NC- Nuclear Cooling

Question 1

Where are the NC pumps located?

Answer 1

The yard area, plant north of the west end of the Turbine building, between the NC heat exchangers and the Condensate Storage Tank

Question 2

What are the NC pump capacities?

Answer 2

100% at 17,500 gallons per minute

Question 3

What is the NC pump normal discharge pressure?

Answer 3

100-110 psig

Question 4

Under normal operations, what is the status of the NC pumps?

Answer 4

One is running, the other is mechanically and electrically aligned in standby

Question 5

What are the NC pump power supplies?

Answer 5

‘A’ – NBN-S01

‘B’ – NBN-S02

Question 6

What would cause the standby NC pump to start automatically?

Answer 6

If the combined discharge header pressure at the discharge of the pumps lowers to 79 psig due to trip of the operating pump, pump degradation, improper system operation or system piping breach

Question 7

How would the operators in the Control Room know if an NC standby pump has auto started and currently running?

Answer 7

An amber light on board 7 will illuminate

Question 8

Concerning the NC heat exchangers, what flows through the tubes and what flows through the shell side?

Answer 8

PW flows through the tubes and absorbs heat from NC water flowing through the shell side

Question 9

Where are the NC Heat Exchangers located?

Answer 9

The yard, north of the west end of the turbine building, next to the NC pumps

Question 10

Before shifting operation to the standby heat exchanger, what must be done with it first?

Answer 10

The on-coming heat exchanger is vented on both shell and tube side to ensure a filled condition

Question 11

Using the NC heat exchangers, how do we manually adjust temperature? What is the maintained temperature of this system?

Answer 11

By allowing a portion of the flow to bypass the heat exchanger

(So if PW temperatures start to lower, we’ll adjust the bypass valve open more so that less water flows through the cooler. PW temperatures rising would be the opposite)

75-105*F

Question 12

Concerning the two flows through the NC heat exchanger, which one is at a higher pressure?

Answer 12

NC at the heat exchanger inlet is maintained below PW system pressure to prevent potentially contaminated nuclear cooling water leakage into the PW system and environment

Question 13

What are the functions of the NC surge tank?

Answer 13

Accommodate changes in system volume due to temperature changes

Provide adequate NPSH for NC pumps

Provide means of detecting leakage into or out of the NC system

Provide a convenient location for adding makeup water

Question 14

Where is the NC Surge Tank located? What is the capacity?

Answer 14

Roof of the Aux Building, northeast corner

1000 gallons

Question 15

What provides makeup water to the NC Surge tank and what is the level maintained at?

Answer 15

Demineralized water, maintaining approximately 27-33 inches

Question 16

What is the backup source of makeup water to the NC surge tank? Where are the valves to align this back up make up source?

Answer 16

Cooling water Holdup Tank (Chemical Waste System)

100’ aux building, south wall

Question 17

Why do we put nitrogen into the Surge tank? How much is maintained in the tank?

Answer 17

To provide a cover gas that will prevent oxygen intrusion that could lead to corrosion, set at ~5 psig

Question 18

After chemicals are added to the Chem Add Tank, how we get them into the system? Capacity? Location?

Answer 18

Differential pressure developed by the running NC pump

11 gallons

north yard by NC pumps

Question 19

The NC Chem Add Tank is normally isolated. Besides adding chemicals, when would we align flow through it and why?

Answer 19

When Cold Weather Protection is in effect to prevent freeze damage

Question 20

Where is RU-6 located? What is the purpose of this radiation monitor?

Answer 20

The yard north of the Turbine Building, adjacent to the NC pumps

monitor NC system for in-leakage from the contaminated systems it serves

Question 21

What is the purpose of the Letdown Heat Exchanger Temperature Control valve?

Answer 21

NCN-TV-223 – to automatically regulate the LDHX outlet temperature at the setpoint chosen by the control room operator, normally 120F, by controlling NC flow through the heat exchanger

Question 22

Where is the Letdown Heat exchanger temperature control valve, NCN-TV-223, located?

Answer 22

110’ Aux Building above the LDHX

Question 23

Why, as AO’s, should we worry about the flow of NC through the LDHX? What is the maximum NC flow rate through the letdown HXs?

Answer 23

Because it controls Letdown temperature and could ultimately affect reactivity

1500gpm

Question 24

What are the NC Priority heat loads?

Answer 24

Normal Chillers

Nuclear Sample Coolers

CEDM Normal ACUs

RCP Seal coolers, HP coolers, Thrust Bearing Coolers, Motor Air coolers, Lube Oil Coolers

Question 25

What is the purpose of the relief valve NCE-PSV-617?

Answer 25

Protect the containment NC return penetration from exceeding its design pressure rating after a LOCA

It protects the system between the inside and outside containment isolation valves

Question 26

Why are we worried about overpressure in the penetration piping for the NC system between the inside and outside isolation valves?

Answer 26

The water trapped in the penetration piping could be heated by the conditions in the containment and the resulting expansion might rupture the piping and cause a loss of containment isolation

Question 27

Why do we not have relief protection on the supply penetration piping for the NC system?

Answer 27

Because the inside containment valve is a check valve which would pass flow and therefore not allow any pressure accumulation in the piping

Question 28

What is the purpose of relief valves protecting NC inside containment?

Answer 28

Protect the NC system piping inside the containment against over pressurization and potential damage in the event of leakage from a RCP seal cooler into the NC system in conjunction with a closure of the NC containment isolation valves

Question 29

The setpoint for the NC inside containment relief valves is 135 psig. Why is that significant?

Answer 29

Low enough to require a special operating sequence for the NC motor operated containment isolation valves because isolation of the containment return path with the supply path still aligned can cause a pressure surge in the NC system that will lift the reliefs

Question 30

What types of valves are on the supply and discharge lines through containment for NC? What would cause the NC supply and return containment isolation valves to automatically shut?

Answer 30

supply line- motor operated outside, check valve inside

return line- motor operated valves inside and outside containment

CSAS

Question 31

What system provides a backup source of cooling water for NC system loads?

Answer 31

EW

Question 32

If NC is lost to the RCPs, how long would I have to restore it?

Answer 32

10 minutes

3 minutes if its lost to more than one RCP

Question 33

What temperature is NC maintained at and what is preferred?

Answer 33

Between 75F and 105F, but less than 85F is preferred

Question 34

The PW T-mod was designed to cool NC when the heat load consists of what components?

Answer 34

One Spent Fuel Pool heat exchanger

Two Normal Chillers at 50% load

BAC at 40% load

LRS Evaporator at 50% load

AS Vent Condenser

Question 35

What is the purpose of the NC system?

Answer 35

provide cooling during all modes of operation to the priority and non-priority loads

intermediate buffer volume between plant cooling water and potentially contaminated flow streams to reduce the probability of releasing radioactivity to the environment.

Question 36

Why is the NC constantly monitored by a radiation monitor around the NC pumps?

Answer 36

due to the potential for leakage into the NC system from other radioactive systems

Question 37

What protections does the NC surge tank have?

Answer 37

hi-lo level/pressure, level sight glass and controller, local temperature indicator, pressure relief and a vacuum breaker

Question 38

What potential impacts on the plant does manually controlling letdown temperature?

Answer 38

too much NC flow, letdown too cool, boron absorbed, positive reactivity

too little NC flow, letdown too hot, boron released, negative reactivity

Question 39

What are the NC “non-priority loads”?

Answer 39

letdown hx
radwaste evaporator
boric acid concentrator
waste gas compressors
non-nuclear sample coolers
aux. steam vent condenser
gas stripper
aux. steam rad. monitor (ru-7) cooling coil
spent fuel pool cooling hx

Question 40

What must be done prior to opening the EW-NC cross-tie valves?

Answer 40

close the NC non-priority load isolation valve

Question 41

Where is the NC non-priority load isolation valve located?

Answer 41

77’ aux. building unassigned room

Question 42

Where are the EW cross-tie to NC valves located?

Answer 42

70’ aux. building, shutdown cooling hx room

Question 43

Are the isolation valves to transfer EW to NC for the fuel pool hx make-before-break?

Answer 43

yes

Question 44

In the NC system, what does NH power?

Answer 44

NC pump motor space heaters

CEDM ACU and normal chiller NC outlet valves

Question 45

In the NC system, what does NK power?

Answer 45

NC surge tank make up solenoid valve

Question 46

In the NC system, what does PH power?

Answer 46

NC containment isolation valves

Question 47

What is the back up cooling water system for the shutdown cooling HXs?

Answer 47

NC

Question 48

What is the back-up make-up system for the NC system?

Answer 48

CM

Question 49

Which NC HX is the PW T-Mod usually hooked to?

Answer 49

B

Question 50

What status does cross-tying the EW to NC loads put the EW equipment in?

Answer 50

INOPERABLE

Question 51

What happens when NC is lost to the WC system?

Answer 51

normal chillers trip

Question 52

Are the NC supply and return line motor operated valves fail close or as is?

Answer 52

fail as is

Question 53

What is the tech spec related to the NC system containment isolation valves?

Answer 53

must be able to close in 60 seconds