GR- Gaseous Radwaste

Question 1

What is the purpose of the GR system?

Answer 1

Collects and processes potentially radioactive gases generated within the plant so that exposure of onsite and offsite personnel is kept within acceptable limits

High activity waste gas, containing primarily hydrogen and nitrogen, is collected and stored in the oxygen free system to permit decay of short-lived isotopes

Question 2

What comprises the GR system?

Answer 2

A gas surge header, a waste gas surge tank, two waste gas compressors, three waste gas decay tanks and associated piping

Question 3

Describe the GR flowpath

Answer 3

Waste gas from surge header is collected in surge tank prior to being filtered and compressed through one of the two parallel and redundant waste gas compressors.

Waste Gas compressors discharge to the combined compressor discharge header which directs the gas to any one of three waste gas decay tanks.

Decayed gas from decay tanks is discharged to the Radwaste building exhaust system through two air operated isolation valves, a gaseous discharge filter, a flow element, a radiation monitor and a flow control valve.

Exhaust is discharged to plant vent where additional radiation monitors exist

Question 4

What provides power to GR instrumentation in the RW control room?

Answer 4

NN

Question 5

What powers the GR waste gas compressors? Where are they located?

Answer 5

NH

140” RW building

Question 6

What does the GA system do for the GR system?

Answer 6

Provides nitrogen that is used for the initial system purge

subsequent purges to allow for maintenance

auto purge from high O2 in surge header

Question 7

What would cause the GR gas surge header isolation valves to automatically close? Where does the relief valve on this header discharge to?

Answer 7

Receipt of a CIAS

RW building exhaust

Question 8

What powers the motor operated GR gas surge header isolation valve?

Answer 8

PH

Question 9

What powers the solenoid operated GR gas surge header isolation valve?

Answer 9

PK

Question 10

What is the purpose of the GR Gas Surge Tank?

Answer 10

Absorbs fluctuations in the gas volume entering the system to minimize compressor operating time

Question 11

What is the design temperature of the plastic liner in the GR Gas Surge Tank?

Answer 11

200F

Question 12

Where is the GR Gas Surge Tank located?

Answer 12

140’ Radwast Building

Question 13

What is the purpose of the Gaseous Radwaste compressors?

Answer 13

Pump low pressure gas from the surge tank to the decay tanks for holdup prior to release

Capable of automatic starting and stopping to control surge tank pressure

Question 14

When in auto, which GR compressor will start if the mode selector switch is in A-lead, B-stby and there is a high surge tank pressure?

Answer 14

“A” compressor

Question 15

When in auto, what would start both GR compressors?

Answer 15

Hi-Hi surge tank pressure

Question 16

What is the purpose of the GR Decay Tanks?

Answer 16

Used to store waste gas prior to atmospheric discharge. They serve as a holding area for the gas while it undergoes radioactive decay

Question 17

The liner in the GR Decay Tanks is designed for what temperature?

Answer 17

200F

Question 18

What situations would cause the GR Decay Tank Discharge Header isolation valves (GRN-UV-34A, 34B) to automatically close? What else closes? How are they reopened?

Answer 18

HR system exhaust fan A and B low D/P
High waste gas discharge flow
High radiation level
High waste gas discharge pressure in the rad monitor supply line

The air supply solenoid valve to flow valve FV-33 which will cause FV-33 to close

Manually restored

Question 19

When is the Gaseous Radwaste system considered out of service?

Answer 19

Valve GRN-V002, surge header isolation valve is closed
OR
All inputs of the surge header are red tagged closed

Question 20

What is the Hi-hi alarm set point of the GR Oxygen analyzer? What else occurs?

Answer 20

3.75%

Isolates the GR system by stopping the waste gas compressors and an auto dilution of the GR system with nitrogen is initiated

Question 21

When is the Nitrogen Dilution secured and what affect will it have on oxygen concentration in the GR system? When will the nitrogen auto-dilute the gas surge header, surge tank and decay tanks?

Answer 21

Pressure reaches 25 psig, which should reduce oxygen concentration by 50%

after a 5 minute delay with the HI-HI O2 alarm still in

Question 22

What system powers the auxiliary relays in the RW control panels?

Answer 22

NK

Question 23

The 2” diameter GR gas surge header receives gases from what sources?

Answer 23

RDT

Containment refueling failed fuel detector vent

Dry sipping auxiliary pump

Gas stripper

VCT and associated relief

Oxygen analyzer return

Question 24

How does GR interface with HR?

Answer 24

high activity portion of GR discharges to the HR system

low activity aerated waste gas is also vented from selected equipment

Question 25

What is the purpose of the GR waste gas compressors? What cools them?

Answer 25

pump low pressure gas from the waste gas surge tank to the waste gas decay tanks for holdup prior to release

NC

Question 26

What is the purpose of the condensate pot tapped off of the GR gas surge header? Where is it located?

Answer 26

to collect condensation from the RDT

77’ aux. building west Mech. pen. room

Question 27

When would the oxygen analyzer that monitors the GR decay tanks sound an alarm?

Answer 27

Oxygen content of 2% or greater

Question 28

What is the purpose of the GR waste gas surge tank? What is the design temp of this tank? Where is it located?

Answer 28

absorb fluctuations in the gas volume entering the system to minimize waste gas compressor operating time

200*F

140’ RW building

Question 29

When would the GR waste gas compressors auto start and stop?

Answer 29

to maintain waste gas surge tank pressure

Question 30

Concerning the GR waste gas compressors, at what pressure does the lead and standby compressors start and stop?

Answer 30

lead starts on 3psig
stand by starts at 5 psig

both stop at 1.5 psig

Question 31

Nitrogen auto-dilute trips any running GR waste gas compressor. How is the compressor reset?

Answer 31

turning hand switch to stop and then back to auto

Question 32

At what level does the GR waste gas compressor oil level need to be? How often does each compressor need to be run and why?

Answer 32

.5” above full mark

weekly because the compressor will lose oil priming otherwise

(compressors are swapped twice a week and they run at least daily)

Question 33

What is the design pressure of the GR waste gas decay tanks? Where do these tanks relieve to?

Answer 33

380 psig

waste gas surge tank

Question 34

How many GR waste gas decay tanks are normally in service at a time? At what pressure are the tanks swapped? How long must the newly isolated tank remain isolated for prior to chemistry sampling for release?

Answer 34

one at a time

~340 psig

45 days

Question 35

Where can the GR waste gas decay tanks release to? Where are these tanks located?

Answer 35

RW building exhaust and plant vent stack

140’ RW building

Question 36

How is the GR waste gas decay tank release driven? What is the release rate? When is the release secured, unless maintenance is required?

Answer 36

differential pressure between the tank and the atmosphere

50 SCFM

> 15 psi

if maintenance is required, tanks completely release and are nitrogen purged

Question 37

Describe the operation of the GR decay tanks isolation valves hand switch in the main control room and in the RW control room. Where are they located?

Answer 37

HS-34B is in the main control room and provides the open permissive to operate UV-34a and 34B from the RW control room hand switch, HS-34A. When HS-34B is put to close, both valves close and can not be operated from the RW control room.

140’ RW building

Question 38

What is required from the Effluents group prior to reopening the GR decay tank isolation valves to start a waste gas release? What does this authorize?

Answer 38

Release permit

which tank to release from and a flow rate

Question 39

What is the purpose of the GR discharge flow control valve? How is it controlled? Where is it located?

Answer 39

controls the rate of waste gas relief to the RW building exhaust header

there is a fast and slow mode for manual operation. once the position is set just below the release permit flow rate, the rate is matched on the auto controller and is controlled by the flow element up stream

140’ RW building

Question 40

What protections are in place for RU-12, gaseous radwaste rad monitor? Where is this monitor located?

Answer 40

flow orifice limited to 5 SCFM and a low flow alarm

140’ RW building

Question 41

In the GR system, where can the four O2 analyzers be aligned to?

Answer 41

normally to the waste gas surge header

can also be aligned to the waste gas surge tank

Question 42

Who is notified when there is a loss of operability of the GR system?

Answer 42

immediately unit shift manager and ASAP system process supervisor

Question 43

When is the GR system considered in-service?

Answer 43

it is considered in service when the system is lined up to any one of the inputs and a compressor is in auto

Question 44

What are the tech specs related to the GR system?

Answer 44

two O2 monitors must be in service

O2 concentration shall be 2% or less