valves for which the piping is classified as ASME Class 2 due to the guidance of NRC Regulatory Guide 1.26. The associated piping outside the boundary of the isolation valves does not provide any safety related function for reactor shutdown or residual heat removal. Therefore, the only safety related function of the penetration is to provide containment isolation. For these penetrations, the piping is exempt from periodic system pressure testing, and the leakage rate testing that is performed per 10CFR50 Appendix J ensures that the containment isolation boundary is adequately maintained.
Containment expansion bellows are not required to be pressure tested in accordance with ASME Section XI (e.g. X-7A). These bellows do not interface with process fluid and the only function is to maintain containment integrity.
Therefore, only the requirements of Appendix J apply.
Per Code Case N-566-2, leakage at a bolted connection, in a system borated for the purpose of controlling reactivity (i.e. Standby Leakage Control), can be evaluated in lieu of removing and examining bolts provided that the leakage is stopped. If the leakage is not stopped, the connection can be evaluated to determine the structural integrity and consequences of continuing operation, and the effect on the system u1ptlogic.doc Ver. 1.0 Page 1 of 7
operability of continued leakage. Either evaluation is to determine the susceptibility of the bolting to corrosion and failure, and will include the following:
the number and service age of the bolts, bolt and component material, corrosiveness of the process fluid, leakage location and system function, leakage history at the connection or other system components, and visual evidence of corrosion at the assembled connection.
Main Steam Line Boundary (PT-11018, PT-11601, PT-11602 and PT-16062)
NRC Regulatory Guide 1.26, paragraph C.1.c, defines the boundary of the main steam piping for BWRs. The boundary extends from the outboard PCIV (1B21-F028s) up to but not including the turbine stop and bypass valves and connected piping out to the first valve that is either normally closed or capable of automatic closure during normal reactor operation.
RCIC System No credit is taken in any of the accident analyses for the RCIC system except for the primary containment isolation function. However, due to a decision to maintain the integrity and operational readiness of the system, it is considered augmented for the application of ISI and IST. Therefore, pressure testing will be performed on the RCIC system using guidance from ASME Section XI. However, the development of relief requests is not required if specific Code requirements cannot be met.
Torus and Containment Spray Discharge Testing of the open-ended portion of this piping is not required per IWC-5222(b).
Class 3 Table IWD-2500-1 requires a system leakage test conducted while the system is in operation, during a system operability test, or while the system is at test conditions using an external pressurization source.
SRV Discharge Piping to Suppression Pool Testing of this open-ended discharge piping is not required per IWD-5240(b).
RHRSW To RHR Cross-Tie Connection (1E11-F075A(B) to 1E11F078A(B))
Per the System Evaluation Document (SED), RHRSW injection to the RPV is not within the design basis of Unit 1. Therefore, no safety related function is provided by this piping section and pressure testing is not required.
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TEST I.D./
CODE CAT. TEST JUSTIFICATION The Pressure Test Diagrams should be used in conjunction with the below justifications.
1B21-LT-1 Table IWB-2500-1 specifies a Class 1 system leakage test per IWB-5220 prior to (B-P) plant startup after each refueling outage. Test 1B21-LT-1 satisfies the system leakage test requirement and is performed at the pressure which corresponds to 100% rated reactor power (1045 psig) each refueling outage. The pressure boundary corresponds to that with all valves in the position required to support normal reactor startup, and the examination boundary extends out to the second normally closed valve in accordance with IWB-5222(a). This test is required prior to each reactor startup following a refueling outage per Table IWB-2500 Note 2. No hold time applies.
1B21-10LT-1 This test is the same as 1B21-LT-1 except that the pressure boundary extends out (B-P) to all Class 1 pressure containing components within the system boundary in accordance with IWB-5222(b). No hold time applies.
1B21-LT-2 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) instrument lines outboard of the Class 1 EFCVs are inservice during normal plant operation. The boundary extends to but does not include the associated instrument(s). Therefore, performance of this test each inspection period during normal operation satisfies the requirements of IWC-5220. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
1C11-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. 1C11-(C-H) LT-1 is required once each inspection period and is performed at a pressure corresponding to nominal reactor operating pressure to satisfy the requirements of IWC-5220.
This test is performed in conjunction with the Class 1 System Leakage Test. A 10-minute hold time is required.
1C41-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) pump suction piping is at nominal operating pressure at all times when the SBLC system is considered operable. Therefore, performance of this test each inspection period while SBLC is considered operable satisfies the requirements of IWC-5220. A 10-minute hold time is required.
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1C41-LT-2A Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) piping and components are subjected to leakage testing at nominal operating pressure quarterly in conjunction with pump IST and/or Technical Specification operability testing. Performance of a leakage test (10 minute hold time) each inspection period satisfies the pressure test requirements of IWC-5220.
1C41-LT-2B Same logic and justification as for test 1C41-LT-2A.
(C-H) 1C41-LT-3 Table IWC-2500-1 specifies a system leakage test each inspection period.
(C-H) There are no system functional/surveillance tests applicable to this piping and SBLC is not inservice during normal operation. This test requires a hydro pump to pressurize. Performance of leakage test 1C41-LT-3 each inspection period satisfies the pressure test requirements of IWC-5220. This test must be performed during a refueling outage. A 10-minute hold time is required.
1E11-LT-1A Table IWC-2500-1 specifies a leakage test each inspection period. Leakage test (C-H) 1E11-LT-1A is performed in conjunction with surveillance testing of the 1E11-C002A pump or when this pump is in the shutdown cooling or suppression pool cooling mode of operation. Performance of 1E11-LT-1A during each inspection period satisfies the pressure test requirements of IWC-5220. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
1E11-LT-1B Same logic and justification as for test 1E11-LT-1B.
(C-H) 1E11-LT-1C Same logic and justification as for test 1E11-LT-1C.
(C-H) 1E11-LT-1D Same logic and justification as for test 1E11-LT-1D.
(C-H) 1E11-LT-2 Table IWC-2500-1 specifies a leakage test each inspection period. Leakage test (C-H) 1E11-LT-2 is performed when RHR is in the shutdown cooling mode of operation. Performance of 1E11-LT-2 during a refueling outage each inspection period satisfies the pressure test requirements of IWC-5220. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
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1E11(SW)-LT-1A Table IWD-2500-1 requires Class 3 piping and component pressure testing per (D-B) IWD-5221 each inspection period. Performance of this pressure test during each inspection period satisfies the pressure test requirements of IWD-5221. This test is performed during refueling outage during RHR shutdown cooling. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
1E11(SW)-LT-1B Same logic and justification as for test 1E11(SW)-LT-1A.
(D-B) 1E21-LT-1A Table IWC-2500-1 specifies a system leakage test each inspection period.
(C-H) Leakage test 1E21-LT-1A is performed in conjunction with surveillance testing of the 1E21-C001A pump. Performance of 1E21-LT-1A during each inspection period satisfies the pressure test requirements of IWC-5220. A 10-minute hold time is required.
1E21-LT-1B Same logic and justification as for test 1E11(SW)-LT-1B.
(C-H) 1E41-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) steam line to the HPCI Turbine isolation valve (1E41-F001) is pressurized to nominal operating pressure at all times when HPCI is considered operable.
Therefore, performance of leakage test 1E41-LT-1 each inspection period satisfies the pressure testing requirements of IWC-5220. A 10-minute hold time is required.
1E41-LT-2 Table IWC-2500-1 specifies a system leakage test each inspection period. HPCI (C-H) system operation time during leakage testing is limited by allowable suppression pool water temperatures and testing using a test pump is impractical. Therefore, performance of leakage test 1E41-LT-2 each period will satisfy the pressure test requirements of IWC-5220. This test is performed during HPCI surveillance testing. A 10-minute hold time is required.
1E41-LT-3 Table IWC-2500-1 specifies a system leakage test each inspection period. HPCI (C-H) system operation time during leakage testing is limited by allowable suppression pool water temperatures. Therefore, performance of leakage test 1E41-LT-3 each period will satisfy the pressure test requirements of IWC-5220. This test is performed during HPCI surveillance testing. The pump suction piping testing can be performed at any time the system is operable. A 10-minute hold time is required.
1E41-LT-4 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) pump suction piping from the suppression pool is pressurized to the static head pressure of the suppression pool water level during normal operation. Therefore, performance of leakage test 1E41-LT-4 each inspection period satisfies the pressure testing requirements of IWC-5220. A 10-minute hold time is required.
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1E51-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) steam line to the RCIC Turbine isolation valve (1E51-F045) is pressurized to nominal operating pressure at all times when RCIC is considered operable.
Performance of leakage test 1E51-LT-1 each inspection period is adequate to ensure pressure boundary integrity for this portion of the RCIC system since it is considered augmented for ISI. A 10-minute hold time applies.
1E51-LT-2 Table IWC-2500-1 specifies a system leakgage test each inspection period.
(C-H) RCIC system operation time during leakage testing is limited by allowable suppression pool water temperatures. Therefore, performance of a leakage test 1E51-LT-2 each inspection period is adequate to ensure pressure boundary integrity for this portion of the RCIC system since it is considered augmented for ISI. This test is performed during RCIC surveillance testing. The pump suction piping testing can be performed at any time the system is operable. A 10-minute hold time applies.
1E51-LT-3 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) pump suction piping from the suppression pool is pressurized to the static head pressure of the suppression pool water level during normal operation. Therefore, performance of leakage test 1E51-LT-3 each inspection period is adequate to ensure pressure boundary integrity for this portion of the RCIC system since it is considered augmented for ISI. A 10-minute hold time is required.
1E51-LT-4 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) turbine steam supply piping is pressurized up to the turbine admission valve (1E51-F045) whenever the RCIC system is considered operable. Therefore, performance of leakage test 1E51-LT-4 each inspection period when the reactor is at a rated temperature and pressure is adequate to ensure pressure boundary integrity for this portion of the RCIC system since it is considered augmented for ISI. A 10-minute hold time is required.
1G51-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. This piping is under nominal operating pressure at all times. Performance of 1G51-LT-1 at any time satisfies the leakage test requirements of IWC-5220. No hold is applicable.
IN11-LT-1 Table IWC-2500-1 specifies a system leakage test each inspection period. The (C-H) Main Steam Piping is inservice during normal power operation. Test 1N11-LT-1 satisfies the leakage test requirements and is performed at nominal system operating pressure once each period. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
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1P41-LT-1A Table IWD-2500-1 requires Class 3 piping and component pressure testing per (D-B) IWD-5221. Performance of test 1P41-LT-1A each inspection period satisfies the requirements of IWD-5221. No hold time is required for this piping provided that the system has been in operation for 4-hours for insulated components and 10-minutes for un-insulated components.
1P41-LT-1B Same logic and justification as 1P41-LT-1A.
(D-B) 1P41-LT-2 Table IWD-2500-1 requires Class 3 piping and component pressure testing per (D-B) IWD-5221. Performance of test 1P41-LT-2 each inspection period satisfies the requirements of IWD-5221. This piping section is not pressurized during any system function test or during any normal mode of system operation. A 10-minute hold time is required.
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EDWIN I. HATCH NUCLEAR PLANT - UNIT 1 PRESSURE TEST DIAGRAMS The Pressure Test Diagrams were developed utilizing the ISI Boundary Diagrams as the initial scope for which pressure testing requirements were applied. The diagrams are numbered with the same number as the corresponding ISI Boundary Diagram and the P&ID, except pressure test diagrams have a PT prefix, boundary diagrams have a HB prefix and P&IDs have a H prefix. The pressure test diagrams are color coded to provide the applicable boundary for each test and must be used with the Test Tables and Test Schedule to determine all of the particular requirements for any test. The Pressure Test Diagrams are maintained by the M&IS Department as part of the ISI Plan document.
The M&IS Department will compare the Pressure Test Diagrams against the ISI Boundary Diagrams periodically to determine the impact of plant changes on the scope of pressure testing.
The M&IS Department will update the pressure test diagrams in conjunction with ISI Plan updates as appropriate. Since there is always some delay in the update process for the ISI Boundary Diagrams, which are changed in conjunction with P&ID revisions, the test diagrams should be compared to the latest revision of the corresponding P&ID prior to use. If the test diagram is different from the latest P&ID, the test diagram can still be utilized to determine the pressure test scope provided that the responsible Test Engineer reconciles the differences applicable to the test boundary.
Hatch Document Control is included on controlled distribution of the Pressure Test Diagrams to satisfy long term document retention requirements. The pressure test diagrams are maintained independently from the ISI plan and revision control is provided by the index drawing listing. The pressure test index drawing PT-10000 lists all drawings and current revision numbers. provides an itemized listing of the Unit 1 Pressure Test Diagrams. See diagram PT-10000 for the latest issued revision of pressure test diagrams.
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ATTACHMENT 1 Diagram # Diagram Title PT-10000 Pressure Test Index Drawing PT-11001 Service Water Piping at Intake Structure Pressure Test Diagram (Sheet 1)
PT-11004 RHR Service Water-Outside Bldg. Pressure Test Diagram PT-11018 Main & Aux. Steam System Pressure Test Diagram (Sheet 1)
PT-11024 Service Water Piping System Pressure Test Diagram (Sheet 1)
PT-11600 Service Water for Diesel Generator System Pressure Test Diagram (Sheet 2)
PT-11601 Main & Aux. Steam System Pressure Test Diagram (Sheet 2)
PT-11602 Main & Aux. Steam System Pressure Test Diagram (Sheet 3)
PT-11609 Service Water Piping System Pressure Test Diagram (Sheet 2)
PT-11611 Service Water Piping System Pressure Test Diagram (Sheet 4)
PT-11631 Diesel Generator 1A & 1C Skid Pressure Test Diagram (Sheet 1)
PT-11638 Diesel Generator 1B Pressure Test Diagram PT-16000 Nitrogen Inerting System Pressure Test Diagram PT-16002 Fuel Pool Cooling System Pressure Test Diagram PT-16009 Reactor Building-Closed Cooling Water System Pressure Test Diagram PT-16011 Reactor Building-Service Water System Pressure Test Diagram PT-16013 Reactor & Radwaste Bldgs.-Service Air System Pressure Test Diagram PT-16015 Reactor Building-Demineralized Water System Pressure Test Diagram PT-16016 Reactor & Radwaste Bldgs.-Condensate Storage & Transfer System Pressure Test Diagram PT-16024 Primary CTMT.-Purge & Inerting System Pressure Test Diagram PT-16060 Primary CTMT. Integrated Leak Rate Test Pressure Test Diagram PT-16061 Standby Liquid Control System Pressure Test Diagram PT-16062 Nuclear Boiler System Pressure Test Diagram (Sheet 1)
PT-16063 Nuclear Boiler System Pressure Test Diagram (Sheet 2)
PT-16064 Control Rod Drive System Pressure Test Diagram (Sheet 1)
PT-16065 Control Rod Drive System Pressure Test Diagram (Sheet 2)
PT-16066 Reactor Recirculation System Pressure Test Diagram PT-16135 Torus Drainage & Purification System Pressure Test Diagram PT-16145 Nuclear Boiler System Pressure Test Diagram (Sheet 3)
PT-16153 Drywell to Torus Differential Pressure System Pressure Test Diagram PT-16173 Fission Products Monitoring System Pressure Test Diagram PT-16176 Radwaste System Pressure Test Diagram (Sheet 1)
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Diagram # Diagram Title PT-16188 Reactor Water Clean-Up System Pressure Test Diagram (Sheet 1)
PT-16199 Drywell Valve & Equipment Drainage System Pressure Test Diagram PT-16276 Primary CTMT. Atmosphere H2 & O2 Analyzer System Pressure Test Diagram (Sheet 1)
PT-16286 Drywell Pneumatic System Pressure Test Diagram (Sheet 1)
PT-16299 Drywell Pneumatic System Pressure Test Diagram (Sheet 2)
PT-16328 Jockey Pump System Pressure Test Diagram PT-16329 R.H.R. System Pressure Test Diagram (Sheet 1)
PT-16330 R.H.R. System Pressure Test Diagram (Sheet 2)
PT-16331 Core Spray System Pressure Test Diagram PT-16332 H.P.C.I. System Pressure Test Diagram (Sheet 1)
PT-16333 H.P.C.I. System Pressure Test Diagram (Sheet 2)
PT-16334 R.C.I.C. System Pressure Test Diagram (Sheet 1)
PT-16335 R.C.I.C. System Pressure Test Diagram (Sheet 2)
PT-16561 Neutron Monitoring System Pressure Test Diagram PT-16568 Reactor Protection System Pressure Test Diagram H1PTLIST.DOC Ver. 1.0 Page 3 of 3
HNP-1 PRESSURE TEST PLAN TABLE 1 - TEST DESCRIPTIONS TEST I.D./ ASME CODE ASME ITEM ASME TYPE TEST TEST HOLD TEST SURVEILLANCE REMARKS AND DIAGRAM CATEGORY NUMBER TEST FREQUENCY PRESSURE TIME PROCEDURE PROCEDURE (1) REFERENCES 1B21-LT-1 B-P B15.10 SYSTEM EACH (2) NONE 42IT-TET-006-1 NA IWA-5211(a)
PT-16061 LEAKAGE TEST REFUELING IWB-5220 PT-16062 OUTAGE IWB-5222(a)
PT-16063 PT-16064 PT-16066 PT-16145 PT-16188 PT-16199 PT-16329 PT-16330 PT-16331 PT-16332 PT-16334 1B21-10LT-1 B-P B15.10 10-YEAR ONCE EVERY (2) NONE 42IT-TET-006-1 NA IWA-5211(a)
PT-16061 SYSTEM 10-YEARS IN IWB-5220 PT-16062 LEAKAGE TEST ACCORDANCE IWB-5222(a)
PT-16063 WITH IWB-5222(b)
PT-16064 PREVIOUSLY ISI-ALT-05 PT-16066 SET SCHEDULE PT-16145 (6)
PT-16188 PT-16199 PT-16329 PT-16330 PT-16331 PT-16332 PT-16334 1B21-LT-2 C-H C7.10 SYSTEM EACH PERIOD (4) (7) 42IT-TET-004-0 NA IWA-5211(a)
PT-16062 LEAKAGE TEST (5) IWC-5220 PT-16063 NOTE 8 PT-16064 PT-16066 PT-16145 PT-16331 PT-16332 PT-16334 PT-26384 H1TABLE001.doc Ver. 1.0 Page 1 of 6
HNP-1 PRESSURE TEST PLAN TABLE 1 - TEST DESCRIPTIONS TEST I.D./ ASME CODE ASME ITEM ASME TYPE TEST TEST HOLD TEST SURVEILLANCE REMARKS AND DIAGRAM CATEGORY NUMBER TEST FREQUENCY PRESSURE TIME PROCEDURE PROCEDURE (1) REFERENCES 1C11-LT-1 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-006-1 NA IWA-5211(a)
PT-16064 LEAKAGE TEST PERIOD IWC-5220 PT-16065 (5) 1C41-LT-1 C-H C7.10 SYSTEM ONCE EACH (10) 10 MIN 42IT-TET-004-0 NA IWA-5211(a)
PT-16061 LEAKAGE TEST PERIOD IWC-5220 (5) 1C41-LT-2A C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-C41-002-1 IWA-5211(a)
PT-16061 LEAKAGE TEST PERIOD IWC-5220 (5) 1C41-LT-2B C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-C41-002-1 IWA-5211(a)
PT-16061 LEAKAGE TEST PERIOD IWC-5220 (5) 1C41-LT-3 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-003-0 NA IWA-5211(a)
PT-16061 LEAKAGE TEST PERIOD IWC-5220 (5) 1E11-LT-1A C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-001-1 IWA-5211(a)
PT-16328 LEAKAGE TEST PERIOD IWC-5220 PT-16330 (5) 1E11-LT-1B C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-001-1 IWA-5211(a)
PT-16002 LEAKAGE TEST PERIOD IWC-5220 PT-16328 (5)
PT-16329 PT-16330 1E11-LT-1C C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-001-1 IWA-5211(a)
PT-16330 LEAKAGE TEST PERIOD IWC-5220 (5) 1E11-LT-1D C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-001-1 IWA-5211(a)
PT-16329 LEAKAGE TEST PERIOD IWC-5220 (5)
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HNP-1 PRESSURE TEST PLAN TABLE 1 - TEST DESCRIPTIONS TEST I.D./ ASME CODE ASME ITEM ASME TYPE TEST TEST HOLD TEST SURVEILLANCE REMARKS AND DIAGRAM CATEGORY NUMBER TEST FREQUENCY PRESSURE TIME PROCEDURE PROCEDURE (1) REFERENCES 1E11-LT-2 C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SO-E11-001-1 IWA-5211(a)
PT-16002 LEAKAGE TEST PERIOD IWC-5220 PT-16329 (5)
PT-16330 1E11(SW)-LT-1A D-B D2.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-004-1 IWA-5211(a)
PT-11004 LEAKAGE TEST PERIOD 34SO-E11-010-1 IWD-5221 PT-16330 (5) 1E11(SW)-LT-1B D-B D2.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SV-E11-004-1 IWA-5211(a)
PT-11004 LEAKAGE TEST PERIOD 34SO-E11-010-1 IWD-5221 PT-16329 (5)
PT-16330 1E21-LT-1A C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E21-001-1 IWA-5211(a)
PT-16328 LEAKAGE TEST PERIOD IWC-5220 PT-16331 (5) 1E21-LT-1B C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E21-001-1 IWA-5211(a)
PT-16135 LEAKAGE TEST PERIOD IWC-5220 PT-16328 (5)
PT-16331 1E41-LT-1 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E41-002-1 IWA-5211(a)
PT-16332 LEAKAGE TEST PERIOD IWC-5220 (5) 1E41-LT-2 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E41-002-1 IWA-5211(a)
PT-16332 LEAKAGE TEST PERIOD IWB-5220 PT-16333 (5) 1E41-LT-3 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E41-002-1 IWA-5211(a)
PT-16016 LEAKAGE TEST PERIOD IWB-5220 PT-16332 (5)
PT-16333 1E41-LT-4 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E41-002-1 IWA-5211(a)
PT-16332 LEAKAGE TEST PERIOD IWB-5220 (5)
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HNP-1 PRESSURE TEST PLAN TABLE 1 - TEST DESCRIPTIONS TEST I.D./ ASME CODE ASME ITEM ASME TYPE TEST TEST HOLD TEST SURVEILLANCE REMARKS AND DIAGRAM CATEGORY NUMBER TEST FREQUENCY PRESSURE TIME PROCEDURE PROCEDURE (1) REFERENCES 1E51-LT-1 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E51-002-1 IWA-5211(a)
PT-16334 LEAKAGE TEST PERIOD IWC-5220 PT-16335 (5) 1E51-LT-2 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SV-E51-002-1 IWA-5211(a)
PT-16016 LEAKAGE TEST PERIOD IWC-5220 PT-16329 (5)
PT-16330 PT-16334 PT-16335 1E51-LT-3 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SO-E51-001-1 IWA-5211(a)
PT-16334 LEAKAGE TEST PERIOD IWC-5220 (5) 1E51-LT-4 C-H C7.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-004-0 34SO-E51-001-1 IWA-5211(a)
PT-16334 LEAKAGE TEST PERIOD IWC-5220 PT-16335 (5) 1G51-LT-1 C-H C7.10 SYSTEM ONCE EACH (4) NA 42IT-TET-004-0 NA IWA-5211(a)
PT-16135 LEAKAGE TEST PERIOD IWC-5220 (5) 1N11-LT-1 C-H C7.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34GO-OPS-001-1 IWA-5211(a)
PT-11018 LEAKAGE TEST PERIOD IWC-5220 PT-11601 (5)
PT-11602 PT-16062 1P41-LT-1A D-B D2.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SO-P41-001-1 IWA-5211(a)
PT-11001 LEAKAGE TEST PERIOD IWD-5221 PT-11004 (5)
PT-11024 PT-11600 PT-11609 PT-11611 PT-16011 PT-11631 H1TABLE001.doc Ver. 1.0 Page 4 of 6
HNP-1 PRESSURE TEST PLAN TABLE 1 - TEST DESCRIPTIONS TEST I.D./ ASME CODE ASME ITEM ASME TYPE TEST TEST HOLD TEST SURVEILLANCE REMARKS AND DIAGRAM CATEGORY NUMBER TEST FREQUENCY PRESSURE TIME PROCEDURE PROCEDURE (1) REFERENCES 1P41-LT-1B D-B D2.10 SYSTEM ONCE EACH (4) (7) 42IT-TET-004-0 34SO-P41-001-1 IWA-5211(a)
PT-11001 LEAKAGE TEST PERIOD IWD-5221 PT-11004 (5)
PT-11024 PT-11600 PT-11609 PT-11631 PT-16002 PT-16011 1P41-LT-2 D-B D2.10 SYSTEM ONCE EACH (4) 10 MIN 42IT-TET-003-0 IWA-5211(a)
PT-16002 LEAKAGE TEST PERIOD IWD-5221 PT-16011 (5)
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HNP-1 PRESSURE TEST PLAN TABLE 1 - NOTES NOTES:
(1) THIS REFERENCE IS EITHER A SYSTEM SURVEILLANCE PROCEDURE OR A SYSTEM OPERATING PROCEDURE THAT IS USED TO PRESSURIZE THE PIPING AND COMPONENTS TO NORMAL OPERATING PRESSURE WHICH IS EQUIVALENT TO THE REQUIRED TEST PRESSURE.
(2) TEST PRESSURE IS EQUAL TO THAT PRESSURE WHICH CORRESPONDS TO 100% RATED REACTOR POWER (i.e. 1045 psig).
(3) DELETED (4) NOMINAL SYSTEM OPERATING PRESSURE.
(5) EACH ISI PERIOD AS DEFINED BY ASME XI (i.e. 3-years, 4-years, 3-years).
(6) EACH 10-YEAR ISI INTERVAL AS DEFINED BY ASME XI.
(7) NO HOLD TIME IS REQUIRED FOR THIS PIPING PROVIDED THAT THE SYSTEM HAS BEEN IN OPERATION FOR 4-HOURS FOR INSULATED COMPONENTS AND 10-MINUTES FOR UN-INSULATED COMPONENTS.
(8) BOUNDARY EXTENDS FROM THE CLASS 1 EFCV ON EACH LINE OUT TO BUT NOT INCLUDING THE ASSOCIATED INSTRUMENT(S).
(9) DELETED (10) TEST PRESSURE IS EQUAL TO THE STATIC HEAD WITH THE STORAGE TANK (2C41-A001) FILLED TO THE MINIMUM LEVEL REQUIRED BY THE TECHNICAL SPECIFICATIONS.
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HNP-1 PRESSURE TEST PLAN TABLE 2 - TEST SCHEDULE TEST I.D. TEST TYPE TEST FREQUENCY PERIOD 1 PERIOD 2 PERIOD 3 REMARKS/NOTES 1B21-LT-1 LEAKAGE EACH OUTAGE X(2008) X(2010) X(2014) Note 1 X(2012) 1B21-10LT-1 10-YEAR LEAKAGE EACH INTERVAL X(3rd Interval)2006 NA X(4th Interval)2016 1B21-LT-2 LEAKAGE EACH PERIOD X X X Note 2 1C11-LT-1 LEAKAGE EACH PERIOD X X X NA 1C41-LT-1 LEAKAGE EACH PERIOD X X X NA 1C41-LT-2A LEAKAGE EACH PERIOD X X X NA 1C41-LT-2B LEAKAGE EACH PERIOD X X X NA 1C41-LT-3 LEAKAGE EACH PERIOD X X X NA 1E11-LT-1A LEAKAGE EACH PERIOD X X X Note 2 1E11-LT-1B LEAKAGE EACH PERIOD X X X Note 2 1E11-LT-1C LEAKAGE EACH PERIOD X X X Note 2 1E11-LT-1D LEAKAGE EACH PERIOD X X X Note 2 1E11-LT-2 LEAKAGE EACH PERIOD X X X Note 2 1E11(SW)-LT-1A LEAKAGE EACH PERIOD X X X Note 2 1E11(SW)-LT-1B LEAKAGE EACH PERIOD X X X Note 2 1E21-LT-1A LEAKAGE EACH PERIOD X X X NA 1E21-LT-1B LEAKAGE EACH PERIOD X X X NA h1table002.doc Ver. 1.0 Page 1 of 2
HNP-1 PRESSURE TEST PLAN TABLE 2 - TEST SCHEDULE TEST I.D. TEST TYPE TEST FREQUENCY PERIOD 1 PERIOD 2 PERIOD 3 REMARKS/NOTES 1E41-LT-1 LEAKAGE EACH PERIOD X X X NA 1E41-LT-2 LEAKAGE EACH PERIOD X X X NA 1E41-LT-4 LEAKAGE EACH PERIOD X X X NA 1E41-LT-3 LEAKAGE EACH PERIOD X X X NA 1E51-LT-1 LEAKAGE EACH PERIOD X X X Note 3 1E51-LT-2 LEAKAGE EACH PERIOD X X X Note 3 1E51-LT-3 LEAKAGE EACH PERIOD X X X Note 3 1E51-LT-4 LEAKAGE EACH PERIOD X X X Note 3 1G51-LT-1 LEAKAGE EACH PERIOD X X X NA 1N11-LT-1 LEAKAGE EACH PERIOD X X X Note 2 1P41-LT-1A LEAKAGE EACH PERIOD X X X Note 2 1P41-LT-1B LEAKAGE EACH PERIOD X X X Note 2 1P41-LT-2 LEAKAGE EACH PERIOD X X X Note 2 NOTES:
- 1. Leakage Test 1B21-LT-1 is required to be performed after each refueling outage.
- 2. No hold time prior to performing leakage inspection provided system has been in operation for at least 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.
- 3. The RCIC System is considered as "augmented" and ASME XI is used as guidance only for pressure testing applications.
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