mgm Flashcards
mgm (9 cards)
STATE the function of the Isophase Bus Duct Cooling System
• Provides forced air cooling flow to the isolated phase bus to increase its current carrying capability
STATE the function of the following components:
• Isophase bus ducts
• cooling fans
• space heaters
Isophase bus ducts • Separate bus duct for the three electrical phases. • Bus duct network connects the following: Output bushings Neutral Bushings Generator breaker GSU UAT’s cooling fans • forces air through ducts space heaters • Utilized to keep Isophase ductwork internal temperature above dew point to prevent condensation in the bus enclosure.
DESCRIBE the airflow in the forced air portion of the Duct Cooling.
- Bus duct cooling fans supply air to the B phase (B blows).
- 1 fan in run and 1 in standby
- Directed to the generator and the GSUs
- Return air flow is via the A and C phases to a common inlet plenum.
- All of the neutral bushing housing supply air is vented to atmosphere via screens.
- The majority of the air flow returns to the fan suction
In regards to the Isophase Bus Duct Cooling Water:
• STATE the source of cooling water.
• STATE all signals that will initiate cooling flow.
STATE the source of cooling water.
• SCCW
STATE all signals that will initiate cooling flow.
• >130°F energizes the solenoid operated flow control valve for the operating system.
• >190°F opens the flow control valve for the standby system. (also starts the standby fan)
EXPLAIN how to start up and shutdown the Bus Duct Cooling System
• Per ON1039.09, Isophase Bus Duct Cooling System Operation
EXPLAIN how to shift the Bus Duct Cooling Fans.
• Operate equipment with approved procedures, clearances, or other documents as appropriate to maintain proper configuration control. Basics • Start B • Verify B running • Place A CS in MAN • Place SS to B • Place B CS in AUTO • Verify B running • Stop A • Place A in AUTO
STATE the function of the Core Monitor
- Provides an immediate warning of local overheating in the generator before extensive damage results.
- Monitors particulate contamination of the H2.
DESCRIBE the sequence of filling and purging operations that would be required following a generator maintenance period to electrical production and back to generator maintenance following shutdown
- Generator is filled with H2 at power
- Once shutdown Generator is purged with CO2
- After CO2 purge is complete, we purge with air
- Once the generator is ready to go online, we purge the air with CO2 and then purge the CO2 with H2
STATE how H2 gas is circulated through the generator during operation
- Radial-flow, centrifugal fans mounted on each end of the rotor circulate the H2 through the generator
- The H2 cools the stator by flowing through radial and axial passages in the stator core.
- The H2 cools the rotor by entering the end retaining rings and flowing along the subslots toward the center
- H2 exits rotor through radial slots and joins H2 flowing through stator.
- H2 flows through two duplex coolers (parallel) at each generator end (total of four).
- The coolers’ outlet H2 is pulled toward and into each fan inlet
