{{#Wiki_filter:OS2 CAROLINA POWER&LIGHT COMPANY SHEARON HARRIS NUCLEAR POWER PLANT PLANT OPERATING MANUAL VOLUME 6 PART 7 PROCEDURE TYPE: Inservice Inspection Program (ISI)NUMBER+ISI-203 TITLE'SME Section XI Pump and Valve Program Plan REVISION 6 APPROVED: Signature~cmp APR 0 5 89~a>ae Date TITLE: 86zZ-cP-890p160189 5pp0400 PDR ADO~K pDC 9 0 Q c}gjig MAR 2 9 1989 HNP DOCUMENT SERYICES Page 1 of 244 OS2 Table of Contents seetian 1 i 0 PURPOSE 2'REFERENCES 3'RESPONSIBILITIES 4 0 DEFINITIONS/ABBREVIATIONS 5'PROCEDURE 5.1 Definitions

Relief for Pumps 5.3 General Relief for Valves 5.4 Inservice Pump Test Program 5.4 1 Introduction 5.4.2 Pump IST Program Plan Concept 5.4.3 Code Interpretation 5.4.4 Pump List 5.4.5 Pump Table Nomenclature 5.4.6 Pump Test Table Notes 5.4.7 Pump Test Table 5.4.8 Pump Relief Request 5'Inservice Valve Test Program 5'.1 Introduction

====5.5.2 Valve====

IST Program Plan Concept 5.5.3 Code Interpretation

Table Nomenclature 5 5.5 Valve Test Table Format 5.6 Valve Test Tables and Relief Request 5.6.1'ontainment HVAC 5.6.2 Reactor Aux.Bldg.HVAC 5'.3 Control Room HVAC 5.6.4 Fuel Bldg.HVAC 5.6.5 Switchgear and Protection Room 5'.6 Main Steam 5.6.7 Feedwater 5.6.8 Auxiliary Feedwater 5.6'Condensate 5.6'0 Service Water 5.F 11 Containment Spray 5.6'2 Steam Generator Blowdown 5.6 13 Process Sampling 5 6 14 D G.Fuel Oil Transfer 5.6.15 Rad.Monitor and H2 Analyzer 5.6.16 D.G.Starting Air 5;6.17 Demineralized Water.5,6.18 CTMT.Sump Drains 5'.19 Service Air 5.6.20 Instrument Air 5.6.21 Fuel Pool Cooling 5.6.22 Emergency Screen Mash 5,6.23'ire Protection 5'.24'ssential Chilled Mater 5.6.25 Reactor Coolant 5+6~26 CVCS HVAC~Pa e 5 8 8 9 9 9 ll 12 13 13 13 13 15 15 16 18 19 26 26 26 26 34 37 39 40 46 49 54 57 60.72 77 93 98 109 116 119 124 127 131 134 138 141 145 152 156 159 163 171 179 ISI-203 Rev~6 Page 2 of 244 OS2 Table of Contents Continued)

Section 5.6.27 Safety Injection 5.6.28 CTMT.Waste Processing 5.6.29 Component Cooling Water 5.6.30 Residual Heat Removal 5.6.31 CTMT.Integrated Leakage Detection 6'DIAGRAMS/ATTACHMENTS

~Pa e 202 219 222 236 241 244 ISI-203 Rev.6 Page 3 of 244 OS2~Pa e 1-244 List of Effective Pa es Revision ISI-203 Rev.6 Page 4 of 244 OS2 1 0 PURPOSE 1.1 Introduction This document presents the Program Plan for Inservice Testing (IST)of pumps and valves at the Shearon Harris Nuclear Power Plant (SHNPP)in compliance with the requirements of 10CFR50.55a.

Pro ram Plan Conce t The Program Plan specifies Section XI testing requirements for components providing, either by action or position, a safety-related function.By definition, a safety-related function is one that is needed to: ISI-203 Rev.6 Page 5 of 244 OS2 1.3 General Pro ram Plan Conce t (Continued) 1.Mitigate the consequences of an accident 2~Shut down the reactor to the cold shutdown condition 3.Maintain the reactor in a safe shutdown condition Plant Technical Specifications, special manufacturer's tests, system operating conditions, etc., may dictate additional components which should be included in the overall plant testing program, but whose functions fall outside the criteria above, and are not addressed by this Program Plan.Section XI requires quarterly testing of all components unless it is impractical to do so This program specifies quarterly testing of pumps and valves unless it has been determined that such testing would: 1.Be impractical due to system or component design 2.Render a safety-related system inoperable 3.Cause a reactor scram or turbine trip 4.Requi~e significant deviations from normal operations 5~Require entry into inaccessible plant areas 6.Increase'the possibility of an inter-system LOCA Excluded from exercising during normal operations are all valves which, if exercised, could place the plant in an unsafe condition.

Cases where vaLve exercising could.compromise plant safety include: 1 All valves whose failure in a non-conservative position during the cycling test would cause a loss of system function will not be exercised.

ISI-203 Rev.6 Page 6 of 244  

OS2 1.3 General Pro ram Plan Conce t (Continued) 3~A11 valves, which when cycled, could subject a system to pressures in excess of their design pressures.

It is assumed for purpose of a cycling test, that one or more of the upstream check valves has failed unless positive methods are available for-determining the pressure or lack thereof on the high pressure side of the valve to be cycled.Valves in this category would typically include the isolation valves of the residual heat removal/shutdown cooling system and, in some cases certian ECCS valves.Eachjcomponent excluded from quarterly testing has been analyzed to determine when appropriate testing may be performed.

If exercising of a valve is not practical during plant operation, the Code allows part-stroke exercising during normal plant operation, and full-stroke exercising at cold shutdown.Since the Code allows testing at cold shutdown, this program does not request relief for those valves for which testing is delayed until cold shutdown.The Valve IST Program Plan does provide a justification for the delay of testing until cold shutdown.These justifications are prepared in a format similar to relief requests, and are included following the Valve Test Tables for each system.Where it has been determined that testing is not practical during plant operation, or at cold shutdown, a specific relief request has been prepared.Each specific relief request provides justification for not performing the Code required testing, and provides appropriate alternative testing.In addition to specific relief requests, general relief requests which address specific Code requirements found to be impractical for this site have been prepared Because of the general nature of these relief requests, and the number of components involved, they are presented in separate sections and are not repeated in the individual system sections.Cold Shutdown and Refueling as used in this test program includes mode changes going into and coming out of plant Technical Specification defined modes 5 and 6.Because of unique system operating conditions, it will be necessary to perform some tests during mode change.For example, a steam driven turbine scheduled for testing at cold shutdown can not be tested during mode 5 when there is no steam available.

ISI-203 Rev.6 Page 7 of 244 OS2 The Pump and Valve Inservice Testing Program Plan is organized into three independent sections, each of which can be removed from the Program Plan for review.Sections 5.1-5.3 present the general program commitment basis, the conceptual framework used in developing the Program Plans, and general relief requests for Code requirements found to be impractical for this site.Section 5.4 deals specifically with the Pump Test Program, and Sections 5.5-5.6 deal specifically with the Valve Test Program.Sections 5.4-5.6 are formatted in a manner to aid review.Each section summarizes the basis and concepts used to formulate the Pump and Valve Testing Program.Pump testing requirements are summarized in a single Pump Test Table attached to Section 5.4.Valve test requirements are summarized in Valve Test Tables attached to Section 5''he Valve Test Tables are arranged.into separate attachments for each system.Where quarterly testing has been found to be impractical, either a justification for delay of test to cold shutdown, or a relief request, is provided following the appropriate Pump or Valve Test Tables.In those cases where additional discussion of the test requirements for a component is needed, the remarks column of the Test Table contains a Note Number.These Notes may be found following the Valve Test Tables for each system.2'REFERENCES 1.ASME Boiler and Pressure Vessel Code, Section XI, 1983 Edition through Summer 1983 addenda.2.Code of Federal Regulations, Title 10, Part 50.55a(g).

3.'HNPP Technical Specifications, Section 4.0.5.3eO RESPONSIBILITIES

1.Determination of the program plan scope.2 Revision of the program plan as necessary based on plant design changes.3.Preparation of reports as necessary.

ISI-203 Rev.6 Page 8 of 244 OS2 3.1 Technical Su ort Unit (Continued) 5.Detexmining acceptance criteria.6.Trending and review of test results.3.2 0 erations Unit 1.Preparation and performance of surveillance test procedures that implement the program requirements.

2.Evaluation of test results based on acceptance criteria determined by the Technical Support Unit.3.3 Administrative Section 1~Maintaining test records consistent with the requirements of reference 2.1.4'DEFINITIONS/ABBREVIATIONS 1.ASME-American Society of Mechnical Engineers.

2.CFR-Code of Federal Regulations.

5e0 PROCEDURE The following is a detailed description of the ASME Section XI pump and valve program as implemented at SHNPP.The format is consistent with NRC xecommendations.

5 1 Definitions The terms below, when used in the Inservice Testing Program Plan, are defined as follows: Quarterly:

Cold Shutdown: ISI-203 Rev.6 Testing delayed until cold shutdown will commence as soon's cold shutdown condition is achieved, but no later than 48 hours after achieving cold shutdown.Testing will continue until all tests are complete, or the plant is ready to return to power.Completion of testing is not a prerequisite to xeturn to power, and any testing not completed at one cold, shutdown will be performed during subsequent cold shutdowns before the refueling outage.No cold shutdown testing will be performed on any components tested less than 92 days prior Page 9 of 244 OS2 5.1 Definitions (Continued) to achieving cold shutdown.The 48 hour interval will not hold for planned cold shutdowns where all required testing will be completed.

Refueling:

Testing delayed to refueling will be performed during the normal scheduled refueling shutdown before returning to power operation.

Period: Category C safety and relief valves (IW-3511), Category D explosive actuated valves (IWV-3610) and Category D rupture disks (IWV-3620) are periodically tested as defined in the appropriate Code Sections'ressure Isolation:

Any valve which acts as an isolation boundary between the high pressure Reactor Coolant System and a system having a lower operating or design pressure.Containment Isolation'.

Any valve which performs a containment isoiation function and is included in the Appendix J, Type C, Local leak Rate Test program.Active: Any valve which is required to change position to accomplish its safety-related function.Passive'.Any valve which is not required to change position to accomplish a specific function and for which the Code does not require operability testing.ISI-203 Rev.6 Page 10 of 244 OS2 5.2 General Relief Re uests for Pum s This section requests relief from specific requirements of Section XI found to be impractical for this site.Since they are general in nature, and pertain to a number of components, this section requests general relief as presented below.General Relief Request: Pumps: Test Requirements:

PG-1 All centrifugal pumps Differential pressure alert and required action ranges (Table IWP-3100-2)o Basis for Relief: Pump overpressure is an indicator of pump clogging or improper maintenance and as such is an important test parameter to measure.However, small positive increases in measured differential pressure across a centrifugal pump are most likely not a significant indicator of pump degradation.

Adherence to the Code specified alert and required action ranges could result in unnecessary pump testing and repair.In order to preclude unnecessary testing and repair, pump differential pressure will be measured and expanded alert and required action ranges used.Alternate Testing: In lieu of the Code specified values, the high side acceptance range will be 1.05 times the reference pump differential pressure.The high side alert and required action ranges will be 1.05 to 1.07 and>1.07 times the reference pump differential pressure respectively.

ISI-203 Rev.6 Page ll of 244 OS2 5.3 General Relief Re uests for Valves This section xequests relief fxom specific requirements of Section XI found to be impractical for this site.Since they are general in'ature, and pertain to a number of components, this section requests general relief as presented below.General Relief Request: Component:

VG-1 Rapid actuating power operated valves with stroke times of 2 seconds or less.Category: Code Requirements'.

A, B IWV-3417 requires corxective action if the measured st~oke time for a valve which normally strokes in ten seconds or less increases by fifty percent from the last measured stroke time.IWV"3413 allows measurement to the neaxest second for stroke times of ten seconds or less.Basis for Relief: For rapid actuating power operated valves the application of the above criteria could result in requiring corrective action when the valves are functioning normally.These valves are genexally small air and solenoid operated valves which because of their size and actuator types stroke very quickly.Operating history on this type of valve indicates that they genexally either operate immediately or fail'o operate in a reasonable length of time.The intent of the referenced

.Code sections is to track valve stroke time as a means of detecting valve degradation.

This type of valve does not lend itself to this tracking technique.

Alternate Testing: A maximum stroke time of two seconds will be specified for each rapid actuating valve.If the measured valve stroke time is two seconds or less it will be considered as acceptable and no corrective action will be required.If the measured ISI"203 Rev.6 Page 12 of 244  

OS2 5.3 General Relief Re uests for Valves (continued) valve stroke time exceeds two seconds it will be considered inoperable and appropriate corrective action will be taken.5.4 Inservice Pum Test Pro ram 5.4.1 Introduction This section presents the Program Plan for Inservice Testing of safety-related Pumps at Unit 1 of the Shearon Harris Nuclear Power Plant, in compliance with the requirements of 10CFR50.55a.

This Program Plan has been prepared to the requirements of the ASME Boiler and Pressure Vessel Code, Section XI, Subsection IWP, 1983 Edition through the Summer 1983'ddenda.'.4.2, Pum IST Pro ram Plan Conce t The Pump Program Plan specifies Section XI testing requirements for all ASME Class 1, 2 and 3 pumps provided with an emergency power source, and which are required for safety-related system operation.

Test requirements determined to be impractical for a large number of pumps have been addressed in Section I under General Relief Requests for Pumps.In addition to those General Relief Requests, this section includes requests for relief from Code requirements found to be impractical for specific pumps.Each relief request provides justification for deviation from the Section XI specified test, and proposes appropriate alternate testing.5.4.3 Code Inter retation A number of items in Subsection IWP of the Code are subject to interpretation.

The interpretations of a number of general items encountered in preparing the Pump Test Program Plan are provided below.Pump Test Data within the Required Action Range (Table IWP-3100-2)

When test results show deviations greater than allowed by Table IWP-3100-2, the instruments involved may be checked for accuracy and the test rerun.If the second test provides results falling within the required action range, appropriate corrective action must be initiated.

This corrective action may be either replacement, repair, or analysis to demonstrate that the condition does not impair pump operability, and that the pump will still fulfill its safety-related function.If the analysis verifies that the pump is operable, a new set of reference values will be established.

If the instrumentation is checked, and the test rerun with results in the acceptable range, the first set of test results will be discarded, and the second set retained.ISI-203 Rev.6 Page 13 of 244 OS2 5.4.3 Code Inter retation (Continued)

All Code required test parameters will be reviewed within 96 hours after completion of test to verify that they do not fall within the required action range.Those that fall within the required action range will be processed as described above.Those that do not fall within the required action range will be analyzed within four working days after completion of test.This fulfills the intent of the Code to require immediate action on pumps falling within the required action range and allows orderly reduction of data taken on weekends or holidays, when sufficient staff may not be available to perform the Code required analysis.Scope of Tests (IWP-3300)

Section IWP-3300 requires that each inservice test measure and observe all the quantities in Table IWP-3100-1 except bearing temperature, which shall be measured at least once a year.The Code assumes that each pump installation can be instrumented to obtain the specified quantities.

For example, submerged pumps cannot be instrumented to measure inlet pressure and observation of proper lubricant level or pressure is not possible for a greased bearing pump.In some cases it is possible to substitute an alternate method.For example, inlet pressure for a submerged pump can be calculated by measuring the head of water relative to the pump suction.This program does not request relief from Section XI testing for those quantities which cannot be obtained due to pump design or installation.

Explanatory notes have been used in the Pump Test Table when Section XI testing is not possible due to pump design or installation.

ISI-203 Rev.6 Page 14 of 244 OS2 5.4.4~Pss List Pumps required for safety-related operation for this site are as follows: I SYSTEM DWG NO~REV 4 NO~NO s 0 f PUMPS Auxiliary Feedwater Emergency Service Water ST W.Booster Containment Spray D.G.Fuel Oil Transfer Emerg.S.W.Intake Screen Wash S-0545 16 S-0547 S-0550 S"0563 S-0808 14 S-0547.14 2 Chilled Condenser Water S.I.Charging Boric Acid Transfer S-0998 S02 6 S-0999 S02 6 S-1305 9" S-1307 4 Component Cooling Mater S>>1319 7 3 Residual Heat Removal S-1324 7 Spent Fuel Pool Cooling S-0805 5 5.4.5 Pum Table Nomenclature The following abbreviations have been used in the Pump Test Table: N Rotative Speed Pi~-Inlet Pressure (Before and after pump start)DP Qf V.Differential Pressure Across Pump Flow Rate Vibration Amplitude.Bearing Temperature Quarterly ISI"203 Rev.6 Page 15 of 244 OS2 5.4 5 Pum Table Nomenclature (Continued) 2~Cold Shutdown 3 ,.~Refueling X=Measurement/Observation per IWP L=Lubricant Level or Pressure PR~Relief Request 5.4.6 Pum Test Table Notes In the Pump Test Table, the test parameters to be measured or observed, and the test frequency are identified.

Footnotes 1 through 9 refer to amplificatxons, deviations, and exceptions to the Code requirements and are further discussed below!Pump with constant speed drive, speed is not measured since test will be performed at nominal motor nameplate speed as required by Section XI, IWP-3100.2~Inlet pressure to be calculated from the inlet liquid level.The li'quid Level will be measured while establishing and verifying Reference Data sets, and used as information during subsequent test analysis.3~Bearing temperature measurement not required (IWP-4310) since bearings are in the pumped fluid flow path.4.Bearing temperatures to be measured once a year as stipulated by Section XI, IWP-3300'.Lubricant level or pressure not observed because of bearing lubrication design.6.Any one'f three component cooling or three charging pumps is an installed spare.One pump is normally running~the second is aligned as an automatic backup to the operating pump and the third pump is electrically disconnected.

In the event of failure of the operating pump, the second pump automatically starts and the installed spare is electrically connected and valved in as the reserve pump.The normally operating and reserve pump will be tested.The installed spare is required to be tested only when it is connected to the system.7~Quarterly testing of the motor driven pumps is performed using pump recirculation flow through a small diameter recirculation line.A full flow test will be performed on the way to cold shutdown.ISI-203 Rev.6 Page 16 of 244 OS2 5.4.6 Pum Test Table Notes (Continued) 8.Quarterly testing of the steam driven pump is performed using pump recirculation flow through a small diameter recirculation line.A full flow test will be performed on the way to cold shutdown.9.=Pump and motor are an integral unit with no bearings in the pump.Motor upper bearing will be treated as if it were a pump bearing.Motor bearing has installed vibration monitoring, temperature measurment and are water lubricated.

Auxiliary Feedwater 1A-SA, 1B-SB, 1X-SAB Function: Provide Auxiliary Feedwater to the Steam Generators on loss of Main Feedwater.

Quarterly pump testing is performed using a pump recirculation line back to the CST.In this mode of operation the temperature of the pumped fluid is constantly increasing and operation is limited to a maximum of one hour.IWP-3500(b) requires the pumps be operated until bearing temperature stability is achieved, but for no less than thirty minutest Since the pumped fluid temperature is constantly increasing, bearing temperature will not reach stability in one hour.In addition, good operating procedure will limit operation of the pumps in this mode to as short a time as possible to preclude pump degradation.

When the pumps are full flow tested at cold shutdown or refueling the length of operation is dictated by plant operating conditions and it can not be guaranteed that plant conditions will allow operation of each pump until bearing temperature stabilizes without significant impact on normal plant operations.

Alternate Testing: Pump differential pressure, flow and vibration measurments will be used to evaluate pump performance.

ISI-203 Rev.6 Page 19 of 244 OS2 System!Pump: PUMP RELIEF RE UEST PR-2 Diesel Generator Fuel Oil Transfer 1A-SA~1B-SA Class: Function: Transfer Diesel Fuel Oil from the Storage tanks to the Day Tanks.Test Requirements!

Basis for Relief: There are no'system design provisions for direct flow measurements.

Flow rate will be calculated from measured change in Day Tank level during pump operation.

~Alternate Testing!Flow rate will be calculated from observed change in Day Tank level during pump operation.

ISI-203 Rev.6 Page 20 of 244 OS2 PUMP RELIEF RE VEST PR-3 System!.Pump: Diesel Fuel Oil Transfer 1A-SA, 1B-SB Class: Function.'ransfer diesel fuel oil from the storage tank to the day.tank.Test Requirements:

I Per IWP-3500(b), when the measurement of bearing temperature is.required, each pump shall be run for a minimum of thirty minutes until bearing temperature stabalizes.

Basis for Relief: Diesel Fuel Oil Pump running time is dictated by interlock circuitry and administrative limits corresponding to allowable Day Tank levels.The interlocks, which control automatic transfer pump operation, limit operation of the pumps below minimun allowable or above maximum allowable tank levels.Operation of the pumps with tank levels above maximum allowable is precluded by administrative controls and alarms'he time required to fill the tank from minimum level to maximum level is less than thirty minutes.Alternative Testing: Bearing condition will be evaluated by pump bearing vibration measurments.

Basis for Relief: Quarterly measurement of pump flow rate.There are no system design provisions for measurement of flow rate in the flow path used for quarterly pump testing.To utiliae the system flow meter would require a test flow path which would transfer highly concentrated Boric Acid form the Boric Acid Tank to the CVCS.The addition of large amounts of concentrated Boric Acid during cold'shutdown would have a significant adverse effect on CVCS operation.

Alternate Testing'.The pumps will be run quarterly using the pump minimum flow line.During quarterly testing both inlet and differential pressure will be measured'low will be measured through the emergency boration path when'borating on the way to cold shutdown.ISI-203 Rev.6 Page 22 of 244  

OS2 PUMP RELIEF RE UEST PR-6 System: Pump: Class: Boric Acid Transfer 1A-SA, 1B-SB Function: Transfer of concentrated Boric Acid from the Boric Acid Tank to the CVCS.Test Requirements:

Measure pump bearing temperature and observe lubrication level.Basis for Relief: These pumps are Model GVHS-10K Pumps made by Chempump Division of the Crane Co.This type of pump has no bearings in the pump and is a integral unit with the motor.The pump bolts directly onto the integral motor end housing flange, such that the motor bearings are completely inclosed.Motor bearings are lubricated and cooled by diverting a portion of pump flow through the motor and back to the pump suction.All cooling and lubrication are associated with the motor would not provide any information about the pump.Alternate Testing: None ISI-203 Rev.6 Page 23 of 244 OS2 RELIEF RE VEST PR-7 System!Chilled Condenser Water, S.I.Charging, Component Cooling Water and Spent Fuel Pool Cooling, ESM Intake Screen Mash.Pump: lA-SA, 1B-SB (Chilled Cond.Water)3 lA-SA, 1B-SB, 1C-SAB (S.I'harging)3 1A-SA, 1B-SB, 1C-SAB (C.C.W.)3 lA-SA~1B-SB (SFPC)3 1A-SA, 1B-SB (ESW Intake Screen Wash)Class: Function: 2/3 HVAC Chilled Water, Safety Injection and Cooling Water for safety-related equipment.

These pumps have no installed instrumentation to measure bearing temperature, Measurement of temperature of the pump bearing housing would not be indicative of actual bearing temperature because of temperature gradients caused by operation of space coolers, pump location, pumped fluid, etc.The once a year measurement will not provide significant information about pump condition.

The long pump running time required to achieve temperature stability could result in unnecessary wear on the pumps and result in increased pump maintenance and repair.Deletion of this measurement will not have significant affect on the pump monitoring program, since other required test parameters are being measured.Alternate Testings Pump differential pressure, flow and vibration will be used to monitor pump performance.

ISI-203 Rev, 6 Page 24 of 244 OS2 PUHP RELIEF RE UEST PR-8 System.'ump:

Emergency Service Mater', Component Cooling Mater 1A SA)1B SB (E~S W))lA SA)1B SB)lC-SAB (C.C.M.)Class: Function: Provide cooling water to safety-related equipment.

Article IMP-.3100 requires that pumps be tested in a fixed resistance system or that the resistance of the system varied until either the measured differential pressure or flow rate equals the corresponding value.Basis for Relief: These systems do not have an installed'pump test line and system operating conditions will not allow adjusting system resistance without significant impact on plant operations.

These are*variable resistance systems that experience a wide swing in loads and configuration'epending on plant operating conditions and climatic conditions the cooling requirements can range from minimum cooling loads to 100 percent and many of the loads are automatically placed in operation in response to local temperature requirements.

Because of these normal operating requirements it is not possible to specify a particular flow path that can be repeated for each pump test.Alternate Testing'.Pump testing will be performed with the system in the as-found operating configuration and the test results compared with a curve of reference values which establishes the relationship between flow and differential pressure in a band around the design point.ISI-203 Rev.6 Page 25 of 244 OS2 5.5 Inservice Valve Test Px'o ram.5.5.1 Introduction This section presents the Program Plan for Inservice Testing of Valves at the Shearon Harris Nuclear Power Plant, in compliance with the requirement of 10CFR50~55a.This Program Plan has been prepared to the requirements of the ASME Boiler and Pressuxe Vessel Code, Section XI, Subsection IWV, 1983 Edition through the Summer 1983 Addenda.5.5.2 Valve IST Pro ram Plan Conce t The Valve Test Program Plan was developed to verify the operability of safety-related systems'he valves addressed are those whose operability is essential to safety-related system operation.

Section XI valve testing is then specified fox each of these valves to verify individual valve operability.

The Program Plan specifies either Section XI or alternate testing, as appropriate, for all valves which pexform a safety-related function.Valves are selected for inclusion in the test program based on a review of all plant systems'his review identifies those systems performing safety-xelated functions.

Each safety-related system is then analyzed to determine which valves are essential to the safety"related operation of the system.These valves are investigated to determine whether Section XI testing can be performed during normal operation.

Those valves for which quarterly testing is determined to be inappropriate are analyzed further to determine if Code allowed testing at cold shutdown is possible.If so, a justification for delay of test to cold shutdown is provided following the appropriate Valve Test Tables.Relief requests describing appxopriate alternative testing, and justifying exclusion from Section XI testing, have been prepared for valves which cannot be tested quarterly or during cold shutdown, and are provided following the appropriate Valve Test Tables.5.5 3 Code Inter retation A numbex of items in Subsection IMV of the Code are subject to intexpretation.

The interpretations of a number of general items encountered in preparing the Valve Test Program Plan are provided below.ISI-203 Rev.6 Page 26 of 244  

OS2 5.5.3 Code Inter retation (Continued)

Relief Valves: The Code requires testing of pressure relief valves in accordance with ASME/ANSI OM-1 1981.The relief valves designated for test are only those which perform a system pressure relief function.Thermal relief valves, whose only function is to protect components or piping from thermal expansion are not included in the IST program.Where a relief valve performs both a system and a thermal relief function it has been included as testable.A number of thermal relief valves have been included in the valve test tables to comply with a North Carolina State Requirement for testing of relief valves which protect pressure vessels.SHNPP has elected to include these thermal relief valves in their Section XI test program.All relief valves included to comply with North Carolina State Regulations are so noted in the valve test tables.Passive Valves'.The reference Code excludes valves used only for operating convenience and/or maintenance from testing.Also, the Code defines passive valves but specifies no operability test requirements.

This program defines as passive power operated valves which do not have to change position, but whose position has a direct bearing on safety-related system operation.

Manual flow path maintenance and system alignment valves are excluded.Manual passive Containment Isolation and pressure isolation valves have been included for leak testing only.S stem Test Valves: Power operated valves included in a system to align the system for testing are included for Section XI testing if their position is critical to safety.-related system operation.

The system analysis postulates that the system is in a test mode when the initiation signal occurs.All valves, including those used only for testing, which must respond to the initiation signal, are included in the test program.Pressure and Flow Control Valves: The reference Code excludes valves which perform pressure or flow control functions.

This program excludes them unless they also perform a system safety-related response function such as automatic closure on system initiation.

The program addresses these valves by specifying testing of the safety-related function, and excluding the normal pressure or flow control functions.

These valves will be stroke timed if they are equipped with valve test provisions or if a repeatable exercising method is possible.ISI-203 Rev.6 Page 27 of 244 OS2 5.5.3.Code Inter retation (Continued)

Automatic Power 0 crated Valves'.Power operated valves which receive an automatic signal on system initiation are included in the program.Remote Power 0 crated Valves: The program includes power operated-valves activated by remote switches if they are required to change position to align a system for safety-related operation, terminate safety-related system operation, or provide containment isolation capability during the long term post-LOCA operating mode.Normal vs.Safet-Related S stem 0 eration: Valves in systems which have both normal and safety"related operating modes are included in the program only if they perform a safety-related function.Valves which provide normal system operation contro1 and~hose position has no effect on safety-related operation are excluded from the program.Dual Function Valves.'alves which provide more than one function are tested for their safety-related function only.Valves with multiple safety-related functions are tested for each function.Sim le Check Valves: This Program Plan considers any check valve to be a simple check valve if it has no means of changing position other than by reversal of fluid flow direction.

Simple check valves are tested to verify operability in the safety-related flow direction.

Normally closed simple check valves which must open are tested to verify full opening with forward flow.Normally open simple checks which must close on cessation of flow are tested to verify closure on cessation of forward flow.Normally closed simple check valves which remain closed on system initiation are tested to verify absence of reverse flow.Normally open simple check valves which are required to remain open, are tested to verify full flow in the forward direction.

Simple check valves which are required to cycle open and closed are tested to verify,'full opening with forward flow and closure on loss of forward flow.Manual Sto Check Valves: Manual stop check valves are tested to verify operability in the safety-related flow direction.

If the manual operator is withdrawn, the valve operates as a simple check in the forward flow direction and is tested as a simple check.Reverse flow closure is verified as a simple check, if possible, or by use of the manual operator.ISI-203 Rev.6 Page 28 of 244 OS2 5.5.3 Code Inter retation (Continued)

Testable Check Valves.'heck valves equipped with manual exercisers will be tested as a simple check, or by exercising using the manual exercising device.Check valves equipped with a power operator installed for the sole purpose of exercising the valve for operability will.be tested as a simple check, or by use of the power operator.Power 0 crated Sto Check Valves.'esting of power operated stop check valves is based on the function of the operator.If the valve operator is always withdrawn, and the valve operates as a simple check valve except during maintenance, the valve is tested as a simple check.If'the operator is normally withdrawn, such that the valve operates as a simple check in the forward direction, and the operator provides positive closure, it is tested as a simple check in the forward direction, and exercised closed using the operator.In addition to exercising, the operator will be timed and fail safe actuation tested as appropriate.

Pum Dischar e Check Valves.As a minimum, pump discharge check valves in safety-related systems will be forward flow exercised.

In addition, reverse flow closure will be verified when failure of the valve to close could result in a substantial reduction of system performance.

Such a potential exists with parallel pumps connected to common suction and discharge headers.If the check valve on the idle pump fails to close, a significant amount of system flow could be diverted back through the idle pump to the suction header.S stem Pi in Kee Fill Check Valves: Keep fill lines are those lines attached to ECCS system piping whose function is maintenance of system water inventory to preclude water hammer.Forward flow operability is verified by a system check of water inventory performed at least quarterly.

Check Valve Full/Partial Stroke: In most cases full design flow through a check valve requires less than full mechanical valve movement.As used'n this program, the term full stroke refers to'he ability of the valve to pass design flow, and not the full mechanical stroking.Forward flow full stroke operability-testing will be by any method that verifies the valve capable of passing design flow.Any test that verifies less than full design flow capability is considered as a partial stroke test.ISI-203 Rev.6 Page 29 of 244 OS2 5.5.3 Code Inter retation (Continued)

Cate or A (Containment Isolation Valve)Leak Testin All valves specified for Appendix J, Type C, Local Leak Rate testing are included in the Valve IST Program as Category A valves.Appendix J, Type C, valve local leak rate testing fulfills the intent of Articles IWV-3420 through IWV-3425 and will be performed in lieu of Section XI testing.Analysis of leakage rates and corrective actions requirements of IWV-3426 and IWV-3427 will be performed.

The Program plan reflects the current list of va1ves receiving Appendix J, Type C testing.Any future change to that list will be incorporated into the valve test program.Cate o A (Pressure Isolation Valve)Leak Testin.'ll valves designated as pressure isolation valves in Table 3.4-1 of plant Technical Specifications are considered to perform a~pressure isolation function between the Reactor Coolant System and a low pressure system and are included in the Valve IST Program as Category A valves.These valves will be tested to the requirements specified in IWV-3420.Any change to the list of pressure isolation valves in Technical Specifications will automatically be incorporated into the Valve Test Program.Cate or A (Containment and Pressure Isolation Valve)Leak~Testis Valves which perform both a containment isolation and a pressure isolation function are included in the Valve IST Program Plan as Category A Valves'hese valves will be tested to requirements of both Appendix J and Section XI.Cate o A (Pressure Isolation)

Valve 0 erabilit Testin: Reactor Coolant System pressure isolation valves will be demonstrated operable.in accordance with plant Technical Specification 4.4.6.2.2 by verifying leakage to be within specified limits: l.At least once per 18 months, 2~Prior to entering Mode 2 whenever the plant has been in Cold Shutdown for 72 hours or more and if leakage testing has not been performed.

in the previous 9 months, 3~Prior to returning the valve to service following maintenance, repair or replacement work on the valve, and 4.Within 24 hours following valve actuation due to automatic or manuel action or flow through the valve.ISI-203 Rev.6 Page 30 of 244 082 5.5.3'ode Inter retation (Continued)

Locked Valves.'his program plan classifies as locked valves only those which are physically restrained from movement (i.e., chain and padlock), or sealed (i.e., wire and seal)in position.Keylocked valves are not considered to be physic'ally locked.This program plan makes no distinction between locked and non-locked manual valves and considers both to be passive.Maximum Stroke Times.'aximum stroke times have been developed based on actual observed times obtained during on-going pre-operational testing and operational test data for valves which can not be timed under repeatable test conditions during the pre-operational testing.These times along with manufactures data and Technical Specifications have been used to specify maximum stroke times for each valve prior to the end of the first refueling outage.Where.actual stroke times are much less than Technical Specification values the limiting value of maximum stroke time will be determined from actual observed values, but at no time will maximum stroke time exceed Technical Specification values.A plant criteria has been developed for determining values of maximum stroke times from measured values as follows!1.Stroke time greater than 10 Seconds-2 X baseline 2.Stroke time greater than 2 seconds-3X baseline but equal to or less than 10 seconds 3.Stroke time equal to or less than 2 seconds-2 seconds Values of maximum stroke times will be maintained separate from this document.This will allow for changes in maximum stroke times necessitated by changing test conditions, repairs, maintenance, modifications, etc., without requiring revision of the approved Valve Test Program Plan.Valve Position Indicator Verification.'WV-3300 requires that all valves with remote position indicators shall be observed at least once every two years to verify that valve operation is accurately indicated It is the intent of this program that such verification will be performed on all valves included in this program which have remot'e position indicators.

ISI-203 Rev.6 Page 31 of 244 OS2 5.5.3'ode Inter retation (Continued)

Valves will be stroked and timed in their safety-related direction(s).

For example, a motor operated test valve whose safety-related operation is to close on system initiation will only be exercised and timed closed.If the valve must operate in both directions for safety-related system operation, it will be exercised and timed in both directions.

Valve Fail Safe Direction'.

Valves will be tested to verify operability of the fail safe operator in the direction that the valve travels to perform its safety-related function.Valves equipped with fail safe operators for convenience only and which do not have to change position on loss of power for adequate safety-related operation will not be fail safe tested.Tem erature Inter-Locked Valves-Valves which open and close in response to local temperature controls will not be tested unless they are inter-l.ocked to system operation.

For example, temperature inter-locked valves on local area heat exchangers.will not be tested unless they'are inter-locked to go open/closed on system initiation for safety-related operation.

Check Valve Disassembl Valve disassembly is utilized as an alternative for check valves where it has been determined that testing is'impractical.

A sampling plan is used for groups of check valves which are identical (ie.same manufacturer, type, size, etc.)in construction and for which the system operating environment is the same.The sampling plan selects one valve from each group for disassembly during each refueling outage.If the selected valve passes inspection a second valve is selected for disassembly at the next refueling, etc., until the group has been completed or until such time that sufficient inspections have been performed to justify an alternate sampling plan.For those cases where disassembly indicates that there are no valve problems, a new relief request may be prepared to perform less frequent inspections'ailure of the selected valve to pass inspection will initiate additional valve disassembly as specified by the appropriate relief request.ISI-203 Rev.6 Page 32 of 244  

OS2 5.5.3 Code Inte retation (Continued)

The visual inspection of disassembled valves includes verification that'he valve is capable of full stroke operation.

All valves specified for disassembly are of the bolted bonnet design.For valves with hinge pins in the valve body, full stroke operability will be verified by manually exercising the valve through a complete cycle.For valves with hinge pins in the removable bonnet such that the valve internals are removed from the valve body during disassembly direct verification of full stroke operability by manually exercising is not possible.For these valves, full stroke operability will be by verification of full stroke travel of valve internals'for evidence of wear, binding, etc.and by stringent valve reassembly, procedures.

Containment Entr Entry into the Containment structure during normal operation or cold shutdown is strictly regulated by plant operating procedures.

Because of environmental and ALARA considerations, entry is made only for tasks that are absolutely necessary for plant operation and duration inside the Containment is limited to as-short-as-possible.

Because of this, valve testing that would require entry into Containment to perfrom special testing is considered to be beyond the scope of Sect'ion XI and is delayed to refueling.

ISI-203 Rev.6 Page 33 of 244 OS2 Valve Test Table Nomenclature 5.5.4 The following abbreviations have been used in the Valve Test Table.Valve Tvae BF-Butterfly Valve BA-Ball Valve CK-Check Valve DA-Diaphragm Valve GL-Globe Valve GA-Gate Valve ND-Needle Valve RG-Regulator Valve RL-Relief Valve SK-Spring Check Valve 3W-Three Way Valve PG-Plug Valve Normal Position 0-Open C-Closed LO-Locked Open LC-Locked Closed TH-Throttled LT-Locked throttled Actuator T e AO-Air PO-Piston EH-Electro-Hydraulic MA-Manual MO-Motor NO-Nitrogen SA-Self SO-Solenoid Stroke Direction 0-Open C-Closed Check Valve Test Direction FF-Forward Flow BS-Reverse Flow ISI-203 Rev.6 Page 34 of 244 OS2 5.5.4 Valve Test Table Nomenclature (Continued)

Plant Technical Specifications (3.6.1.7)require maintaining these valves closed and sealed closed during plant operating modes 1,2,3 and 4~Quarterly Part Stroke Testing'.Valves are administratively close and sealed closed during normal operations'old Shutdown Testing.'xercise, time and fail.ISI-203 Rev.6 Page 42 of 244  

OS2 System: VALVE RV-1 Containment HVAC Valve: t Category.'CB-3,7

:1CM-7 AC Class: 2 Function.'ontainment Vacuum Relief Isolation Check Valves (1CB-3,7), and Hydrogen Purge Make-up Isolation Valve (1CM-7).Test Requirements:

Verify forward flow operability and reverse flow closure.Basis for Relief: There are inside Containment simple check valves and do not have position verification capability.

To verify forward flow operability using system fluid would require injecting large quantities of air into the Containment and would, result in a Containment overpressurization condition.

The only practical method to verify forward flow operability is by mechanically exercising the valve disk through a complete cycle'by hand.Entry into Containment during cold shutdown is limited by plant procedures to perform only necessary repair and maintenance work.In cases of short shutdowns caused by problems external to the Containment there may be no entry made into the Containment; The only method available to verify reverse flow closure is by valve leak rate testing during Appendix J, Type C, Testing at refueling.

ISI-203 Rev.6 Page 43'of 244 QS2 SYSTEM: CONTAItbIENT HVAC SHEARON HARRIS NUCLEAR POIIER PLANT VALVE TEST TABLE DWG.NO.2165-$-1017 CLASS VALVE NUMBER ANO PHG.COOR.VALVE (CAT.)S I ZE ACTU (IN.)TYPE AND TYPE NORH.POS I T.TEST REP.STROKE CHECK DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF, REMARKS ICB-2 2 A G-4 24 AO BF'S-1 TS-1 FC-I Pl-5 LJ-3 C 0 NOTE 1,5 ICB-3 2 AC 24 SA&6 CK C FS-1 BS-1 L J-3 FF RV-1 SP-3 NOTE 1,5 BS RV-I SP-3 2 A H-4 24 AO BF C FS-1 C TS-1 0 FC-I Pl-5 LJ-3 NOTE 1,5 I CB-7 2 AC 24 SA CK C FS I BS-I LJ-3 FF RV-I SP-3 NOTE 1,5 BS RV-I SP"3 ICM-2 2 A 3 AO 8"5 BF C FS I C Tll I FC-I Pl-5 LJ-3 NOTE 2,5,6 ICH-4 2 A 3 HA B-4 BF LC PV LJ 3 NOTE 2,5,6 I CH-5 2 A 3 MA H-4 BF LC PV LJ-3 NOTE 2,5,6 I CH-7 2 AC 3 SA HM.CK FS-I BS-I LJ-3 FF RV I SP 3 NOTE 2p5p6 BS RV-I SP-3 I CP-I 2 A D-4 42 AO BF FS-I C TS I FC-I PI-5 LJ-3 CS-I FS-2 NOTE 4,5 CS-I TS-2 CS-I FC-2 ISI-203 Rev.6 Page 44 of 244  

OS2 SYSTEM: CONTAINMENT HVAC SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-1017 VALVE NOSER CLASS AND DWG.COOR.VALVE (CAT.)SIZE ACTU.(IN.)TYPE AND TYPE NORMi POS IT.TEST REP, STROKE CHECK DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO, C.S.OR ALT.TEST PERF.REMARKS 1CP"3 2 A 8 AO 0/C FS-I C E-4 BF TS-I FC-1 Pl-5 LJ-3 NOTE 3,5 2 A 42 AO BF FS-1 C TS-I FC-1 Pl-5 LJ-3 CS-1 FS-2 NOTE 4)5 CS-I TS-2 CS-1 FC-2 ICP-5 2 A EW 8 AO BF 0/C FS-1 C TS-I FC-1 Pl-5 LJ-3 NOTE 3,5 2 A F-5 8~AO BF 0/C FS-I C TS-I FC-I PI-5 LJ-3 NOTE 3,5 I CP-7 2 A F-5 42 BF AO FS-I C TS-I FC-I Pl-5 LJ-3 CS-I FS-2 NOTE 4,5 CS-I TS-2 CS-I FC-2 ICP-9 2 A F~8 BF AO 0/C FS-I C TS-I FC-I Pl-5 LJ-3 NOTE 3,5 ICP-10 2 A F-6 42 BF AO FS-I C TS-1 FC-I Pl-5 LJ-3 CS" I FS-2 NOTE 4,5 CS"I TS-2 CS"I FC-2 ISI-203 Rev.6 Page 45 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION F 6.2 VALVE TEST TABLES AND RELIEF REQUESTS FOR REACTOR AUXILIARY BUILDING (RAB)HVAC, DWG.NO.2165-G-517 S03 ISI-203 Rev.6 Page 46 of 244  

OS2 SYSTEH: RAB HVAC NO.NOTE NONE ISI-203 Rev.6 Page 47 of 244 OS2 SHEARON'HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE SYSTEM: RAB HVAC GWG.NO.2168&-517 S03 VALVE NUMBER CLASS AND DWG, COOR.VALVE SIZE (CAT.)(IN)ANO TYPE ACTU TYPE NORM.POS IT.TEST STROKE REP.OIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS 3A V%I SA-I 3 8 20 MO F-14 BF FS-I 0 PI-5 3AV-82SA-I 3 8 20 MO F-17 BF FS"I 0 TM-I PI-5 3AV&3SB-I 3 8 6 E-14 BF FS-I 0 TM-I P 1-5 3AV~SB-I 3 8 20 MO G-14 BF FS-I 0 TM"I PI-5 3AV&5SB-I 3 8 20 G-17 BF FS-I 0 TH-I Pl-5 3AV~SA-I 3 8 G-14 6 MO C FS-I 0 BF TM-I Pl-5 3AV-V3-I 3 C 6 SA C FS-I E-14 CK FF 3AV-V4-I 3 C G-14 6 SA C FS-I CK FF ISI-203 Rev.6 Page 48 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5 6'VALVE TEST TABLES AND RELIEF REQUESTS FOR CONTROL ROOM HVAC DWG~NO.2165-G-517 S04 ISI-203 Rev.6 Page 49 of 244  

OS2 SYSTEM: CONTROL ROOM HVAC NO+NOTE Verification of reverse flow is not necessary since the intake valves are interlocked with blower operation and are closed when the blowers are idle.ISI-203 Rev.6 Page 50 of 244  

OS2 SYSTEH: CONTROL ROOM HVAC SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWB.NO.2168&-5I7 S04 VALVE NUMBER CLASS AND DWG.COOR.VALVE S I ZE ACTU.(CAT.)(IN.)TYPE AND TYPE NORH.POS IT.TEST STROKE REP.DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 3CZ&I SA-I 3 8 16 HO H-2 BF 0 FS-I C TH-I PI-5 3CZ~S8-I 3 8 16 HO H-2 BF 0 FS-I C TM-I PI-5 3CZ&3SA-I 3 8 12 HO E-2 BF 0 FS-I C TM"I PI-5 3CZ~SB-I 3 8 12 HO E-2 BF 0 FS-I C TM-I'I-5 3CZ~SA-I 3 8 12 HO N-5 BF C FS-I 0 TH-I Pl-5 3CZ&IOS8-I 3 N-5 8 12 HO BF C FS-I 0 TM>>I P I-5 3CZ&I ISA-I 3 8 12 HO N-11 BF C FS-'I 0 TM-I P I-5 3CZ&12S8-I 3 8 12 MO k-ll BF C FS-I 0 TM-I PI-5 3CZWI3SA-I 3 8 30 HO 8-4 BF C FS"I.C TM-I Pl-5 ISI-203 Rev.6 Page 51 of 244 OS2SYSTEM: CONTROL ROOM HVAC DIIG.NO.2168&-517 S04 SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE VALVE NUMBER CLASS AND DWG.COOR.VALVE S I ZE ACTU.(CAT+)(IN.)TYPE AND TYPE NORM.POS I T.TEST STROKE CHECK REP.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO C.S.OR ALT.TEST PERF.REMARKS 3CZ&14S8-I 3 8 30 MO 8-4 BF C FS-I 0 TM-I P 1-5 3CZ&17SA" I 3 8 36 MO G-2 BF C FS-I C TM-1 Pl-5 3CZW I SSB-I 3 8 36 MO G-2 BF C FS-I C TM-I P 1-5 3CZ<19SA-1 3 8 20 MO H-7 BF C FS-I 0 TM-I PI-5 3CZ&20S8" I 3 8 20 MO H-8 BF C FS-1 0 TM-I Pl-5 3CZ&2 ISA-I 3 8 20 MO KW BF C FS-I 0 TM-I PI"5 3CZ&22$8-I 3 8 20 MO K-7 BF C FS<<I 0 TM-1 Pl-5 3CZ&23SA-I 3.LW 8 20 MO BF C FS-I 0 TM-I PI-5 3CZ&24SB-I

'3 8 20 MO L-7 BF C FS1 0 TM-I PI-5ISI-203 Rev.6 Page 52 of 244  

OS2 SYSTEM: CONTROL ROOM HVAC DWG.NO.2168&-517 S04 SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE VALVE NUMBER CLASS VALVE SIZE AND (CAT,)(IN.)DWG.AND COOR.TYPE ACTU.TYPE NORM.POS I T.TEST STROKE REP.DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 3CZ&25SA-I 3 G-4 B 36 MO 0/C FS-I 0 BF TM" I PI-5 3CZ~6$8" I 3 8 36 MO 0/C FS-I 0 H-4 BF TM-I PI-5 3CZ-VISA-I 3 C 6 , SA C FS-I L-7 CK FF NOTE 3CZ"V2SB-I 3 C 6 SA C FS-I L-7 CK FF NOTE I ISI-203 Rev.6 Page 53 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5'.4 VALVE TEST TABLES AND RELIEF REQUESTS.FUEL BUILDING HVAC DWG.NO.2165-G-533 ISI-203 Rev.6 Page 54 of 244  

OS2 SYSTEM: FUEL BUILDING HVAC N00 NOTE NONE ISI-203 Rev.6 Page 55 of 244 OS2 SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE SYSTEM: FUEL BUILDING HVAC DWG.NO.216-G-533 VALVE NUMBER CLASS ANO DWG.COOR.VALVE SIZE ACTU.(CAT.)(IN.)TYPE ANO TYPE NORM.POS IT.TEST STROKE CHECK REQ.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 3FV&2SA-1-.4 3 B 24 MO C FS-1 0 G-14 BF TM-I Pl-5 3FV<4SB-1-4 3 B F-14 24 MO'FS-I 0 BF TM-I Pl-5 ISI-203 Rev.6 Page 56 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5~6~5 VALVE TEST TABLES AND RELIEF REQUESTS FOR SWITCHGEAR AND PROTECTION ROOM HVAC DWG~NO.2165-G-517 S05 ISI-203 Rev.6 Page 57 of 244 OS2 SYSTEM: SWITCHGEAR AND PROTECTION ROOM HVAC NO.NOTE Valves close and Blowers shutdown on a SIS signal.ISI-203 Rev.6 Page 58 of 244 OS2 SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE SYSTEM: SWTCHGR 6 PROT.ROOM HVAC DWG.NO.2168%-517 S05\VALVE NUMBER CLASS VALVE AND (CAT.)DWG.COOR.SIZE (IN.)AND TYPE ACTU.TYPE NORM.POS I T.TEST REP.STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.ST OR ALT.TEST PERF.REMARKS REV.3CZ&5SA-I 3 B 12 L-3 BF 0 FS-I C TM-I P I-5 NOTE I 3CZ-86SB-I 3 B 12 MO L-3 BF 0 FS-1 C TM-I PI-5 NOTE I 3CZ&7SA-I 3 8 12 MO K-10 BF 0 FS-I C TM-I P I-5 NOTE I 3CZWSS8-1 3 8 12 MO K-9 BF 0 FS-I C TM-I Pl-5 NOTE I ISZ-203 Rev.6 Page 59 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5''VALVE TEST TABLES AND RELIEF REQUESTS FOR MAIN STEAM DWG~NO.2165-S-542 ISI-203 Rev.6 Page 60 of 244 OS2 SYSTEM: MAIN STEAM NO+NOTE Main Steam to Auxiliary Feedwater Turbine Trip and Throttle Valves.2~3~Main Steam Sample Valves.Main Steam Relief Valves.4~Main Steam Power Operated'elief Valves.Valves are Nitrogen supplied, electro/hydrolic operated gate valves.5~Main Steam to Auxiliary Feedwater Turbine Line Block Valves'.7~Main Steam Supply to Auxiliary Feedwater Turbine Line Check Valves.Partial forward flow operability is verified by'urbine operation.

Reverse flow closure is required to prevent steam flow between the Main Steam lines when line block valves are open (both block valves open on system isolation).

Main Steam Line Isolation Valves.Valve operators are designed to perform a partial stroke closed test with full steam flow.8~Bypass Line Valves around the Main Steam Line Isolation Valves.9.Steam Generator Blowdown Isolation Valves.ISI-203 Rev.6 Page 61 of 244  

OS2 COLD SHUTDOWN TEST JUSTIFICATION System: Valve.'AIN STEAM 1MS-58,60,62 Category: Class: ASME Section XI Quarterly Test Requirements:

Exercise, Time and Fail.Cold Shutdown Test Justification:

Exercising these valves during normal operation would cause a decrease in Main Steam line pressure and an increase in secondary system steam demand,'esulting in a serious self imposed plant transient.

This transient could result in a forced plant shutdown.Quarterly Part Stroke Testing: Valves are full stroke on initiation and can not be partial stroke exercised.

Cold Shutdown Testing: Exercise, time and fail.ISI-203 Rev.6 Page 62 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION CS-2 System: Valve: MAIN STEAM 1MS-80,82,84 Category: Class: ASME Section XI Quarterly Test Requirements'.

Exercise, Time and Fail.Cold Shutdown Test Justification:

Exercising these valves during normal operation isolates one line of steam flow to the Turbine and would cause a severe pressure transient in the Main Steam line which could result in a forced plant shutdown.Reducing power level to perform testing without causing a transient would significantly impact plan operations and power production.

Quarterly Part Stroke Testing: Valves are equipped with a partial stroke closed exerciser and will be partial stroke exercised Quarterly.

Cold Shutdown Testing: Exercise, time and fail.ISI-203 Rev.6 Page 63 of 244 OS2 VALVE RV-1 System.Valve.Category: MAIN STEAM 1MS-G B Class: 3 Functiont Auxiliary feedwater steam driven turbine Governing Valve (1MS-G)Test Requirements:

ISI-203 Rev.6 Page 64 of 244 OS2 VALVE RELIEF RE UEST RV-2 Systeme Valve: MAIN STEAM 1MS-71,73 Category: Class.'unction:

Verify forward flow and reverse flow closure.Basis for Relief: The only possible method to verify forward flow operability is by running the Auxili'ary Feedwater Pump Turbine at full flow conditions'he quarterly pump test is perfozmed with flow through a minimum flow line which is not a full flow test.These check valves are also safety-related to prevent czoss-flow between the Main Steam lines when the upstream motor operated valves aze open (both motor operated valves open on initiation of Auxiliary Feedwater)

~To verify reverse flow closure would z'equire blanking (the turbine stop valve is not a leak tight valve)the turbine line, injecting fluid into the line and monitoring upstream of the valves for evidence of gross leakage.Upstream of'hese valves are the Main Steam lines and Steam Generators.

Because of the long time.to perform this test and the large volume of waste water involved, it is not a practical test method.ISI-203 Rev.6 Page 65 of 244  

ISI-203 Rev.6 Page 66 of 244 OS2 SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE SYSTEM: MAIN STEAM DWG.NO.2165-S-542 VALVE NUMBER CLASS VALVE AND (CAT)DWG.COOR.SIZE (IN.)ANO TYPE ACTU.TYPE NORM, TEST POSIT, RE4, STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF RE4.NO.C.S.OR ALT+TEST PERF.REMARKS 3 8 4 EH N-1'L 0 FS"1 0 TM-1 C RV-I SP-I IMS T 3 8 4 MO N-I GT 0 FS1 0 TM-I C PI-5 IMS-25 2 8 I AO 0-2 GA 0/C FS-I M-I FC-I PI-5 1MS 27 2 8 G-2 1 AO GA 0/C FS-I C TM-I FC-I Pl-5 2 8 1 AO K-2 GA 0/C FS-I C TM I FC"1 Pl-5 NOTE 2 IMS-43 2 C 8X10 SA C-3 RL C RL-4 IMS-44 2 C 8X10 SA G-3, RL C RL-4 1MS-45 2 C 8X10 SA J-3 RL C RL-4 IMS-46 2 C 8X10 SA C-4.RL C RL-4 ISI-203 Rev.6 Page 67 of 244 OS2 SHEARON HARRI S NUCLEAR POWER PLANT VALVE TEST TABLE SYSTEM: HAIN STEAM DWG.NO.2165-S-542 VALVE NUMBER CLASS VALVE AND (CAT.)DWG, COOR.SIZE (IN.)AND TYPE ACTU.TYPE NORM.POS IT.TEST STROKE REQ.DIRECT.CHECK VALVE TEST DIRECT.C.ST JUST.OR RELIEF REQ,NO, C.S.OR ALT.TEST PERF.REMARKS IHS-47 2, C G-4 8X I 0 SA C RL"4 RL IMS-48 2 C J-4 8XIO SA C RL-4 RL IHS-49 1HS"50 2 C C-5 2 C G-5 8XIO SA C RL-4 RL 8XIO SA C RL-4 RL NOTE 3 NOTE 3 IMS-51 2 C J-5 8XIO SA C RL-4 Rl.IHS-52 2 C C-6 8X I 0 SA C RL-4 RL NOTE 3 IMS-53 2 C G-6 8X I 0 SA C RL-4 RL NOTE 3 IHS-54 2'C 8X I 0 SA C RL-4 RL IHS-55 2 C CW 8X I 0 SA C RL-4 RL NOTE 3 ISI-203 Rev.6 Page 68 of 244 OS2 SYSTEM: HAIN STEAM SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S"542 CLASS VALVE NUHBER AND DWG.COOR.VALVE (CAT.)SIZE (IN.)AND TYPE ACTU, TYPE, NORM.POS IT.TEST REQ.STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS IMS-56 2 C BXI0 SA G-6 RL C RL-4 NOTE 3 IHS-57 2 C JW 8XIO SA RL C RL-4 I I MS-58 2 BC 8 EH C-8 GA NO C FS-I 0 TM-I C FC-I Pl-5 CS-I FS-2 NOTE 4 CS-I TH-2 CS-I FC-2I MS%0 IHS&2 2 BC 8 EH F-8 GA NO 2 BC 8 EH J-8 GA NO C FS I 0 TM-1 C FC-I PI-5 C FS-I 0 TM-I C FC-I Pl-5 CS-I FS-2 NOTE 4 CS-I TM-2 CS-I FC-2 CS-I FS-2 NOTE 4 CS-I TM-2 CS-I FC-2 IHS-70 2 8 6 MO H-7 GA C FS-1 0 TH-I C PI-5 NOTE 5 IHS-71 3 C 6 SA H-7 CK C FS-I BS-I FF RV-2 PE-I NOTE 6 BS RV-2 DS IMS-72 2 B 6 HO K-7 GA C FS-I 0 TM-I C P I-5 NOTE 5 IMS-73 3 C 6 SA K-7 CK C FS-I BS-I FF RV-2 PE-I NOTE 6 BS RV-2 DS ISI-203 Rev.6 Page 69 of 244  

OS2 SYSTEM: MAIN STEAM SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-542 VALVE NUMBER CLASS AND DWG.COOR.VALVE S I ZE ACTU.(CAT.)(IN.)TYPE AND TYPE NORM.POS I T.TEST REQ.STROKE CHECK DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS IHS-80 2 B 34 PO D-9 GL FS-I TS-I FC-I PI-5 CS"2 FS-2 CS-2 TS-2 CS-2 FC-2 PE-I NOTE 7 IHS-81 2 B 3 AO D-9 GA FS-I TS-I FC-I PI-5 IHS-82 2 B 34 PO G-9 GL FS" I TS-I FC-.I PI-5 CS-2 FS-2 CS"2 TS-2 CS-2 FC-2 PE-I NOTE 7 IHS-83 2 B 3 AO K-9 GA FS>>I TS-I FC-I P 1-5 NOTE 8 IMS-84 2 B 34 PO J-9 GL FS-I TS-I FC"I PI-5 CS-2 FS-2 NOTE 7 CS-2 TS-2 CS-2 FC-2 PE-I IHS-85 2 B 3 AO C K-9 GA FS-I TS-I FC-I PI-5 NOTE 8 IHS-231 2 B 2 AO E-8 GL 0/C FS-I TS-I FC"I PI-5 NOTE 9 IHS-266 2 B 2 AO I-8 GL 0/C FS-I TS-I FC-I PI-5 NOTE 9 IHS-301 2 B 2 AO L-8 GL 0/C FS-I TS-I FC-I PI-5 NOTE 9 ESI-203 Rev.6 Page 70 of 244 OS2 SYSTEM: MAIN STEAM SHEARON MARRI S NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-542 VALVE NUHBER CLASS VALVE SIZE AND (CAT.)(IN.)DWG.AND COOR.TYPE ACTU.TYPE NORM.POS IT.TEST REP.STROKE CHECK DIRECT.VALVE TEST DIRECT.C,S.JUST, OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REHARKS REV.NO.IHS-336 3 B 2 AO H-4 GL 0 FS-I C TM-I FC-I P 1-5 IMS-354 3 8 2 AO N-5 GL 0 FS1 C TM-I FC-1 PI-5ISI-203 Rev.6 Page 71 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5~6~7 VALVE TEST TABLES AND RELIEF REQUESTS FOR FEEDWATER DWG~NO.2165-S-544 ISI-203 Rev.6 Page 72 of 244 OS2 SYSTEM: FEEDWATER NO+NOTE Feedwater Isolation Valves, close on isolation signal.Valves are equipped with partial stroke operators for testing at full flow.2~Chemical Addition Isolation Valves.3~Feedwater Isolation Valve Bypass Valves which close on an isolation signal.ISI-203 Rev.6 Page 73 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION CS-1 System: Valve: Feedwater 1FW-159,217,277 Category: Class: ASME Section XI Quarterly Test Requirements:

Each valve will be exercised to it's 90Z open position and back to the full open position.Cold Shutdown Testing'.Exercise, Time and Fail.ISI-203 Rev.6 Page 74 of 244 OS2 SYSTEM: FEEDWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE, DWG.NO.2165-S-544 VALVE NUMBER CLASS VALVE'ND (CAT.)DWG.COOR.SIZE (IN.)AND TYPE ACTU.TYPE NORM.POS IT.TEST REQ.STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT, TEST PERF.REMARKS IF W-159 2 8 BW 16 EH, 0 FS-I C GA TS-I FC-I.PI-5 CS-I FS-2 NOTE I CS-I TS-2 CS-I FC-2 PE-1 IF W-163 2 8 I AO 0/C FS-I.C BW GA TM-I FC-I PI-5 NOTE 2 IFW-165 2 8 I AO 8"5 GA 0/C FS-I C TM-I FC-I PI-5 NOTE 2 IFW-217 2 8 16 EH D-4 GA 0 FS I C TS-I FC-I PI-5 CS-I CS-I CS-I FS-2 NOTE I TS-2 FC-2 PE-I IF W-221 2 8 I AO D-4 GA 0/C FS-I C TM-I FC-'I P 1-5 NOTE 2 IFW-223 2 8 I AO 0-4 GA 0/C FS-I C TM-I FC-I Pl-5 NOTE 2 ISI-203 Rev.6 Page 75 of 244 OS2SYSTEM: FEEOWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE OWG.NO.2165-S-544 VALVE NUMBER CLASS AND OWG.COOR.VALVE (CAT.)SIZE ACTU.(IN.)TYPE ANO TYPE NORM.POS IT.TEST STROKE CHECK RE/.DIRECT, VALVE TEST DIRECT.C.S.'JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS IFW-277 2 8 16 EH E-4 GA 0 FS-I C TS-I FC-I Pl-5 CS-I FS-2 NOTE I CS-I TS-2 CS-I FC-2 PE-I IFW-279 2 8 E-4 I~AO GA 0/C FS-I C TM-I FC-'I Pl-5 IFW-28I 2 8 I AO E-3 GA 0/C FS-I TM-I FC-I PI-5 C NOTE 2 IFW-307 2 8 3 AO 8-6 GA TH FS-I C TM-I FC-I PI-5 NOTE 3 IF W-313 2 8 3 AO 0-4 GA TH FS"I C.TM-I FC-I PI-5 NOTE 3 IFW-319 2 8 3 AO F-4 GA TH FS-I C TM-I FC-'I P I-5 NOTE 3 ISI-203 Rev.6 Page 76 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5.6.8 VALVE TEST TABLES AND RELIEF REQUESTS FOR AUXILIARY FEEDWATER DWG~NOo 2165 S 544 ISI-203 Rev.6 Page 77 of 244  

OS2 SYSTEM!AUXILIARY FEEDWATER NO.NOTE Auxiliary Feedwater Bypass Line to Condensate Storage Tank Line Check Valve.Failure to close would not degrade system operation.

2~Pump Recirculation to the Condensate Storage Tank Isolation Valve.3~Motor Driven Auxiliary Feed Pump Discharge Check Valve.Reverse flow closure necessary to preclude di'version of flow back across idle pump.4.5~Motor Driven Pump Discharge Pressure Control, Valves.Valves are installed in the dis'charge'lines of the motor driven pumps and regulate pump discharge pressure to prevent pump damage caused from a runout condition.

The valves prevent pump runout by automatically throttling as Steam Generator pressure decreases.

Valves are normally open when the system is in standby and automatically throttle in responce to line pressure on initiation.

Motor Driven and Steam Driven Pump Discharge Flow Control Valves.Each of the six Pump discharge lines contains a remote"manually controlled flow control valve.Flow from 0 to 100 Percent is manually selected using remote control logic switches.In addition to flow control, the valve control logic causes the valves to close in each Steam Generator Feedwater Header if a Feedwater Header rupture or Main Steam Header rupture occurs.6.Pump Discharge Line Check Valves.Valves prevent cross flow between the motor, driven and steam dr'iven pump discharge headers and reverse flow from the Steam Generators back through the pumps.Each flow path contains two check valves in series.7~Auxiliary Feedwater Motor-operated Isolation Valves.Valves allow for isolation of each header for maintenance or header rupture.ISI-203 Rev.6 Page 78 of 244  

OS2 SYSTEM: AUXILIARY FEEDWATER NO+NOTE 8.Auxiliary Feedwater Isolation From Normal Feedwater Valves.9 Auxiliary Feedwater Isolation From Normal Feedwater Check Valves.10.Auxiliary Feedwater Inlet to Steam Generator Check Valves..Chemical Addition Valves'alves are normally closed when the system is idle.Chemicals are added as necessary when the system is in operation.

ISI-203 Rev.6 Page 79 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION System: Valve: Auxiliary Feedwater 1AF-64,81,102 Category: Class: ASME Section XI Quarterly Test Requirements:

Cold Shutdown Testing.Exercise, Time and Fail.ISI-203 Rev.6 Page 80 of 244  

OS2 COLD SHUTDOWN TEST JUSTIFICATION CS-2 System: Valve: Auxiliary Feedwater 1AF-16, 31 Category: Class: Function: Motor Driven Auxiliary Feedwater Pump discharge check valves.Test Requirements:

Verify forward flow operability and reverse'flow closure.Basis for Relief: The only way to verify forward flow operability is by operating the motor driven Auxiliary Feedwater pumps and injecting relatively cold condensate water directly into the hot Steam Generators.

The introduction of cold water into the hot Steam Generators during normal operation would result in large thermal shock to the Feedwater Nozzles which could cause cracking of the nozzles.In addition, to test Auxiliary Feedwater during normal operation would require starting the Auxiliary Feedwater pumps and securing the normal Feedwater System flow, which would have an adverse effect on Steam Generator~ater level control and could cause a forced plant shutdown.QuarterLy pump testing is done through the pump recirculation lines and the downstream flow control valves automatically close so that the pumps are essentially isolated from each other and reverse flow closure of these pump discharge check valves can not be verified until full Auxiliary Feedwater flow is injected into the Steam Generators.

Alternate Testing'.Verify forward flow operability and reverse flow closure on a cold shutdown frequency when full flow test is performed on motor driven auxiliary feed pumps'SI-203 Rev.6 Page 81 of 244  

OS2 COLD SHUTDOWN TEST JUSTIFICATION CS-3 System: Valve: Auxiliary Feedwater lAF-19,34,49,50,51,129,130,131 Category: Class: Function: lAF-19,34:

Auxiliary Feedwater Pump Discharge Pressure Control Valves.1AF-49,50,51,129,130,131'uxiliary Feedwater Pump Discharge Flow Control Valves.Test Requirement:

Exercise, Time, and Fail Basis for Relief: Position of these valves is automatically modulated during pump operation to control Auxiliary Feedwater flow rate.To test these valves would require use of control logic defeating methods, such as temporary jumpers.In order to minimize the impact on the auxiliary feedwater system by forcing these valves to their non fail safe position, valve testing will be performed on a cold shutdown frequency.

Alternate Testing: Exercise, time and fail on a cold shutdown frequency.

ISI-203 Rev.6 Page 82 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION CS-4 System:~Valve: Auxiliary Feedwater 1AF-54,73,92,201,202,203 Category: Class: Function: Motor driven Auxiliary Feedwater Pump discharge check valves;Test Requirements.'erify forward flow operability.

~Basis for Relief: Alternate Testing: The only way to verify forward flow operability is by operating the motor driven Auxiliary Feedwater pumps and injecting relatively cold condensate water directly into the hot Steam Generators.

The introduction of cold water into the hot Steam Generators during normal operation would result in large thermal shock to the Feedwater Nozzles and could caus'e cracking of the nozzles.In addition, to test the Auxiliary Feedwater during normal'peration would require starting the Auxiliary Feedwater pumps and securing the normal Feedwater System flow', which would have an adverse effect on Steam Generator water level control and could cause a forced plant shutdown.Verify full forward flow operability at cold shutdown when the Auxiliary Feedwater Pumps are being full flow tested.ISI-203 Rev.6 Page 83 of 244 OS2 COLD SHUTDOWN JUSTIFICATION CS-5 System'.Valve: Auxiliary Feedwater 1AF-117, 136, 142, 148, 204, 205, 206 Categoxy.Class: Function: Steam driven Auxiliary Feedwater pump line to Steam Genex'ator series check valves.Test Requixement:

Verifiy forward flow operability.

Basis for Relief: These valves can only be forward flow operability tested by operation the steam driven pumps and injecting full flow into the Steam Generators, which can not be done during normal operations (See CS-2)~The only source of steam to the steam driven turbine is from the Main Steam System.To operate the turbine requires that the Steam Generators be producing sufficient steam to drive the turbine.Control of Steam Generator water level when producing steam is much more critical than during the refilling process, where the motor operated pumps are tested.To perform flow testing during steam production would have a significant impact on Steam Generator water'evel control on all three Steam Generators, would require a significant amount of startup time and could xesult in a forced plant shutdown.Alternate Testing: Perform full forward flow operability testing of these valves during full steam driven pump testing on a cold shutdown frequency when the impact on plant operations will be minimized.

ISI-203 Rev.6 Page 84 of 244 OS2 COLD SHUTDOWN JUSTIFICATION CS-6 System: Valve'.Auxiliary Feedwater 1AF-117 Category.'lass:

1C-SAB Discharge Check Valve Test Requirements:

Basis for Relief: Verify reverse flow closure.The system has no design pxovision fox verification of reverse flow closure.The only possible test method involes pressurizing the downstream section of pipe and monitoring an upstream tap for evidence of gross leakage performing this at powex could result in a loss of steam generator level contxol and could cause a plant shutdown.Altexnate Testing: Verify reverse flow closure on a cold shutdown frequency when test can be performed with little impact on plant condition.

ISI-203 Rev.6 Page 85 of 244 OS2 VALVE RELIEF RE UEST RV-1 System: Valve'.Auxiliary Feedwater 1AF-65, 84, 103 Category.Class.'unction:

~Failure to pass inspection will initiate disassembly and inspection of the other two valves.ISI-203 Rev.6 Page 86 of 244  

OS2 VALVE RV-2 System: Auxiliary Feedwater Valve!1AF-201, 202, 203 204, 205, 206 Category: Class: Function: Auxiliary Feedwater Pump Discharge Line to Feedwater Line Check Valves.Test Requirement:

Failure to pass inspection will initiate disassembly and inspection of the other valves on the same train.ISI-203 Rev.6 Page 87 of 244 OS2 SYSTEM: AUXILIARY FEEDWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-544 VALVE NUMBER CLASS AND DWG.COOR.VALVE S I ZE ACTU.(CAT.)(IN.)TYPE AND TYPE NORM.POSIT.TEST STROKE CHECK REq.DIRECT.VALVE TEST DIRECT.C.ST JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS'EV.IAF-4 3 C 2~SA C FS-I NM CK FF NOTE I 3 8 2 MO 0 FS-I C NW GL TM-I P I-5 NOTE 2 IAF-16 3 C 4 SA L-6 CK C FS-I BS-I FF CS-2 FF-2 NOTE 3 BS CS-2 BS"2 IAF-19 3 8 4 EH KW GL 0 FS-I FO-I Pl-5 FS-2 NOTE 4 FO"2 IAF-23 3 C 2 SA N-9 CK C FS-I FF NOTE I IAF-24 3 8 2 MO N-9 GL FS-I C TM-I PI-5 NOTE 2 IAF-31 3 C 4 SA L-8 CK FS-I BS-I FF CS-2 FF-2 NOTE 3 BS CS-2 BS-2 I AF-34 3'4 EH K-8 GL FS-I FO-I PI-5 CS-3 FS-2 NOTE 4 FO-2 IAF-49 3 8 JW 4 EH GL FO-I P 1-5 C FS-I TM-I FO-2'OTE 5 FS-2 TM-2 ISI-203 Rev.6 Page 88 of 244  

OS2 SYSTEM: AUXILIARY FEEDWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVF TEST TABLE DWG.NO.2165-S-544 VALVE NUMBER CLASS AND$$.COOR, VALVE SIZE (CAT.)(IN.)AND.TYPE ACTU.TYPE NORM.POS I T.TEST STROKE CHECK REP.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS IAF-50 3 B 4 EH J-7 GL 0 FO-I C FS-I TM-1 Pl-5 CS-3 FO-2'OTE 5 TM-2 FS"2 1AF-51 4 EH GL 0 FO-1 C FS-I lM-1 Pl-5 CS-3 FO"2 NOTE 5 FS-2, TM-2 IAF-54 IAF-55 3 C FW 2 B FW 4 SA CK 4 MO GA C FS-I 0 FS-I C TS-I Pl-5 FF CS-4 FF-2 NOTE 6 NOTE 7 IAF&4 2 B CW 6 AO GA 0 FS-I C TM-I FC-I PI-5 CS-I FS-2 NOTE 8 CS-I TM-2 CS-I FC-2 I AF&5 2 C 6 SA CW CK 0 FS-I BS RV-I DS SP"3 NOTE 9 I ASS 2 C 6 SA C-2 CK 0 FS-I FF NOTE IO'I AF-73 3 C 4 SA H-7 CK C FS-I FF CS-4 FF-2 NOTE 6 I AF-74 2 B.4 MO G-7 GA'0 FS-I C TS-I Pl-5 NOTE 7 ISZ-203 Rev.6 Page 89 of 244  

OS2 SYSTEM: AUXILIARY FEEDWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-$-544 CLASS.VALVE NUMBER AND DWG, COOR.VALVE (CAT.)SIZE (IN.)AND TYPE ACTU~TYPE NORM.POS IT.TEST REP.STROKE CHECK DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 1AF-.8'I 2 8 6 AO E-7 GA 0 FS-I C TM-I FC-I PI-5 CS-I FS-2 NOTE 8-CS-I TM-2 CS-I FC-2 I AF-84 2 C 6 SA E-5 CK 0'S-I BS RV-I DS SP-3 IAF-87 2 C 6 SA K-2 CK 0 FS-I FF NOTE 10 IAF-92 3 C 4 SA I W CK C FS-I FF CS-4 FF-2 NOTE 6 IAF-93 2 8 HW 0 FS-I C TS-I PI-5 NOTE 7 I AF-102 2 8 6 AO F-4 GA 0 FS-I C TM-I FC-I PI-5 CS-I FS"2 NOTE 8 CS-I TM-2 CS-I FC-2 IAF-103 2 F-4 C 6 SA 0 FS-I CK BS RV-I DS SP-3 NOTE 9 IAF-106 2 C 6 SA 0 FS I G-2 CK FF NOTE 10 IAF-110 3 C 2 SA C FS-I N-11 CK FF NOTE I ISZ-203 Rev.6 Page 90 of 244  

OS2 SYSTEM: AUXILIARY FEEOWATER SHEARON HARRI S NUCLEAR POWER PLANT VALVE TEST TABLE OWG.NO.2165-S-.544 VALVE NUMBER CLASS VALVE SIZE ANO (CAT)(IN.)OWG o ANO COOR, TYPE ACTU, TYPE NORM.POS IT.TEST STROKE REQ.0l RECT.CHECK VALVE TEST OIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS IAF-I l7 3 , C 6 SA C FS-I L-IO CK BS-1 FF CS-5 FF-2 NOTE 6 BS CSW IAF-129 3 8 4 EH 0 FO-I C J-9 GL FS-I TM-1 PI-5 CS-3 FO-2 NOTE 5 FS-2 TM-2 3 8 4 EH 0 FO-1 C J-IO Gl.FS I TM-I Pl-5 CS-3 FO-2 NOTE 5 FS-2 TM"2 IAF-131 3 8 4 EH 0 FO-I C J-l.l GL FS-I TM-I P I-5 CS-3 FO"2 NOTE 5 FS-2 TM-2 IAF-136'C 4 SA C FS-I FW CK FF CS-5 FF-2 NOTE 6 IAF-137 2 8 4 MO 0 FS I C FW GA TS-I Pl-5 NOTE 7 IAF-142 3 C 4 SA C FS-I H-9 CK FF CS-5 FF-2 NOTE 6 IAF-143 2 8 4 MO 0'S-I C H-9 GA TS-I PI-5 NOTE 7 I AF-148 3 C 4 SA C FS-I H-7.CK FF CS-5 FF-2 NOTE 6 IAF-149 2 8 4 MO 0 FS-I C G-7 GA TS-I P 1-5 IAF-153 FS-I YM"1-FC-I.PI-5 2 8 I AO C C B-4 GA NOTE ll ISZ-2Q3 Rev 6 Page 91 of 244 OS2 SYSTEM: AUXILIARY FEEDWATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165<<$-544 VALVE NUMBER CLASS AND DWGo COOR.VALVE SIZE ACTUS (CAT+)(IN.)TYPE AND TYPE NORM+POSIT, TEST STROKE CHECK REQ.D I RECT, VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF, REMARKS IAF-155 2 8 8-3 AO C GA FS-I C TM-I FC-'I PI-5 NOTE 11 IAF-157 2 8 G-4 I AO C GA FS I C TM-I FC-I PI-5 NOTE 11 1AF-159 2 8 1 AO G-3 GA C FS I C TM<<I FC-I Pl-5 NOTE ll IAF-161 2 8 I AO C FS-I C K-4 GA TM-I FC-I P 1-5 NOTE ll IAF-163 2 8'I AO K-3 GA C , FS-I C.TM-I FC-I PI-5 NOTE Il IAF-20'I 3 C 4 SA H-5 CK C FS-I BS-I FF CS"4 FF-2 BS RV-2 DS IAF-202 3 C 4'A 1-8 CK C FS-'I BS-'I FS CS"4 FF-2 BS RV-2 DS NOTE 9 I AF-203 IAF-204 3 C IW 3 C H-7 4 SA CK 4 SA CK C FS-I BS-I C FS-I BS-I FS CS-4 FF-3 BS RV"2 DS FS CS-5 FF-2 BS RV-2 DS NOTE 9 I AF-205 C H-10 4 SA CK C FS-I BS-1 FS CS-5 FF-2 BS RV-2 DS NOTE 9 I AF-206 3 C H-l 1 ISI-203 Rev.6 4 SA CK C FS-I BS-1 FS CS-5 FF-2 BS RV-2 DS Page 92 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5'9 VALVE TEST TABLES AND RELIEF REQUESTS FOR CONDENSATE DWG.NO.2165-S-545 ISI-203 Rev.6 Page 93 of 244 OS2.SYSTEM+CONDENSATE NO~NOTE Condensate Storage Tank to Auxiliary Feedwater Pump Inlet Check Valves.Reverse flow closure required to prevent flow of service water into the Condensate Storage Tank.2~Relief Valves which protect the Low.Pressure Suction piping from back leakage across the Pump Discharge Check Valves.ISI-203 Rev.6 Page 94 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION Cs-l System:, Valve: Condensate 1CE"36,46,56 Category: Class: Function: Condensate Storage Tank to Auxiliary Feedwater Pump Inlet Check Valves.Test Requirements:

ISI-203 Rev.6 Page 95 of 244 OS2 VALVE RELIEF RE UEST RV-1 System.'alve.'ondensate 1CE-36,46,56 Category: Class'.Function: Condensate Storage Tank to Auxiliary Feedwater Pump Inlet Check Valve which prevents back-flow from the Service Water System into the Condensate Storage Tank.Test Requirements:

OS2 SYSTEM: CONDENSATE SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165"S-545 VALVE NUMBER CLASS VALVE AND (CAT.)DWB, COOR.SIZE (IN,)AND TYPE ACTU.NORM.TEST TYPE.POSIT.REP.STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 3 C H-7 6 SA CK FS-I FS-I BS-I FF CS-I.FF-2 NOTE I FF CS-I PE-I BS RV-I DS ICE"46 3 C 6 SA H-S CK FS-I FS-I BS-I FF CS-I FF-2 NOTE I FF CS-I PE-I BS RV-I DS ICE-56 3 C 8 SA H-9 CK FS-I FS-I BS-I FF CS-I FF-2 NOTE I FF CS-I PE-I BS RV-I DS ICE-1157 3 1-7 C IXI SA C RL RL-4 NOTE 2ICE-1158 ICE-1159 3 I-B 3 I"9 C, IXI RL C IXI RL SA C SA C RL-4 RL-4 NOTE 2 NOTE 2ISI-203 Rev.6 Page 97 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5.6.10 VALVE TEST TABLES AND RELIEF REQUESTS FOR SERVICE WATER DWG~NO~2165-8-547 2165-8-588 2165-S-936 ISI-203 Rev.6 Page 98 of 244  

OS2 SYSTEM: SERVICE WATER NO~NOTE Pump Discharge Check Valves.Valves prevent backflow through the pumps.2~CTMU Pump Inlet Isolation Valves.3~Cross-tie to Normal Service Water Isolation Valves.4, Valves Close to Isolate Non-Safety-Related Loads.5~Thermal Relief Valve added to Program to comply with North Carolina State Requirements.

6~Emergency Service Water to Containment Fan Coolers Check Valve.Reverse flow closure to prevent drain back from the coolers.7~Emergency Service Water to Containment Fan Coolers Isolation Valves.8.Orifice Bypass Valve.'Valve closes on system initiation.

9.Back-up Water Supply to the Auxiliary Feedwater Pumps.10.Charging Pump Oil Cooler Check Valves.Reverse flow closure is not required to prevent cross-flow between Emergency Service Water Headers.Valves are 1 1/2 inch and if they fail to close the amount of water diverted from the operating to non-operating header would not be great enough to cause significant degra'dation of system operation.

ISI-203 Rev.6 Page 99 of 244 OS2 SYSTEM SERVICE WATER NO+NOTE 13.Return Header Isolation Valves.14.Normal CTMUP and ESW Water soures for ESW Intake Structure Fan Coolers.Valves are controlled by local temperature elements and as such are temperature control valves, exempt from Section XI test requirements.

Valves are tested for fail-safe operation only.ISI-203 Rev.6 Page 100, of 244  

ISI-203 Rev.6 Page 101 of 244 OS2 SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-547 VALVE NUMBER CLASS AND DWG.COOR.VALVE SIZE (CAT.)(IN.)AND TYPE ACTU.=TYPE NORM.POS IT.TEST STROKE REP.DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS'ISW-9 1SW-10 3 E-2 3 E-3 C 30 SA CK C 30 SA CK C FS-I 8$-1 C FS-I 8$-1 FF BS FF BS 1SW-20 3 F-1 8 3 PO 0/C FS-1 0 BA TM-I FO-I Pl-5ISW-23 I SW-39 3 F-4 3 I-I B 3 PO 0/C FS-I 0 BA TM-I FO-I PI-.5 B 30 MO 0/C FS-I 0 BF TM-I C P 1-5 NOTE 3 ISI-203 Rev.6 Page 102 of 244  

OS2SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE OWG.NO.2165-$-547 CLASS VALVE NUMBER ANO OWG.COOR.VALVE (CAT.)S I ZE ACTU.(IN.)TYPE ANO TYPE NORM.POS I T.TEST REP.STROKE CHECK OIRECT.VALVE TEST OIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF, REMARKS I SW"40 3 B 1-2 30 MO 0/C FS-I.0 BF TM-I C PI-5 NOTE 3 ISW~3 C 3/4XI RL IW RL C RL-4 NOTE 5 I SW"86 3 C 14 SA FW CK 0/C FS-I BS"I FF BS NOTE 6 ISW-91 2 B 8 MO CW-BF 0 FS-I 0 TS"I C PI-5 NOTE 7 1SW-92 2 B 8 MO C-7 BF 0 FS>>I 0" TS-I C PI-5 ISW-97 2 B 8 MO C-8 BF 0 FS-I 0'S-I C PI-5 NOTE 7 ISW-98 2 B 8 MO C-9 BF 0 FS-I 0 TS-I C P I-5 NOTE 7'I SW-95 2 C CW IXI)SA RL C RL-4 I SW-96 2.C I XI'A C-9 RL C RL-4 NOTE 5 ISI-203 Rev.6 Page 103 of 244  

OS2 SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-$-547 CLASS VALVE NUMBER AND DWG.COOR.VALVE (CAT.)SIZE ACTU.(IN.)TYPE ANO TYPE NORM.POS I T.TEST REP.STROKE DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C,S.OR ALT.TEST PERF.REMARKS I SW~109 2 B 8 MO C-12 BF 0 FS-I 0 TS-I C Pl-5 NOTE 7 I SW-110 2 B 8 MO C-13 BF 0 FS I 0 TS-I C PI-5 I SW-116 3 B 14 AO H-7 BF 0 FS I C TM-I FC-I PI-5 NOTE 8ISW-118 3 B 14 AO G-13 BF 0 FS-I C TH-I FC-I P 1-5 NOTE 8 I SW-121 3'8 MO J-8 BF C FS-I 0 TH-I C PI-5 NOTE 9 ISW-123 3 B 8 MO J-8 BF C FS-I 0 TH-I C PI-5 NOTE 9 ISW-124 I SW-126 3 B 8 HO I-8 BF I 3 B 8 MO 1-8 BF C FS-I 0 TH-I C Pl-5 C FS-I 0 TM-I C Pl-5 NOTE 9 NOTE 9 IS W-127 3 B 8 HO I-9 BF C FS-I 0'H-I C PI-5 NOTE 9 ISI-203 Rev.6 Page 104 of 244 OS2 SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-547 VALVE NUMBER CLASS AND DWG.COOR.VALVE SIZE (CAT.)(IN.)AND TYPE ACTU.TYPE NORM.POS IT.TEST STROKE REq.DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REV.NO.ISW-129 3 B 8 MO 1-9 BF C FS-I 0 TM-1 C P I-5 NOTE 9 I SW-130 3 B 8 MO I-9 BF C FS>>I 0 TM-1 C P I-5 I SW-132 3 B 8 MO J" 10 BF C FS-I 0 TM-I C P I-5 NOTE 9 I SW-141 3 C I 1/2 SA H-8 CK 0/C FS-1.FF NOTE 10 ISW-143 I SW-152 1SW-154 ISW-163 I SW-165 ISW-107 3 H-9 3 H" IO 3 H-ll 3 H-11 3 H-12 2 C-I2 C I I/2 SA CK C I I/2 SA C I I/2 SA CK C I I/2 SA CK'" C I I/2 SA CK C IX1)SA RL 0/C FS-I 0/C FS-I 0/C FS-I 0/C FS-I 0/C FS-I C RL-4 FF FF FF FF FF NOTE 10 NOTE 10 NOTE 10 NOTE 10'OTE 10 NOTE 5 I SW-108 2 I XI'A C RL-4 C-13 C RL NOTE 5 ISI-203 Rev.6 Page 105 of 244 OS2SYSTEM SERVICE WATER SHEARON HARRIS NUCLEAR PO'WER PLANT VALVE TEST TABLE DWG.NO.2165-S-547 VALVE NUMBER CLASS AND DWG.COOR.VALVE (CAT.)S I ZE ACTU, (IN.)TYPE AND TYPE NORM.POS IT.TEST REP.STROKE CHECK DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REQ.NO.C.S.OR ALT.TEST PERF.REMARKS ISW-I71 3 C 3/4XI SA F-11 RL C RL-4 NOTE 5 ISW-179 3 B I-15 0 FS I C TM-I FC-I Pl-5 I SW" 180 3 8 4 PO I-15 GA 0 FS-I C TM-I FC-I Pl-5 NOTE 4 I SW-204 3 B 4 PO K-16 GA 0 FS I C'iM-1 FC-I Pl-5 ISW-206 3 8 4 PO 0 FS-I C K-16 GA TM-I FC-I P 1-5 NOTE 4 IS W-220 3~C 14 F-6 CK SA 0/C FS-I BS-I FF BS NOTE 6 1SW-225 2 B 8 MO 0 FS-I 0 C-14 BF TS-I C Pl-5 NOTE 7 I SW-227 2 B 8 MO 0 FS-I 0 C-14 BF TS-I C PI-5 NOTE 7 I SW-231 2 A 12 AO 0 C-15 BF FS-I TS-I FC-I PI-5 LJ-3 NOTE 11ISI-203 Rev.6 Page 106 of 244  

OS2 SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-547" VALVE NUMBER CLASS AND DWG.COOR.VALVE SIZE ACTU.(CAT.)(IN.)TYPE AND TYPE NORM.POS IT.TEST STROKE CHECK REP.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS ISW-233 2 AC 12 SA C-I5 CK FS-I LJ-3 BS RV-I SP-3 NOTE 12 ISW-240 2 A D-17 12 BF AO FS-'I C TS-I FC-I Pl-5 LJ-3 ISW-242 2 A 12 AO 0 E-17 BF FS-I C TS-I FC-1 Pl-5 L J-3 NOTE 11 ISW-257 3 C 3/4XI SA C I-13 RL NOTE 5 ISW-270 3 8 30 MO K-16 BF C FS-I TH-I P 1-5.0 C NOTE 13 I SW-271 3 8 30 MO J-16 BF C" FS-I TM-I Pl-5 0 C NOTE 13 ISW-274 3 B 30 MO L-16 BF 0 FS-I TM-I Pl-5 NOTE 13 IS W-275 3 B 30 MO L-16 BF 0 FS-I TM-I Pl-5 0 C NOTE 13 I SW-276 3 B 36 MO H-15 BF 0 FS-I TM-I PI-5 0 C NOTE 13 ISI-203 Rev.6 Pege 107 of 244 OS2 SYSTEM: SERVICE WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-588 VALVE NUMBER CLASS AND DWG.COOR.VALVE SIZE (CAT.)(IN.)AND TYPE, ACTU.TYPE NORM.POS IT.TEST STROKE REQ.DIRECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS IMP-70 3 B'2 SO C-18 GL 0 FC-I C PI-5 NOTE 14 IMP-71 3 B 2 SO C-19 GL 0 FC I C Pl-5 NOTE 14 ISW-1000 3 B 2 SO C-18 GL C FO-I 0 P 1-5 NOTE 14 I SW-1001 3 B 2 SO C-19 GL C FO-I 0 PI-5 NOTE 14 I SW-150 3 C 3/4XI SA F"8 RL C RL-4 ISW-160 3 C 3/4XI SA F-8 RL C RL-4 NOTE 5 ISI-203 Rev.6 Page 108 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5~6~ll VALVE TEST TABLES AND RELIEF REQUESTS FOR CONTAINMENT SPRAY DWG.NO.2165-S-550 ISI-203 Rev.6 Page 109 of 244  

ISI-203 Rev.6 Page 136 of 244 OS2 SYSTEM: DEMINERALIZED WATER SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-799 VALVE NUMBER CLASS VALVE AND (CAT.)DWG COOR.SIZE (IN.)AND TYPE ACTU.TYPE NORM.TEST POS I T.REP.STROKE DIRECT.CHECK VALVE TEST DIRECT+C.S.JUST, OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 2~A H-5 3 MA LC" PV GA LJ-3 NOTE I IOWA 2 AC 3 SA FS-I HW CK L J-3 BS RV-I SP-3 NOTE I ISI-203 Rev.6 Page 137 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5''8 VALVE TEST TABLES AND RELIEF REQUESTS FOR CONTAINMENT SUMP DRAINS DWG.NO.2165-8-685 ISI-203 Rev.6 Page 138 of 244  

OS2 SYSTEM: CONTAINMENT SUMP DRAINS NO+NOTE Containment Isolation Valves.ISI-2Q3 Rev.6 Page 139 of 244 OS2 SYSTEM: CONTAINMENT SUMP DRAINS SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S&85 VALVE NUMBER CLASS VALVE AND (CAT.)DWG.COOR.SIZE (IN.)AND TYPE ACTU.TYPE NORM.POS IT.TEST STROKE REP.D I RECT.CHECK VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS IED-94 2 A 3 MO N-7'GA 0 FS-1 C TS-1 PI-5 LJ-3 NOTE I I ED-95 2 A 3 MO M-7" GA 0 FS-I C TS-I PI-5 LJ-3 NOTE IISI-203 Rev.6 Page 140 of 244  

OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5+6'9 VALVE TEST TABLES AND RELIEF REQUESTS FOR SERVICE AIR DWG.NO.2165-S-800 ISI-203 Rev.6 Page 141 of 244 OS2 SYSTEM: SERVICE AIR NO+NOTE Containment Isolation Valves.ISI-203 Rev.6 Page 142 of 244 OS2 VALVE RV-1 System.'alve:

Service Air 1SA-82 Category: Class: Function'.

Containment Isolation Simple Check Valve (reverse flow closure for containment isolation only).Test Requirement:

Verify reverse flow closure.Basis for Relief!The only method available to verify reverse flow closure is by valve leak testing during Appendix J, Type C, testing at refueling.

Alternate Testing: Reverse flow closure will be verified during Appendix J, Type C, testing at refueling.

ISI-203 Rev.6 Page 143 of 244 0$2SYSTEM: SERVICE AIR SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S~VALVE NUMBER CLASS AND DWG.COOR.VALVE S I2E ACTU.(CAT.)(IN.)TYPE AND TYPE NORM.POS IT.TEST STROKE CHECK REQ.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS ISA-80 2 A C-2 2 MA LC PV GL L J-3 NOTE'I'ISA-82 2 AC C-3 2 SA C'FS>>I CK LJ-3 BS RV-1 SP-3 NOTE I ISI-203 Rev.6 Pege 144 of 244 OS2 PUMP AND VALVE INSERVICE TESTING PROGRAM PLAN FOR SHEARON HARRIS NUCLEAR POWER PLANT SECTION 5'.20 VALVE TEST TABLES AND.RELIEF REQUESTS FOR INSTRUMENT AIR DWG.NO.2165-S-801 2165-S-1017 ISI-203 Rev.6 Page 145 of 244 OS2 SYSTEM: INSTRUMENT AIR NO.NOTE Containment Isolation Valves.2~Accumulator fill line check valves.Accumulators are maintained charged and are alarmed during normal operations.

3~Valve numbers have been revised.Valves formally numbered as: 1CB-VOlA, V01B, V02A, V02B AND 1CV-1,2.ISI-203 Rev.6 Page 146 of 244 OS2 COLD SHUTDOWN TEST JUSTIFICATION Cs-l System: Valve: Instrument Air IIA-819 Category.Class: ASME Section XI Quarterly Test Requirements:

Exercise, Time and Fails Cold Shutdown Test Justification.'nstrument Air supplies a number of components inside Containment which are necessary for normal operation.

Testing during normal operation would deprive these components of their normal air supply and, since the system has no reserve air storage capacity, could result in operating transients and a possible forced plant shutdown.Quarterly Part Stroke Testing: Valves are equipped with full stroke only operators and can not be partial stroke exercised.

Cold Shutdown Testing: Exercise, Time and Fail at cold shutdown when the normal.Instrument Air can be isolated without causing loss of instruments and components necessary for normal plant operations.

ISI-203 Rev.6 Page 147 of 244 OS2 VALVE RELIEF RE UEST RV-1 System.'alve.'nstrument Air 1IA-220 Category: Class: AC Function: Containment Isolation Simple Check Valve (reverse flow closure for Containment isolation only)~Test Requirements'.

Verify reverse flow closure.Basis for Relief: The only method available to verify reverse flow closure is by valve leak testing during Appendix J, Type C, testing at refueling.

Alternate Testing: Reverse flow closure will be verified during Appendix J, Type C, testing at refueling.

ISI-203 Rev.6 Page 148 of 244 OS2 VALVE RELIEF RE VEST RV-2 System'.Valve: Instrument Air lIA-784, 785, 786, 787, 788, 789 Category: Class: Function.'nstrument Air To Air Operated Containment Isolation Valve Accumulators.

Verify reverse flow closure.Basis for Relief: Each fill line to the accumulators contains two simple check valves in series and there are no system provisions for individual valve closure verification.

Only one automatic actuating valve is required to isolate the non-classed instrument air system from the accumulators.

The two valves function.as a single unit and if either of them close proper operation of the accumulators is assured.To verify reverse flow closure of the unit requires isolating and depressurization of a large segment of the Instrument Air System for an extended length of time.Loss of instrument air during operation would cause loss of instrumentation needed for normal operations Because of the time required to perform testing, performing verification at cold shutdown could cause delays in returning the plant to normal operations.

Alternate Testing: One valve on the accumulator side and one valve on the instrument air side will be disassembled and inspected at each refueling.

Failure of the tested valve will initiate testing of the other two corresponding valves.ISI-203 Rev.6 Page 149 of 244 OS2 SYSTEM: INSTRUMENT AIR SHEARON HARRIS NUCLEAR POWER PLANT VALVE TEST TABLE DWG.NO.2165-S-801 VALVE NUMBER CLASS AND DWG.COOR.VALVE S I ZE (CAT.)(IN.)AND TYPE ACTUS TYPE NORM.POS I T.TEST STROKE CHECK REQ.DIRECT.VALVE TEST DIRECT.C.S.JUST.OR RELIEF REP.NO.C.S.OR ALT.TEST PERF.REMARKS 1IA-220 2, A 3 SA 0 FS I C"3 CK LJ-3 BS RV-I SP-3 NOTE I 1 I A-819 2 A 3 PO 0 FS-I , C C-3 GA TS-I FC-I Pl-5 LJ-3 CS-I FS-2 NOTE I CS"I FS-2 CS-I FS-2ISI-203 Rev.6 Page'150 of 244