Control Building HVAC Flashcards
Unit 2 is at 100% power with all systems in a normal lineup.
Control Room Normal AHU HJN-A02 trips on thermal overload.
Which of the following rooms no longer have cooling?
A. 160’ Cable Spreading Room
B. 120’ Communication Equipment Room
C. 100’ Train A ESF Switchgear Room
D. 74’ Control Building Basement
B
Unit 1 was at 100% power with all systems in a normal lineup.
A LOCA results in a reactor trip, a SIAS, and a CIAS.
All equipment operates as designed.
The 120’ Control Building Communications Equipment and Inverter Rooms are being cooled by:
A. nothing
B. ‘B’ Train Control Room Essential AHU HJB-F04
C. Control Room Normal AHU HJN-A02
D. Control Building Normal AHU HJN-A05
A
Which of the following areas is NOT supplied by Control Building Normal AHU HJN-A01?
A. 74’ Control Building Basement
B. 120’ Cable Spreading Room
C. 120’ Communications Equipment and Inverter Rooms
D. 160’ Cable Spreading Room
C
HJA-HS-58 controls the following:
Control Building Normal AHU Essential Return Duct Isolation Damper HJA-M36
Control Building Normal AHU Essential Return Duct Isolation Damper HJA-M51
ESF Normal AHU Essential Supply Duct Isolation Damper HJA-M66
ESF ‘A’ Essential AHU Essential Supply Duct Isolation Damper HJA-M62
All dampers were in their normal position when SIAS actuated.
All dampers are now closed.
What is the indication on HJA-HS-58?
A. Dark
B. Red light ONLY
C. Green light ONLY
D. BOTH Red and Green lights
D
Unit 1 is at 100% with all systems in their normal lineup.
‘A’ Battery Room Normal Exhaust Fan HJN-J01A is running.
HJA-HS-81, the operating switch for ‘A’ Battery Room Essential Exhaust Fan HJA-J01A, is placed to START and then released.
Which of the following is true concerning the equipment response?
A. HJA-J01A will not start because HJN-J01A is running.
B. HJA-J01A will start. HJN-J01A will continue to run.
C. HJA-J01A will start. HJN-J01A is interlocked to immediately trip when HJA-J01A is running.
D. HJA-J01A will start. HJN-J01A will trip on high duct differential pressure.
D
Which of the following components can NOT be controlled from the Remote Shutdown Panel?
A. ‘B’ CR Essential AHU HJB-F04 OSA intake damper HJB-M02
B. ‘B’ CR Essential AHU HJB-F04 OSA intake damper HJB-M03
C. ‘B’ Battery Room Essential Exhaust Fan HJB-J01B
D. ‘B’ CR Normal AHU Isolation Dampers HJB-M01/M55
C
Unit 3 is at 100% with all systems in their normal lineup.
RU-29 fails high, resulting in an actuation of both trains of CREFAS.
All equipment operates as designed.
Control Building Normal AHU HJN-A01 is ___(1)___, and Control Room Normal AHU HJN-A02 is ___(2)___.
A. (1) running; (2) running
B. (1) running; (2) not running
C. (1) not running; (2) running
D. (1) not running; (2) not running
B
Refer to drawing 01-E-HJB-0024.
Unit 1 is at 100% power with all systems in their normal lineup.
An ammonia spill in the North Yard causes the control room to manually initiate both trains of CRVIAS.
Subsequently, RU-30 fails high, resulting in an actuation of both trains of CREFAS.
All equipment operates as designed.
The RO places handswitch HJA-HS-36 for CR Essential AHU Outside Air Intake Damper HJA-M02 to the OPEN position.
The OVERRIDE light on HJA-HS-36 will be ___(1)___ and the damper will be ___(2)___.
A. (1) on; (2) closed
B. (1) on; (2) open
C. (1) off; (2) closed
D. (1) off; (2) open
A
The ‘A’ CR Normal AHU discharge isolation damper (HJA-M01) is OPEN and the ‘B’ discharge isolation damper (HJB-M01) is CLOSED. The RO goes to start the CR Normal AHU (HJN-A02); will the AHU start?
Interlocks exists that will prevent the CR Normal AHU (HJN-A02) from starting unless both of its discharge dampers (HJA-M01 & HJB-M02) are OPEN. In addition, a closure of either of these dampers will trip off the AHU.
Why are the CR Normal AHU isolation (suction and discharge) dampers powered from their respective PK buses?
The “B” essential air filtration unit (HJB-F04) utilizes the same duct work as the Normal AHU (HJN-A02), the dampers are necessary to isolate the Normal AHU from the essential ventilation system when required (i.e. SIAS, LOP, CREFAS, CRVIAS).
The isolation dampers are air operated and fail close on a loss of air or power.
The Control Building Normal AHU (HJN-A01) is interlocked with suction damper (HJA-M51) such that …
if the damper is CLOSED the AHU will NOT start and if the damper closes while the AHU is running, the AHU will stop.
If the ESF Switchgear Normal AHU (HJN-A03)discharge damper (HJA-M66) is OPEN and discharge damper (HJB-M66) is CLOSED, will the AHU start if given a start signal?
Yes, the ESF Switchgear Normal AHU (HJN-A03) will run if only one of its discharge dampers HJA-M66 or HJB-M66 is OPEN.
Conversely, the AHU will stop when both dampers go CLOSED.
The CR Essential AHUs (HJA-F04 & HJB-F04) will start on which ESFAS and BOP-ESFAS signals?
SIAS CSAS CREFAS CRVIAS LOP
A SIAS has initiated and the intake dampers (HJA-M02/M03 and HJB-M02/M03) to the CR Essential AHUs ‘A’ and ‘B’ have gone OPEN. The Control Room has determined to err on the conservative side and recirculate the air to the CR. What method or methods can the RO use to shut the intake dampers?
The RO can override the SIAS to shut the intake dampers or manually initiate a CRVIAS.
The ESF Equipment Room Essential AHUs (HJA-Z04 & HJB-Z04) are interlocked with their respective discharge dampers (HJA-M62 or HJB-M58) in that if the damper …
goes CLOSED the fan will trip.
