{{#Wiki_filter:ATTACHMENT 2 FLORIDA POWER and LIGHT COMPANY NUCLEAR ENERGY SERVICES 700 Universe Boulevard Juno Beach, Florida 33408 SEC/~TEN-YEAR INSERVICE INSPECTION INTERVAL p(O~gASgl4~'NSERVICE TESTING PROGRAM FOR gQ 4 g9~t,g PUMPS AND VALVES ST.LUCIE NUCLEAR POWER PLANT UNIT NO.1 NRC DOCKET NUMBER: 50-335 DOCUMENT NUMBER: JNS-PSL-203 REVISION 2 ADMINISTRATIVE APPROVALS:

PREPARED BY: APPROVED BY: N-PLANT SUPPORT GER-PLANT SUPPORT DATE: Dec 12 1989 DATE:~+4 APPROVED BY NS MANA-NUCLEAR ENERGY DATE: ST.LUCIE PLANT REVIEWS AND APPROVALS:

REVIEWED BY: APPROVED BY: SL PLANT OORDINATOR DATE:/~DATE:~@i>+++~APPROVED BY: PSL SYSTEM PERF PS ECHNI AL DEPT.0~+~gb gQi@yb o~~g~@e~gx+CE SUPE/SR~~(p~g+~qxo DATE: M X~R pyooli20i69

$'R ADOCK 0 05000335 PDC h~~II t I" p I~>I/r)l REVISION 2 12/12/89 Table of Contents Pacae Table of Contents Record of Revisions 1.0 Introduction

==2.0 Applicable==

Documents3.0 3.1 3.2 3.3 3.4 3.5 4.0 4.1 4.2 4.3 4'4.5 4.6 Inservice Testing Program For Pumps Code Compliance Allowable Ranges of Test Quantities Testing Intervals Pump Program Table Relief Requests for Pump Testing Inservice Testing Program For Valves Code Compliance Testing Intervals Stroke Time Acceptance Criteria Check Valve Testing Valve Program Table Relief Requests For Valve Testing 4 4 4 4 4 4'A endices A B C D E Pump Program Tables Pump Program Requests For Relief , Valve Program Tables Valve Program Requests For Relief Cold Shutdown Justifications REVISION 2 12/12/89 REVISION NUMBER RECORD OF REVISIONS DESCRIPTION OF REVISION REASON FOR THE CHANGE Initial Issue Second 10-year Program Revised Program per NRC Generic Letter 89-04 DATE REVISED APPROVALS 3/2 1/85 8/11/87 12/12/89  

$c".w" fp"'k REVIS ION 2 12/12/89 INSERVICE TESTING (IST)PROGRAM PLAN ST.LUCIE UNIT 1

==1.0 INTRODUCTION==

Revision 2 of the St..Lucie Unit 1 ASME Inservice Inspection (IST)Program will be in effect through the end of the second 120-month (10-year)interval unless revised and reissued for reasons other than the routine update required at the start of the third interval per 10 CFR 50.55a(g).

The second inspection interval is defined as follows: Bece1ns Ends February 11, 1988 February 10, 1998 This document outlines the IST Program for St.Lucie Plant, Unit 1, based on the requirements of Section XI of the ASME Boiler and Pressure Vessel Code, 1983 Edition, including all addenda thereto through Summer', 1983 (the Code).References in this document to"IWP" or"IWV" correspond to Subsections IWP and IWV, respectively, of the ASME Section XI, 1983 Edition, unless otherwise noted.The inservice testing identified in this Plan are to be performed specifically to verify the operational readiness of pumps and valves which have a specific function in mitigating the consequences of an accident or in bringing the reactor to a safe shutdown.

REVISION 2 12/12/89 2.0 APPLICABLE DOCUMENTS This Program Plan was developed per the requirements and guidance provided by the following documents:

2.1 2.2 2.3 2.4 2.5 2.6 2.7 Title 10, Code of Federal Regulations, Part 50 NRC Regulatory Guides-Division 1 Standard Review Plan 3.9.6,"Inservice Testing of Pumps and Valves Final Safety Analysis Report, St.Lucie Unit 1 St.Lucie Plant Unit 1 Technical Specifications ASME Boiler and Pressure Vessel Code, Section XI, 1983 Edition and Addenda through Summer, 1983 NRC Generic Letter 89-04,"Guidance on Developing Acceptable Inservice Testing Programs" REVISION 2 12/12/89 3.0 INSERVICE TESTING PROGRAM FOR PUMPS 3.1 Code Compliance This IST Program for pumps meets the requirements of Subsection IWP of the Code and any interpretations or additional requirements imposed by Reference 2.7.Where these requirements have been determined to be impractical, conformance would cause unreasonable hardship without any compensating increase in safety, or an alternative test provides an acceptable level of quality and safety, relief from Code requirements is requested pursuant to the requirements of 10 CFR 50.55a(g)(iii) and Reference 2.7.3.2 Allowable Ranges of Test Quantities The allowable ranges for test parameters as specified.

in Table IWP-3100-2 will be used for all measurements of pressure, flow, and vibration except as provided for in specific relief requests.In some cases the performance of a pump may be adequate to fulfill its safety function even though there may be a value of an operating parameter that falls outside the allowable ranges as set forth in Table IWP-3100-2.

Should such a situation arise, an expanded allowable may be determined, on a case-by-case basis, in accordance with IWP-3210 and ASME Code Interpretation XI-1-79-19.

3.3 Testing Intervals The test frequency for pumps included in the Program will be as set forth in IWP-3400 and related relief requests.A band of+25 percent of the test interval may be applied to a test schedule as allowed by the St.Lucie Unit 1 Technical Specifications to provide for operational flexibility.

3.4 Pump Program Table Appendix A lists those pumps included in the IST Program with references to parameters to be measured and applicable requests for relief.3.5 Relief Requests for Pump Testing Appendix B includes all relief requests related to pump testing.

REVISION 2 12/12/89 4.0 INSERVICE TESTING PROGRAM FOR VALVES 4.1 Code Compliance This IST Program for valves meets the requirements of Subsection IWV of the Code and any interpretations or additional requirements imposed by Reference 2.7.Where these requirements have been determined to be impractical, conformance would cause unreasonable hardship without any compensating increase in safety, or an alternative test provides an acceptable level of quality and safety, relief from Code requirements is requested pursuant to the requirements of 10 CFR 50.55a(g)(iii) and Reference 2.7.4.2 Testing Intervals 4.3 The test frequency for valves included in the Program'ill be as set forth in IWP-3400 and related relief requests.A band of+25 percent of the test interval may be applied to a test schedule as allowed by the St.Lucie Unit 1 Technical Specifications to provide for operational flexibility.

Where quarterly testing of valves is impractical or otherwise undesirable, testing may be performed during cold shutdown periods as permitted by IWV-3412(a).

Justifications for this deferred testing are provided in Appendix E.Stroke Time Acceptance Criteria When required, the acceptance criteria for the stroke times of power-operated valves will be as set forth in Reference 2.7.4.4 Check Valve Testing Full-stroke exercising of check valves to the open position using system flow requires that a test be performed whereby the predicted full accident condition flowrate through the valve be verified and measured.Any deviation to this requirement must satisfy the requirements of Reference 2.7, Position 1.4.5 Valve Program Table Appendix C lists those valves included in the IST Program with references to required testing, respective test intervals, and applicable requests for relief.

REVISION 2 12/12/89 4.6 Relief Requests for Valve Testing Appendix D includes all relief requests related to valve testing.

Appendix A Pump Program Tables 4 jE A FLORIDA POWER AND LIGHT COMPANY PUMP TABLES Saint Lucia Nuclear Plant-Unit 1 CC5RC 5 5 S5 5S 5R SSCZ50 REVISION: 2 DATE: 12/12/89 PAGE: 1 PUMP NUMBER DESCRIPTION INLET DIFF.FLOW BEARING CL COORD SPEED PRES.PRES.RATE VIBRA.TEMP.REMARKS AFW 1A AFW 18 AFW 1C BAM 1A BAM 18 CCW 1A AUXILIARY FEEDWATER PUMP 3 K-5 NA Y Y Y:PR-4 Y N:PR-1 AUXILIARY FEEDWATER PUMP BORIC ACID MAKEUP PUMP 3 H-5 Y Y Y:PR-4 Y H:PR-1 2 8.5 HA H:PR-8 Y Y:PR-5 Y H:PR-1 2 8-5 HA N:PR 8 Y Y:PR-5 Y H:PR-1 BORIC ACID MAKEUP PUMP COMPONENT COOLING'WATER PUMP 3 F.16 HA Y Y Y Y Y Y Y Y Y Y Y Y N:PR-1 Y Y N:PR.1 CCW 18 i COMPONENT COOLIHG WATER PUMP 3 F-17 NA COMPONENT COOLING WATER PUMP 3 F-16 HA CCW 1C Y Y N:PR-1 2 G-2 HA Y Y Y Y Y Y CG 1A~CHARGING PUMP CHARGING PUMP CHARGING PUMP 2 G-2 HA CG 18 2 E-2 HA Y Y CG 1C CS 1A Y Y Y H:PR-1 2 G-4 NA Y Y:PR-6 Y Y:PR 6 CONTAIHMENT SPRAY PUMP Y H:PR-1 2 E-2 HA CS 18 CONTAINMENT SPRAY PUMP h AUXILIARY FEEDWATER PUMP 3 M-5 NA Y Y Y:PR-4 Y N:PR-1 DOT 1A DOT 18 HPSI 1A HPSI 18 DIESEL OIL TRANSFER PUMP 3 J-12 NA DIESEL OIL TRANSFER PUMP 3 L.12 HA HIGH PRESSURE SAFETY IHJECTIOH 2 C-6 HA HIGH PRESSURE SAFETY IHJECTIOH 2 8 6 HA N:PR-8 Y Y:PR-7 Y N:PR-1 H:PR-8 Y Y:PR-7 Y H:PR-1 Y Y Y:PR-9 Y N:PR-1 Y Y Y:PR-9 Y N:PR-1 HPSI 1C HIGH PRESSURE SAFETY INJECTION 2 C 6 NA Y Y Y:PR-9 Y N:PR.1 ICW 1A ICW 18 ICW 1C LPSI 1A LPSI 18 INTAKE COOLING WATER PUMP 3 H-4 NA N:PR-11 Y Y Y N:PR 1 IHTAKE COOLING WATER PUMP 3 H.7 HA H:PR-11 Y Y Y H:PR-1 INTAKE COOLING WATER PUMP 3 H-5 HA N:PR-11 Y Y Y H:PR-1 LOW PRESSURE SAFETY IHJECTIOH 2 E-6 NA Y Y Y:PR-10 Y H:PR-1 LOW PRESSURE SAFETY IHJECTIOH 2 F 6 HA Y Y Y:PR-10 Y H:PR-1 PI@A  

~~~Florida Power&Light Company REVISION 2 INSERVICE TESTING-PUMP TABLES DATE: 12/12/89 St.Lucie Nuclear Plant-Unit 1 PAGE 2 LEGEND PUMP NUMBER Numerical designator indicated on the respective flow diagram.DESCRIPTION Generic name/function of the pump.ISI Classification per the associated ISI boundary drawing(s)

COORD Test Parameters Corresponds to the flow diagram coordinates of the pump.The table indicates by a"Y" (yes)or"N" (no)that the specific parameter is measured, evaluated, and recorded per the applicable Code requirement.

If a"N" is indicated, the associated relief request number is also noted in the same column.PR-XX Where indicated this refers to the specific relief request (See Appendix B)related to any deviation regarding the measurement or analysis of a parameter.

Appendix B Pump Program Relief Requests 44 f t~a-4'IP tM II't s RELIEF REQUEST NO.PR-1 REVISION 2 12/12/89 COMPONENTS:

All centrifugal pumps in the Program SECTION XI RE UIREMENT: The temperature of all centrifugal pump bearings outside the main flowpath shall be measured at points selected to be responsive to changes in the temperature of the bearings.(IWP-3300, 4310)BASIS FOR RELIEF: 'he data associated with bearing temperatures taken at one-year intervals provides little statistical basis for determining the incremental degradation of a bearing or any meaningful trending information or correlation.

In many cases the pump bearings are water-cooled and thus, bearing temperature is a function of the temperature of the cooling medium, which can vary considerably.

Vibration measurements are a significantly more reliable indication of pump bearing degradation than are temperature measurements.

All pumps in the program are subjected to vibration measurements in accordance with IWP-4500.Although excessive bearing temperature is an indication of an imminent or existing bearing failure, it is highly unlikely that such a condition would go unnoticed during routine surveillance testing since it would manifest itself in other obvious indications such as audible noise, unusual vibration, increased motor current, etc.Any potential gain from taking bearing measurements, which in most cases would be done locally using portable in'strumentation, cannot offset the cost in terms of dilution of operator effort, distraction of operators from other primary duties, excessive operating periods for standby pumps especially under minimum flow conditions, and unnecessary personnel radiation exposure.ALTERNATE TESTING: None B-1  

%pC pl t h lt REVISION 2 12/12/89 RELIEF REQUEST NO.PR-2 COMPONENTS:

Various SECTION XI RE UIREMENT: The full-scale range of each instrument shall be three times the reference value or less.(IWP-4120)

BASIS FOR RELIEF: Table IWP-4110-1 requires the accuracy of instruments used to measure temperature and speed to be equal to or better than+5 percent for temperature and+2 percent for speed, both based on the full scale reading.of the instrument.

This means that the accuracy of the measurement can vary as much as+15 percent and+6 percent, respectively, assuming the range of the instruments extended to.the allowed maximum.These IST pump parameters are often measured with portable test instruments where commercially available instruments do not necessarily conform to the Code requirements for range.In these cases, high quality calibrated instruments will be used where the"reading" accuracy is at least equal to the Code-requirement for full-scale accuracy.This will ensure that the measurements are always more accurate than the accuracy as determined by combining the requirements of Table IWP-4110-1 and Paragraph IWP-4120.ALTERNATE TESTING: Whenever portable instruments are used for measuring pump speed or bearing temperatures, the instruments will be such that the"reading" accuracy is as follows Temperature Speed+5 percent+2 percent B-2  

'L 4I g 4 RELIEF REQUEST NO.PR-3 REVISION 2 12/12/89 COMPONENTS:

Applicable to all pumps in the Program SECTION XI RE UIREMENT: Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

Pump inlet pressure shall be measured before starting a pump and during the test.(Table IWP-3100-1)

BASIS FOR RELIEF: If the pumps being tested are in operation as a result of plant or system needs, it is unreasonable to reconfigure system lineups simply to provide for measurement of static inlet pressure.Inlet pressure prior to pump startup is not a significant parameter needed for evaluating pump performance or its material condition.

ALTERNATE TESTING: When performing a test on a pump that is already in operation due to system or plant requirements, inlet pressure will only be measured during pump operation.

B-3 P Jh f~

0 RELIEF REQUEST NO.PR-4 REVISION 2 12/12/89 COMPONENTS:

Auxiliary Feedwater (AFW)Pumps 1A thru 1C (8770-G-080, Sh 3)SECTION XI RE UIREMENT: Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

Pump flowrate shall be measured during the test.(Table IWP-3100-1)

BASIS FOR RELIEF: There are only two practical flowpaths available for performing inservice testing of the AFW Pumps.These include the primary flowpath into the main feed supply lines and thence to the steam generator and the minimum-flow recirculation (mini-recirc and bypass test loop)which returns to the condensate tank.The former is provided with flowrate measuring instrumentation however the mini-recirc line is a fixed resistance circuit with no flow instrumentation.

Pumping from the auxiliary feedwater system into the steam generators during plant hot operation is impractical and undesirable for the following reasons: During auxiliary feedwater injection via the main feedwater lines while the plant is operating at power, a large temperature differential (approximately 375 deg-F)could exist that would result in significant thermal shock and fatigue cycling of the feedwater piping and steam generator nozzles.Based on the expected duration of the testing and the flowrate of the pumps (275 gpm), it is expected that the cooldown of the steam generator would induce cooldown and contraction of the reactor coolant system resulting in undesirable reactivity variations and power fluctuations.

B-4 RELIEF REQUEST NO.PR-4 (cont.)REVISION 2 12/12/89 ALTERNATE TESTING: During quarterly testing of the AFW pumps while the pumps are operating through the fixed-resistance mini-recirc line, pump differential pressure and vibration will be measured and evaluated per.-IWP-3200 and IWP-6000.During testing performed at cold shutdown, pump differential pressure, flowrate, and vibration will be recorded per IWP-3200 and IWP-6000.Testing during cold shutdowns will be on a frequency determined by intervals between shutdowns as follows: For intervals of 3 months or longer-each shutdown.For intervals of less than 3 months-testing is not required unless 3 months have passed since the last shutdown test.This alternate testing agrees with the requirements of NRC Generic Letter 89-04, Position 9 and, as such, is considered to be approved upon submittal.

B-5 t~s f~e Mdp 4 1e I a C 1g e\COMPONENTS:

RELIEF REQUEST NO.PR-5 REVISION 2 12/12/89 Boric Acid Makeup (BAM)Pumps lA and 1B (8770-G-078, Sh 121)SECTION XI RE UIREMENT!Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

Pump flowrate shall be measured during the test.(Table IWP-3100-1)

BASIS FOR RELIEF!There are three practical flowpaths available for performing inservice testing of the BAM Pumps.These include the primary flowpath into the charging pump suction header, a recirculation line leading back to the refueling water tank, and the minimum-flow recirculation (mini-recirc and bypass test loop)which returns to-the BAM Tanks.None of these is totally satisfactory for the following reasons: Operating the BAM Pumps discharging into the charging pump suction header requires the introduction of highly concentrated boric acid solution from the boric acid makeup tanks to the suction of the charging pumps.This, in turn, would result in the addition of excess boron to the RCS which would adversely affect plant power level and operational parameters with the potential for an undesirable plant transient and a plant trip or shutdown.During cold shutdown, the introduction of excess quantities of boric acid into the RCS is undesirable from the aspect of maintaining proper plant chemistry an'd the inherent difficulties that may be encountered during the subsequent startup due to over-boration'of the RCS.B-6 REVISION 2 12/12/89 RELIEF REQUEST NO.PR-5 (cont.)*The second circuit that recirculates water to the Refueling Water Tank (RWT)or the Volume Control Tank (VCT).During plant operation at power it is undesirable to pump to the RWT and deplete to BAM Tank inventory.

There are, however, situations where makeup is provided to the VCT from the BAM Tanks;but it is unlikely that the scheduling and duration of this evolution presents a practical opportunity for performing pump testing.*The minimum-flow recirculation flowpath is a fixed resistance circuit containing a flow limiting orifice however no flowrate measuring instrumentation is installed.

ALTERNATE TESTING: During quarterly testing of the BAM pumps while the pumps are operating through the fixed-resistance mini-recirc line, pump differential pressure and vibration will be measured and evaluated per IWP-3200 and IWP-6000.During testing performed at cold shutdown, pump differential pressure, flowrate, and vibration will be recorded per, IWP-3200 and IWP-6000.Testing during cold shutdowns will be on a frequency determined by intervals between shutdowns as follows: For intervals of 3 months or longer-each shutdown.For intervals of less than 3 months-testing is not required unless 3 months have passed since the last shutdown test.This alternate testing agrees with the requirements of NRC.Generic Letter 89-04, Position 9 and, as such, is considered to be approved upon submittal.

B-7 l'lg I REVISION 2 12/12/89 RELIEF REQUEST NO.PR-6 COMPONENTS:

Containment Spray (CS)Pumps 1A and 1B (8770-G-088)

SECTION XI RE UIREMENT: Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

Pump flowrate shall be measured during the test.(Table IWP-3100-1)

BASIS FOR RELIEF: There are two practical flowpaths available for performing inservice testing of the CS pumps.These include one that'umps borated water from the RWT to the RCS via the low-pressure injection header and the, other, minimum-flow recirculation (mini-recirc and bypass test loop)which returns to the RWT The first would require modifying the shutdown cooling lineup while in cold shutdown;however, the shutdown cooling system cannot provide sufficient letdown flow to the RWT to accommodate full design flow from the RWT while maintaining the necessary core cooling function.Thus, the only practical time for testing these pumps via this flowpath is during refueling outages when water from the RWT is used to fill the refueling cavity.The minimum-flow recirculation flowpath is a fixed resistance circuit containing a flow limiting orifice however no flowrate measuring instrumentation is installed.

ALTERNATE ESTING: During quarterly testing of the CS pumps while the pumps are operating through the fixed-resistance mini-recirc line, pump differential pressure and vibration will be measured and evaluated per IWP-3200 and IWP-6000.B-8 ALTERNATE TESTING: REVISION 2 12/12/89 RELIEF REQUEST NO.PR-6 (cont.)During testing performed during each reactor refueling, pump differential pressure, flowrate, and vibration will be recorded per IWP-3200 and IWP-6000.This alternate testing agrees with the requirements of NRC Generic Letter 89-04, Position 9 and, as such, is considered to be approved upon submittal.

B-9 Q'P*>f 4l'ig>>4 REVISION 2 12/12/89 RELIEF REQUEST NO.PR-7 COMPONENTS!

Diesel Fuel Oil Transfer Pumps 1A and 1B SECTION XI RE UIREMENTS!

When measurement of bearing temperature is not required, each pump shall be run at least 5 min under conditions as stable as'the system permits.At the end of this time at least one measurement or observation of each of the quantities specified shall be made and recorded.(IWP-3500(a))

Flow rate shall be measured using a rate or quantity meter installed in the pump test circuit.(IWP-4600)

BASIS FOR RELIEF: The only available test circuit for these pumps consists of the normal day tank fill lines from the diesel oil storage tanks.There is a minimum flow recirculation line however no flow instrumentation installed.

Therefore, the only practical method of determining pump flowrate is by calculating the fill rate of the day tanks.Furthermore, due to the capacity of the fuel oil pumps and the available volume of oil from the low-level pump start point to the high-level setpoint, the runtime for a pump is limited, precluding the Code required 5-minute minimum runtime before taking readings.ALTERNATIVE TESTING: When testing these pumps, the flowrate will be calculated based on the measured change in the diesel fuel oil day tank level over an elapsed period of pump run time.The starting point for taking measurements will be when the system conditions have stabilized.

B-10 REVISION 2 12/12/89 RELIEF REQUEST NO.PR-8 COMPONENTS:

Boric Acid Makeup Pumps 1A and 1B.(8770-G-078, Sh 121 Diesel Fuel Oil Transfer Pumps 1A and 1B (8770-G-086, Sh 1)SECTION XI RE UIREMENTS:

Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1 except bearing temperatures, which shall be measured during at least one inservice test each year.(IWP-3300)

BASIS FOR RELIEF: The system installations do not provide any mechanism for measuring pump suction pressures, and thus, the requirement for measuring suction pressure and pump differential pressures cannot be satisfied.

A measure of pump suction pressure can, however, be determined by calculation using the height of liquid in the boric acid and diesel oil storage tanks.Since there is essentially fixed resistances between the tanks and the pumps this will provide a consistent value for suction pressures.

Since the tank levels are not expected to vary significantly during the tests, tank levels and associated calculations will only be taken once during each test instead of prior to pump operation and during operation as required by Table IWP-3100-1.

ALTERNATE TESTING: The Boric Acid Makeup and Diesel Fuel Oil Transfer Pump suction pressures will be calculated based on the height of liquid in the associated tanks once during each inservice test.Subsequently, these calculated values will be used to determine pump differential pressures for evaluation of pump parameters.

REVISION 2 12/12/89 RELIEF REQUEST NO.PR-9 COMPONENTS:

High Pressure Safety.Injection (HPSI)Pumps 1A thru 1C (8770-G-078, Sh 130)SECTION XI RE UIREMENT: Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

BASIS FOR RELIEF: During quarterly testing of the HPSI Pumps, the pumps cannot develop sufficient discharge pressure to overcome RCS pressure an allow directing flow through the safety injection line flow measuring instrument, thus flow is routed through a minimum flow test line leading to the suction of the pump being tested.This line has no installed flowrate measuring instrumentation and measuring flowrate during quarterly testing is not practical.

During cold shutdown conditions, full flow operation of the HPSI pumps to the RCS is restricted to preclude RCS system pressure transients that could result in exceeding the pressure-temperature limits specified in the Technical Specifications, Section 3.4.9.NRC Generic Letter 89-04, Position 9, allows elimination of minimum flow test line flowrate measurements providing inservice tests are performed during cold shutdowns or refueling under full or substantial flow conditions where pump flowrate is recorded and evaluated.

ALTERNATE TESTING: During quarterly testing of the HPSI Pumps, pump differential pressure and vibration will be recorded per IWP-3200 and IWP-6000.During testing performed at each reactor refueling, pump differential pressure, flowrate, and vibration will be recorded per IWP-3200 and IWP-6000,.

This alternate testing agrees with the guidelines of NRC Generic Letter 89-04, Position 9 and, as such, is considered to be approved upon submittal.

REVISION 2 12/12/89 RELIEF REQUEST NO.PR-10 COMPONENTS:

Low Pressure Safety Injection (LPSI)Pumps 1A and 1B (8770-G-078, Sh 130)SECTION XI RE UIREMENT: Each inservice test.shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

BASIS FOR RELIEF: 'uring quarterly testing of the LPSI Pumps, the pumps cannot develop sufficient discharge pressure to overcome RCS pressure an allow directing flow through the safety injection line flow measuring instrument, thus flow is routed through a minimum flow test line leading to the suction of the pump being tested.This line has no installed flowrate measuring instrumentation and measuring flowrate during quarterly testing is not practical.

NRC Generic Letter 89-04, Position 9, allows elimination of minimum flow test line flowrate measurements providing inservice tests are performed during cold shutdowns or refueling under full or substantial flow conditions where pump flowrate is recorded and evaluated.

ALTERNATE TESTING: During quarterly testing of the LPSI Pumps, pump differential pressure and vibration will be recorded per IWP-3200 and IWP-6000.B-13 REVISION 2 12/12/89 RELIEF REQUEST NO.PR-10 (cont.)ALTERNATE TESTING: During testing performed at cold shutdown, pump differential pressure, flowrate, and vibration will be recorded per IWP-3200 and IWP-6000.Testing during cold shutdowns will be on a frequency determined by intervals between shutdowns as follows: For intervals of 3 months or longer-each shutdown.For intervals of less than 3 months-testing is not required unless 3 months have passed since the last shutdown test.This alternate testing agrees with the requirements of NRC Generic Letter 89-04, Position 9 and, as such, is considered to be approved upon submittal.

B-14 REVISION 2 12/12/89 RELIEF REQUEST NO.PR-11 COMPONENTS:

Intake Cooling Water.Pumps 1A, 1B and 1C SECTION XI RE UIREMENT: Each inservice test shall include the measurement and observation of all quantities in Table IWP-3100-1.(IWP-3300)

Pump inlet pressure shall be measured before starting a pump and during the test.(Table IWP-3100-1)

BASIS FOR RELIEF: The pumps listed above are vertical line shaft pumps submerged in the intake structure with no practical means'of measuring pump inlet pressure.The inlet pressure, however, can be determined by calculation using, as input, the measured height of water above the pump inlet as measured at the intake.During each inservice test,*the water level in the intake pit remains relatively constant, thus only one measurement of level and the associated suction pressure calculation need be performed.

ALTERNATE TESTING: During testing of these pumps, one value of inlet pressure will be calculated based on water level at the inlet structure.

B-15 Appendix C Valve Program Tables wl 4I qw I l t Florida Power&Light Company REVISION: 2 INSERVICE TESTING-VALVE TABLES DATE: 12/12/89 St.Lucie Nuclear Plant-Unit 1 PAGE: 1 LEGEND VALVE NUMBER The plant alpha-numerical designator for the subject valve COORD CL CAT SIZE TYPE A/P ACT.TYPE NORM POS.REM IND FAIL MODE The coordinate location of the valve on the designated drawing The ISI Classification of the valve as per the respective ISI boundary drawings The valve category per Paragraph IWV-2200 The valve's nominal size in inches The valve type The active (A)or passive (P)determination for the valve per IWV-2100.The valve actuato'r type as follows: AO Air-operated MO Electric motor-operated MAN Manual valve PO Piston-operated S/A Self-actuated SO Solenoid-operated Designates the normal position of the valve during plant operation at power Notes if a valve has remote position indication Identifies the failure mode (open or closed)for a valve.FAI indicates the valve fails"as is".  

~~~Forida Power&Light Company REVISION: 2 INSERVICE TESTING-VALVE TABLES DATE: 12/12/89 St.Lucie Nuclear Plant-Unit 1 PAGE: 2 LEGEND Cont.Identifies the test requirements for a valve as follows: CV/C CV/0 CV/PO EC EE EO FS INSP PEC PI SLT-1 SLT-2 SRV Check valve exercise to closed position.Check valve full-stroke exercise to open position.Check valve partial-stroke exercise to open position.Exercise to closed position.For all category A or B power-operated valves stroke times will be measured unless excluded by an associated relief request.Exercise valve to verify proper operation and stroking with no stroke time measurements.

Requires observation of system parameters or local observation of valve operation.

Exercise to open position.For all category A or B power-operated valves stroke times will be measured unless excluded by an associated relief request.Fail safe test Disassembly and inspection of check valves Partial closure exercise for power-operated valves Position indication verification Seat leakrate test per 10 CFR 50, App J Seat leakrate test for pressure isolation valves.Set point check for safety/relief valves  

~~Florida Power&Light Company INSERVICE TESTING-VALVE TABLES St.Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 3 TEST FREQ LEGEND Cont.The required test interval as follows: QR CS 2Y RF SP Quarterly (during plant operation)

Cold shutdown as defined by Technical Specification Every 2 years Each reactor refueling outage (cycle).In the case where this is designated for safety/relief valves refer, to Table IWV-3510-1.

Other (See applicable Request for Relief)RELIEF REQ Refers to the specific relief request associated with the adjacent test requirement.(See Appendix D)  

FLORIDA PSIER AND LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 4 P 8 ID: 3509-0-115 SH 1 SYSTEM: STEAM GEHERATOR BLDHDOMH ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT~SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS FCV-23-3 E-2 2 B 2.000 GATE A AO 0 YES FC EC FS PI QR QR 2Y FCV-23-5 E-3 2 B 2.000 GATE A AO 0 YES FC EC FS PI QR QR 2Y FCV-23-7 E-5 2 B 0.500 GATE A AO C YES FC EC FS PI QR QR 2Y FCV-23-9 E-6 2 B 0.500 GATE A AO C YES FC EC FS PI QR QR 2Y FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE 5 P F ID: 8770-G-078 SH 110 SYSTEH: REACTOR COOLAHT SYSTEH ACT.HORN REH FAIL VALVE HUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND NODE TEST RELIEF EXAH FREQ REQ.REHARKS V-1200 G 6 1 C 6.000 SAFETY A S/A C NO SRV RF V-1201 G-6 1 C 6.000 SAFETY A S/A C NO SRV RF V-1202 G-6 1 C 6.000 SAFETY A S/A C NO SRV RF V-1402 G-8 1 B 2.500 GLOBE A SO C YES FC EO PI CS 2Y V-1403 G-B'I 8 2~500 GATE A HO 0 YES FAI EC PI QR 2Y V-1404 H-8 1 8 2.500 GLOBE A SO C YES FC EO Pl CS 2Y V-1405 H-8 1 8 2.500 GATE A HO 0'ES FAI EC PI QR 2Y V-1441 D-4 2 B 1.000 GLOBE A-SO LC YES FC EO Pl CS 2Y V-1442 D-4 2 8 1.000 GLOBE A SO LC YES FC EO PI CS 2Y V-1443 H-6 2 8 1.000 GLOBE A SO LC YES FC EO PI CS 2Y V-1444 H-6 2 8 1.000 GLOBE A SO LC YES FC EO CS Pl 2Y V-1445 V-1446 F-8 2 8 1.000 GLOBE A SO LC YES FC EO CS Pl 2Y f F-8 2 8 1.000 GLOBE A SO LC YES FC EO CS Pl 2Y V-1449 F-8 2 8 1.000 GLOBE A SO LC YES FC EO PI CS 2Y FLORIDA PONER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Piant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 6 P 8 ID: 8770-G-078 SH 120 SYSTEM: CHEMICAL AND VOLUME CONTROL ACT~NORM REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS MV-02-02 C-7 2 8 2.000 GLOBE A MO 0 YES FAI EO PI CS 2Y SE-02-01 B-8 1 B 2.000 GLOBE A SO 0 QR QR QR 2Y SE-02-02 B-8 1 B 2.000 GLOBE A SO 0 YES FO EC EO QR QR FS QR Pl 2Y SE-02-03 C-B 1 B 2.000 GLOBE A SO LC YES FC EC EO FS PI CS CS CS 2Y SE-02-04 C.8 1 8 2.000 GLOBE A SO CS CS CS 2Y V-2430 8-5 1 C 2.000 CHECK A S/A 0 NO CV/0 QR V-2431 C-8 1 C 2.000 CHECK A S/A C NO CV/0 CS V-2432 8.8 1 C 2.000 CHECK A S/A 0/C NO CV/0 QR V-2433 A-8 1 C 2.000 CHECK A S/A 0/C NO CV/0 QR V-2435 A-7 1 C 2.000 RELIEF A S/A C NO SRV RF V-2515 D-8 1 A 2.000 GLOBE A DO 0 YES FC EC FS PI SLT-1 CS CS 2Y 2Y V-2516 D-7 1 A 2.000 GLOBE A DO 0 CS CS 2Y 2Y l C FLORIDA PONER AHD LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 RSSSSCZ'RR5C P 8 ID: 8770-G-078 SH 121 SYSTEM: CHEMICAL AND VOLUME CONTROL SYSTEM REVISION: 2 DATE: 12/12/89 PAGE: 7 ACT.NORM REM FAIL TEST RELIEF VALVE NUMBER COORS CL CAT.SIZE TYPE A/P TYPE POS.IND MODE EXAM FREQ REQ.REMARKS FCV-2161 B-4 2 B 1.000 GLOBE A DO 0/C YES FC EC QR FS QR PI 2Y SE-01-01 H-6 2 A 0.750 GLOBE A SO 0 YES FC EC CS FS CS Pl 2Y SLT-1 2Y V-02132 G-2 2 C 2.000 CHECK A S/A 0/C HO CV/C QR CV/0 QR V-02133 G-2 2 C 2.000 CHECK A S/A 0/C HO CV/C QR CV/0 QR V-02134 E-2 2 C 2.000 CHECK"A S/A 0/C NO CV/C QR CV/0 QR V-2177 C-4 2 C 3.000 CHECK A S/A C HO CV/0 RF VR-6 V-2190 D-6 2 C 3.000 CHECK A S/A C NO CV/C RF VR-6 CV/0 RF VR-6 V-2191 E-6 2 C 3.000 CHECK A S/A C HO CV/C RF VR-6 CV/0 RF VR-6 V-2324 F-2 2 C 1~500 RELIEF A S/A C HO SRV RF V-2325 V-2326 G-2 2 C 1.500 RELIEF A S/A C HO SRV H.2 2 C 1.500 RELIEF A S/A C HO SRV RF RF V-2426 C-4 2 C 0.500 RELIEF A S/A C NO SRV RF V-2436 B-4 2 C 0.500 RELIEF A S/A C NO SRV RF V-2443 8-4 2 C 3.000 CHECK A S/A 0/C NO , CV/C QR CV/0 RF VR-28 CV/PO QR VR-28 V-2444 B-4 2 C 3.000 CHECK A S/A O/C NO CV/C QR CV/0 RF VR-28 CV/PO QR VR-28 FLORIDA POMER.AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 8 OSSA R 2 2 0 5 5 555 CXROORO ZQC P 8, ID: 8770-G-078 SH 121 (cont)SYSTEH: CNEHICAL AND VOLUHE CONTROL SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT~SIZE TYPE A/P TYPE POS.IND HQOE TEST RELIEF EXAH FREQ REQ.REHARKS V-2501 E-7 2 8 F 000 GATE A HO 0 YES FAI EC CS , PI 2Y V-2504 E-5 3 8 3.000 GATE A HO C YES FAI EC CS EO CS PI 2Y V-2505 N-6 2 A 0.750 GLOBE A DO 0 YES FC EC FS PI SLT-1 CS CS 2Y 2Y V-2508 8-6 2 8 3~000 GATE A HO C YES FAI EO QR PI 2Y V-2509 8-7 2 8 3.000 GATE'A HO C YES FAI EO QR PI 2Y V-2510 8-6 2 8 1.000 GLOBE A DO 0 YES FC EC QR FS QR Pl 2Y V-2511 D-5 2 8 1.000 GLOBE A DO 0 YES FC EC QR FS QR PI 2Y V-2512 E-4 2 8 3.000 GLOBE A DO C YES FC EC QR FS QR PI 2Y V-2514 C-4 2 8 3.000 GATE A HO C YES FAI EO QR Pl 2Y V-2525 E-7 2 8 4.000 GATE A HO 0/C YES FAI EC Pl QR 2Y FLORIDA POMER AND LIGHT CONPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 9 X55 N 5 R5R Z CC5 0SCSC RCSCSR P 8 ID: 8770-G-078 SH 130 SYSTEN: SAFETY INJECTION SYSTEN VALVE NUNBER ACT.HORN REN FAIL COORS CL CAT.SIZE TYPE A/P TYPE POS.IND MODE EXAN TEST RELIEF FREQ REQ.RENARKS FCV-3306 E-4 2 8 10.000 GLOBE A PO LO YES FO Ec Pl QR 2Y HCV-3657 F-4 2 8 12.000 GLOBE A DO LC YES FAI EO Pl QR 2Y MV.03-2 E-4 2 8 10.000 GLOBE A NO LO YES FAI Ec Pl QR 2Y SR-07-1A F-8 2 C 0.750 RELIEF A S/A C NO SRV RF SR-07-1B E-8 2 C 0.750 RELIEF A S/A C NO SRV RF V-07000 F-7 2 C 14.000 CHECK A S/A C NO CV/0 RF VR.7 CV/PO QR VR-7 V-07001 E-7 2 C 14 F 000 CHECK A S/A C NO CV/0 RF VR-7 CV/PO QR VR-7 V-07009 H-2 2, A 2.000 GLOBE P NAN LC NO SLT-1 2Y VR-5 V-3101 D-5 2 C 2.000 CHECK A S/A C NO CV/C CS VR-29 CV/PO 2A VR.29 INSP" RF VR-29 V-3102 D-5 2 C, 2.000 CHECK A S/A C NO CV/C CS VR-29 CV/PO QR VR-29 INSP RF VR-29 V-3103 D-5 2 C 2.000 CHECK A S/A C NO CV/C CS VR-29 CV/PO QR VR-29 INSP RF VR-29 V-3104 E-5 2 C 2.000 CHECK A S/A C NO CV/C CS VR-30 CV/PO QR VR-30 INSP RF VR 30 V-3105 E-5 2 C 2.000 CHECK A S/A C NO CV/C CS VR-30 CV/PO QR VR-30 INSP RF VR-30 V-3106 F-5 2 C 10.000 CHECK A S/A C NO CV/C CS CV/0 CS FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 10 51t52 RECCO 0 0 4 0 0 CS 5 ZRRCCC P 8 ID: 8770-G-078 SH 130 (cont)SYSTEH: SAFETY INJECTION SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HOOE TEST RELIEF EXAH FREQ REQ.REHARKS V-3107 E.5 2 C 10.000 CHECK A S/A C NO CV/C CS CV/0 CS V-3206 F-4 2 B 10.000 GATE P HO LO YES FAI Pl 2Y V-3207 E-4 2 B 10.000 GATE P HO LO YES FAI PI 2Y V-3401 0-7 2 C 6.000 CHECK A S/A C NO CV/0 RF VR-8 CV/PO QR VR-8 V-3405 C-5 2 C 3.000 STP-CK A S/A 0 NO CV/C QR CV/0 RF VR-9 V-3410 8-7 2 C 8.000 CHECK A S/A C NO CV/0 RF VR-8 CV/PO QR VR-8 V-3412 8-3 2 C 0.500 RELIEF A S/A C NO SRV RF V-3414 B-5 2 C F 000 STP-CK A S/A 0 NO CV/C QR CV/0 RF VR-9 V-3417 C-3 2 C F 000 RELIEF A S/A C NO SRV RF V-3427 C-5 2 C 3.000 STP-CK A S/A 0 NO CV/C QR CV/0 RF VR-9 V-3430 D-7 2 C 0.500 RELIEF A S/A C NO SRV RF V-3431 D.6 2 C 0.500 RELIEF A S/A C NO SRV RF V-3432 E-8 2 B 14.000 GATE A HO LO YES FAI EC QR PI 2Y V-3439 0-3 2 C 0.500 RELIEF A S/A C NO SRV RF V-3444 F-8 2 B 14.000 GATE A HO LO YES FAI EC QR Pl 2Y V-3452 G-8 2 B 12.000 GATE A HO LC YES FAI EO PI QR 2Y V-3453 G-8 2 8 12.000 GATE A HO LC YES FAI EO QR Pl 2Y FLORIDA POJER AND LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 11 P S ID: 8770-G-078 SN 130 (cont)SYSTEH: SAFETY INJECTION SYSTEH'CT~NORH REH FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE EXAM TEST RELIEF FREQ REQ.REMARKS V-3456 G-3 2 B 10.000 GATE A HO LC YES FAI EO QR PI 2Y V-3457 0-3 2 B 10.000 GATE A HO LC YES FAI EO PI QR 2Y V-3463 N-2 2 A 2.000 GLOBE P MAX iC NO SLT-1 2Y VR 5 V-3653 B-4 2 B 4.000 GATE A HO LO YES FAI EC EO PI QR QR 2Y V-3654 B-4 2 B 6.000 GATE P HO LO YES FAI Pl 2Y V-3655 C-4 2 B 4~000 GATE A HO LC YES FAI EC EO PI QR QR 2Y V-3656 C-4 2 B 6.000 GATE P HO LO YES FAI PI 2Y V-3659 H-5 2 B 3.000 GATE A HO LO YES FAI EC Pl CS 2Y V-3660 G-5 2 8 3.000 GATE A HO LO YES FAI EC Pl CS 2Y V-3662 D 7 2 8 4.000 GATE A HO C YES FAI EC EO PI QR QR 2Y V-3663 D 7 2 8 4.000 GATE A HO C YES FAI EC EO Pl QR QR 2Y FLORIDA PONER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 12 P&ID: 8770-0-078 SH 131 SYSTEM: SAFETY INJECTION SYSTEM ACT.HORN REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS FCV-03-1E YES FC EC FS Pl SLT-1 8-6 2 A 0.375 NEEDLE A SO C QR QR 2Y 2Y FCV-03-1F YES FC EC FS Pl SLT-1 8-7 2 A 0.375 HEEDLE A SO C QR QR 2Y 2Y HCV-3615 H-7 2 B 6.000 GLOBE A MO C YES FAI EO PI QR 2Y HCV-3616 G-7 2 8 2.000 GLOBE A MO C YES FAI EO PI QR 2Y HCV-3617 G-7 , 2 B 2.000 GLOBE A MO C YES FAI EO Pl QR 2Y HCV-3618 F-6 1 B 1.000 GLOBE A DO C YES FC EC FS PI CS VR-33 CS 2Y HCV-3625 F-7 2 8 6.000 GLOBE A MO C YES FAI EO PI QR 2Y HCV-3626 E-7 2 8 2.000 GLOBE A MO C YES FAI EO Pl QR 2Y HCV-3627 E-7 2,, B 2.000 GLOBE A MO C YES FAI EO Pl QR 2Y HCV-3628 F-3 1 B F 000 GLOBE A DO C YES FC EC FS PI CS VR-33 CS 2Y HCV-3635 D-7 2 8 6.000 GLOBE A MO C YES FAI EO PI'R 2Y HCV-3636 C-7 2 8 2.000 GLOBE A MO C YES FAI EO PI QR 2Y HCV-3637 C-7 2 8 2.000 GLOBE A MO C YES FAI EO PI QR 2Y

FLORIDA POMER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 13 P 8 ID: 8770-G-078 SH 131 (cont)SYSTEM: SAFETY INJECTION SYSTEM ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD MODE TEST RELIEF EXAM FREQ REQ.REMARKS HCV-3638 B-5 1 8 1.000 GLOBE A DO C YES FC EC CS VR-33 FS CS'Pl 2Y HCV-3645 B-7 2 B 6.000 GLOBE A MO C YES FAI EO Pl QR 2Y HCV-3646 II HCV-3647 A-7 2 B 2.000 GLOBE A MO C YES FAI EO Pl A-7 2 B 2.000 GLOBE A MO C YES FAI EO PI QR 2Y QR 2Y HCV-3648 B-3 1 B 1.000 GLOBE A DO C YES FC EC FS PI CS VR-33 CS 2Y MV-03-1A E-7 2 B 2.000 GLOBE A MO LC YES FAI EC EO Pl QR QR 2Y MV-03-1B D-7 2 B 2.000 GLOBE A MO LC YES FAI EC EO Pl QR QR 2Y V-3113 G-7 1 AC 2.000 CHECK A S/A C NO CV/C 2Y VR-10 CV/0 RF VR-10 SLT-2 2Y VR-2 V-3114 H-7 1 AC 6.000 CHECK A S/A C HO CV/C 2Y VR-11 CV/0 CS VR-11 SLT-2 2Y VR-2 V-3123'-7 1 AC 2.000 CHECK A S/A C NO CV/C 2Y VR-10 CV/0 RF VR-10 SLT-2 2Y VR-2 V-3124-F-7 1 AC 6.000 CHECK A S/A C HO CV/C 2Y VR-11 CV/0 CS VR-11 SLT-2 2Y VR-2 V-3133 C-7 1 AC 2.000 CHECK A S/A C HO CV/C 2Y VR-10 CV/0 RF VR-10 SLT-2 2Y VR-2 4"4 FLORIDA PONER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 14 1S>>CSSCNCCS I C5 5 N1 P&ID: 8770-G-078 SH 131 (cont)SYSTEM: SAFETY INJECTION SYSTEM ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT~SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS V-3134 D-7 1 AC 6.000 CHECK A S/A C NO CV/C 2Y VR-11 CV/0 CS VR.11 SLT-2 2Y VR-2 V-3143 8-7 1 AC 2.000 CHECK A S/A C NO CV/C 2Y VR-10 CV/0 RF VR-10 SLT 2 2Y VR-2 V-3144 B-7 1 AC 6.000 CHECK A S/A C NO CV/C 2Y VR-11 CV/0 CS VR-11 SLT-2 2Y VR-2 V-3215 F-5 2 AC 12.000 CHECK A S/A C NO CV/C 2Y VR-12 INSP RF VR 12 SLT-2 2Y VR-2 V-3217 F.4 1 AC 12.000 CHECK A S/A C NO CV/C CV/PO INSP SLT-2 2Y VR-13 CS VR-13 RF VR-13 2Y VR-2 V-3225 F-2 2 AC 12.000 CHECK A S/A C NO CV/C 2Y VR-12 INSP RF VR-12 SLT-2 2Y VR-2 V-3227 F-2 1 AC 12.000 CHECK A S/A C NO CV/C CV/PO INSP SLT-2 2Y VR.13 CS VR-13 RF VR-13 2Y VR-2 V-3235 8-5 2 AC 12.000 CHECK A S/A C NO CV/C 2Y VR-12 INSP RF VR-12 SLT.2 2Y VR-2 V-3237 8-4 1 AC 12.000 CHECK A S/A C NO CV/C CV/PO INSP SLT-2 2Y VR-13 CS VR-13 RF VR-13 2Y VR-2 V-3245 C-2 2 AC 12.000 CHECK A S/A C NO CV/C 2Y VR-12 INSP RF VR-12 SLT-2 2Y VR-2 FLORIDA POMER AHD LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 15 P 8, ID: 8770-G-078 SH 131 (cont)SYSTEH: SAFETY INJECTION SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT.SIZP TYPE A/P TYPE POS.IND HODE TEST RELIEF EXAH FREQ REQ.REHARKS V-3247 8-1 1 AC 12.000 CHECK A S/A C HO CV/C CV/PO IHSP SLT-2 2Y VR-13 CS VR-13 RF VR-13 2Y VR-2 V-3468 D.7 2 C 2~000 RELIEF A S/A C NO SRV RF V-3469 E-4 2 C 1.000 RELIEF A S/A C NO SRV RF~V-3480 E-5 1 A'0.000 GATE A HO LC YES FAI EO CS PI 2Y SLT-2 2Y VR-2 V-3481 E-5 1 A 10.000 GATE A HO LC YES FAI EO CS Pl 2Y SLT-2 2Y VR-2 V-3482 E-5 2 C 1.000 RELIEF A S/A C NO SRV RF V-3483 E-6 2 C 2.000 RELIEF A S/A C HO SRV RF V-3614 F-5 2 8 12.000 GATE A HO LO YES FAI EC CS PI 2Y V-3624 F-2 2 8 12.000 GATE A HO LO YES FAI EC CS Pl 2Y V-3634 8.5 2 8 12.000 GATE A HO LO YES FAI EC PI CS 2Y V-3644 8-2 2 8 12.000 GATE A HO LO YES FAI EC CS Pl 2Y V-3651 D-4 1 A 10.000 GATE A HO LC YES FAI EO CS Pl 2Y SLT-2 2Y VR-2 V-3652 0-4 1 A 10.000 GATE A HO LC YES FAI EO CS Pl 2Y SLT-2 2Y VR-2 FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 16 P&ID: 8770-G-078 SH 150 SYSTEH: SAHPLING SYSTEH ACT.NORH REH FAlL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS~IND HODE TEST RELIEF EXAH FREQ REQ~REHARKS V-5200 G.7 2 A 0.375 GLOBE A 00 C YES FC EC QR FS QR Pl 2Y SLT-1 2Y V-5201 YES FC EC FS Pl SLT-1 F-7 2 A 0.375 GLOBE A 00 C QR QR 2Y 2Y'-5202 E-7 2 A 0.375 GLOBE A DO C YES FC EC FS PI SLT-1 QR QR 2Y 2Y V-5203 YES FC EC FS PI SLT-1 G-7 2 A 0.375 GLOBE A DO C QR QR 2Y 2Y V-5204 F-7 2 A 0.375 GLOBE A DO C YES FC EC QR FS QR PI 2Y SLT.1 2Y V-5205 E-7 2 A-0.375 GLOBE A DO C QR QR 2Y 2Y FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 XROCViSIRC C01SS P~SISQSISS0550SS REVISION: 2 DATE: 12/12/89 PAGE: 17 P 5 ID: 8770-G-078 SN 160 SYSTEH: lJASTE HANAGEHENT SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HODE TEST RELIEF EXAH FREQ REQ.REHARKS V-6301 YES FC EC FS Pl SLT.1 F-6 2 A 3.000 DIAPN A DO 0 QR QR 2Y 2Y V-6302 F-6 2 A 3.000 DIAPN A DO 0 QR QR 2Y 2Y FLORIDA POWER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE': 12/12/89 PAGE: 18 P S ID: 8770-0-078 SH 163 SYSTEM: WASTE MANAGEMENT SYSTEM ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT.SI2g TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS V-6554 F-7 2 A 1.000 DIAPH A DO 0 YES FC EC QR FS QR PI 2Y SLT-1 2Y V-6555 F-7 2 A 1 F 000 DIAPH A DO 0 YES FC EC" QR FS QR PI 2Y SLT-1 2Y V-6741 D-7 2 A 1.000 GLOBE A DO, 0/C YES FC EC FS PI SLT-1 QR QR 2Y 2Y V-6779 0-7 2 A 1 F 000 CHECK A S/A 0/C NO CV/C QR SLT-1 2Y

FLORIDA POMER AHD LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant.Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 19 P 8 ID: 8770-G-079 SH 1 SYSTEM: MAIN STEAM SYSTEM 5505CXOCRC 0 R5C 55 XII ACT.HORN REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS HCV-08-1A K-12 2 BC 34.000 STPCK A AO 0 YES EC PEC PI CS 2Y HCV-08-18 C-12 2 BC 34.000 STPCK A AO 0 YES EC PEC Pl CS QR 2Y HCV-08-2A J-10 2 B 8.000 GLOBE A AO C YES FC EC EO FS PI QR QR QR 2Y HCV-08.28 C-10 2 8 8.000 GLOBE A AO C YES FC EC EO FS Pl QR QR QR 2Y MV.08.03 M-10 2 B 4.000 GATE A MO C YES FAI EO PI QR 2Y MV-08.13 H-9 2 B 3.000,GATE A MO C YES FAI EO Pl QR 2Y MV-08-14 E-9 2 B 3.000 GATE A'MO C YES FAI EO QR Pl 2Y MV-08-1A K-12 2 8 3~000 GATE A MO C YES FAI EC CS Pl 2Y MV.08-18 0-11 2 8 3.000 GATE A MO C YES FAI EC PI CS 2Y V.08117 K.12 2 C 34.000 CHECK A S/A 0 NO CV/C RF VR.14 V-08130 G-9 2 C 4.000 CHECK A S/A 0 HO CV/0 CS CV/PO QR V-08131 G-9 2 8 F 000 GATE A MAH 0 NO EC QR V-08148 C-12 2 C 34.000 CHECK A S/A 0 NO CV/C RF VR-14 V-08163 E-9 2 C 4.000 CHECK A S/A C HO CV/0 CS CV/PO QR I f!1 FLORIDA POMER AHD LIGHT CONPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISIOH: 2 DATE: 12/12/89 PAGE: 20 P 8 ID: 8770-G-079 SH 1 (cont)SYSTEN: HAIN STEAN SYSTEN ACT.HORN REN FAIL VALVE HUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD NODE TEST RELIEF EXAN FREQ REQ.REHARKS V-08164 F-9 2 B 4.000 GATE A HAH 0 HO EC QR V-08448 E-9 2 C 4.000 CHECK A S/A C NO CV/C CS CV/0 CS CV/PO QR V-08492 J-9 2 C 4.000 CHECK A S/A C HO CV/C CS CV/0 CS CV/PO QR t V-8201 K-11 2 C 6.000 RELIEF A S/A C NO SRV RF V-8202 K-11 2 C 6.000 RELIEF A S/A C NO SRV RF V-8203 K-11 2 C 6.000 RELIEF A S/A C HO SRV RF V-8204 K-'11 2 C 6.000 RELIEF A S/A C HO SRV.RF V-8205 C-11 2 C 6.000 RELIEF A S/A C HO SRV RF V-8206 C-11 2 C 6.000 RELIEF A S/A C NO SRV RF V-8207 V-8208 C-11 2 C 6.000 RELIEF A S/A C HO SRV C-11 2 C 6.000 RELIEF A S/A C NO SRV RF RF V-8209 K-11 2 C 6.000 RELIEF A S/A C NO SRV RF V-8210 K-11 2 C 6.000 RELIEF A S/A C HO SRV RF V-8211 K 11 2 C 6.000 RELIEF A S/A C HO SRV RF V-8212 K-11 2 C 6.000 RELIEF A S/A C HO SRV RF V-8213 C-11 2 C 6.000 RELIEF A S/A C NO SRV RF V-8214 V-8215 C-11 2 C 6.000 RELIEF A S/A C NO SRV C-11 2 C 6.000 RELIEFA S/A C NO SRV RF RF V-8216 C-11 2 C 6.000 RELIEF A S/A C NO SRV RF 4 I'I Ca FLORIDA PONER AND LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 P 8 ID: 8770-G-080 SH 3 CRC 5 2 55 I5C5R55N SYSTEM: FEEDWATER SYSTEM REVISION: 2 DATE: 12/12/89 PAGE: 21 VALVE NUMBER COORD.CL CAT.SIZE ACT.NORM REM FAIL TEST RELIEF TYPE A/P TYPE POS.IND MODE EXAM FREQ REQ.REMARKS MV-09-07 E-6 2 8 20 F 000 GATE A MO 0 YES FAI EC Pl CS 2Y MV-09-08 E-11 2 B 20.000 GATE A MO 0 YES FAI EC PI CS 2Y MV-09-09 E-1 3 B 4.000 GLOBE A MO C YES FAI EC, QR EO QR PI 2Y MV-09-10 E-16 3 8 4.000 GLOBE A MO C YES FAI EC QR EO QR Pl 2Y MV-09-11 E-4 3 8 4.000 GLOBE A MO'YES FAI EC QR EO QR PI 2Y MV-09-12 E-13 3 8 4~000 GLOBE A MO C YES FAI EC EO Pl QR QR 2Y MV-09-13 K-2 3 8 2.500 GLOBE A MO C YES FAI EO Pl QR 2Y MV-09-14 M-2 3 B 2.500 GLOBE A MO C YES FAI EO QR Pl 2Y V-09248 E-6 2 C 20.000 CHECK A S/A 0 NO CV/C CS V-09280 E.11 2 C 20.000 CHECK A S/A 0 NO CV/C CS V-12174 K-'11 3 C 8.000 CHECK A S/A C NO CV/0 CS CV/PO QR V-12176 K-11 3 C 8.000 CHECK A S/A C NO CV/0 CS CV/PO QR V-12507 M-9 2 C 0'50 CHECK A S/A C NO CV/PO QR VR-31 INSP RF VR-31 V-9107 M-4 3 C 4.000 CHECK A S/A C NO CV/C CS CV/0 CS'V-9119 D-1 2 C 4.000 CHECK A S/A C NO CV/0 CS FLORIDA PSIER AHD LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 22 P II ID: 8770-0.080 SH 3 (cont)SYSTEM: FEEDllATER SYSTEM ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD MODE TEST RELIEF EXAM FREQ REQ.REMARKS V-9123 K-4 3 C 4.000 CHECK A S/A C HO CV/C CS CV/0 CS V-9135 V-9139 V-9151 D-16 2 C 4.000 CHECK A S/A C NO CV/0 H-4 3 C 6.000'CHECK A S/A C-NO CV/0 E-4 2 C F 000 CHECK A S/A C NO CV/0 CS CS CS V-9157 1 E-13 2 C 4.000 CHECK A S/A C NO CV/0 CS V-9252 V-9294 A-6 2 C 18.000 CHECK A S/A 0 NO CV/0 A-11 2 C 18.000 CHECK A S/A 0 HO CV/0 QR QR V-9303 1-4 3 C 2.000 CHECK A S/A C NO CV/PO QR VR-31 IHSP RF VR-31 V-9304 L.4 3 C 2.000 CHECK A S/A C NO CV/PO QR VR-31 IHSP RF VR.31 V-9305 H-4 3 C 2.000 CHECK A S/A C XO CV/PO QR VR-31 IHSP RF VR.31 FLORIDA POMER AND LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 23 P&ID: 8770-G-082 SH 1 SYSTEM: INTAKE COOLING NATER SYSTEM ACT.NORM REM FAIL.TEST RELIEF VALVE NUMBER COORS CL CAT~SIZE TYPE A/P TYPE POS.IND MODE EXAM FREQ REQ.REMARKS MV-21-2 E-5 3 8 24.000 BUTFLY A MO 0 YES FAI EC CS PI 2Y MV-21-3 F-4 3 8 24.000 BUTFLY A MO 0 YES FAI EC PI CS 2Y S8-21165 F-5 3 8 36.000 BUTFLY A MAH 0/C NO EC EO QR QR S8-21211 F-6 3 8 36.000 BUTFLY A MAN 0/C NO EC EO QR OR TCV-14-4A 8-3 3 8 30.000 BUTFLY A PO 0 NO FO EE FS CS VR-35 CS TCV-14-48 8-3 3 8 30.000 BUTFLY A PO 0 NO FO EE FS CS VR-35 CS V-21162 H-4 3 C 30.000 CHECK A S/A 0/C NO CV/C QR CV/0 QR V-21205 H-S 3 C 30.000 CHECK A S/A 0/C NO CV/C QR CV/0 QR V-21208 H-7 3 C 30.000 CHECK A S/A 0/C NO CV/C OR CV/0 OR It,~kl*1 FLORIDA POMER AND LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 24 P II ID: 8770-G-082 SH 2 SYSTEM: INTAKE COOLING HATER SYSTEM ACT.HORN REM FAIL VALVE NUMBER COORS CL CAT.SIZP TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS FCV-21-3A I-4 3 8 F 000 GLOBE A PO 0 NO FC EC QR FS QR FCV-21-38 1-4 3 8 2.000 GLOBE A PO 0 HO FC EC QR FS QR V-21005 H-3 3 C 2.000 CHECK A S/A C NO CV/C QR CV/0 QR V-21010 H-4 3 C 2.000 CHECK A S/A C HO CV/C QR CV/0 QR V-21015 V-21017 J-4 3 C 2.000 CHECK A S/A C HO.CV/C QR J-4 3 C 2.000 CHECK A S/A C NO CV/C QR V-21030 8-15 3 C 1.000 CHECK A S/A 0 HO CV/0 QR V-21032 V-21044 V-21046 8 15 3 C 1.000 CHECK A S/A 0 HO CV/0 QR 8-15 3 C 1.000 CHECK A S/A 0 NO CV/0 QR 8-16 3 C 1.000 CHECK A S/A 0 NO CV/0 QR V-21058 8-16 3 C 1.000 CHECK A S/A 0 HO CV/0 QR V-21060 8-16 3 C 1.000 CHECK A S/A 0 HO CV/0 QR FLORIDA POWER AHD LIGHT CONPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 25 P 8 ID: 8770.G.083 SYSTEN: COMPONENT COOLING SYSTEN SORCORSCRR iCCZC I CC SR CCRC 1 RC1C10lSICC ACT.HORN REN FAIL VALVE NUNBER COORD.CL CAT.SI2E TYPE A/P TYPE POS.IHD NODE TEST RELIEF EXAN FREQ REQ.REHARKS HCV-14.1 D-6 2 A 8.000 BUTFLY A PO 0 YES FC EC FS PI SLT-1 CS CS 2Y 2Y VR-5 HCV-14-10 H-15 3 B 16.000 BUTFLY A PO 0 YES FC EC FS Pl QR QR 2Y)HCV-14-2 D-2 2 A 8.000 BUTFLY A PO 0 YES FC EC FS PI SLT-1 CS CS 2Y 2Y VR.5 HCV-14-3A N-3 3 8 14.000 BUTFLY A PO 0 YES FO EO FS Pl CS CS 2Y HCV-14-3B H-3 3 B 14.000 BUTFLY A PO 0 YES FO EO CS FS CS Pl 2Y HCV-14-6 D-1 2 A 8.000 BUTFLY A PO 0 YES FC EC FS PI SLT.1 CS CS 2Y 2Y VR-5 HCV.14.7 D-5 2 A 8.000 BUTFLY A PO 0 YES FC EC FS PI SLT-1 CS CS 2Y 2Y VR-5 HCV-14-BA F-14 3 8 16.000 BUTFLY A PO 0 YES FC EC FS Pl QR QR 2Y HCV-14.88 F-15 3 B 16.000 BUTFLY A PO 0 YES FC EC QR FS QR , Pl 2Y HCV-14-9 G-15 3 8 16.000 BUTFLY A PO 0 YES FC EC QR FS QR PI 2Y FLORIDA PCMER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 26 P&ID: 8770-G.083 (cont)SYSTEM: COMPONENT COOLING SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE TEST RELIEF EXAM FREQ REQ.REMARKS HV-14-1 D-16 3 8 24 F 000 BUTFLY A HO 0/C YES FAI EC EO PI QR QR 2Y MV-14-2 0-17 3 8 24.000 BUTFLY A HO 0/C YES FAI EC EO Pl QR QR 2Y MV-14-3 0-16 3 8 24.000 BUTFLY A HO 0/C YES FAI EC EO Pl QR QR 2Y HV-14-4 G-17 3 8 24~000 BUTFLY A HO 0/C YES FAI EC EO Pl QR QR 2Y MV-14-5 G-7 3 8 10.000 BUTFLY A HO 0 YES FAI EO Pl CS 2Y HV-14-6 G-7 3 8 10.000 BUTFLY A HO 0 YES FAI EO CS Pl 2Y MV-14-7 G-7 3 8 10.000 BUTFLY A HO 0 YES FAI EO CS PI 2Y HV-14-8 0-7 3 8 10.000 BUTFLY A HO'YES FAI EO PI CS 2Y S8-14156 C.17 2 8 24 F 000 BUTFLY A HAN LO NO EC EO QR QR S8-14160 0-17 2 8 24.000 BUTFLY A MAN LO NO EC EO QR QR SB-'l4166 8-15 2 8 24.000 BUTFLY A HAN LO NO EC QR EO QR S8-14167 8-15 2 8 24.000 BUTFLY A HAN LO NO EC QR EO QR S8-14169 8-15 2 8 24.000 BUTFLY A HAN LC NO EC QR EO QR S8-14177 C-15 2 8 24.000 BUTFLY A MAN LO NO EC EO QR FLORIDA POWER AND LIGHT CONPAHY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 27 P 8 ID: 8770-G-083 (cont)SYSTEN: CONPOHEHT COOLING WATER SYSTEH ACT.HORN REN FAIL VALVE HUNBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND NODE TEST RELIEF EXAN FREQ REQ.REHARKS SB-14178 D.15 2 B 24.000 BUTFLY A NAN LO HO EC EO QR QR SB-14439 C-15 2 8 24.000 BUTFLY A NAN C NO.EC EO QR QR V-14143 E-16 3 C 20.000 CHECK A S/A 0/C HO CV/C CV/0 QR QR V-14147 E-16 3 C 20.000 CHECK A S/A 0/C HO CV/C QR CV/0 QR V-14151 E-'17 3 C 20.000 CHECK A S/A 0/C HO CV/C QR CV/0 QR FLORIDA POWER AND LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 28 P 8 ID: 8770-G-084 SN 1 SYSTEH: HAKE-UP MATER SYSTEH ACT.NORH REH FAIL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HODE TEST RELIEF EXAH FREQ REQ.REHARKS HV-15-1 N-16 2 A 2.000 GATE A HO C YES FAI EC DR PI 2Y SLT.1 2Y V-15328 I-16 2 AC 2.000 CHECK A S/A C NO CV/C 2Y VR-15 SLT-1 2Y FLORIDA PINER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 29 P 8 ID: 8770-G-085 SH 1 SYSTEH: SERVICE AIR SYSTEH C 5'5 CCRCSCCCCS1ZE ZZ ACT.NORH REH FAlL VALVE NUMBER COORD.CL CAT.SI2E TYPE A/P TYPE POS.IND HOOE TEST RELIEF EXAM FREQ REQ.REMARKS V-18794 G-6 2 A 2.000 GLOBE P HAN LC NO SLT-1 2Y vr-5 V-18796 G-6 2 A 2.000 GLOBE P MAN LC NO SLT-1 2Y VR-5 V-18797 G-6 2 A 1.000 BALL P HAN LC NO SLT-1 2Y V-18798 G-6 2 A 1.000 BALL P HAN LC NO SLT-1 2Y

FLORIDA PONER AND LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 30 15~XHS I R5>>I 1C S<<CSCI1501COCCC P 8 ID: 8770-G.085 SN 2 SYSTEH: INSTRUHENT AIR SYSTEH ACT.NORH REH FAlL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HODE TEST RELIEF EXAH FREQ REQ.REHARKS HV-18-1 F-6 2 A 2.000 GLOBE A HO 0 YES FAI EC CS Pl 2Y SLT-1 2Y V-18195 E-5 2 AC 2.000 CHECK A S/A 0 NO CV/C 2Y VR-16 SLT-1 2Y V-18279 N-1 2 C 0.500 CHECK A S/A 0 NO CV/C CS V-18283 G-2 2 C 0.500 CHECK A S/A 0 NO CV/C CS FLORIDA PRIER AND LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 31 P&ID: 8770-6-086 SYSTEH: HISCELLANEOUS SYSTEHS ACT.NORH REH FAIL TEST RELIEF VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HODE EXAM FREQ REQ.REMARKS V-17204 V-17214 J-12 3 C 1~500 CHECK A S/A C NO L.12 3 C 1.500 CHECK A S/A C NO CV/0 CV/0 QR QR FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 32 P&ID: 8770-G-088 SYSTEH: CONTAINHENT SPRAY SYSTEH ACT.NORH REH FAlL VALVE NUHBER COORS CL CAT.SIZE TYPE A/P TYPE POS.IND HODE EXAM TEST RELIEF FREQ REQ.REHARKS FCV-07-1A G-12 2 8 12.000 GLOBE A DO C YES FO EO FS Pl QR QR 2Y FCV-07-18 N-12 2 8 12.000 GLOBE A DO C YES FO EO FS Pl QR QR 2Y LCV-07-11A J.11 2 A 2.000 GLOBE A DO 0/C YES FC EC FS PI SLT-1 QR QR 2Y 2Y VR-5 LCV-07-118 J-12 2 A 2.000 GLOBE A DO 0/C YES FC EC FS Pl SLT 1 QR QR 2Y 2Y VR-5 MV-07-1A E-3 2 8 24.000 BUTFLY A HO 0 YES FAI EC Pl QR 2Y HV-07-18 E-2 2 8 24.000 BUTFLY A HO 0 YES FAI EC Pl QR 2Y HV-07-2A K-12 2 8 24~000 BU'TFLY A HO C YES FAI EO CS Pl 2Y MV-07-28 K-12 2 8 24.000 BUTFLY A HO C YES FAI EO~CS Pl 2Y HV-07-3A G-13 2 8 12.000 GATE A HO LO YES FAI EC QR PI 2Y HV-07-38 N-13 2 8 12~000 GATE A HO LO YES FAI EC Pl QR 2Y SE-07-1A N-4 2 8 2.000 GLOBE A SO C YES FC EC EO FS Pl QR QR QR 2Y SE-07-18 N-5 2 8 2.000 GLOBE A SO C YES FC EC EO FS PI QR QR QR 2Y FLORIDA POWDER AND LIGHT COMPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 33 P 8 ID: 8770-G-088 (cont)SYSTEM: COHTAIHMEHT SPRAY SYSTEM ACT.NORM REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD MODE TEST RELIEF EXAM FREQ REQ.REMARKS SE-07-2A H-4 2 8 2.000 GLOBE A SO C YES FC EC EO FS PI QR QR 2Y SE-07-28 H-5, 2 8 2.000 GLOBE A SO C YES FC EC EO FS PI QR QR QR 2Y V-07119 J-7 2 C 24.000 CHECK A S/A C NO CV/PO QR VR-17 IHSP RF VR-17 V-07120 J-7 2 C 24.000 CHECK A S/A C HO CV/PO QR VR-17 INSP RF VR.17 V-07129 H-5 2 C 12.000 CHECK A S/A C NO CV/0 RF VR-18 CV/PO QR VR-18 V-07143 G.5 2 C 12.000 CHECK A S/A C NO CV/0 RF VR-18 CV/PO QR VR-18 V-07170 J-12 2 A 3.000 GATE P MAH LC HO SLT-1 2Y VR-5 V-07172 K.12 2 C 24 F 000 CHECK A S/A C HO IHSP RF VR-19 V-07174 K-12 2 C 24.000 CHECK A S/A C HO IHSP RF VR-19 V-07188 I-14 2 A 3.000 GATE P MAN LC HO SLT-1 2Y VR-5 V-07189 I-14 2 A 3.000 GATE P MAN LC HO SLT-1 2Y VR-5 V-07192 G-14 2 C 10.000 CHECK A S/A C HO IHSP RF VR.20 V-07193 F-14 2 C 10.000 CHECK A S/A C NO INSP RF VR.20 V-07206 1-12 2 A 3.000 GATE P MAH LC NO SLT-1 2Y VR-5 V-07231 K-5 2 C 2.000 CHECK A S/A C HO CV/0 QR V-07232 K-4 2 C 2.000 CHECK A S/A C NO CV/0 QR V-07256 J-1 2 C 2.000 CHECK A S/A C NO CV/C RF VR-21 CV/0 RF VR-21 FLORIDA P(QER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89'AGE: 34 P 8 ID: 8770-G-088

'cont)SYSTEM: COHTAINNEHT SPRAY SYSTEM ACT.NORM REM FAIL TEST RELIEF VALVE NUMBER COORS CL CAT.SIZE TYPE A/P TYPE POS.IHD MODE EXAM FREQ REQ.REMARKS l V-07258 J-2 2 C 2.000 CHECK A S/A C NO CV/C RF VR-21 CV/0 RF VR-21 V-07269 J-2 2 C 3.000 CHECK A S/A C HO CV/PO QR VR-22 IHSP RF VR-22 V-07270 K-2 2 C 3.000 CHECK A S/A C HO CV/PO QR VR-22 INSP RF VR-22 FLORIDA PSIER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear PLant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 35 P 8 ID: 8770-G-092 SYSTEH: HISCELLANEOUS SAHPLING SYSTEHS ACT.NORH REH FAlL VALVE NUMBER, COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE EXAH TEST RELIEF FREQ REQ.REMARKS FCV-26-1 G-2 2 A 1.000 GLOBE A DO 0 QR QR 2Y 2Y FCV-26-2 G-4 2 A 1.000 GLOBE A DO 0 QR QR 2Y 2Y'CV-26-3 H-2 2 A 1.000 GLOBE A 00 C QR QR 2Y 2Y FCV-26-4 H-4 2 A 1.000 GLOBE A DO 0 OR QR 2Y 2Y FCV-26-5 I-2 2 A 1 F 000 GLOBE A DO 0 QR QR 2Y 2Y FCV-26-6 I-4 2 A, 1.000 GLOBE A 00 0 QR QR 2Y 2Y FSE-27-1 A-12 2 A 0.375 GLOBE A SO C QR QR QR 2Y 2Y FSE-27-10 C-13 2 A 0.375 GLOBE A SO C QR QR QR 2Y 2Y

FLORIDA POMER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 36 P 8 ID: 8770-G-092 (cont)SYSTEH: HISCELLANEOUS SAHPLING SYSTEHS ACT.NORH REH FAlL VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND HODE TEST RELIEF EXAH FREQ REQ.REHARKS FSE-27-11 C-13 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FSE-27-2 8-12 2 A 0.375 GLOBE A SO C YES FC EC QR EO QR FS QR PI 2Y SLT-1 2Y FSE-27-3 B-12 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FSE-27-4 B-12 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FSE-27-5 C-14 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FSE-27-6 8-14 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FSE-27-7 8-14 2 A 0.375 GLOBE A SO C YES FC EC EO FS Pl SLT-1 QR QR QR 2Y 2Y FLORIDA POWER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 37 P F ID: 8770-G-092

<cont)SYSTEM: MISCELLANEOUS SAHPLING SYSTEHS ACT.NORM REM FAIL TEST RELIEF VALVE NUMBER COORD.CL CAT~SIZE TYPE A/P TYPE POS.IND HOOE EXAM FREQ REQ.REMARKS FSE-27-8 C-11 2 A 0.375 GLOBE A SO C YES FC EC EO FS PI SLT-1 QR QR QR 2Y 2Y FSE-27-9 C-14 2 A 0.375 GLOBE A SO C YES FC EC QR EO QR FS QR PI 2Y SLT-1 2Y V-27101 8-13 2 AC 0.375 CHECK A S/A C NO CV/C CV/0 SLT-1 RF VR-32 QR 2Y V-27102 B-13 2 AC 0.375 CHECK A S/A C HO CV/C RF VR 32 CV/0 QR SLT-1 2Y V-27105 E-13 2 C 0.375 CHECK A S/A C NO CV/0 QR V-27110 E-13 2 C 0.375 CHECK A S/A C NO CV/0 QR V-29305 D-8 2 C 0.375 CHECK A S/A HO CV/C CV/0 QR VR-24 QR V-29306 D-8 2 C 0.375 CHECK A S/A HO CV/C QR VR.24 QR CV/0 C>>'

FLORIDA POWER AND LIGHT COHPANY VALVE TABLES Saint Lucia Nuclear Plant,-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 38 IRRR CCRS 0 5 0 0 i5l 0 5515555$0 5C 5 51%50NCCtSC C1 I SRCCV P 8 ID: 8770-G-093 SYSTEH: HISCELLANEOUS SYSTEHS ACT~NORH REH FAlL TEST RELIEF VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND NODE EXAH FREQ REQ.REHARKS SB-37-1 J-11 3 8 54 F 000 BUTFLY A AO C YES FO EO SP, VR-25 FS SP VR-25 PI 2Y SB-37-2 J-12 3 8 54.000 BUTFLY A AO C YES FO EO SP VR-25 FS SP VR 25 Pl 2Y V-00101 F-11 2 A 8.000 GATE P HAN LC NO SLT-1 2Y V-00139 l-1 2 A 0.375 GLOBE P HAN LC NO SLT-1 2Y VR-5 V-00140 I-1 2 A F 000 GLOBE P HAX LC NO SLT-1 2Y VR-5 V-00143 I-2 2 A 1.000 GLOBE P HAN LC NO SLT-1 2Y VR-5 V-00144 I-2 2 A 0.375 GLOBE P HAN LC NO SLT-1 2Y VR-5 FLORIDA PONER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Piant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 39 P&ID: 8770-G-096 SH 1 SYSTEM: EMERGENCY DIESEL GENERATOR 1A SCCSC50CR 5t ACT~NORM REM FAIL VALVE NUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD MODE TEST RELIEF EXAM FREQ REQ.REMARKS FCV-59-1A1 K-5 3 8 1.500 GATE A AO C HO EO QR VR 27 FCV-59-2Al K.2 3 8 1.500 GATE A AO C NO EO QR VR-27 FCV-59-3A1 G-9 3 8 1'00 GATE A AO C HO EO QR VR-27 FCV.59.4A1 B 10 3 8 1.500 GATE A AO C HO EO QR VR-27 SE-59-1A L-1 3 8 2.000 GLOBE A SO C NO FC EE QR VR-26 FS QR SE-59-3A I-6 3 8 1.500 GATE A SO C NO EO QR VR-27 SE-59-4A A-8 3 8 1.500 GATE A SO C NO EO QR VR-27 SE-59-5A I-3 3 8 1.500 GATE'A SO C HO EO QR VR-27 SE-59-6A H 8 3 B 1.500 GATE A AO C NO EO QR VR-27 SR-59-3A J-12 3 C 0.000 RELIEF A S/A C NO SRV RF SR-59-4A J-11 3 C 0.000 RELIEF A S/A C HO SRV RF SR-59-SA J-9 3 C 0.000 RELIEF A S/A C NO SRV RF SR-59-6A J-8 3 C-0.000 RELIEF A S/A C HO SRV RF V-59079 J-14 3 C 1.000 CHECK A S/A C HO CV/C QR V-59156 K-14 3 C 1.000 CHECK A S/A C NO CV/C QR

FLORIDA POWER AND LIGHT COMPAHY VALVE TABLES Saint Lucia Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 40 55155 SSQSOSC 155 5 505$510>>ROC P II ID: 8770-G-096 SH 2 SYSTEM: EMERGEHCY DIESEL GENERATOR 18 ACT~HORN REM FAIL TEST RELIEF VALVE HUMBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IND MODE EXAM FREQ REQ.REMARKS FCV-59-181 M-9 3 8 1'00 GATE A AO C HO EO QR VR-27 FCV-59-281 8-9 3 8 1.500 GATE A AO C NO EO QR VR-27 FCV-59-381 J-5 3 8'1.500 GATE A AO C HO EO QR VR-27 FCV 59-481 J-2 3 8 1.500 GATE A AO C HO EO QR VR-27 SE.59.18 L-1 3 8 2.000 GLOBE A SO C HO FC EE FS QR VR.26 QR SE-59-38 I-3 3 8 1.500 GATE A SO C NO EO QR VR-27 SE-59.48 A-8 3 8 1.500 GATE A SO C HO EO QR VR-27 SE.59.58 ,1-6 3 8 1~500 GATE.A SO C HO EO QR VR-27 SE-59-68 M-8 3 8 1.500 GATE A SO C HO EO QR VR-27 SR-59-38 J-12 3 C 0.000 RELIEF A 8/A C NO SRV RF SR-59-48 J-11 3 C, 0.000 RELIEF A S/A C NO SRV RF SR-59-58 J-9 3 C 0.000 RELIEF A S/A C HO , SRV RF SR-59-68 J-8 3 C 0.000 RELIEF A S/A C NO SRV RF V-59125 J-14 3 C 1.000 CHECK A S/A C HO CV/C QR V-59158 K-14 3 C 1.000 CHECK A S/A C HO CV/C QR S'ai 4!

FLORIDA PRIER AND LIGHT CONPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 REVISION: 2 DATE: 12/12/89 PAGE: 41 P&ID: 8770-G-878 SYSTEN: HEATING, VENT.,&AIR COHDITIONIHG

---ACT.HORN REN FAlL TEST RELIEF VALVE HUHBER COORD.CL CAT~SIZE TYPE A/P TYPE POS.IND NODE EXAH FREQ REQ.RENARKS FCV-25-1 J-15 2 8 48.000 BUTFLY A PO C YES FC EC CS FS CS PI 2Y FCV-25-2 J-15 2 A 48.000 BUTFLY A PO C YES FC EC FS Pl SLT.1 CS CS 2Y 2Y VR-5 FCV-25-3 J-15 2 A 48.000 BUTFLY A PO C YES FC EC FS PI SLT-1 CS CS 2Y 2Y VR-5 FCV-25-4 K-12 2 A 48.000 BUTFLY A PO'C YES FC EC FS PI SLT-1 CS CS 2Y 2Y VR-5 FCV-25-5 K-11 2 A 48.000 BUTFLY A PO C YES FC EC FS Pl SLT-1 CS CS 2Y 2Y VR-5 FCV-25-6 K-11 2 8 48.000 BUTFLY A PO C YES FC EC CS FS CS Pl 2Y FCV-25-7 L-12 2 A 24.000 BUTFLY A 00 C YES FC EC FS Pl SLT-1 QR 2Y 2Y FCV-25-8 L-12 2 A 24.000 BUTFLY A DO C YES FC EC FS PI SLT-1 QR QR 2Y 2Y V-25-11 K-15 2 A 3.000 GATE P NAN LC NO SLT-1 2Y VR-5 V-25-12 K-15 2 A 3.000 GATE P HAH LC NO SLT-1 2Y VR-5 V-25-13 I-12 2 A 3.000 GATE P HAH LC HO SLT-1 2Y VR-5 P V-25-14 l-12 2 A 3.000 GATE P NAH LC HO SLT-1 2Y VR-5 FLORIDA POHER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 R5$000 N?i SSS2C555 55 Z5 5 5 5$P 8 ID: 8770-G-878 (cont)SYSTEM: NEATIHG, VENT., 8 AIR COHDITIOHIHG REVISION: 2 DATE: 12/12/89 PAGE: 42 ACT.NORM REM FAIL TEST RELIEF VALVE NUMBER COORD.CL CAT~SIZE.TYPE A/P TYPE POS.IND MODE EXAN FREQ REQ.REMARKS V-25-15 J-11 2 A 3.000 GATE P MAH LC NO SLT-1 2Y V-25-16 J-11 2 A 3.000 GATE P MAH LC NO SLT-1" 2Y V-25-20 L-12 2 AC 24.000 CHECK A S/A C HO CV/C CS SLT-1 2Y V-25-21 L-12 2 AC 24.000 CHECK A S/A C NO CV/C CS SLT.1 2Y 44 I FLORIDA POWER AND LIGHT COMPANY VALVE TABLES Saint Lucie Nuclear Plant-Unit 1 XR515$%5555 0 R 55555 REVISION: 2 DATE: 12/12/89 PAGE: 43 P&ID: 8770-G-879 SYSTEH: HEATING, VEHT~, AND AIR CONDITIONING ACT.NORH REH FAIL TEST RELIEF VALVE NUHBER COORD.CL CAT.SIZE TYPE A/P TYPE POS.IHD HCOE EXAH FREQ REQ.REHARKS FCV-25-11 H-14 2 8 24.000 BUTFLY A HO YES FAI EC QR EO QR Pl 2Y FCV-25-12 J-14 2 8 24~000 BUTFLY A MO YES FAI EC QR EO QR PI 2Y FCV-25-13 I-16 2 8 12.000 BUTFLY A HO NO YES FAI EO QR Pl 2Y FCV-25-14 E-11 3 8 0~000 BUTFLY A HO C YES FAI EC QR EO QR Pl 2Y FCV-25-17 E-11 3 8 0.000 BUTFLY A HO C-YES FAI EC EO Pl QR QR 2Y FCV-25-18 A-10 3 8 0.000 BUTFLY A HO 0 YES FAI EC QR PI 2Y FCV-25-19 A-11 3 8 0.000 BUTFLY A HO 0 YES FAI EC QR PI 2Y FCV-25-24 8-10 3 8-0.000 BUTFLY A HO 0 YES FAI EC Pl QR 2Y FCV-25-25 8-11 3 8 0.000 BUTFLY A HO 0 YES FAI EC QR Pl 2Y V-25-23'J-14 2 C 24.000 SRCK A S/A NO CV/0 QR V-25-24 H-14 2 C 24.000 SRCK A S/A HO CV/0 QR Appendix D Valve Program Requests for Relief 0 I RELIEF REQUEST NO.VR-1 REVISION 2 12/12/89 SYSTEM: Various COMPONENTS:

Any valves tested during cold shutdown conditions.

CATEGORY: Various FUNCTION: I Various SECTION XI RE UIREMENT:Valves shall be exercised...unless such operation is not practical during plant operation.

If only limited operation is practical during plant operation, the valve shall be part-stroke exercised during plant operation and full stroke exercised during cold shutdowns.

Full stroke exercising during cold shutdowns for all valves not full-stroke exercised during plant operation shall be on a frequency determined by the intervals between shutdowns as follows: For intervals of 3 months or longer-exercise during each shutdown.(IWV-3412, IWV-4315 and IWV-3522)BASIS FOR RELIEF: In many instances testing of all valves designated for testing during cold shutdown cannot be completed due to the brevity of an outage or the lack of plant conditions needed for testing specific valves.It has been the policy of the NRC that.if testing commences in a reasonable time and reasonable efforts are made to test all valves, then outage extension or significant changes in plant conditions are not required when the only reason is to provide the opportunity for completion of valve testing.ASME/ANSI OMa-1987, Operation and Maintenance Of Nuclear Power Plants, Part 10 (Paragraphs 4.2.1.2 and 4.3.2.2)recognizes this issue and allows deferred testing as set forth below.~~D-1 REVISION 2 12/12/89 RELIEF REQUEST NO.VR-1 (cont.)ALTERNATE TESTING: For those valves designated to be exercised or tested during cold shutdown, exercising shall commence as soon as practical after the plant reaches a stable cold shutdown condition as defined by the applicable Technical Specification but no later than 48 hours after reaching cold shutdown.If an outage is sufficiently long enough to provide for testing of all valves required to be tested during the cold shutdown period, then the 48-hour requirement need not apply.if all valves are tested during the outage.Valve testing need not be performed more often than once every three (3)months except as provided for in IWV-3417(a).

Completion of all valve testing during a cold.shutdown outage is not required if plant conditions preclude testing of specific valves or if the length of the shutdown period is insufficient to complete all testing.Testing not completed prior to startup may be rescheduled for the next shutdown in a sequence such that the test schedule does not omit nor favor certain valves or groups of valves.It should be noted that there are two conditions of cold shutdown identified in the program tables (Appendices D and E), namely pressurized and vented.For the purpose of this requirement, the term'cold shutdown'efers to the respective condition as noted in the tables.The program tables identify those valves to which cold shutdown testing applies.Refer to Appendix G for discussion of the reasons and justification for allowing cold shutdown vs.quarterly testing.D-2 C" f, REVISION 2 12/12/89 SYSTEM: RELIEF REQUEST NO.VR-2 Safety Injection/Residual Heat Removal (8770-G-078, Sh 131)COMPONENTS:

V-3 113 V-3 114 V-3 123 V-3 124 V-3 133 V-3134 V-3143 V-3144 V-3215 V-3217 V-3225 V-3227 V-3235 V-3237 V-3245 V-3247 V-3280 V-3281 V-3251 V-3252 CATEGORY: A/C (Check Valves)A (Motor-operated valves)FUNCTION: These check valves open to provide for high-pressure and low-pressure safety injection to the RCS.The motor-operated valves open for residual heat removal recirculation during shutdown.Each of these valves is designated as a pressure isolation valve (PIV)and provides isolation of safeguard systems from the RCS.SECTION XI RE UIREMENT: The leakage rate'for valves 6-inches or greater shall be evaluated per Subsection IWV-3427(b).(IWV-3521)

BASIS FOR RELIEF: Leaktesting of these valves is primarily for the purpose of confirming their capability of preventing'overpressurization and catastrophic failure of the safety injection piping and components.

In this regard, special leakage acceptance criteria is established and included in the St.Lucie I Technical Specifications (Table 3.4.6-1)that addresses the question of valve integrity in a more appropriate manner for these valves.Satisfying both the Technical Specification and the Code acceptance criteria is not warranted and implementation would be difficult and confusing.

1 D-3 REVISION 2 12/12/89 RELIEF REQUEST NO.VR-2 (cont.)ALTERNATE TESTING: The leakage rate acceptance criteria for these valves will be established per the St.Lucie Unit 1 Technical Specifications, Table 3.4.6-1.Leakage rates less than or equal to 1.0 gpm are considered acceptable.

2~Leakage rates greater than 1.0 gpm but less than or equal to 5.0 gpm are considered acceptable if the latest measured rate,has not exceed the rate determined by the previous test by an amount that reduces the margin between measured leakage rate and the maximum permissible rate of 5.0 gpm by 504'r greater.3~Leakage rates greater than 1.0 gpm, but less than or equal to 5.0 gpm, are unacceptable if the latest measured rate exceeded the rate, determined by the previous test by an amount that reduces the margin between measured leakage rate and the maximum permissible rate of 5.0 gpm by 504 or greater.4~Leakage rates greater than 5.0 gpm are unacceptable.

D-4 ip'~so ft a~1 1 RELIEF REQUEST NO.VR-3'EVISION 2 12/12/89 SYSTEM: Various COMPONENTS:

Various CATEGORY: Various FUNCTION: This is a generic Request for Relief SECTION XI RE UIREMENT: If, for power-operated valves, an increase in stroke time of 504 ox;more for valves with full-stroke times less than or equal to 10 seconds is observed, the test frequency shall be increased to once each month until corrective action is taken, at which time the original test frequency shall be resumed (IWV-3417(a))

BASIS FOR RELIEF: The stroke time measurements taken during testing of fast-acting valves (those less than 2 seconds)are subject to considerable variation due to conditions unrelated to the material condition of the valve (eg.test conditions, operator reaction time).In accordance with Reference 2.7, Position 6, an.alternate method of evaluating stroke times is considered acceptable.

ALTERNATE TESTING: The stroke time evaluation for those valves designated in the valve tables (Appendices D 6 E)as"fast-acting" will not account for successive increases of measured stroke time per IWV-3417(a) with the change in test frequency as required.In lieu of this, the assigned maximum limiting value of stroke time will be established at 2 seconds.Upon exceeding the 2-second limit, a valve will be declared inoperable and corrective action taken in accordance with IWV-3417(b).

This agrees with Reference 2.7, Position 6, and, as such, is considered to be approved upon submittal.

D-5 REVISION 2 12/12/89 RELIEF REQUEST NO.VR-4 SYSTEM: Various COMPONENTS:

This is a generic relief request CATEGORY A and B FUNCTION: Various SECTION XI RE UIREMENT: r Category A and B valves shall be exercised at least once every 3 months, except as provided by IWV-3412(a), IWV-3415, and IWV-3416.(IWV-3411)

BASIS FOR RELIEF: There may arrive occasions when, due to the inoperablity of a redundant train of a safeguard system, it is imprudent to perform valve testing in the operable train.The potential of a valve failing in a position whereby both trains of the safety system would be unavailable to respond to an accident condition is unacceptable.

ALTERNATE TESTING: When one or more components in a redundant system are determined to be inoperable, non-redundant valves in the operable train may not be tested, as required by this Program, but may be exercised after the inoperable train is returned to service.D-6 ll Iles REVISION 2 12/12/89 RELIEF REQUEST NO.VR-5 SYSTEM: Primary Containment COMPONENTS:

Containment Isolation Valves per Table VR-5-1 CATEGORY: A or A/C FUNCTION: These valves are closed to provide containment isolation.

SECTION XI RE UIREMENT: Category A valves shall be seat leak tested and a maximum permissible leakage rate shall be specified Individual valve leakage rates shall be evaluated per IWV-3426 and IWV-3427.(IWV-3426, IWV-3427, NRC Generic Letter 89-04)BASIS FOR RELIEF: Due to the configuration of the system piping and components, in many cases individual leakage rate tests are impractical.

In these cases it is customary to perform tests with the test volume between valves in series or behind valves in parallel paths.ALTERNATE TESTING: In those cases where individual valves testing is impractical, valves will be leaktested simultaneously in multiple valve arrangements and a maximum permissible leakage rate will be applied to each combination of valves.Test results from tests of multiple valves will be evaluated in accordance with IWV-3426 and IWV-3427.D-7 RELIEF REQUEST NO.VR-5 (Cont.)TABLE VR-5-1 REVISION 2 12/12/89 PENETRATION NO..8 10 11 23 24 41 42 46 47 52d VALVES V-18794 and V-18796 FCV-25-4 and FCV-25-5 FCV-25-2 and FCV-25-3 HCV-14-1 and HCV-14-7 HCV-14-2 and HCV-14-6 V-3463 and V-07009 LCV-07-11A and LCV-07-llB V-07-206 and V-07-189 V-07-170 and V-07-188 V-00140 and V-00143 52e 56 57 58 V-00139 and V-00144 V-25-11 and V-25-12 V-25-13 and V-25-14 V-25-15 and V-25-16 D-8 4 ,1 g.c'I'I t~g REVISION 2 12/12/89 RELIEF REQUEST NO.VR-6 SYSTEM Chemical and Volume Control (8770-G-078 Sh 121)COMPONENTS:

V-2177 V-2190 V-2191 CATEGORY!FUNCTION:V-2177 opens to provide a flowpath for emergency boration from the boric acid makeup pumps to the suction of the charging pumps.Likewise, V-2190 opens to provide a flowpath for emergency boration via gravity drain from the boric acid makeup tanks to the suction of the charging pumps.V-2190 closes to prevent recirculation to the boric acid makeup tanks when the boric acid makeup pumps are in operation.

Valve V-2191 opens to provide a flowpath from the refueling water tank (RWT)to the suction of the charging pumps as an alternate supply of borated water for boration and it closes to prevent backflow to the RWT during emergency boration via the BMT's.SECTION XI REQUIREMENT:

Check valves shall be exercised at least once every 3 months, except as provided by IWV-3522.(IWV-3521)

BASIS FOR RELIEF Testing these valves in the open direction requires the introduction of highly concentrated boric acid solution from the boric acid makeup tanks to the suction of the charging pumps.This, in turn, would result in the addition of excess boron to the RCS which would adversely affect plant power level and operational parameters with the potential for an undesirable plant transient and a plant trip or shutdown.During cold shutdown, the introduction of excess D-9 0 REVISION 2 12/12/89 RELIEF REQUEST NO.VR-6 (cont.)quantities of boric acid is undesirable from the aspect of maintaining proper plant chemistry and the inherent difficulties that may be encountered during the subsequent startup.Testing V-2190 and V-2191 in the closed direction should be done following the open exercise and is best performed in conjunction with testing of the boric acid makeup pumps during each reactor refueling outage.ALTERNATE TESTING: These valves will be exercised as required during each reactor refueling outage.This request for relief is equivalent to Relief Requests CVCS 1 and 2 previously submitted on September 4, 1987 (Ref FPL Letter L-87-370)and, per Reference 2.7, is approved.

rgb'Qt,.~8 SYSTEM RELIEF REQUEST NO.VR-7 REVISION 2 12/12/89 Safety Injection (8770-G-078 Sh 130)COMPONENTS:

V-07000 V-07001 CATEGORY: FUNCTION: These valves open to provide flowpaths from the RWT to the suction of the associated low-pressure safety injection pump.SECTION XI RE UIREMENT: Check valves shall be exercised at least once every 3 months, except as provided by IWV-3522.(IWV-3521)

BASIS OR RELIEF: Full stroke exercising these valves to the open position requires injection via the LPCI pumps into the RCS.During plant operation this is precluded because the LPSI pumps cannot develop sufficient discharge pressure to overcome primary system pressure.At cold shutdown, the shutdown cooling system cannot provide sufficient letdown flow to the RWT to accommodate full design flow from the RWT while maintaining the necessary core cooling function.Thus, essentially, the only practical time for testing these valves is during refueling outages when water from the RWT is used to fill the cavity.

ALTERNATE TESTING: RELIEF REQUEST NO.VR-7 (cont.)REVISION 2 12/12/89 These valves will be.partial-flow exercised during quarterly testing of the LPSI pumps via the minimum flow circuit and full-flow exercised during each reactor refueling outage.This alternate testing satisfies the requirement of Reference 2.7, Position 1.Furthermore, this request for relief is equivalent to Relief Request SIS 3 previously submitted on September 4, 1987 (Ref FPL Letter L-87-370).

Thus, per Reference 2.7, this request for relief is approved.D-12 0~II W 8 V.*f6 O'IiA i'I' SYSTEM: RELIEF REQUEST NO.VR-8 REVISION 2 12/12/89 Safety Injection (8770-G-078 Sh 130)COMPONENTS:

V-3401 V-3410 CATEGORY: FUNCTION: These valves open to provide flowpaths from the RWT and the containment sump to the suction of the associated high-pressure safety injection pump (HPSI).SECTION XI RE UIREMENT:Check valves shall be exercised at least once every 3 months, except as provided by IWV-3522.(IWV-3521)

BASIS OR RELIEF: Full stroke exercising these valves to the open position requires injection via the HPSI pumps into the RCS.During plant operation this is precluded because the HPSI pumps cannot develop sufficient discharge pressure to overcome primary system pressure.During cold shutdown conditions, operation of the HPSI pumps is restricted to preclude RCS system pressure transients that could result in exceeding the pressure-temperature limits specified in the Technical Specifications, Section 3.4.9.D-13 ALTERNATE TESTING: RELIEF REQUEST NO.VR-8 (cont.)REVISION 2 12/12/89 These valves will be partial-flow exercised during quarterly testing of the HPSI pumps via the minimum flow circuit and full-flow exercised during each reactor refueling outage.This alternate testing satisfies the requirement of Reference 2.7, Position 1.Furthermore, this request for relief is equivalent to Relief Request SIS 2 previously submitted on September 4, 1987 (Ref FPL Letter L-87-370).