Pzr Pressure and Lvl Control

Question 1

What is the normal Lvl, temp, and # of the PRT? **

Answer 1

• 100°F
• 83%
• 3#

Question 2

When will the PRT vent valve not open?

Answer 2

• If # is > 10#

Question 3

What is the max # of the PRT?

Answer 3

• 100# (Rupture Disk)

Question 4

What is the PRT designed to do?

Answer 4

• Condenses 110% of Pzr steam space
• Protects the Rx Vessel against brittle fracture during LTOP conditons
• Provides overpressure Protection

Question 5

What are the inputs to the PRT?

Answer 5

• Pressurizer Safeties and PORVs
• Seal Water Return Safety
• CCP Suction Safeties
• ECCS Safeties
• RHR Suction Safety
• RHR Hot Leg Discharge Safety
• RHR hx Safeties
• PW and N2

Question 6

What conditions are the Pzr Lvl and # Ctrl designed to accommodate?

Answer 6

Designed to accommodate:

• unit load change @ 5% / minute.
• Instant load changes @ 10% w/ auto rod control.
• step load reduction @ 50% w/ auto rods and dumps

Question 7

What is the lvl per percent in the Pzr?

Answer 7

• 75gal/1% **

Question 8

What is the Pzr Lvl Program based on?

Answer 8

• Based on Auctioneered High Tave
  
  • Unit 1 - 22% to 50% (28% diff)
  • Unit 2 - 22% to 55% (33% diff)
• Both Units Trip at 92% (2/3)

Question 9

At what pressure do the Pzr Safeties lift?

Answer 9

• 2485# (SV-45A/B/C)

Question 10

At what pressure do the Pzr PORVs open?

Answer 10

• 2335# (NRV-151/152/153) **

Question 11

Which Pzr PORVs have backup air bottles?

Answer 11

• NRV-152/153

Question 12

What supplies the PRT with water if it needs to be filled or if it gets > 126°F during normal ops?

Answer 12

• PW

Question 13

Which Safeties and PORVs have acoustic monitors?

Answer 13

• Safeties- 1 monitor for each safety valve (3 total)

- PORVs- 1 monitor total (combined)

Question 14

What is the Pressurizer Lvl Rx Trip?

Answer 14

• 92% Pzr Lvl

Question 15

What are the Pzr Spray Bypass valves for?

Answer 15

Allow continuous flow for:

• PZR boron concentration same as RCS
• Minimize PZR temp stratification
• keep spray lines equilibrium with RCS loops.

Question 16

What are the Pzr Cycling Heater trips?

Answer 16

• Loadshed on same train
• Pzr Low Level @ 17%
• Overcurrent
• Both trains of Supply Breakers closed
• Load Con

Question 17

What is the interlock associated with the Pzr Cycling Htrs?

Answer 17

• can’t close both feeder breakers (Protects EDGs from overloading)

Question 18

What provides Cold Overpressure protection with the Pzr PORVs?

Answer 18

• NRV-152 controlled by NPS-122 (Loop 1 WR)

- NRV-153 controlled by NPS-121 (Loop 2 WR)

Question 19

If there is a leaking PORV, what can it affect?

Answer 19

• could lead to PRT rupture disk failure

Question 20

What are the Pzr backup Heater trips?

Answer 20

• Loadshed on same train
• Pzr Low Level at 17%
• Overcurrent

Question 21

What can happen if Channel III (NPP-153) is controlling channel for Pzr # Ctrl and it fails low?

Answer 21

• all Pzr PORVs will be Inoperable and the only protection for Overpressure on the Pzr will be the safeties

Question 22

The following plant conditions exist:

Unit 1 is at 100% power
Pressurizer level channel NLP-151 is selected for control and fails LOW.

Which ONE of the following describes the plant response to the pressurizer level channel failure? ASSUME no operator action is taken.

a. Charging flow decreases, actual level decreases, orifice isolation valves close, letdown isolates, and VCT level increases.

b. Charging flow remains the same, letdown isolates, and backup heaters turn on if actual level increases 5% above program.

c. Letdown isolates, charging flow increases, seal flow increases, actual level increases, and VCT level decreases.

d. Letdown isolates and heaters energize to restore pressurizer pressure.

Answer 22

• c. Letdown isolates, charging flow increases, seal flow increases, actual level increases, and VCT level decreases.

Question 23

Given the following indications on Unit 2:

• Reactor Power 97 percent
• RCS pressure 2260#
• PRZ level channel select switch in position 1 (Channel 3 control, Channel 2 bistable)
• PRZ level 53 percent
• PRZ level recorder select switch in position 1 (Channel 1)
• PRZ liquid level transmitter NLP-152 (Channel 2) fails low

WHAT is the immediate effect on the plant?

a. Recorder indicates level < level Ref., charging flow control valve QRV-251 opens fully, all backup heaters on.

b. Recorder indicates level = level Ref., charging flow is unchanged, all heaters are off, all orifice isolation valves shut, QRV-111 shut.

c. Recorder indicates level < level Ref., charging flow control valve QRV-251 closes, all heaters are off, all orifice isolation valves shut, QRV-112 shut.

d. Recorder indicates level = level Ref., charging flow control valve QRV-251 opens fully, all backup heaters on, all orifice isolation valves shut, QRV-112 shut.

Answer 23

• b. Recorder indicates level = level Ref., charging flow is unchanged, all heaters are off, all orifice isolation valves shut, QRV-111 shut.

Question 24

The following initial conditions exist:

• Reactor power 99%
• Pressurizer level 33%
• Letdown flow 40 gpm
• Pressurizer level control in manual

Which ONE of the following describes the plant response to a 20 gpm charging line leak outside containment? (Assume NO operator action.)

Pressurizer drops to 17%, …

a. backup heaters turn on, and the reactor trips on low level.

b. all heaters turn on, reactor trips on high pressure.

c. letdown isolates and heaters turn off, reactor trips on low pressure.

d. letdown isolates and heaters turn off, reactor trips on high level.

Answer 24

• d. letdown isolates and heaters turn off, reactor trips on high level.

Question 25

``` Unit 1 Reactor power is at 50%. The following conditions exist: - PRZ level is stable at program level - QRV-251 Charging Flow - Controller is in MANUAL - Charging and letdown are balanced. ``` Which ONE of the following describes the effect on the plant if QRV-251 Charging Flow Controller remains in MANUAL and power is increased to 100%? A. Charging flow will RISE. B. Charging flow will LOWER. C. PRZ level will LOWER. D. PRZ level will RISE.

Answer 25

- D. PRZ level will RISE.

Question 26

Unit 2 was operating at 95% power when a load rejection occurred. Shortly after the load rejection the following plant conditions exist: RCS Tavg is 572°F Pressurizer Level is 54% Pressurizer vapor temperature is 650°F Pressurizer liquid temperature is 649°F Which ONE of the following is the current status of the pressurizer based on these conditions? (Reference the steam tables) A. Pressurizer PORVs and Spray valves are full OPEN. B. Pressurizer Spray valves are modulated OPEN. C. Pressurizer proportional heaters are modulated ON. D. Pressurizer Backup and proportional heaters are fully ON.

Answer 26

- D. Pressurizer Backup and proportional heaters are fully ON. ANSWER: Pressurizer vapor space of 650°F equates to 2193 psig (2208 psia). This is below the 2210 psig setpoint to fully energize the backup heaters.

Question 27

What is the pressurizer pressure T.S. safety limit?

Answer 27

- 2735 psig

Question 28

What is the pressurizer pressure hi pressure Rx trip setpoint?

Answer 28

- 2385 psig

Question 29

What is the pressurizer pressure NOP?

Answer 29

- 2235 psig

Question 30

What is the pressurizer DNB pressure limit?

Answer 30

- 2200 psig

Question 31

What is the pressurizer pressure lo pressure Rx trip setpoint?

Answer 31

- 1950 psig

Question 32

What is the pressurizer pressure P-11 block setpoint

Answer 32

- 1910 psig

Question 33

What is the pressurizer pressure SI setpoint?

Answer 33

- 1775 psig

Question 34

When QRV-251 is in Auto what is the minimum demand and flow rate through QRV-251

Answer 34

- 23.5 % demand and 47 gpm (can be overridden by going to manual)