RCS

Question 1

What are the RCS penetrations below centerline?

Answer 1

• RHR Suction from Loop 2 Hot Leg
• Loop flow instruments (High Side Tap)
• Drain Lines
• NR Thot Scoops
• Half Loop level indication connection (NLI-122)

Question 2

What loops does Pzr spray come from?

Answer 2

Loops 3 and 4 CLs

Question 3

What loops have Mid Loop Level Indicator penetrations?

Answer 3

Loops 3 and 4 CL (Intermediate legs)

Question 4

What loop has Pzr Surge line penetration?

Answer 4

Loop 3 HL

Question 5

What loop has RHR suction penetration?

Answer 5

Loop 2 HL
** (Does not extend into flowpath)**

Question 6

What loop has NLI-122 half loop indicator penetration?

Answer 6

Loop 2 HL

Question 7

What loop has Normal Charging penetration?

Answer 7

Loop 4 CL

Question 8

What loop has alternate charging penetration?

Answer 8

Loop 1 CL

Question 9

What loop has normal LD penetration?

Answer 9

Loop 4 CL (Intermediate Leg)

Question 10

What is the design basis of the Rx Vessel Head Vent?

Answer 10

• vent a volume of h2 equal to half the volume of the RCS in 1 hr at system design # and temp
• 1/4” orifice prevents leakage > capacity of 1 CCP

Question 11

When is RVLIS for Narrow Range Used?

Answer 11

No RCPs running.
Gives indication from top to bottom of vessel

Question 12

When is RVLIS for Wide Range Used?

Answer 12

With RCPs running

• Looks for Void Fraction (50%)

Question 13

When is RVLIS for the Upper Range Used?

Answer 13

When all RCPs Off

• Generally used in EOPs to assess whether a RV head void exists for natural circulation cooldown procedures.

Question 14

What are the inputs to the subcooling meter?

Answer 14

• Auctioneered HI CETCs or WR RTD temps
• Auctioneered LO RVLIS WR press

Question 15

What is the normal Tavg for both units?

Answer 15

• Unit 1: 571ºF
• Unit 2: 574ºF

Question 16

Per TS 3.4.3 (RCS Pressure vs Temperature), what is the fastest the RCS can be heated up?

Answer 16

< 60ºF/Hr

Question 17

Per TS 3.4.3 (RCS Pressure vs Temperature), what is the fastest the RCS can be cooled down?

Answer 17

< 100ºF/Hr

Question 18

What is the temperature for minimum RCS Temper per 3.4.2 (RCS min temp)? What must be done if violated?

Answer 18

> 541ºF
If violated, be in MODE 2 with keff < 1.0 within 30 mins

Question 19

What does TS 3.4.6 (RCS Loops, Mode 4) require?

Answer 19

2 RCS or RHR loops (2/6) One I/S

all loops can be removed for 1 hour / 8 hr if other requirements met

Question 20

What does 3.4.7 (RCS Loops, Mode 5 Loops Filled) require?

Answer 20

1 RHR loop + 1 more RHR loop
OR 2 S/G water level 420” > WR

RHR pp can be out for 1 hour / 8 hr if other requirements met

Question 21

What does 3.4.8 (RCS Loops, Mode 5 Loops drained) require?

Answer 21

2 RHR loops OPERABLE
1 RHR loop in operation

All RHR can be out for < 30 minutes
when switching loops if requirements are met.

Question 22

What’s the purpose of RVLIS?

Answer 22

• Verify adequate core cooling exists during accident
• Inputs to subcooling monitor
• Determines when Accumulators should be isolated to prevent nitrogen injection to RCS.
• Can be used for Reactor Vessel Heat fill and vent.

Question 23

Which RVLIS correlation do you use when filling and venting RCS?

Answer 23

UPPER Plenum RVLIS with RCPs off when filling and venting RCS with RCP bump method

Question 24

What are the RCS leakage limits per TS 3.4.13 (RCS Operational Leakage)?

Answer 24

RCS operational LEAKAGE shall be limited to:
- NO pressure boundary
- 0.8 gpm unidentified
- 10 gpm identified
- 150 gal/day for 1 S/G

Question 25

What loops are the Pressurizer Spray Line Scoops on?

Answer 25

Loops 3 and 4 CLs

penetration into flowpath

Question 26

What loops are the Reactor Coolant sampling Scoops on?

Answer 26

Loops 1 and 3 HLs

penetration into flowpath

Question 27

What is required per TS 3.4.15 (RCS Leak Detection)?

**

Answer 27

Required to detect a 1 gpm leak within 4 hours
- 1 Containment Sump monitor in each sump
- 1 Particulate Rad Monitor – most sensitive for small leaks
- 1 Gaseous Rad Monitor

Question 28

What is the primary purpose of the RCS?

Answer 28

Transfers the heat generated in the core to the steam generators (SG) where steam is generated to drive the turbine generator

Question 29

What are the safety functions of the RCS?

Answer 29

• Credited as a Fission Product Barrier for Emergency Plan classification level assessment.
• Provides flow path for Decay Heat Removal purposes to maintain the reactor in a safe shutdown condition.

Question 30

Given the following:

• Unit 1 is operating at 60% power
• Loop 3 Delta-T indication fails LOW
• Loop 3 Tavg indication fails HIGH

What failure could cause these indications?

Answer 30

Tcold failed high

Question 31

If seal line resistance is less than tech specs required, what is the potential problem?

Answer 31

Boron Injection Tank flow may be less than required for core cooling

Question 32

Technical Specification 3.4.6, RCS Loops - Mode 4, requires that a minimum of two reactor coolant loops or RHR loops be operable at all times.

The basis for this requirement is that two loops are:

Answer 32

Required to ensure the one loop required to remove decay heat is available in the event of a single failure.

Question 33

The Plant is in HOT STANDBY (MODE 3)
Plant COOLDOWN from HOT STANDBY to COLD SHUTDOWN (MODE 5) will begin within the next half hour

How many RCPs MUST be in operation with Tavg > 541°F and why?

Answer 33

4; To ensure the required Tavg instruments are operable.

Question 34

Which RCS Instrumentation input into RPS

Answer 34

Narrow Range
Thot, Tcold and Pressures
- Tave = P12 interlock for dumps, SLI
- Delta T = Rod Insertion Limits
- RCS Pressure = P11interlock, Rx Trip, SI

Question 35

What is the purpose of the Reactor Vessel Head Vent System (NSOs)?

Answer 35

Removes non-condensable gas or steam from the Rx vessel head under accident conditions.

Question 36

State why RVLIS wide range pressure is used preferentially when computing subcooling and making decisions in EOPs.

Answer 36

Located outside containment to eliminate inaccuracy which would occur due to heatup during accident conditions if location were inside containment.

Question 37

Per TS 3.4.3 (RCS Pressure vs Temperature), what must be done if the heatup or cooldown rates are violtaed in Modes 1-4?

Answer 37

Restore within 30 mins

Question 38

Per TS 3.4.3 (RCS Pressure vs Temperature), what must be done if the heatup or cooldown rates are violtaed in Modes 5-6?

Answer 38

Restore IMMEDIATELY and evaluated before Mode 4

Question 39

What is the purpose of the pressure and temperature limits perscribed in TS 3.4.3 (RCS Pressure vs Temperature)?

Answer 39

To avoid normal operating conditions that could cause nonductile failure

Question 40

Which penetrations extend into the flowpath?

Answer 40

• WR & NR RTD Thermowells
• Pressurizer Spray Line Scoops on loops 3 and 4
• Reactor Coolant Sampling Scoops on loops 1 and 3

NOT RHR SUCTION!!!!!!

Question 41

Per TRO 8.7.14 (PPC Derived Reactor Thermal Power), what are the inputs for thermal power?

Answer 41

1. Steam Pressure
2. Blowdown Flows
3. Charging Parameters
4. LD Parameters
5. RCS Paramaeters
6. VCT Temperature
7. Pressurizer Pressure
8. LEFM (FW Flow, temp, pressure)
9. Venturi (FW Flow, temp, pressure)

Question 42

What is the basis for the RCS Minimum temperature for criticality ( 541°F) requirements in TS while operating in Mode 1?

Answer 42

All low power safety analyses assume initial RCS loop temperature ≥ the HZP temperature of 547°F. The minimum temperature for criticality limitation provides a small band, 6°F, for critical operation below HZP. This band allow critical operations below HZP during unit startup and does not adversely affect any safety analyses since the MTC is not significantly affected by the small temperature difference

Question 43

The unit is in MODE 3. How many RCS Loops are required to be OPERABLE and in operation in MODE 3 with the Rod Control System capable of rod withdrawal?

Answer 43

Two RCS loops are required to be OPERABLE and the two loops must be in operation.

Question 44

The unit is in MODE 3. How many RCS Loops are required to be OPERABLE and in operation in MODE 3 with the Rod Control System NOT capable of rod withdrawal?

Answer 44

Two RCS loops are required to be OPERABLE and the one loop must be in operation.

Question 45

Where are THERMAL SLEEVES located?

Answer 45

• Pzr Spray Line at Pzr
• Pzr Surge Line at Pzr and at RCS
• Normal Charging (Loop 4)
• Alternate Charging (Loop 1)
• RHR/Accumulator/SI Taps (2 and 3 Cold Leg)