M15.03 Inlets

Question 1

Air enters the engine via?

Answer 1

The engine air intake

Question 2

If the air if the air inlet duct gets wider it’s a?

Answer 2

Divergent inlet

Question 3

A divergent duct does what to the air passing through?

Answer 3

. Velocity decreases
. Static Pressure increases
. Temperature increases

Question 4

The air intake has a inlet duct and inlet nose, what does the nose do?

Answer 4

Helps smooth out the airflow

Question 5

Air disturbances can be caused by?

Answer 5

. Damage to the intake nose
. Ice build up
. Cross winds

Question 6

In order for air to flow smoothly to the compressor, what velocity does it need to be?

Answer 6

Between 0.4 - 07 Mach (307-537mph)

Question 7

Air intakes are designed to decrease airflow speed by?

Answer 7

Converting kinetic energy to static pressure without shocks or lose of aircraft speed

Question 8

The condition of an air inlet are present?

Answer 8

In ground and during flight

Question 9

Subsonic ducts are shaped to ensure?

Answer 9

Even pressure distribution to the compressor
Else could cause compressor stall

Question 10

What is the most efficient subsonic inlet configuration?

Answer 10

Pitot type quasi-circular diffuser

Question 11

To reduce the risk of airflow separation, how are the inlets shaped for subsonic?

Answer 11

Inlet lip is well rounded with a thicker radius
(However at high speeds, the inlet lip needs to be thin)

Question 12

When engines are mounted under the wing, what can happen?

Answer 12

Ground vortex’s (mini tornados) can form, which is swelled by the inlet, further decreases performance.

Question 13

Another thing that can effect the performance of an inlet is?

Answer 13

Crosswinds

Question 14

The subsonic air inlet duct form a divergent or convergent duct??

Answer 14

Divergent, which means it gets wider which would increase the static pressure

Question 15

At transonic speeds the inlet is designed to keep the shock waves out and reduce the speed, how is this done?

Answer 15

By using a normal shockwave diffuser to decelerate the airflow to speed compressor can cope with.

Question 16

What will the normal shockwave do to the air entering the transonic inlet?

Answer 16

Reduce the velocity to subsonic
Increase pressure
Increase temperature

Question 17

What is critical condition??

Answer 17

When a Cross section of the inlet must allow the maximum engine airflow requirements at only one specific Mach number and altitude

Question 18

What is sub-critical condition?

Answer 18

When RPM demand is reduced the shock wave detaches from the inlet lip and moves upstream of inlet, which causes bow wave to form and Mach number to decrease

Question 19

What is super- critical condition??

Answer 19

When RPM demand is increases to more than the inlet can cope with, it causes a pressure drop which causes the shock wave to be swallowed, which allows supersonic airflow in the inlet. Which results in couples shockwaves and turbulence.

Question 20

Duct inefficiencies or 1% will cause a loss of thrust of what %?

Answer 20

1-4% of thrust loss

Question 21

Three types of shock waves that can form on inlets?

Answer 21

. Normal
. Oblique
. Bow wave

Question 22

What occurs when a normal shock wave takes place??

Answer 22

Velocity abruptly drops to subsonic and pressure rises

Question 23

During a normal shock wave, a lot of pressure is generated, is this all usable??

Answer 23

No, large amount is turned into heat energy

Question 24

When would an oblique shockwave take place?

Answer 24

When the airflow is force to change direction

Question 25

What happens after an oblique shock wave?

Answer 25

Less serve magnitude and flow, decreases a bit but stays supersonic

Question 26

When do normal shock waves take place?

Answer 26

At low supersonic airspeed and stand perpendicular to the airflow

Question 27

Bow shock wave?

Question 28

What does the normal shock inlet employ?

Answer 28

A single normal sock wave at the inlet to slow the air to subsonic

Question 29

At what speeds can the normal shock inlets work at?

Answer 29

Slow speeds, not suitable for Hugh speeds as it causes a reduction in pressure/ efficiency (30% at Mach 2)

Question 30

What does the oblique shock inlet do?

Answer 30

Employed a series of external oblique shock waves to slow the supersonic airflow before the normal shock occurs, that way the normal wave would on,y be weak, causing only a small loss of efficiency

Question 31

What is diffuser buzz?

Answer 31

When a normal shock wave is swallowed and expelled continuously at high speeds
(Buzz due to sound it makes)

Question 32

How can you overcome a diffuser buzz?

Answer 32

By using a variable geometry inlet

Question 33

How do variable geometry air inlets work?

Answer 33

. At supersonic - produces multiple oblique shock waves then followed by a normal shock wave.
. At transonic - a normal shock is formed

Question 34

At a high Mach number how many oblique waves and normal waves are formed??

Answer 34

3 oblique waves and then 1 normal wave

Question 35

What are the two negative effects of ice in engine inlets?

Answer 35

. Disturbed airflow - decreases performance
. Engine sucks ice up and damages

Question 36

All jet engine have for ice?

Answer 36

Thermal anti ice systems

Question 37

What are the requirements of anti ice systems?

Answer 37

. Reliable
. Easy maintenance
. No excess weight
. No reduction of enshrine power

Question 38

What are the two types of thermal anti ice systems?

Answer 38

. Bleed air
. Electrical heating

Question 39

What system only protects the engine spinner and intake lip?

Answer 39

Bleed air system

Question 40

What other methods protect the engine spinner?

Answer 40

. Hot oil pumped around inside the spinner
. Rubber spikes - causes unbalance then spins off

Question 41

Where is the bleed air from??

Answer 41

Engine HP compressor

Question 42

What do anti ice valves protect against?

Answer 42

Over pressurisation and limits the bleed air

Question 43

Where does waste anti ice air go?

Answer 43

Over board via small grills

Question 44

How are anti ice valves selected and operated?

Answer 44

Electrically selected and pressure operated

Question 45

On the engine intake thermal anti ice ins, the amber light will illuminate until?

Answer 45

The low pressure switch senses a duct pressure of more than 5 psi

Question 46

Where is duct over pressure signalled?

Answer 46

ECAM or EICAS

Question 47

What engine are electrical anti ice systems normally used on?

Answer 47

Turboprop

Question 48

What is the electrical power supplied to heater mats?

Answer 48

AC or DC

Question 49

What type of heater mats are there?

Answer 49

Continuous and intermittent

Question 50

What is the purpose of continuous heated elements?

Answer 50

Prevent ice formation in leading edge, intake and spinners

Question 51

What is the purpose of intermittent heated elements?

Answer 51

. Situated behind continuous heated mats
. During heat OFF allows thin layer of ice to build up
. During heat ON rapidly melts the ice

Question 52

To ensure ice breaks off easily on intermittent heat mats, what is there??

Answer 52

The elements are divided into separate segments

Question 53

At +10 to -6 degrees what ice protection cycle is used and for how long?

Answer 53

. Fast
. 2 minutes

Question 54

At below -6 degrees what ice protection cycle is used and for how long?

Answer 54

. Slow
. 6 minutes

Question 55

What are continuity of heater checks?

Answer 55

Check correct resistance, carried our at prescribed inspections and following repairs

Question 56

What do insulation resistance check for?

Answer 56

To see if there is any breakdown of insulation between heater mats/ elements

Question 57

What are heater mats examined for?

Answer 57

. Splits
. Wrinkles
. Tears
. Discolouration