Limitations And Misc gen

Question 1

AEO Limitations (L1)

Torque Limitations

All use of 112-117% Tq in excess of 6 seconds is to be reported for maintenance action.
A flight is defined as the elapsed time from aircraft wheels off the ground to wheels on the ground.

Answer 1

Max Continuous- 100%
Max 1 hour- 100% (1hr/flt)
Max 5 mins- 100% (>90kts) (5min/flt)
30 minute rating- 106.5% (See Note 1)
2.5 minute rating- 112% (See Note 2)
Transient (Gearbox)- 117% for 6 sec

Note 1: At airspeeds 90kts and below, 106.5% Tq permitted for 30 minutes per occurrence. Engine parameters remain restricted to max 5 mins rating per flight.
Note 2: At airspeeds 50kts and below, 112% Tq permitted for 2.5 minutes per occurrence. Engine parameters remain restricted to max 5 mins rating per flight.

Question 2

AEO Limitations (L1)

Nf% Limitations

A flight is defined as the elapsed time from aircraft wheels off the ground to wheels on the ground.

Answer 2

Max Continuous- 104.6%
Max 1 hour- 104.6% (1hr/flt)
Max 5 mins- 104.6% (>90kts) (5min/flt)
Transient (Engine)- 114.4% for 20 sec
Ground Idle- See Note 4
Autorotation- 107.3%

Note 4: Operation between 58% and 77% Nf is limited to 20 seconds maximum.

^Remember the washing machine in the kitchen dit.

Question 3

AEO Limitations (L1)

NgC% Limitations

A flight is defined as the elapsed time from aircraft wheels off the ground to wheels on the ground.

Answer 3

Max Continuous- 90%
Max 1 hour- 95% (1hr/flt)
Max 5 mins- 100% (>90kts) (5min/flt)
Ground Idle- 40%

Note 6: An EECU degraded fault may be accompanied by a torque and/or NgC split. Power turbine speed may increase as power is reduced. The power turbine observed speed limit is raised to 107.2% at engine conditions below the maximum continuous rating when there is an EECU degraded warning present.

Question 4

AEO Limitations (L1)

TIT °C Limitations

A flight is defined as the elapsed time from aircraft wheels off the ground to wheels on the ground.

Answer 4

Max Continuous- 818 °C
Max 1 hour- 853°C (1hr/flt)
Max 5 mins- 882°C (>90kts) (5min/flt)
Starting- 840°C
Ground Idle- 570+2A (See Note 5)

Note 5: A = Ambient Temperature °C

Question 5

Twin Engine Cruise (TEC) Limitations (L1)

TEC Limits

Defined as operations with No 3 engine intentionally shutdown for the purpose of extended range cruise. The following limits apply to TEC:

CAUTION: The AMS and EECU do not distinguish between TEC and OEI conditions, and default to engine OEI ratings and limits. Consequently, in TEC the EECU will not limit at the AEO max 5 mins rating.

Answer 5

• Deliberate operation above TEC max continuous rating is prohibited.
• Maximum pressure altitude is 10,000ft
• Minimum safe height AGL/ASL must be calculated to account for height loss following engine failure during TEC, based on a two minute allowance for restarting No 3 engine.
• Aircrew must monitor engine and torque to ensure limits are respected, particularly when using BAR, RAD and VS autopilot modes.
• Maximum continuous period TEC is 3 hours.
• No 3 engine must be run at FLIGHT for a minimum of 10 minutes between separate periods of TEC.
• Maximum cumulative duration of TEC between No 3 engine oil level checks is 6 hours.
• Use of AFCS Transition down (TD1 & TD2), Transition Up (TUP) modes is prohibited.
• Flight in engine icing conditions is prohibited.
• USL operations are prohibited.

Question 6

Twin Engine Cruise (TEC) Limitations (L1)

TEC Limitations (NgC%, TIT, Nf% and Tq%)

Defined as operations with No 3 engine intentionally shutdown for the purpose of extended range cruise. The following limits apply to TEC:

CAUTION: The AMS and EECU do not distinguish between TEC and OEI conditions, and default to engine OEI ratings and limits. Consequently, in TEC the EECU will not limit at the AEO max 5 mins rating.

Answer 6

Max Continuous (3 hours), Max 1 Hour (1 hour/flt) and Transient (6 secs) all remain the same as AEO limitations.

Question 7

One Engine Inoperative (OEI) (Engine failure, Training and Engine Test) and Two Engines Inoperative (TEI) (Engine failure) Limitations (L1R)

Torque Limitations

Answer 7

Max Continuous- 112%
Max 1 hour- 112% (1hr/flt)
Max 5 mins- 112% (5min/flt)
Max Contingency- 125% (See Note 1 & 2)
Transient- 136% for 20 sec

Note 1: The use of Max Contingency OEI rating is not permitted for training and/or engine testing.
Note 2: Restricted to 2.5mins per application OEI.

Question 8

One Engine Inoperative (OEI) (Engine failure, Training and Engine Test) and Two Engines Inoperative (TEI) (Engine failure) Limitations (L1R)

NgC% Limitations

Answer 8

Max Continuous- 90%
Max 1 hour- 95% (1hr/flt)
Max 5 mins- 100% (5min/flt)
Max Contingency- 107% (See Note 1 & 2)

Note 1: The use of Max Contingency OEI rating is not permitted for training and/or engine testing.
Note 2: Restricted to 2.5mins per application OEI.

Question 9

One Engine Inoperative (OEI) (Engine failure, Training and Engine Test) and Two Engines Inoperative (TEI) (Engine failure) Limitations (L1R)

Nf% Limitations

Answer 9

Max Continuous, Max 1 hour, Max 5 mins, Max Contingency- 104.6%

Note 1: The use of Max Contingency OEI rating is not permitted for training and/or engine testing.
Note 2: Restricted to 2.5mins per application OEI.

Question 10

One Engine Inoperative (OEI) (Engine failure, Training and Engine Test) and Two Engines Inoperative (TEI) (Engine failure) Limitations (L1R)

TIT°C Limitations

Answer 10

Max Continuous- 818°C
Max 1 hour- 853°C (1hr/flt)
Max 5 mins- 882°C (5min/flt)
Max Contingency- 915°C (See Note 1 & 2)

Note 1: The use of Max Contingency OEI rating is not permitted for training and/or engine testing.
Note 2: Restricted to 2.5mins per application OEI.

Question 11

Rotor Limitations (L1R)

POWER ON Nr%

Answer 11

High Transient- 105% “Rotor High” >105%
High Normal- 103%
Nominal Governed- 102%
Low Normal- *100%** “Rotor Rotor” <100%
Low Transient- 98%
Low Emergency- 85% (See Note 1)

Note 1: Emergency use only following an engine failure.
Note 2: AMS may generate erroneous rotor speed audio warnings and IDU Nr indications, cross check IDU with ISIS rotor speeds to confirm validity.

Question 12

Rotor Limitations (L1R)

POWER OFF Nr%

Answer 12

High Transient- 116.5% “Overspeed” >116.5%
High Normal- 110% “Rotor High” >110.5%
Low Normal- 95% “Rotor Rotor” <94.5%
Low Transient- 90%

Question 13

APU (L2)

(Shortened, read FRCs for full info)

Answer 13

CAUTION 1: Prolonged running of the APU may cause airframe damage and should be minimized.**

CAUTION 2: APU operation prohibited with MRB folded (or spreading/folding) unless thermal blanked fitted to No 3 MRB.

CAUTION 3: if MRB thermal blanked detaches whilst APU is running, APU must be switched OFF immediately and blades inspected for damage.

Starting APU wind limits:
-Red 120 through ahead to Green 120- 50kts
-Red 120 through astern to Green 120- 35kts

With No3 MRB thermal blanked fitted:
-Red 30 through ahead to Green 30- 20kts
-Red 30 to Red 90- 10kts
-Green 30 to Green 90- 10kts

The number of APU starts limited to a maximum of 6, each with a 30 second cooling period. After 3 starts, allow a 5 minute cooling period. After a further 3, a 30 minute cooling period must be allowed and seek engineering advice. Number of starts also limited by battery storage temperature (L18).

APU in flight:
- APU may be operated throughout the flight envelopes. (see Notes 1 & 2)
- The EMRG/NORM switch must be selected to EMRG (Note 3)
- Operation of the ECS from APU bleed air in flight is prohibited.

Note 1: APU cannot be guaranteed to provide sufficient air to restart engine above 10,000’ density altitude.
Note 2: When the APU is operating, time spent hovering in green winds OR between 40-60kts in forward flight should be kept to a minimum.
Note 3: Selection of EMRG facilitates automatic take over of ESS BUSbars.

Question 14

Initial Engine Start/Relight (L2R)

Answer 14

• GI or FLIGHT must be selected within 15 seconds of selecting engine FUEL to ON.
• An engine must not be started with TIT >300C
• if any engine control system failure warnings are present, do not start.
• Ground starts from OFF to FLIGHG are not permitted except for No 1 ENG in ACC drive. Oil temperature must be at least 40C above ambient temperature.
• Engine operation above GI must not be carried out until engine oil pressure is 8.4bar or below. However, Nf avoid band takes precedence.
• Engines must not be started on the ground in wind speeds (inc Gusts) >50kts from forward of the beam, and 25kts aft of the beam.

Question 15

What are the runway identifiers for VL operations?

Answer 15

08/26 and 04/22

Question 16

What are the runway identifiers for MF operations?

Answer 16

09/27, 03/21, and 16/34

Question 17

What is the frequency for Cdo operations?

Answer 17

372.325

Question 18

What is the frequency for Jungly operations?

Answer 18

231.900

Question 19

What is the frequency for VL ATIS?

Answer 19

244.55

Question 20

What is the low-level common communication frequency?

Answer 20

130.490

Question 21

What is the Maximum All-Up Mass (MAUM) of the helicopter?

Answer 21

15,600 kg

Question 22

What is the length of the helicopter?

Answer 22

22.8 meters

Question 23

What is the rotor diameter of the helicopter?

Answer 23

18.6 meters

Question 24

What is the height of the helicopter?

Answer 24

6.6 meters

Question 25

What is the width of the helicopter?

Answer 25

4.6 meters

Question 26

What is the maximum nose-up slope limit for the helicopter?

Answer 26

9°

Question 27

What is the maximum nose-down slope limit for the helicopter?

Answer 27

2°

Question 28

What is the maximum left-up slope limit for the helicopter?

Answer 28

5°

Question 29

What is the maximum right-up slope limit for the helicopter?

Answer 29

6°

Question 30

What speed must DV windows be closed above?

Answer 30

100 knots

Question 31

What is the maximum speed to open or close the port door?

Answer 31

90 knots

Question 32

What is the maximum speed for flight with the port door fully open?

Answer 32

120 knots

Question 33

What is the maximum speed to open or close the cargo door?

Answer 33

90 knots

Question 34

What is the maximum speed with the cargo door fully open?

Answer 34

120 knots

Question 35

What is the maximum weight the ramp can support on the ground?

Answer 35

3,050 kg

Question 36

What is the maximum speed with the ramp open?

Answer 36

138 knots

Question 37

What is the fuel capacity per tank?

Answer 37

820 kg

Question 38

What is the maximum fuel capacity for the Mk4?

Answer 38

3,280 kg

Question 39

What is the maximum fuel capacity for the Mk4a?

Answer 39

4,100 kg

Question 40

What is the fuel burn rate per hour?

Answer 40

800 kg/hour

Question 41

What is the maximum windspeed for blade and tail fold operations?

Answer 41

40 knots in any direction

Question 42

What does the WARPLLL acronym stand for in downwind operations?

Answer 42

Wind, Area, Radio, Power, Lights, Lookout, Limits

Question 43

What does CAA stand for in helicopter approaches?

Answer 43

Constant Angle Approach

Question 44

What does DAA stand for in helicopter approaches?

Answer 44

Double Angle Approach

Question 45

What is the definition of a Confined Area (CA)?

Answer 45

An area where a CAA is not possible, with limited maneuverability within the ground cushion and no standard transition

Question 46

What are the parameters for a Standard Recce?

Answer 46

200-300 feet baralt above obstacles, 40-70 KIAS

Question 47

What is the maximum load for the Mk4?

Answer 47

4,100 kg

Question 48

What is the maximum IAS for the Mk4 with an underslung load?

Answer 48

110 knots

Question 49

What is the maximum weight for the hoist?

Answer 49

270 kg

Question 50

What does the WADES acronym stand for in mountain operations?

Answer 50

Wind direction and strength, Altitude, Demarcation Line, Escape Routes, 5 S recce