LR-N17-0034, Salem Generating Station, Units 1 & 2, Revision 29 to Updated Final Safety Analysis Report, Section 14.2, Table 14.2-1, Tests Performed Prior to Initial Reactor Fueling
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TABLE 14.2-1 TESTS PERFORMED PRIOR TO INITIAL REACTOR FUELING System Tests 1. Demineralized Water System 2. Fire Protection System 3. Fresh Water System 4. House Heating Boiler Startup s. Heating Water System 6. Compressed Air System 7. Control Air System 8. Reactor Coolant System 8.1 Reactor Coolant System Cold Hydrostatic Test 8.2 Reactor Vessel Internals Measurements 1 of 11 SGS-UFSAR Test Objectives To verify quality of water and capacity of system. To verify proper operation of the system by ensuring the design intent is met for pumps, to verify that automatic start functions operate as designed, and to verify that level and pressure controls meet specifications. To verify proper operation of system. To start up house heating boilers and verify proper operation of house heating steam system. To verify proper operation of system. To verify leak tightness of the system, proper operation of all compressors, the manual and automatic operation of controls at design setpoints, design air-dryer cycle time and moisture content of discharge air. To verify proper operation of system including emergency compressors. To verify operation and integrity of system in preparation for hot functional testing. Revision 6 February 15, 1987 TABLE 14.2-1 (Cont) System Tests 8.3 Pressurizer Relief Tank 9. 10. 10.1 10.2 Hydrostatic Test of the Steam Generator-Secondary Side Chemical and Volume Control System Volume Control Tank Level and Makeup Control Heat Tracing System 10.3 Boric Acid System 10.4 Boron Recycle Process 2 of 11 SGS-UFSAR Test Objectives To verify integrity of steam generator. To verify, prior to critical operation, that the Chemical and Volume Control System functions as specified in the FSAR and appropriate manufacturer's technical Manuals. More specifically that: (a) All pumps perform to specifications. (b) All temperature, flow, level and pressure controllers function to control at the required setpoint when supplied with appropriate signal(s). (c) All temperature, flow, level and pressure alarms provide alarms at the required locations when the alarm setpoint is reached and clear when the reset is reached. (d) The reactor makeup control regulates blending, dilution, and boration as designed. (e) The design seal water flow rates are attainable at each reactor coolant pump. (f) Chemical Additional Subsystem functions as specified. Revision 6 February 15, 1987 TABLE 14.2-1 (Cont) System Tests Test Objectives (g) Purifications system design flow rates are attainable. 11. Component Cooling System-Cold To verify component cooling flow to all components and to verify proper operation of instrumentation, controllers, and alarms. 12.. Residual Heat Removal System To verify proper operation 13. Spent Fuel Pooling Cooling System 14. (Not Used) 15 .. Safety Injection System 15.1 Safety Injection System Performance Test 15.2 Safety Accumulator Dump Test 3 of 11 SGS-UFSAR of the system. To verify proper operation of the system. To verify that system components and operation are in accordance with requirements as specified in the FSAR and appropriate manufacturer's technical manuals. More specifically that: (a) Safety Injection pumps perform their design functions satisfactorily and reliably. (b) Level and pressure instruments are operable and as required. (c) Each pair of valves are installed for redundancy operate as designed. (d) (e) Accumulators can be filled and discharged to the Reactor Coolant System as designed. Flow distribution between injection flow paths are balanced and meet design requirements. Revision 6 February IS, 1987 TABLE 14.2-1 (Cant) System Tests 16. Waste Disposal System 16.1 Liquid Waste Receipt and Storage 16.2 Liquid Waste Processing -Waste Evaporation 16.3 Drumming Station 16.4 Resin Removal System 16.5 Baling Station 16.6 Gaseous Waste Processing 17. Fuel Handling System 17.1 Manipulator Crane Indexing 17.2 Fuel Handling Crane Indexing 17.3 Fuel Handling Tools and Fixtures 17.4 Fuel Transfer System 4 of 11 SGS-UFSAR Test Objectives (f) Sufficient available centrifugal and safety pumps from NPSH is for the charging injection the RWST. To demonstrate that rated process flow rates can be achieved and that releases can be controlled. To verify proper operation of equipment and systems. To show the system capable of providing a safe and effective means of transporting and handling fuel from the time it reaches the station until it leaves the station. In particular, the tests are designed to verify that: (a) The major structures required for refueling, such as the reactor cavity, fuel transfer pool, new fuel and spent fuel storage, and decontamination facilities, are in accordance with the design intent. (b) The major equipment required for refueling such as the manipulator crane and fuel handling tools, operate in accordance with the design specifications. Revision 6 February 15, 1987 TABLE 14.2-1 (Cont) System Tests 18. Containment System 18.1 Containment Spray System 18.2 Containment Structural Test 18.3 Containment Leakage Rate Tests (Types A, B, and C) 18.4 18.5 19. 19.1 Containment Isolation System Penetration Cooling System Ventilation System Containment Fan Cooler System 19.2 Iodine Removal System 19.3 Rod Drive Ventilation System 19.4 Reactor Nozzle Support Ventilation System 19.5 Reactor Shield Ventilation System 19.6 Containment Pressure-Vacuum Relief System SGS-UFSAR 5 of 11 Test Objectives (c) All auxiliary equipment and instrumentation function properly. A* dummy will be fuel element utilized to conduct these tests. To verify response of the Spray System to control signals and sequencing of the pumps, valves, and controllers as specified in the FSAR and appropriate manufacturer's technical manuals; and to check the time required to actuate the system after a containment high-high pressure signal is received. More specifically refer to the test objective listing for the Safety Injection System. To verify containment integrity by conducting integrated leakage rate and structural integrity tests. To verify proper operation of the Isolation and Penetration Cooling Systems. To verify proper operability of fans, filters, controls, and other components of 'the Ventilation Systems. Revision 6 February IS, 1987 TABLE 14.2-1 (Cont) 19.7 Containment System 19.8 Auxiliary Building Ventilation System 19.9 Control Room Air Conditioning System 19.10 Fuel Handling Building Ventilation System 20. NSSS Protection Systems 20.1 Reactor Protection Time Response Measurement 20.2 Reactor Protection Operational Check 20.3 Operational Test 20.4 Control System Test for Turbine Runback 20.5 Reactor Plant System Setpoints Verification 21. 22. 23. 24. Process Radiation Monitoring System Area Radiation Monitoring System Communications System Nuclear Instrumentation SGS-UFSAR Test Objectives To verify calibration, operability, and alarm of the Reactor Control and Protection System; to test its operability in unction with other systems. To and the alarm setpoints of radiation monitors: air monitors, gas monitors, and liquid monitors. Same as 21. To verify proper communication between handset stations to ensure proper paging operation, to ensure tie-in between load and PA system and adjust amplifiers, speakers and line balance. To that all communication stations located at the fuel loading status board locations are The purpose of this test 6 of 11 Revision 25 October 26, 2010 TABLE 14.2-1 (Cont) System Tests Test Objectives System was to verify that the system performs the required indication and control functions through the Source,* Intermediate, and Power Ranges of operation. In particular, the tests were designed to verify that: (a) The source range instrumentation and protection (high flux level reactor trip) as well as alarm features and audible count rate operate properly. (b) The intermediate range instrumentation operates properly, the reactor protective and control features such as high level reactor trip and high level rod stop signals operate properly, and the permissive signals for blocking source range trip and source range high voltage cutoff operate properly. (c) The power range instrumentation operates properly, the protective features such as the overpower trips, permissive and dropped rod functions operate with the required redundancy and separation through the associated logic matrices; and the nuclear power signals to other systems are available and operating. (d) All auxiliary equipment such as the startup rate channel, recorders 7 of 11 SGS-UFSAR Revision 6 February 15' 1987
TABLE 14.2-1 (Cont) 25. 26. Tests Preoperational Testing of Computer Computer Input and Data Printout Verification 27. Electrical Systems 27.1 28 V de Station Batteries and Charger -Load Test 27.2 125 V de Station Batteries and Chargers -Load Test 27.3 250 V de Station Batteries and Chargers -Load Test 27.4 Energizing Electrical 27.5 Energize 500/13 kV Switchyard and 27.6 13/4 kV Vital Buses Emergency Power System Operational Test including Diesel Generators and Auxiliaries Operational Tests 8 of 11 SGS-UFSAR Test Objectives and indicators operate properly. (e) All instruments are properly calibrated and all set points and alarms are properly adjusted. To verify that process computer had been wired properly and that internal converters function properly. To verify the operation and calibration of the instrumentation involved in measurement, transmittal, conversion, and printout of process parameters. Energize associated de bus, ensure proper operation of chargers, and conduct test discharge of batteries. Energize to verify proper operation of electrical buses, control centers, and switchgear. To verify the proper operation and independence of redundant vital onsite power systems as suggested in Regulatory Guide 1.41 and proper operation of the diesel generators and associated auxiliary equipment. Revision 6 February 15, 1987 TABLE 14.2-1 (Cont) 28. 29. System Tests Service Water System Condenser Air Removal and Priming 30. Circulating Water System 31 (Not Used) 32. Feed System 9 of 11 SGS-UFSAR Test Objectives To verify the rated head-capacity characteristics of the Service Water System, that the.system supplies adequate flow rates through all heat exchangers, and meets the specified requirements when operated in the safeguards mode. To verify flow to all components, and to verify proper operation of instrumentation, controllers and alarms. Specifically, each of the systems is tested to ensure: (a) All pumps perform their functions satisfactorily. (b) All temperature, flow, level and pressure controllers function to control at the required setpoint when supplied with appropriate signals. (c) All temperature, flow, level and pressure alarms provide alarms at the required locations when the alarm setpoint is reached and clear when the reset point is reached. (d) Design flow rates are established through the principal heat exchangers. Same as 29. Same as 29. Revision 6 February 15, 1987
- TABLE 14.2-1 (Cont) System Tests 32.1 Steam Generator Feed Pump Initial Run 33. 34. 35. 36. 37. 38. 39. 40. 41. 42. so. 50.1 50.2 50.3 50.4 50.5 50.6 50.7 (Not Used) Turbine Auxiliary Cooling (Not Used) Generator Seal Oil System (Not Used) 115 Volt AC System Moisture Separator-Reheater Performance Test Turbine Lube Oil System Generator Stator Cooling Generator Auxiliaries -Isolated Phase Bus (43 through 49 not used) Hot Functional Testing Program Reactor Coolant System Heatup Reactor Coolant System at Temperature Reactor Coolant System Cooldown Reactor Coolant System Thermal Expansion Reactor Coolant System Leakage Test -Hot Pressurizer Power Relief Valve Test Incore Thermocouples and RTD Cross-10 of 11 SGS-UFSAR Test Objectives Same as 29. Same as 29. Energize to verify proper operation of 115 V ac buses. Same as 29. Same as 29. Same as 29. Same as 29. Using pump heat, the Reactor Coolant System tested to check heatup and cooldown procedures to demonstrate satisfactory performance of components that are exposed to the reactor coolant temperature; to verify proper operation of instrumentation controllers and alarms, and to provide design operating conditions for checkout of auxiliary systems. The Chemical and Volume Control System tested to assure that water can be charged at rated flow against normal Reactor Coolant System pressure; to check letdown flow against design rate for each pressure reduction Revision 6 February 15, 1987 TABLE 14.2-1 (Cont) System Tests Calibration 50.8 Primary Sampling System 50.9 Pressurizer Pressure and Level Control Test 50.10 Solid System Pressure Control 50.11 Steam Generator Safety Valve Test 50.12 Steam Dump Control 50.13 Steam Generator Blowdown 50.14 Chemical and Volume Control System -Hot 50.15 Component Cooling System -Hot 50.16 Initial Turbine Roll -Pump Heat 50.17 Auxiliary Feed System Performance Test 50.18 Control Room Inaccessibility 50.19 Safety Injection Precritical Test 50.20 Initial Synchronization of Generator 51. Integrated Test of Engineered Safeguards System and Emergency Power Systems 11 of 11 SGS-UFSAR Test Objectives station to determine the response of the system to changes in pressurizer level; to check procedures and* components used for boric acid hatching and transfer operations; to check operation of the reactor makeup control; to check operation of the excess letdown and seal-water flowpath; and to verify proper operation and instrumentation, controls, and alarms. The Sampling System was tested to determine that a specified quantity of representative fluid can be obtained safely and at rated conditions from each sampling point. The Component Cooling System was tested to evaluate its ability to remove heat from systems and other special equipment; to verify component cooling cooling flow to all components; and to verify proper operation of instrumentation, controllers, and alarms. To demonstrate the composite function of the Engineered Safeguards System by verifying that the proper emergency diesel starts and other related safeguards features. Revision 6 February 15, 1987