Superchargers + Electrical + Ignition Systems Flashcards
During take-off in an aircraft with a turbocharged engine,
[a] full power must be achieved before the brakes are released
[b] throttles should be opened fully initially then reduced to rated boost
[c] throttles should be opened smoothly and care taken not to exceed rated boost
[d] maximum continuous power should not be exceeded
C
Turbo charged engines are much more prone to overboosting.
Dual ignition on an aircraft engine provides an additional safety factor during flight. It is also necessary to
provide
[a] extra power from hotter combustion temperature
[b] efficient combustion of the charge during the power stroke
[c] longer combustion time and therefore more power
[d] easier burning of the charge when the mixture is rich
B
Two flame fronts are required to allow the large charge to burn in the time available.
An aircraft electrical system operates at approximately constant
[a] voltage
[b] ampage
[c] power
[d] resistance
A
Volts remain constant, while amps vary according to demand.
If an aircraft with a flat battery is hand started
[a] the alternator may be damaged
[b] the alternator may remain off line after the engine has started
[c] the alternator must not be turned on after the engine has started
[d] the alternator may over charge the battery
B
The alternator requires a small charge from the battery to excite the magnetic field.
If an alternator failure occurs during flight, the indications to the pilot would be
[a] a discharge showing on a left hand zero ammeter
[b] zero showing on a centre zero ammeter
[c] an unusually high charge rate showing on a left hand zero ammeter
[d] a discharge showing on a centre zero ammeter
D
The battery begins to supply the system demands. The ammeter shows discharge.
If the electrical load is so high that the alternator cannot supply the demands of the system the indications on a
centre zero ammeter would be
[a] warning light on and charge showing
[b] warning light on and discharge showing
[c] warning light off and charge showing
[d] warning light off and discharge showing
D
The battery begins to export power to assist the alternator. Since the alternator has not
failed, the warning light remains off.
Circuit breakers and fuses protect an electrical circuit from
[a] too many volts
[b] too many amps
[c] reversing of the current flow
[d] being left on too long
B
Circuit breakers and fuses are rated in amps. ie ‘a 10 amp fuse’. This indicates the
number of amps it can tolerate before breaking the circuit.
A micro switch is
[a] a very very small switch
[b] a remote switch activated from the cockpit
[c] a remotely located switch which cannot be directly activated from the cockpit
[d] a switch in a circuit with a very small current
C
Micro switches are found on flaps and undercarriages. They automatically switch off
the circuit when extension or retraction is complete. The pilot has no control over its
operation.
Solenoids allow a heavy circuit to be turned on or off by the use of
[a] a strong spring
[b] high voltage from the battery
[c] hydraulic pressure
[d] a lighter current to an electromagnet
D
Solenoids avoid the need for heavy, high tension leads to be brought into the cockpit.
The capacity of a battery is measured in
[a] amp hours
[b] amps
[c] volts
[d] volt hours
A
A 24 amp hour battery, when fully charged, can supply any combination of amps and
hours that multiply to make 24 ie 6 amps for 4 hours or 3 amps for 8 hours etc.
Vents are required in a battery compartment to ensure that
[a] water and dirt are kept out of the vicinity of the battery
[b] battery acid can drain out of the compartment during charging
[c] gas pressure cannot build up in the battery compartment
[d] dangerous gases such as hydrogen do not accumulate near the battery during charging
D
Hydrogen and oxygen are generated during recharging.
If a magneto earth lead becomes disconnected or breaks
[a] that magneto cannot be turned off
[b] that magneto will not provide any spark
[c] the engine will “dead cut” when that magneto is selected
[d] that magneto will provide intermittent spark
A
A magneto is switched off by completing the circuit to earth. If the circuit is broken,
the magneto will remain ‘live’.
The purpose of an impulse coupling on a magneto is to-
[a] guard against the magneto being turned off accidentally
[b] produce a strong and retarded spark while the engine is being cranked
[c] ensure a strong spark is available during high power operation
[d] obtain an electrical current from the alternator if the magneto fails
B
The impulse is provided to assist the magneto to produce a spark when the engine is
not spinning fast. It also changes the timing to make starting easier.
The purpose of a supercharger or turbocharger is to-
[a] to supply extra fuel to the engine when it is operating at high power
[b] to increase the density of the air in the induction system
[c] to ensure that detonation does not occur at high power settings
[d] to distribute fuel evenly to each cylinder
B
Superchargers and turbochargers increase the mass air flow to the engine. The extra
air allows extra fuel to be added to produce extra power.
The pilot of a turbocharged aircraft notices that the manifold pressure indication shows abnormal fluctuations
during a long climb. Select the most likely cause-
[a] detonation is occurring in one of the cylinders
[b] there is a leak in the exhaust system
[c] the wastegate is sticking
[d] there is a leak in the induction system
C
The wastegate can ‘coke up’ with exhaust by-products and become sticky. This
produces erratic manifold pressure fluctuations during climb as the wastegate sticks
and ‘lets go’ in jerky movements.
A leak in the induction system of a turbocharged engine with automatic boost control will be most noticeable-
[a] during taxi
[b] at take-off
[c] during cruise at low level
[d] on a climb to high level
D
A leak is more noticeable at high level because more air is lost due to the increased
pressure gradient between the reduced outside atmospheric pressure and the constant
upper deck pressure.
A turbocharged engine with automatic boost control is operating below the critical altitude. A leak developing
upstream of the turbine in the exhaust system will result in-
[a] abnormal fluctuations in the manifold pressure indication
[b] the wasegate moving towards the closed position
[c] the wasegate moving towards the open position
[d] a sudden drop of manifold pressure.
B
Any exhaust gas that escapes through the leak does not pass through the turbine. The
turbine and compressor RPM try to drop, but the automatic system closes the waste
gate to send extra gas through the turbine to compensate for the leak.
Prior to an alternator failure in flight the left-hand zero ammeter was reading 12 amps. If no electrical loads
were turned off, a 20 amp/hour battery could supply the system for approximately-
[a] 30 minutes
[b] 60 minutes
[c] 90 minutes
[d] 100 minutes
D
A 20 amp/hour battery can supply any combination of amps and hours that multiply to
make 20. If the system was using 12 amps the battery would last 20 ÷ 12 = 1.7 hours
which is approximately 100 minutes. Note we are ignoring the small portion of the 12
amps which would have been going to the battery before the alternator failure.
An aircraft is equipped with a voltmeter. Before start-up with the master switch on, the voltmeter reads 24 volts.
The reading that would indicate normal operation during cruise would be -
[a] 24 volts.
[b] less than 24 volts.
[c] 28 volts.
[d] varying depending on the load on the system.
C
The voltmeter simply reads the system voltage at all times. In a 24 volt system it will
read the battery’s voltage [24] before start-up. During cruise it will read the voltage
output of the alternator. In a 24 volt system, the alternator’s output will be set slightly
highter than the battery, 28 volts. It will not vary with electrical loads - only a lefthand
ammeter will do that.
Given the following data.
Item Operating current [amps]
VHF Com. 2
VHF Nav. 2
GPS. 4
ADF. 2
Transponder. 4
Navigation Lights. 8
Instrument Lights. 3
Strobes. 5
Rotating Beacon. 5
After an in-flight failure of the alternator, the pilot of the above aircraft turns off all items of electrical equipment
except for the VHF Com, Transponder and GPS. If the battery has a capacity of 20 amp/hours and was fully
charged at the time of the failure, the approximate time for which it could be expected to supply the system
demands is -
[a] 150 minutes. [b] 120 minutes.
[c] 200 minutes. [d] 60 minutes.
B
The load on the system with those items on would be 2 + 4 + 4 = 10 amps. A 20 amp/
hour battery could supply this load for 20 ÷ 10 = 2.0 hours = 120 minutes.
The function of a rectifier in an electrical system is to -
[a] convert AC current to DC current
[b] allow the current to flow in only one direction.
[c] convert DC current to AC current.
[d] maintain a constant system voltage.
A
A rectifier converts AC current to DC current.
The function of a inverter in an electrical system is to -
[a] convert AC current to DC current
[b] allow the current to flow in only one direction.
[c] convert DC current to AC current.
[d] maintain a constant system voltage.
C
An inverter converts DC current to AC current.
Your aircraft is equipped with a voltmeter and you note that before start-up with the master switch on, the
instrument reads 24 volts. After an alternator failure in flight, this instrument would be expected to read:
[a] zero
[b] more than volts
[c] less than 24 volts
[d] 24 volts
D
A voltmeter always reads the system voltage. Because the alternator is always set to
produce a voltage a little higher than the battery, you would expect the voltmeter to
read more than 24 volts during normal operation. However should the alternator fail
during flight, the battery will supply the system voltage. The voltmeter will then read
the battery’s voltage - which in this case is 24 volts.
The primary purpose of circuit breakers as used in aircraft electrical systems is to
[a] provide a means of breaking the circuit manually in flight in case of emergency
[b] prevent the development of open circuits with the possibility of fire
[c] regulate the voltage applied to various units
[d] protect electrical units from overloading and reduce the fire hazard from short circuits
D
Circuit breakers react to the amount of current [amps] flowing in the circuit rather
than the voltage which remains nearly constant. If too much current flows the circuit
overheats causing either damage to the equipment or fire - or both.
It is advisable to check magnetos at pre-flight to make sure both are operating and capable of being shut off. This check should be made
[a] during engine run-up, before takeoff
[b] at idle speed, as soon as the engine is running smoothly after start-up
[c] at a throttle setting equivalent to cruising speed
[d] at full throttle
A
Magneto checks are a necessary item in the pre-takeoff checks
An impulse magneto coupling
[a] reduces magneto speed during engine warm up
[b] advances ignition timing and gives a hotter spark at starting
[c] retards ignition timing and gives a hotter spark at starting
[d] gives an automatic spark increase during high speed operation
C
The impulse causes the magneto to flick quickly at an exact time during engine
cranking. This produces a strong spark later than normal [retarded] in the cycle. The
retarded spark is necessary because of the very slow rotational speed during engine
cranking.
