Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
107 Cards in this Set
- Front
- Back
WHEN IS THE LCO FOR SBLC OPERABILITY APPLICABLE? |
MODES 1,2,3
(MODE 3 NEEDED FOR pH CONTROL) |
|
WHEN IS THE LCO FOR RELIEF VALVE INSTRUMENTATION APPLICABLE? |
MODES 1,2,3 |
|
WHAT ADDITIONAL REQUIREMENTS EXIST FOR ERV B + C INSTRUMENTATION PER TECH SPECS? |
REACTUATION TIME DELAY FUNCTIONALITY >= 10.5 SEC <=17.8 SEC 2 CHANNELS PER ERV
ALSO APPLICABLE MODES 1,2,3
|
|
UNDER WHAT CONDITION MUST A STEAM LINE BE ISOLATED IN 1 HOUR PER TECH SPECS FOR PCIV'S? |
IF THE INBOARD AND OUTBOARD MSIVS HAVE BOTH FAILED (OTHER THAN SEAT LEAKAGE) |
|
WHAT ARE THE: 1) TECH SPEC LIMIT FOR REACTOR PRESSURE 2) APPLICABLE MODES 3) COMPLETION TIME TO RESTORE? |
1) 1005 PSIG 2) MODES 1,2 3) 15 MINUTES |
|
WHAT IS THE REQUIRED COMPLETION TIME FOR RESTORING THEVESSEL TO WITHIN THE RCS P/T LIMITS? |
IF IN MODES 1,2,3 = 30 MINUTES
IF IN OTHER MODE = IMMEDIATELY |
|
WHAT ARE THE REQUIRED ACTIONS FOR A THERMAL LIMIT VIOLATION (MFLCPR/MAPRAT/MFLPD)? |
RESTORE WITHIN 2 HOURS
REDUCE TO 25% POWER OR LESS IN 4 HOURS |
|
WHEN IS THE LCO FOR REACTOR VESSEL HEATUP/COOLDOWN APPLICABLE? |
AT ALL TIMES |
|
WHAT ARE THE REQUIRED ACTIONS FOR A SAFETY LIMIT VIOLATION? |
WITHIN 2 HOURS, RESTORE THE LIMIT TO COMPLIANCE AND INSERT ALL INSERTABLE CONTROL RODS |
|
WHEN IS THE TECH SPEC FOR PAM INSTRUMENTATION APPLICABLE? |
MODES 1 AND 2 |
|
WHAT IS THE PURPOSE THE REACTOR VESSEL AND INTERNALS? |
1) PROVIDE A CLOSED VOLUME FOR THE CORE FOR COOLING, MODERATION, AND POWER GENERATION 2) PROVIDE A FLOODABLE VOLUME FOR COOLING AFTER A BREACH 3) SERVE AS A HIGH INTEGRITY BARRIER AGAINST RADIOACTIVE RELEASE 4) SUPPORT THE CORE AND CONTROL RODS, DIRECT FLOW AND SEPARATE STEAM |
|
WHAT IS THE DESIGN BASIS FOR THE REACTOR VESSEL? |
1) 1250 PSIG AT 575F 2) 100F/HOUR HEATUP/COOLDOWN 3) 60 YEAR LIFE (AFTER EXTENSION) 4) RTNDT=23F (83F USED FOR MARGIN) |
|
HOW MANY FEEDWATER PENETRATIONS ARE THERE IN THE REACTOR VESSEL? |
4 PENETRATIONS (4 SPARGERS) |
|
AT WHAT TEMPERATURE MUST THE VESSEL HEAD VENTS BE CLOSED? |
PRIOR TO EXCEEDING 190F |
|
WHAT IS THE ELEVATION FOR THE TOP OF ACTIVE FUEL? |
-142" |
|
WHAT IS THE ELEVATION FOR THE STEAM LINES? |
+117" |
|
WHAT IS THE ELEVATION FOR 2/3 CORE HEIGHT? |
-191" |
|
WHAT IS THE TECH SPEC LIMIT FOR PRESSURE BOUNDARY LEAKAGE FROM THE RCS? |
ZERO. NONE IS ALLOWED |
|
WHAT IS THE TECH SPEC LIMIT FOR UNIDENTIFIED LEAKAGE FROM THE RCS? |
5 OR LESS GPM UNIDENTIFIED LEAKAGE |
|
WHAT IS THE TECH SPEC LIMIT FOR TOTAL RCS LEAKAGE? |
25 GPM OVER A 24 HOUR PERIOD IS ALLOWED
|
|
IF LEAKAGE FROM THE RCS INCREASES, WHAT TECH SPEC LIMIT APPLIES? |
<= 2 GPM INCREASE IS ALLOWED IN A 24 HOUR PERIOD IN MODE 1 |
|
WHEN DOES THE RCS LEAKAGE TECH SPEC APPLY? |
MODES 1,2,3 |
|
WHAT IS THE PURPOSE OF SBLC? |
1) BRING THE REACTOR TO SHUTDOWN UNDER ANY CONDITIONS 2) TORUS pH CONTROL DURING A LOCA (pH > 7) |
|
WHAT IS THE DESIGN BASIS FOR SBLC? |
2 PUMPS AT 40 GPM @ 1500 PSIG 14% B-10 BY WEIGHT 45% ENRICHED TO B-10 (ATOM PERCENT) 16.5% CONCENTRATION @ 73F |
|
WHAT POWERS THE SBLC PUMPS? |
18-1A (28-1A) 19-1 (29-1) |
|
WHAT POWERS THE SBLC HEAT TRACING? |
18-1A-1 (28-1A-1) |
|
WHAT POWERS THE SBLC TANK HEATER? |
18-1B (29-1) |
|
WHAT ARE THE HIGH AND LOW ALARMS FOR SBLC TANK LEVEL? |
90% - 72% |
|
WHAT IS THE SETPOINT FOR SBLC TANK TEMPERATURE? HIGH AND LOW ALARM POINTS? |
95F
88F - 110F (ALARM SETPOINTS)
|
|
WHAT ARE THE HIGH AND LOW LIMITS FOR SBLC HEAT TRACING? |
87F - 120F |
|
WHAT IS THE NOMINAL PRESSURE FOR AN SBLC ACCUMULATOR?
LOW LIMIT? |
875 PSIG
750 PSIG |
|
WHAT IS THE SETPOINT FOR THE SBLC RELIEF VALVES? |
1602 +/- 48 PSIG |
|
WHAT LOADS ARE SUPPORTED BY THE MAIN STEAM SYSTEM? |
1) MAIN TURBINE 2) OFFGAS PREHEATERS 3) TURBINE GLAND STEAM SEALS 4) STEAM JET AIR EJECTORS |
|
WHAT IS THE CAPACITY OF THE BYPASS VALVES? |
33.3% |
|
WHAT IS THE PURPOSE OF THE MAIN STEAM LINE VENTURIS? |
1) LIMIT FLOW TO 145% 2) LIMIT INVENTORY LOSS 3) PROVIDE D/P FOR MEASUREMENT 4) MINIMIZE MOISTURE CARRYOVER BEFORE MSIV CLOSURE 5) MINIMIZE POTENTIAL FOR HIGH VELOCITY WATER SLUGS |
|
WHAT ARE THE SETPOINTS OF THE SAFETY VALVES?
|
2 @ 1240 PSIG 2 @ 1250 PSIG 4 @ 1260 PSIG |
|
WHAT IS THE BLOWDOWN FOR A MAIN STEAM SAFETY VALVE? |
~75 PSIG
|
|
WHAT ARE THE SETPOINTS FOR THE RELIEF VALVES? |
A - 1135 PSIG B - 1115 PSIG C - 1115 PSIG D - 1135 PSIG E - 1135 PSIG |
|
WHICH STEAM LINE HAS THE EXTRA ('E') RELIEF VALVE? |
'B' MAIN STEAM LINE |
|
WHICH STEAM LINE SUPPLIES HPCI? |
U1 - B U2 - C |
|
WHICH STEAM LINE SUPPLIES RCIC? |
U1 - A U2 - D |
|
WHAT IS THE MOTIVE FORCE FOR THE MSIV'S? |
AIR TO OPEN AIR + SPRING TO CLOSE (ACCUMULATOR BACKUP)
INBOARDS - DW PNEUMATICS OUTBOARDS - INSTRUMENT AIR |
|
WHAT IS THE POWER SUPPLY FOR THE MSIV ROOM COOLERS? |
MCC 18-2 (28-2) |
|
WHAT POWERS THE INBOARD MSIV SOLENOIDS? |
RPS A (AC)
1A-1 (DC) |
|
WHAT POWERS THE OUTBOARD MSIV SOLENOIDS? |
RPS B (AC)
1B-1 (DC) |
|
WHAT POWERS THE MSIV TEST SOLENOIDS? |
RPS A (INBOARD) RPS B (OUTBOARD) |
|
WHAT POWERS THE MSIV SOLENOID INDICATING LIGHTS IN THE CABLE SPREADING ROOM? |
ESSENTIAL SERVICE |
|
WHAT POWERS THE ACOUSTIC MONITORS? |
ESSENTIAL SERVICE |
|
WHAT POWERS THE RELIEF VALVE TEMPERATURE MONITORS? |
INSTRUMENT BUS |
|
WHAT POWERS THE MAIN STEAM LINE FLOW TRANSMITTERS? |
ANALOG TRIP SYSTEM |
|
WHAT ARE THE SIGNALS THAT WILL GENERATE A GROUP 1 ISOLATION? |
1) -59" 2) 200F IN THE STEAM TUNNEL 3) 140% MSL FLOW 4) <785 PSIG WITH MODE SWITCH IN RUN |
|
WHAT ARE THE VALUES FOR SLMCPR? |
UNIT 1 (SLO / DLO): 1.11 / 1.14
UNIT 2 (SLO / DLO): 1.12 / 1.14 |
|
WHAT IS THE DESIGN BASIS FOR THE VESSEL INSTRUMENTATION? |
1) ASSURANCE THAT THE CORE IS COVERED AND THE MOISTURE SEPARATORS ARE NOT COVERED 2) PROVIDE INFO TO PROTECT THE VESSEL FROM STRESSES 3) PROVIDE REDUNDANT AND RELIABLE INPUTS TO RPS 4) ABILITY TO DETECT HEAD FLANGE LEAKAGE
|
|
HOW MANY VESSEL PENETRATIONS ARE THERE FOR PRESSURE/LEVEL INSTRUMENTATIONS? |
SEVEN (1 HEAD, 2 UPPER, 2 MID, 2 LOWER) |
|
HOW MUCH FLOW IS SUPPLIED BY RVLIS? |
~0.5 GAL / HOUR |
|
WHAT OTHER PURPOSE IS SERVED BY THE PRESSURE SENSING LINES FOR JET PUMPS 6 AND 16? |
THEY SERVE AS THE TAPS FOR THE LOWER LEVEL PRESSURE/LEVEL SENSORS (LOWER WIDE RANGE / FUEL ZONE) |
|
WHICH PRESSURE INSTRUMENTS ARE CLASSIFIED FOR PAM? |
-27 RECORDER ON THE -5 PANEL
-156 INDICATOR ON THE -3 PANEL |
|
WHICH INSTRUMENTS SERVE AS THE MEDIUM RANGE LEVEL INSTRUMENTS FOR POST ACCIDENT MONITORING? |
THE NARROW RANGE INSTRUMENTS ON THE -5 PANEL (100A/B) |
|
WHICH INSTRUMENTS SERVE AS THE WIDE RANGE LEVEL INSTRUMENTS FOR POST ACCIDENT MONITORING? |
FUEL ZONE INSTRUMENTS
-27 RECORDER ON THE -5 PANEL -106A RECORDER ON THE -3 PANEL |
|
WHAT ARE THE HIGH/LOW ALARMS FOR VESSEL LEVEL? |
34" / 26" |
|
WHAT IS THE ALLOWABLE VALUE FOR THE LOW WATER LEVEL SCRAM? |
0" |
|
WHAT IS THE VESSEL LEVEL SETPOINT FOR GROUP 2 AND 3 ISOLATIONS? |
0" |
|
WHAT IS THE POWER SUPPLY FOR UNIT 1 ATWS 70A PANEL? |
1A-1 OR INSTRUMENT BUS |
|
WHAT IS THE POWER SUPPLY FOR UNIT 1 ATWS 70B PANEL? |
1B-1 OR ESSENTIAL SERVICE |
|
WHAT OTHER PANELS ARE POWERED BY THE ATWS 70A/70B PANELS |
ANALOG TRIP SYSTEM 73A/B LOWER RACKS |
|
WHAT ARE THE POWER SUPPLIES FOR THE ANALOG TRIP SYSTEM -73A/B UPPER RACKS? |
18-2-1 AND 19-1-1 |
|
WHAT ARE THE POWER SUPPLIES FOR THE -73AA AND -73BB? |
1A-1 AND 1B-1 |
|
WHERE ARE THE ANALOG TRIP SYSTEM PANELS (-73A/B AND -73AA/BB)? |
CABLE SPREADING ROOM |
|
WHERE ARE THE ATWS PANELS (-70A/B) |
AUX ELECTRIC ROOM |
|
WHERE ARE THE -6 RACKS? |
2ND FLOOR RX BLDG, EAST SIDE OF THE DRYWELL |
|
WHERE ARE THE -5 RACKS? |
2ND FLOOR RX BLDG, NORTH SIDE (U1) OR SOUTH SIDE (U2) |
|
WHAT REACTOR VESSEL LEVEL INSTRUMENTS ARE ON THE -7 OR -8 RACKS? |
WIDE RANGE/FUEL ZONE |
|
WHERE IS THE -58 PANEL? |
CORE SPRAY / RCIC ROOM |
|
WHAT IS THE PURPOSE OF THE CRD SYSTEM (HYDRAULICS)? |
PROVIDE WATER AT REQUIRED PRESSURES FOR CONTROL ROD MOTION AND COOLING |
|
DESCRIBE THE DESIGN BASES FOR CRD HYDRAULICS |
- ALLOW FOR ROD MOTION ONE AT A TIME FOR POWER/FLUX SHAPING - SIMULTANEOUS SCRAM - 1500# WATER FOR CHARGING ACCUMULATORS - 260-350 PSID FOR DRIVING RODS - 5-15 PSID FOR COOLING WATER (60 GPM / 177 DRIVES) |
|
WHAT PREVENTS OVERPRESSURIZING A HCU/CRD? |
RUPTURE DISC ON INSTRUMENT BLOCK OF HCU
2000 PSIG SETPOINT |
|
WHAT IS THE LOW PRESSURE SETPOINT FOR THE HCU ACCUMULATOR? |
1013 PSIG |
|
HOW MUCH WATER IS NEEDED TO GENERATE AND HCU HIGH WATER ALARM? |
37 CC |
|
WHAT IS THE UPPER LIMIT ON THE CRD SUCTION FILTER DP AND WHY? |
17 PSID EXCEEDING THIS MAY RESULT IN LOW SUCTION PRESSURE PUMP TRIP (18" HG) |
|
WHAT DP GENERATES A HIGH ALARM ON CRD DRIVE FILTERS? |
20 PSID |
|
WHAT IS THE MAXIMUM FLOW FOR CRD CHARGING WATER? WHEN CAN THIS BE SEEN? |
179 GPM THROUGH CHARGING WATER ORIFICE
AFTER FULL SCRAM WHEN SYSTEM TRIES TO RECHARGE THE ACCUMULATORS |
|
WHAT ARE THE LEVEL SETPOINTS FOR THE SCRAM DISCHARGE INSTRUMENT VOLUME? |
10 GAL - ALARM
25 GAL - ROD BLOCK
40 GAL - SCRAM |
|
WHAT IS THE NORMAL SETTING FOR THE SCRAM AIR HEADER PRESSURE REGULATOR? |
85 PSIG |
|
WHAT IS THE SETPOINT FOR THE SCRAM AIR HEADER RELIEF VALVE? |
105 PSIG |
|
WHAT ARE THE CRD PUMP POWER SUPPLIES? |
BUS 13 AND 14 (23 AND 24) |
|
WHAT IS THE POWER SUPPLY FOR THE CRD FCV?
THE FCV FIC? |
ESSENTIAL SERVICE (BOTH) |
|
HOW MANY ARI VALVES ARE THERE? |
6 (3 PAIRS) |
|
WHAT IS THE POWER SUPPLY FOR THE ARI VALVES? |
1A-2 / 1B-2 |
|
ARE THE ARI VALVES NORMALLY ENERGIZED OR DE-ENERGIZED? |
ARI VALVES ARE NORMALLY DE-ENERGIZED |
|
ARE THE BACKUP SCRAM VALVES NORMALLY ENERGIZED OR DE-ENERGIZED? |
BACKUP SCRAM VALVES ARE NORMALLY DE-ENERGIZED |
|
WHAT IS THE POWER SUPPLY FOR THE BACKUP SCRAM VALVES? |
1A-1 / 1B-1
ENERGIZE TO ACTUATE WHEN RPS TRIPS |
|
WHICH CRD VALVES ARE POWER DIRECTLY BY RPS? |
SSPV'S
SCRAM DUMP VALVES |
|
WHAT IS THE PURPOSE OF THE SCRAM DUMP VALVES? |
DEPRESSURIZE (BLOCK AND VENT) AIR HEADER SUPPLYING THE SDV VENTS AND DRAINS |
|
WHAT POWERS THE SDV ISOLATION TEST VALVE? |
INSTRUMENT BUS |
|
WHAT POWERS THE SDV VENT AND DRAIN VALVE SOLENOIDS? |
INSTRUMENT BUS |
|
ARE THE SDV VENT AND DRAIN VALVE SOLENOIDS NORMALLY ENERGIZED OR DE-ENERGIZED? |
DE-ENERGIZED ENERGIZED BY INSTRUMENT BUS TO BLOCK AIR WHEN DEMANDED BY SWITCH IN CONTROL ROOM |
|
WHAT POWERS THE HCU DIRECTIONAL CONTROL VALVES? |
INSTRUMENT BUS
OPEN/CLOSE SIGNAL FROM RMCS |
|
WHAT POWERS THE CRD STABILIZATION VALVES? |
INSTRUMENT BUS
OPEN/CLOSE SIGNAL FROM RMCS |
|
WHAT POWERS CRD INDICATIONS (FLOW, PRESSURE, ETC) ON 90X-5 PANEL? |
INSTRUMENT BUS |
|
WHAT IS THE APPLICABILITY FOR THE CONTROL ROD OPERABILITY TECH SPEC? |
MODES 1 + 2
|
|
WHAT IS THE APPLICABILITY FOR THE CONTROL ROD SCRAM TIMES TECH SPEC? |
MODES 1 + 2 |
|
HOW MANY 'SLOW' CONTROL RODS ARE ALLOWED PER TECH SPECS? |
NO MORE THAN 12 |
|
HOW MANY SLOW CONTROL RODS ARE ALLOWED TO BE ADJACENT? |
NO MORE THAN 2 |
|
WHEN IS THE TECH SPEC FOR CONTROL ROD ACCUMULATORS APPLICABLE? |
MODES 1 AND 2 |
|
WHEN IS THE ROD PATTERN CONTROL TECH SPEC APPLICABLE? |
MODES 1 AND 2 WITH CTP <= 10% |
|
WHEN DO TECH SPECS REQUIRED THE SDV VENT AND DRAINS TO BE OPERABLE? |
MODES 1 AND 2 |
|
WHAT ARE THE CRD PUMP TRIPS? |
LOW SUCTION PRESSURE (18" HG) OVERCURRENT (34 AMPS) UNDERVOLTAGE |