FW/FT- Feedwater/Feedwater Pump Turbine

Question 1

What is the purpose of the FW system?

Answer 1

Supply FW from the suction of the FW pumps to the feedwater regulating valves in line to each S/G at the required pressure, temperature, and flow rate

Provide the final three stages of feedwater heating in two parallel heater trains

Question 2

What is the purpose of the Main Feedwater Pumps? Where are the pumps located?

Answer 2

To provide the motive force to raise the pressure of the supplied condensate from around 350 psig to around 1200 psig to overcome S/G pressure

110’ turbine building, west of the A condenser

Question 3

What type of impellers are utilized on the Main Feedwater Pumps?

Answer 3

Double Suction Impellers

Question 4

What system provides lube oil for bearings on the Main Feedwater Pumps?

Answer 4

(LO) Steam Generator Feedwater Pump Turbine Lube Oil system

Question 5

To what capacity are each of the Feed Pumps designed to handle at rated power? What is the procedural limit?

Answer 5

~65% of the total required flow

Procedurally limited to 62% during a downpower to remove one feedwater pump from service

Question 6

At what pressure does the seal water enter the main Feed Pump casing from the Gland Seal Regulator?

Answer 6

150 psig

Question 7

Where does the main feedwater pump seal water come from?

Answer 7

Condensate Seal Water Headers

Question 8

What is the purpose of the two 2.5” Y-strainers in the main feedwater pump seal water lines?

Answer 8

To protect the feedwater pump seals from damage due to solids

Question 9

How many Main feedwater pump seal water Y-strainers are normally in service?

Answer 9

Just one, other on standby

Question 10

What D/P across the seals is normally maintained by the MFWP Gland Seal Regulators?

Answer 10

15 psid

Question 11

What output pressure do the MFWP Gland Leak-off Regulators maintain?

Answer 11

135 psig

Question 12

How much air pressure is utilized in the new MFWP inpro seals?

Answer 12

1 psig

Question 13

What is the purpose of the MFWP Mini-flow valves?

Answer 13

To open or close as feedwater flow changes to maintain approximately 5000 gpm through the Main Feedwater Pump to prevent pump over heating

Question 14

Why does the Mini-flow valve shut when the Main Feedwater Pump trips?

Answer 14

To prevent the pump from freewheeling due to condensate system flow through the mini-flow valve to the condenser

Question 15

When would the MFWP Mini-flow valve be fully open?

Answer 15

When the pump discharge valve is fully shut

Question 16

How do the main feedwater pump Mini-flow valves respond to a loss of IA?

Answer 16

Fail open

Question 17

The MFWP mini-flow valves use how many air boosters for positioning? How does the annubar measure flow rate?

Answer 17

2 (one for opening, one for shutting)

differential pressure

Question 18

What happens to the Mini-flow valve when Feed Pump turbine lube oil pressure drops below 75 psig? Why?

Answer 18

Go closed

Prevent pump from freewheeling due to feedwater flowing through an idle pump

Question 19

How are the Mini-flow valves affected by a loss of 120 VAC?

Answer 19

Fails open

If the FWPT trips, or is already tripped, the valve will close due to the energization of the DC solenoid

Question 20

How are the Mini-flow valves affected by a loss of 125 VDC?

Answer 20

Normal ops – no effect

If FWPT is tripped, a loss of DC will result in the valve failing open

Question 21

How often is the Feedwater pump turbine HP Stop valve tested? Any precautions? What does the local green indicating light mean?

Answer 21

Daily (Lesson plan)
(actually weekly)

HP Control valve must be closed before testing the stop valve

There’s an interlock which prevents testing of the HP Stop Valve if the HP control valve is open

HP control valve is closed

Question 22

Feedwater pump turbine HP and LP control valves are operated by one hydraulic operating cylinder. Due to mechanical arrangement, which valve opens first? What does that allow the other valve to do?

Answer 22

LP Control Valve

HP control valve will maintain the desired speed called for by the control system above the capacity of the LP control valve

Question 23

What is the difference between the HP and LP Stop Valves and Control valves concerning design features?

Answer 23

LP Stop valve has its own valve body and when testing the LP Stop valve it only goes half way closed

LP control valves are comprised of 5 valve assemblies in a valve chest cover with one stop valve

(compared to the HP control valves that are one stop and control valve)

Question 24

Why is there a pressure switch installed on the MFWP control oil pressure line?

Answer 24

Acts to close the turbine control valves whenever the feedwater pump turbine is tripped

This prevents an uncontrolled start which could occur since on turbine reset the LP and HP stop valves immediately go wide open

Question 25

What controls the speed of the Feedwater Pump Turbine and the position of the FW regulating valves? Why does it control these things?

Answer 25

Main Feedwater Control System (also manually from the control room)

maintain steam generator level during power operations

Question 26

What system is the FWCS (feedwater control system) a part of?

Answer 26

Reactor Control System

Question 27

What are the two normal sources of steam to the Feed Pump turbines?

Answer 27

LP control valves: Reheat steam from the MT system moisture separator reheaters (hot reheat line)

HP control valves: Main steam

Question 28

What is the third source of steam for the Main Feed Pump turbine overspeed trip tests?

Answer 28

Auxiliary Steam

Question 29

What is the flow path for the Moisture Separator reheater to the Feed Pump?

Answer 29

Flows through the low pressure stop valve and low pressure control valve

Question 30

What is the flow path for the Main Steam to the Feed Pump?

Answer 30

Flows through the High pressure stop valve and high pressure control valve

Question 31

Which source is used for normal operation in the Main feedwater pump turbines?

Answer 31

Low pressure reheat steam

Question 32

When would we use high pressure steam in the main feedwater pump turbines?

Answer 32

During startup and to supplement the low pressure system during periods of light MT loads or overload on the feed water pump turbine

Question 33

When would I use AS for the main Feed Pump turbines?

Answer 33

over speed Testing

Question 34

What ultimately controls the Feedwater pump Turbine stop valves and control valves?

Answer 34

FWPT control oil

Question 35

What system provides shaft sealing steam to A and B FWPTs?

Answer 35

Turbine Steam Seal and Drain System (GS)

Question 36

What cools the main Feed Pump turbine lube oil coolers?

Answer 36

Turbine Cooling Water

Question 37

Where do the MFWPTs exhaust to?

Answer 37

Underneath the reheat trays in the ‘A’ and ‘B’ Condenser sections to the ‘C’ Condenser section

Question 38

Where are the FWPT drains directed to?

Answer 38

‘A’ and ‘B’ Condenser sections

Question 39

How many wheels (stages) make up the Main Feed Pump turbines?

Answer 39

6

6 stage turbine

Question 40

Where are the Thrust Wear trip and Overspeed trip governors located?

Answer 40

HP end of the rotor and are part of the rotor assembly

Question 41

Regarding the MFWPTs, where is the engagement gear for the turning gear located?

Answer 41

Exhaust end of the rotor

Question 42

What is the normal position of the MFWP Turbine Drain Valves under full steam load? Where do the drain lines tap into the HP and LP stop and control valves?

Answer 42

Normally closed

above the seat and below the seat

Question 43

If the Turbine Drain Valves are closed, how do we remove condensate during normal ops? When would the lead drain valves be opened?

Answer 43

They’re provided with a continuous bypass drain line through orifices

to drain the condensate prior to opening the stop valve, preventing a slug of water from entering the turbine

Question 44

What is the purpose of the Feed Pump turning gear?

Answer 44

To provide low speed turning of the turbine rotor for cooling down the turbine before complete shutdown or for prestart rotation of the turbine rotor before steam is admitted to the turbine wheels

Question 45

What is the interlocked associated with the Feed Pump turning gear and what is it trying to prevent?

Answer 45

Two pressure switches, one monitoring oil pressure on the feedwater pump bearings and the other to monitor the oil pressure to the turbine bearings

A low pressure in either switch will prevent the turning gear motor from operating

This interlock is for bearing protection

Question 46

Where is the Feed Pump Turning Gear normally operated from?

Answer 46

Control Room

a reset/ jog button is at the turbine

Question 47

What are the various Feedwater Pump Turbine trips?

Answer 47

Turbine bearing low oil pressure

Pump bearing low oil pressure

Exhaust vacuum low

Feedwater Pump suction pressure low

Feedwater Pump discharge pressure high

Thrust bearing wear high (active or inactive)

Question 48

What are the three Feedwater Turbine thrust bearing test switches?

Answer 48

Thrust Wear device Test switch

Active Thrust Wear Test Switch

Inactive Thrust wear Test Switch

Question 49

Describe the operation of the Overspeed Governor

Answer 49

Located on the rotor, there’s a plunger held against its seat in the governor housing by a spring

As the rotor spins faster, the centrifugal force will cause the plunger to move out of the housing, and once it reaches the overspeed setpoint, the plunger will throw out. When this happens, it strikes the emergency trip mechanism actuating tripper and trips out the turbine

(trips the stop valves closed)

Question 50

At what nominal setpoint is the mechanical overspeed trip tested to?

Answer 50

110%

Question 51

What is another way to test out the overspeed without getting up to that speed setpoint?

Answer 51

A jet of oil, controlled by a solenoid valve, can be sprayed into the emergency governor housing to unbalance the plunger and actuate the emergency trip at speeds up to rated

Question 52

During a startup, when is the first Main Feedwater Pump started?

Answer 52

Prior to exceeding a reactor power of ~3%, which is the capacity of one AFP

Question 53

When is the second Main Feedwater Pump started?

Answer 53

50% power

Question 54

Prior to startup, what must be done with the Condensate/Feedwater systems to improve the water quality?

Answer 54

Long Path Recirc

Question 55

During normal operation, when can I secure one of the Feedwater Pumps?

Answer 55

If plant load decreases below 62%

Question 56

What is meant by ‘Standby’ when referring to the Main Feedwater Pumps?

Answer 56

The pump and turbine in a warmed ready condition

Question 57

During shutdown, when do the AF pumps take over feeding the steam generators? After each shutdown, why is the Main Feedwater System place in Long Path Recirc?

Answer 57

When the MFWPs would cause over cooling of the RCS

For shutdown chemistry control and system cooldown

Question 58

What will happen if I lose a single Feedwater pump while at 100% power?

Answer 58

Reactor power cutback, lowering reactor power and turbine power to within capacity of a single Main Feedwater pump

Question 59

What will happen if I lose two Feedwater Pumps while at 100% power?

Answer 59

Reactor would trip on low S/G level

S/G level would have to be maintained by Aux feed system

Question 60

What does the CD system do for the feedwater system?

Answer 60

Provides the water to the Steam Generator Feedwater Pump suctions.

Source for the Steam Generator Feedwater Pump seals.

Provides the return path for both Long Path Recirc and feedwater pump miniflow recircs.

Provides the Main Condenser which receives the feedwater turbine exhaust steam, turbine
drains and steam line drains, and provides exhaust vacuum.

Question 61

What is the purpose of the feedwater pump turbine rotor assembly?

Answer 61

to absorb thermal and kinetic energy and transform it to mechanical energy

Question 62

What all is attached to the feedwater pump turbine rotor shaft?

Answer 62

turbine, pump and governor assembly

thrustwear trip and overspeed trip governors at the HP end of the rotor

engagement gear for the turning gear at the exhaust end of the rotor

flexible coupling joining the turbine end to the pump end

Question 63

Where is the seal water on the main FW pumps directed to when leaving the pump?

Answer 63

condenser shell A

steam packing exhauster

Question 64

When seal water is leaving the Main FW pump, what components does it go through?

Answer 64

gland leak-off piping and gland leak-off regulator

Question 65

Where are the MFWPT high pressure and exhaust casings bolted together? What is on each FWPT casing?

Answer 65

at the centerline of the turbine

a blow-out diaphragm

Question 66

What is the flow path through the MFWPT?

Answer 66

high/low pressure steam admitted through respective control valves to the high pressure casing head, then directed to the first stage by a steam ring (high pressure) or by nozzle plates (low pressure), then to the exhaust casing, directing the expanded steam to the condenser via condenser vacuum

Question 67

What happens when there is a trip on the MFWPT?

Answer 67

HP and LP stop and control valves go closed

mini-flow valves go closed

(when trip is reset, all valves will go open)

Question 68

What is the purpose of the MFWPT thrust bearing and what happens when it wears down? How often are the thrust wear device trips tested?

Answer 68

absorbs thrust in the turbine

shaft movement can damage the turbine

weekly

Question 69

How does the MFWPT thrust wear device test switch work?

Answer 69

key operated

key can only be removed when in the test position to be used for the other two test switches

in the isolate position, the switch energizes a solenoid that isolates the thrust wear trip device

in the test position, it enables the active and inactive thrust wear test switches and turns on their green lights

in normal, both thrust wear trip devices are enabled

Question 70

How does the MFWPT active wear test switch work?

Answer 70

key removable in the normal position

normal position does nothing

in test the switch tests the active thrust wear device and enables a green light

Question 71

How does the MFWPT inactive thrust wear test switch work?

Answer 71

key removable in normal

normal position does nothing

in test, the switch tests the inactive thrust wear device and produces a green light

Question 72

How is MFWPT speed determined?

Answer 72

by the relative position of the 5 LP control valves and the high pressure control valve

Question 73

Referring to the MFWPT speed control, How are the valve positions controlled?

Answer 73

an operating cylinder that’s controlled by a speed governor. the governor responds to signals from the feedwater control system