CW- Circulating Water

Question 1

The CW system serves as a discharge point for what sources?

Answer 1

CD system overboarding, CD and blowdown demineralizers low TDS Sumps, yard area sump pumps and Essential Spray pond Backwash Sump Pumps, Turbine building run off

Can be used as an emergency fire water source

Question 2

What does TB do for the CW system?

Answer 2

Supplies makeup water from the storage reservoirs to the CW system to replace water losses due to evaporation, blowdown, and drift from the cooling towers

Provides blowdown paths to the evaporation ponds to allow constant blowdown for chemistry control and for level control in the canal

Question 3

Why are we worried about silica in the CW system?

Answer 3

Plates out on the surfaces of the titanium tubes in the condenser

Question 4

What chemicals are added to the CW canals with the CI system?

Answer 4

Hypochlorite, foam control agent, sulfuric acid, and scale dispersant

Question 5

Who normally maintains the CW canal chemistry?

Answer 5

Water Resources

Question 6

How does PW interact with CW?

Answer 6

The PW pumps share the intake canal with the CW pumps, utilize the Cooling Towers for cooling, and return their discharge to the CW return piping

Question 7

What system provides air to the Cooling Tower Makeup Anti Cavitation Air Injection to prevent valve chattering in the Canal Level Control valve? What else does this system do?

Answer 7

Instrument Air

operates control valves and controllers

Question 8

What is the approximate evaporation rate of the CW system at each unit?

Answer 8

18,000 gpm

Question 9

Approximately how much water is lost to blowdown at each CW canal?

Answer 9

~700 gpm

but up to 2000 gpm

Question 10

What is provided at each CW pump bay to prevent large debris from entering CW system?

Answer 10

Trash screens

Question 11

Why are each of the pump slots provided with a Stop Gate?

Answer 11

In the event that maintenance is required on individual pumps while the system continues to operate

Question 12

What provides water for screen spraying?

Answer 12

PW pumps

Question 13

Due to recent modifications, where are the Turbine Building Roof drains directed to?

Answer 13

Their respective CW intake canals

Question 14

What is the normal level setpoint of the CW canal?

Answer 14

23 ft

Question 15

How often are local grab samples performed on the canal and what are they used for?

Answer 15

Daily

Used to determine the required blowdown flowrate for control of the chemistry parameters

Question 16

What is the capacity of each CW pump? What is the normal discharge pressure of each pump?

Answer 16

25% (140,000 gpm)

~45 psi

Question 17

What provides cooling to the CW pump lube oil cooler?

Answer 17

Turbine Cooling Water

Question 18

What needs to be met in order for the CW pump to start when the switch in the Control Room is taken to START-OPEN?

Answer 18

Pump discharge valve is fully closed

Either the same flow train condenser outlet valve is open or the CONDENSER OUTLET VALVE INTERLOCK OVERRIDE pushbutton is depressed

Question 19

The pump-start signal is sent to what other components?

Answer 19

Open signal for the pump’s discharge valve

Permissive signals to the CI system acid injection pump, CI system chlorine injection valves, and the same flow train CW pump discharge valve

Question 20

What happens when I take the CW pump which to STOP-CLOSE position?

Answer 20

A closing signal is sent to the pump’s discharge valve

When the valve closes to less than 8% open, the pump’s breaker will open, stopping the pump

A signal is also sent to the CW supply header cross-tie valve and to the other CW pump discharge valve control logics

Question 21

How could I get the CW pumps to stop immediately?

Answer 21

Depress the Emergency trip pushbutton in the Control Room

Question 22

Where are the local switches and emergency pushbuttons located for the CW pumps?

Answer 22

Provided at each switchgear

Question 23

What are the B and C Condenser tube lengths greater than those in A?

Answer 23

To compensate for the higher circulating water inlet temperature

Question 24

How quickly are the motor operators of the CW pump discharge valves designed to open or close?

Answer 24

30 seconds

Question 25

What is the interlock associated with the CW pump and its discharge valve?

Answer 25

Each discharge valve is interlocked with its respective pump to only be open to 44% whenever there is one pump operating in its train, and the supply header cross-tie valve is closed

Question 26

How quickly are motor operators of the condenser isolation valves designed to open or close? Where are they located?

Answer 26

60 seconds

inlet and outlet of each side of the condenser

Question 27

What is the interlock associated with Condenser outlet Isolation Valves? What are the interlocks for the inlet isolation valves?

Answer 27

Such that they will not open unless the “water box full” permissive is satisfied

Once the water boxes are full, the outlet valves can be opened and the head of the cooling tower will maintain the piping full prior to the CW pump start

no interlocks for inlets

Question 28

What is the purpose of the CW system automatic vent and vacuum breakers? Where are they located?

Answer 28

To maintain the CW system and waterboxes full of water during normal system operation by automatically releasing any air that may collect in the system, while maintaining the water in the system

at the high points on the inlet and outlet water boxes of each shell of the condenser, on the supply header cross-tie line on both sides of CWN-HV-11 and at each CW pump discharge.

Question 29

What are the major sections of the CW towers?

Answer 29

Water supply riser, circumferential distribution flume, distribution basin, fill ring, collection basin, and fan deck and support columns

Question 30

Why does Tower 2 have a PW return pipe?

Answer 30

So that it may be used for PW service if the CW system is not operating

Question 31

How many Cooling Tower fans are there for each tower? What is their diameter?

Answer 31

16

10 meters

Question 32

What protections are provided for the Cooling Tower fans? How are they controlled?

Answer 32

High vibration, bus undervoltage, and electrical protection trip

switches in the control room send signals through plant multiplexer

Question 33

How many Screen Wash Sump Pumps are there? What is the purpose of the screen wash sump? What is the purpose of the flow orifices in the sump pump discharges?

Answer 33

Two

trash screen cleaning, CW pump seal leakage collection and overflow from CW pump bays

control pump run out during operation

Question 34

When would the Standby Screen Wash Sump Pump auto start?

Answer 34

Hi-Hi level in sump

Question 35

What are the power supplies of the CW pumps?

Answer 35

‘A’ and ‘B’ – NAN-S01

‘C’ and ‘D’ – NAN-S02

Question 36

What impact on the system does a loss of CW makeup have?

Answer 36

The pumps ability to take suction

Question 37

What would happen upon a loss of CW Blowdown?

Answer 37

Would cause the chemicals of the CW system to concentrate and drive the CW water chemistry out of spec which would increase corrosion

Question 38

What would happen upon a loss of Turbine Cooling Water?

Answer 38

Will cause the CW pump motors to overheat and alarms would be received in the control room on high temperatures

Pumps could fail if no operator action is taken

Question 39

What happens if CW is completely lost?

Answer 39

Will result in immediate plant shutdown due to high condenser pressure

Decay heat will be rejected to atmosphere through steam bypass valves 1007 and 1008

Question 40

What happens on partial loss of CW?

Answer 40

Plant will have to be down powered depending on the severity of the loss of vacuum

Question 41

What are the start permissives for the CW pumps?

Answer 41

pump discharge must be fully closed and same flow train condenser outlet valve is open

Question 42

Why do the B and C sections of the condenser have longer tube bundles?

Answer 42

to compensate for the increased circulating water inlet temperature

Question 43

Describe the timer for the motor operated discharge valves of the CW pumps.

Answer 43

When one pump is started, the respective discharge valve will open to 44%. If the second pump to start in the same flow loop is started, the respective discharge valve will open to 44%. The 3 minute timer will pass and the second pumps discharge valve will open to 100% and then the first pumps discharge valve will open to 100%.

If the second pump being started is in the opposing flow loop, both respective discharge valves will stay at 44%.

Question 44

When would the CW supply cross-tie valve go closed? How long can the system operate with a single CW pump feeding both flow loops?

Answer 44

hand switch in auto and both pumps in one CW flow loop stop

no longer than 48 hours

Question 45

During the fill and vent of the CW system, pressure is not sufficient to help seat the auto vents and they are manually isolated to prevent spilling water in the turbine building. When are the auto vents placed in service?

Answer 45

When enough CW pumps are running to ensure good seating

Question 46

Which outlet vents on the main condenser vent lines have no isolation valve and just have relief valves?

Answer 46

1C and 2C

Question 47

What is the flow path through the cooling towers?

Answer 47

up a concrete return pipe and into the distribution flume for radial distribution to the distribution basin through adjustable weirs. from the basin, the water flows down through holes in the basin floor to the fill ring. water flows through holes in the fill ring down through the fill media and into the collection basin and back to the canal

Question 48

How do the cooling towers work to remove heat?

Answer 48

As the water falls through the rigorous path of the fill media, the latent heat of vaporization occurs. the cooling tower fans pull air through the fill media perpendicularly to the fall of the water droplets and as some of the water droplets evaporate, it removes the heat from the continuously falling water and air inside the tower

Question 49

How long is the high-vibration trip disabled for during start up of the cooling tower fans? If there is a problem with the plant multiplexor, how are the fans started?

Answer 49

30 seconds

locally at the breakers

Question 50

Why are the cooling tower fans started and stopped in a specific order? What changes about fan operation during winter months?

Answer 50

to equalize the loading of the fans and match the heat transfer requirements of the CW system

less fans are in operation to maintain condenser vacuum in spec