ED- Extraction Steam and Drains

Question 1

What is the purpose of the ED system?

Answer 1

Preheats condensate and feedwater prior to feedwater entering the Steam Generators to increase overall plant efficiency

Question 2

What system has the ability to provide steam to the #4 LP feedwater heaters during startup?

Answer 2

Auxiliary Steam

Question 3

What system is used to add cool water to the water volume that is maintained in the bottom of the ED blowdown stack?

Answer 3

Domestic Water (DS)

Question 4

What is the purpose of the ED blowdown stack?

Answer 4

Provides a collection point for various steam traps, HP heater relief valves and miscellaneous aux steam header drains

Question 5

When is DS added to the ED blowdown stack? What if DS is not available?

Answer 5

When temperature of blowdown stack water volume exceeds 150F

If not available, there will be steam coming out of the blowdown stack and the north condenser area sump

Question 6

How does GA interact with ED?

Answer 6

During long term shutdown conditions, the GA system supplies nitrogen for blanketing of the feedwater heater shells and heater drain tanks to protect against rust and prevent oxygen from dissolving in the water

Question 7

How does IA interact with ED?

Answer 7

MT control system admits IA through Turbine Critical and Non-Critical Relay Dump Valves which provide a signal to control Bleeder Trip Valves

Provides motive force for all air operated valves in ED system

Question 8

How are BTV’s affected by a loss of IA?

Answer 8

BTVs will lose their open permissives and go partially closed

They will remain open due to the extraction steam flow

Question 9

Where are the Heater Drain Pumps powered from?

Answer 9

‘A’ from NBN-S02

‘B’ from NBN-S01

Question 10

Where does the seal water for each Heater Drain Pump come from?

Answer 10

Directly from the Condensate Header at 375-500 psig

Question 11

What positions the Heater Drain Pump mini-flow valves? When will it close? What controls the position of the heater drain pump discharge valve?

Answer 11

Heater Drain Pumps flow transmitter

as the unit comes up in power and more extraction drain flow is available

heater drain tank normal level control valve

Question 12

What three signals would stop the Heater Drain Pumps?

Answer 12

A Heater Drain Tank lo-lo level alarm

Heater Drain Pump low flow after a time delay

Electrical protection signal

Question 13

Where are the Heater Drain Pumps located? What allows one heater drain pump operation?

Answer 13

100’ Turbine Building west of the Main Feed Pumps

opening a suction and vent cross-tie between the heater drain tanks

Question 14

Why does #5 feedwater Heater not have a level control system?

Answer 14

Does not contain a drain cooler region and drains directly to the Heater Drain Tank

Question 15

Which Low pressure Feedwater heaters have four inlets on the top? How many do the others have?

Answer 15

1 and #2

Question 16

Which feedwater heater has an input from S/G blowdown system?

Answer 16

3

Question 17

What is the purpose of the Bleeder Trip Valves in the ED system? Which feedwater heaters have BTVs?

Answer 17

3, 4, 5, 6, 7

To prevent reversed steam flow when the Turbine is tripped

(Closure of these valves will ensure the Turbine does not overspeed)

Question 18

What is installed on the BTVs that assists in opening the disc with a minimum differential steam pressure in the ED system?

Answer 18

Balance Arm device

Question 19

What happens upon activation of the Bleeder Trip Valve test valve?

Answer 19

Valve equalizes the air pressure across the operator piston to allow partial closing of the valve disc by spring force

Question 20

Why is there two BTVs installed on #4 feedwater heater extraction line?

Answer 20

4 heater, by itself, has enough energy to cause an overspeed trip

Question 21

Which level control valves are reverse acting in the ED system?

Answer 21

All of the high level control valves and #1 LP heater normal level control valves

Question 22

At what air signals are the reverse acting valves full open and full closed in the ED system?

Answer 22

Full open with 3#

Full closed with 15#

(Direct acting is the complete opposite)

Question 23

What happens upon a hi-hi signal in a HP feedwater heaters?

Answer 23

Isolates extraction steam

Closes the normal level control valve of the preceding heater

Opens the affected heater’s motor operated extraction steam line drain valve

In addition, for the HP heaters, the 1st and 2nd stage reheater drain tank vents isolate from the affected heater and vent to the main condenser

Question 24

What happens upon a hi-hi signal in a LP feedwater heaters?

Answer 24

Isolated entire LP heater train by closing the heater train isolation valves

Isolated extraction steam to #3 and #4 heaters

Opens the extraction line solenoid operated drain valves for #3 and #4 heaters

Question 25

Below what power level may there be insufficient D/P between the heater shells to allow for proper operation of the normal level control valves in the ED system?

Answer 25

20%

high level control valves operate to keep alarms clear until power level is sufficiently raised

Question 26

When is the first heater drain pump started?

Answer 26

25% power

Question 27

When is the second heater drain pump started?

Answer 27

Between 30 and 40%

Question 28

During a plant shutdown, when are the Heater Drain Pumps secured?

Answer 28

First one at 40%, second one at 25%

Question 29

How is the ED system affected by a loss of IA?

Answer 29

Heater Drain Pump discharge valve fails closed, recirc valve fails open, putting the pump on recirc

Heater Drain Tank, MSR Drain Tank, 1st and 2nd Stage Reheater Drain tank, and Feedwater heater High Level Dump valves will all fail open and the Normal Level Control Valves fail closed (Except #1 heater)

Heater Drain pump will eventually trip on low flow or Heater Drain tank lo lo level signals

The main steam supply to the 2nd stage reheater will isolate and the 1st and 2nd stage Reheater Drain Tanks and Tube Bundles will vent to the condenser instead of their associated Feedwater heaters

Question 30

What is the purpose of the HDTs (heater drain tanks)?

Answer 30

ultimate collection point for most of the normal drains within the ED system

provides suction for the heater drain pumps

tank level regulated flow to the Main feed pumps

receives mini flow line from heater drain pump

Question 31

Where are the heater drain tanks located?

Answer 31

120’ turbine building, above the heater drain pumps

Question 32

Concerning the ED system, where do the MSR 1st stage reheater drain tanks flow to? 2nd stage reheater drain tanks?

Answer 32

6 FW heaters, then to the heater drain tank

Question 33

How many stages are the heater drain pumps?

Answer 33

5

Question 34

What is the purpose of the Feedwater heaters?

Answer 34

aid in improving the secondary system efficiency

Question 35

Concerning the High pressure feedwater heaters, what are the flow paths for the extraction steam and feedwater flow?

Answer 35

extraction steam from HP turbine comes in through the top, condenses and is drained from the bottom

feedwater flows in through the bottom, passes through the U-tubes and exits through the top

Question 36

Concerning the HP feedwater heaters, what are the differences between the #6/7 heaters and the #5 heaters?

Answer 36

6/7 have condensing and subcooling zones, has level control system, #7 drains to the #6 heater, #6 drains to the HDT

Question 37

What is the purpose of the vents on the various tanks, heat exchangers and pumps in the ED system?

Answer 37

to remove non-condensable gases and direct them to the condenser for removal

Question 38

What is the motive force of extraction steam while traveling from the turbine to the feedwater heaters?

Answer 38

the differential pressure between the turbine stages and the feedwater heater shells

Question 39

Which feedwater heaters have the supplying extraction lines cross-connected and what does the cross connect allow for?

Answer 39

3a, b, c
4a, b, c
6a, b
7a, b

allows unit operation without all high and low pressure feedwater heaters in service

Question 40

What does the High Pressure turbine provide extraction steam to?

Answer 40

3rd stage- 7A/B heaters and first stage reheating steam in the MSRs

5th stage- 6A/B heaters

cold reheat- 5A/B heaters

Question 41

Where do the heater drain pumps send their effluent?

Answer 41

to the suction of the main feedwater pumps

combines with the condensate just downstream of the feedwater heaters

Question 42

What is the difference in operation between direct acting and reverse acting level control valves in the feedwater heater level control system?

Answer 42

direct acting- higher air pressure opens the valve

reverse acting- higher air pressure closes the valve

Question 43

Where do the MSR drain tanks vent to? Where does the heater drain pump vent its suction line to?

Answer 43

their respective MSR/Hot reheat line

respective heater drain tank

Question 44

Where do the first stage reheater drain tanks normally vent to?

Answer 44

A and C vent to #6A heater extraction line

B and D vent to #6B heater extraction line

all four vent back to their respective 1st stage reheater tube bundle outlet for steam scavenging

(on high level, vent to the condenser)

Question 45

Where do the 2nd stage reheater drain tanks normally vent to?

Answer 45

A and C vent to #7A heater extraction line

B and D vent to #7B heater extraction line

all four vent back to their respective 2nd stage reheater tube bundle outlet for steam scavenging

(on high level, vent to the condenser)

Question 46

Where do the heater drain tanks vent to?

Answer 46

to their respective #5 FW heater

both tanks also have a vapor cross-connect line to each other

Question 47

Where do the #5, 6 and 7 feedwater heaters vent to?

Answer 47

both trains all tie in together to a common header and vent to the condenser

Question 48

How does the ED system interface with the SC (secondary chemical control) system?

Answer 48

Blowdown Flash Tank (BFT) vents to both of the Heater Drain Tanks by way of the vapor cross tie line between the HDT’s.

The blowdown flow from the Blowdown Flash Tank can be directed to the shell side of the #3 LP Heaters.

Cooling water from the blowdown heat exchanger is returned to the discharge of the heater drain pumps, which is then directed to the main feedwater pump suction.

Question 49

How does ED interface with GS?

Answer 49

LP turbine 9th stage extraction supplies sealing steam to GS on power ascension

Question 50

In the ED system, what is powered by NH?

Answer 50

MOVs, HP heater extraction steam block and drain valves, heater drain pump motor space heaters

Question 51

In the ED system, what is powered by NK?

Answer 51

solenoids, controls, indication and alarms for various valves

Question 52

In the ED system, What is powered by NN?

Answer 52

LP FW heater steam pressure instrumentation

HTR DRN pump discharge/suction D/P, tank level and pump flow instrumentation

Question 53

What cools the HTR DRN pump lube oil coolers?

Answer 53

turbine cooling water

Question 54

What maintains water level in the LP feedwater heater drain cooler, or subcooling zone?

Answer 54

normal level control valve

Question 55

What is the purpose of having reverse acting normal and high level control valves in the ED system?

Answer 55

to ensure that on a loss of IA, the ED system will drain its contents to the main condenser

Question 56

Describe the new level control valves for the LP feedwater heaters.

Answer 56

Vee style ball valve, provides beter throttling and seal off flow

can be positioned in either fail open or fail closed designation with the same valve mounting configuration, causing less installation errors

rotory positioners with rotary actuators with a lever

4 gauges instead of three

smaller in size

Question 57

What is the sequence for putting the MSR and 1st/2nd stage drain tanks in service to their normal level control valves?

Answer 57

At 10% turbine power, 1st stage and MSR drain tanks go to normal level control valves, leading to the #6 FW heaters (1st stage) and the HTR DRN tank (MSR drain tank)

At 20% turbine power, 2nd stage drain tank goes to normal level control valve, leading to #7 FW heaters