Difference between revisions of "EC-135/Normal Procedures"

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(Created page with "===STANDARD START-UP=== PRIME PUMPS 1&2 - ON A-COLL lights - ON CAD fuel qty. - check Cyclic - Centered FADEC 1&2 - ON CAD - check FADEC caution lights out. Before Engine Sta...")
 
 
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<span class=sa-section>SECTION 4. NORMAL PROCEDURES</span>
 +
 
===STANDARD START-UP===
 
===STANDARD START-UP===
 
+
{|
PRIME PUMPS 1&2 - ON
+
|PRIME PUMPS 1&2 ||- ON
A-COLL lights - ON
+
|-
CAD fuel qty. - check
+
|A-COLL lights ||- ON
Cyclic - Centered
+
|-
FADEC 1&2 - ON
+
|CAD fuel qty. ||- check
CAD - check FADEC caution lights out.
+
|-
Before Engine Start
+
|Cyclic ||- Centered
Fire guard - posted (if available)
+
|-
Rotor area - clear
+
|FADEC 1&2 ||- ON
Starting First Engine
+
|-
ENG MAIN 1 - IDLE
+
|CAD ||- check FADEC caution lights out.
- Monitor
+
|-
- N1 increase
+
|-
- TOT rise
+
|'''Before Engine Start'''
- Eng. Oil Pres. Incr.
+
|-
- N2 and NR increase
+
|Fire guard ||- posted (if available)
Ground IDLE - Check N2 ~ 74%
+
|-
ENG MAIN 1 guard - CLOSE
+
|Rotor area ||- clear
Pre-Start Checks
+
|-
BAT MSTR - ON
+
|-
GEN 1&2 - ON
+
|'''Pre-Start Checks'''
NR/N2 gauge - check full deflection
+
|-
CAD - check no INP FAIL
+
|BAT MSTR ||- ON
FIRE EW 1 - ON
+
|-
CAD - FIRE EXT, FIRE E TST must come on.
+
|GEN 1&2 ||- ON
warning panel - FIRE on ENG 1 on
+
|-
audio - warning horn on
+
|NR/N2 gauge ||- check full deflection
FIRE EW 1 - OFF
+
|-
FIRE EW 2 - ON
+
|CAD ||- check no INP FAIL
CAD - FIRE EXT, FIRE E TST must come on.
+
|-
warning panel - FIRE on ENG 2 on
+
|FIRE EW 1 ||- ON
audio - warning horn on
+
|-
FIRE EW 2 - OFF
+
|CAD ||- FIRE EXT, FIRE E TST must come on.
WARN UNIT - ON
+
|-
warning panel - All lights on.
+
|warning panel ||- FIRE on ENG 1 on
audio - Gong alarm
+
|-
WARN UNIT - OFF
+
|audio ||- warning horn on
Starting Second Engine
+
|-
ENG MAIN 2 - IDLE
+
|FIRE EW 1 ||- OFF
- Monitor
+
|-
- N1 increase
+
|FIRE EW 2 ||- ON
- TOT rise
+
|-
- Eng. Oil Pres. Incr.
+
|CAD ||- FIRE EXT, FIRE E TST must come on.
- N2 and NR increase
+
|-
Ground IDLE - Check N2 ~ 74%
+
|warning panel ||- FIRE on ENG 2 on
ENG MAIN 2 guard - CLOSE
+
|-
Post Start
+
|audio ||- warning horn on
Avionics Mstr. 1&2 - ON
+
|-
STBY/HOR - ON
+
|FIRE EW 2 ||- OFF
Inverter - ON
+
|-
Pitot Htr 1&2 - ON
+
|WARN UNIT ||- ON
FUEL XFER pumps - ON
+
|-
FUEL PRIME 1&2 - OFF
+
|warning panel ||- All lights on.
POS - ON for night flight
+
|-
Instruments - check
+
|audio ||- Gong alarm
ENG MAIN 1&2 - FLIGHT
+
|-
 +
|WARN UNIT ||- OFF
 +
|-
 +
|'''Starting First Engine'''
 +
|-
 +
|ENG MAIN 1 ||- IDLE
 +
|-
 +
| ||- Monitor
 +
|-
 +
| ||- N1 increase
 +
|-
 +
| ||- TOT rise
 +
|-
 +
| ||- Eng. Oil Pres. Incr.
 +
|-
 +
| ||- N2 and NR increase
 +
|-
 +
|Ground IDLE ||- Check N2 ~ 74%
 +
|-
 +
|ENG MAIN 1 guard ||- CLOSE
 +
|-
 +
|-
 +
|'''Starting Second Engine'''
 +
|-
 +
|ENG MAIN 2 ||- IDLE
 +
|-
 +
| ||- Monitor
 +
|-
 +
| ||- N1 increase
 +
|-
 +
| ||- TOT rise
 +
|-
 +
| ||- Eng. Oil Pres. Incr.
 +
|-
 +
| ||- N2 and NR increase
 +
|-
 +
|Ground IDLE ||- Check N2 ~ 74%
 +
|-
 +
|ENG MAIN 2 guard ||- CLOSE
 +
|-
 +
|-
 +
|'''Post Start'''
 +
|-
 +
|Avionics Mstr. 1&2 ||- ON
 +
|-
 +
|STBY/HOR ||- ON
 +
|-
 +
|Inverter ||- ON
 +
|-
 +
|Pitot Htr 1&2 ||- ON
 +
|-
 +
|FUEL XFER pumps ||- ON
 +
|-
 +
|FUEL PRIME 1&2 ||- OFF
 +
|-
 +
|POS ||- ON for night flight
 +
|-
 +
|Instruments ||- check
 +
|-
 +
|ENG MAIN 1&2 ||- FLIGHT
 +
|}
  
 
===QUICK START-UP===
 
===QUICK START-UP===
Line 62: Line 124:
  
 
===PRE-TAKEOFF CHECKS===
 
===PRE-TAKEOFF CHECKS===
NR/N2 - Check >97%
+
 
CAD - All lights off
+
{|
Warning Panel - All lights off
+
|NR/N2 ||- Check >97%
All Doors - Closed
+
|-
Cyclic - Verify mast moment indication while making small cyclic inputs.
+
|CAD ||- All lights off
Cyclic - Centered
+
|-
 +
|Warning Panel ||- All lights off
 +
|-
 +
|All Doors ||- Closed
 +
|-
 +
|Cyclic ||- Verify mast moment indication while making small cyclic inputs.
 +
|-
 +
|Cyclic ||- Centered
 +
|}
  
 
===PICKUP TO HOVER===
 
===PICKUP TO HOVER===
Line 82: Line 152:
 
Procedures:
 
Procedures:
  
Hover flight - perform
+
{|
NR/N2 - check 100%
+
|Hover flight ||- perform
FLI needles - needles matched and showing torque.
+
|-
Warning - No lights
+
|NR/N2 ||- check 100%
CAD - No alerts
+
|-
VEMD - Engine parms. Normal
+
|FLI needles ||- needles matched and showing torque.
Accel. and Climb - Apply forward cyclic and up collective to begin climb at 50 KIAS.
+
|-
At 50 ft. AGL - Accelerate to 80 KIAS
+
|Warning ||- No lights
 +
|-
 +
|CAD ||- No alerts
 +
|-
 +
|VEMD ||- Engine parms. Normal
 +
|-
 +
|Accel. and Climb ||- Apply forward cyclic and up collective to begin climb at 50 KIAS.
 +
|-
 +
|At 50 ft. AGL ||- Accelerate to 80 KIAS
 +
|}
  
 
===MAX PERFORMANCE TAKEOFFS===
 
===MAX PERFORMANCE TAKEOFFS===
Line 101: Line 180:
  
 
===PRE-LANDING CHECKS===
 
===PRE-LANDING CHECKS===
All Instruments - Check
+
 
Warning - Check
+
{|
CAD - Check
+
|All Instruments ||- Check
VEMD - Check
+
|-
 +
|Warning ||- Check
 +
|-
 +
|CAD ||- Check
 +
|-
 +
|VEMD ||- Check
 +
|}
  
 
===NORMAL LANDINGS===
 
===NORMAL LANDINGS===
 
Begin a normal landing by reducing air speed to bout 50 knots and lowering the collective to maintain an approximately 500 foot per minute descent. Choose a target spot for your landing, keeping that spot at approximately the same place on the window. As you approach your touchdown spot, slowly decrease airspeed with back cyclic, and descent rate with up collective. Maintain above 30 knots until just before touchdown to avoid vortex ring state. As you transition to a hover, you will need additional up collective and left pedal to compensate for the torque.
 
Begin a normal landing by reducing air speed to bout 50 knots and lowering the collective to maintain an approximately 500 foot per minute descent. Choose a target spot for your landing, keeping that spot at approximately the same place on the window. As you approach your touchdown spot, slowly decrease airspeed with back cyclic, and descent rate with up collective. Maintain above 30 knots until just before touchdown to avoid vortex ring state. As you transition to a hover, you will need additional up collective and left pedal to compensate for the torque.
At 50 ft. AGL - Descent < 300 ft/min
+
 
or < 500ft/min with 40 KIAS
+
{|
Before touchdown - Establish flare to reduce groundspeed and raise collective to cushion ldg.
+
|At 50 ft. AGL ||- Descent < 300 ft/min
Touchdown - Establish with 0 groundspeed
+
|-
Cyclic - Centered
+
| ||or < 500ft/min with 40 KIAS
Collective - Full down
+
|-
 +
|Before touchdown ||- Establish flare to reduce groundspeed and raise collective to cushion ldg.
 +
|-
 +
|Touchdown ||- Establish with 0 groundspeed
 +
|-
 +
|Cyclic ||- Centered
 +
|-
 +
|Collective ||- Full down
 +
|}
  
 
===STEEP APPROACHES===
 
===STEEP APPROACHES===
Line 122: Line 215:
  
 
===SHUT DOWN===
 
===SHUT DOWN===
ENG MAIN 1&2 - IDLE
+
 
Inverter - OFF
+
{|
Avionics Mstr. 1&2 - OFF
+
|ENG MAIN 1&2 ||- IDLE
STBY/HOR - OFF
+
|-
FUEL XFR (both) - OFF
+
|Inverter ||- OFF
All electrical - OFF (except anti-collision and FADEC)
+
|-
Cyclic - Centered
+
|Avionics Mstr. 1&2 ||- OFF
ENG 1&2 guards - OPEN
+
|-
ENG MAIN 1&2 - OFF
+
|STBY/HOR ||- OFF
Engine Parameters - Monitor
+
|-
When rotor below 50%:
+
|FUEL XFR (both) ||- OFF
Rotor Brake - ON
+
|-
When rotor has stopped:
+
|All electrical ||- OFF (except anti-collision and FADEC)
A-COLL - OFF
+
|-
FADEC 1&2 - OFF
+
|Cyclic - Centered
BAT MSTR - OFF
+
|-
Rotor Brake - OFF
+
|ENG 1&2 guards ||- OPEN
 +
|-
 +
|ENG MAIN 1&2 ||- OFF
 +
|-
 +
|Engine Parameters ||- Monitor
 +
|-
 +
|-
 +
|'''When rotor below 50%:'''
 +
|-
 +
|Rotor Brake ||- ON
 +
|-
 +
|-
 +
|'''When rotor has stopped:'''
 +
|-
 +
|A-COLL - OFF
 +
|-
 +
|FADEC 1&2 ||- OFF
 +
|-
 +
|BAT MSTR ||- OFF
 +
|-
 +
|Rotor Brake ||- OFF
 +
|}

Latest revision as of 19:38, 23 October 2021

SECTION 4. NORMAL PROCEDURES

1 STANDARD START-UP

PRIME PUMPS 1&2 - ON
A-COLL lights - ON
CAD fuel qty. - check
Cyclic - Centered
FADEC 1&2 - ON
CAD - check FADEC caution lights out.
Before Engine Start
Fire guard - posted (if available)
Rotor area - clear
Pre-Start Checks
BAT MSTR - ON
GEN 1&2 - ON
NR/N2 gauge - check full deflection
CAD - check no INP FAIL
FIRE EW 1 - ON
CAD - FIRE EXT, FIRE E TST must come on.
warning panel - FIRE on ENG 1 on
audio - warning horn on
FIRE EW 1 - OFF
FIRE EW 2 - ON
CAD - FIRE EXT, FIRE E TST must come on.
warning panel - FIRE on ENG 2 on
audio - warning horn on
FIRE EW 2 - OFF
WARN UNIT - ON
warning panel - All lights on.
audio - Gong alarm
WARN UNIT - OFF
Starting First Engine
ENG MAIN 1 - IDLE
- Monitor
- N1 increase
- TOT rise
- Eng. Oil Pres. Incr.
- N2 and NR increase
Ground IDLE - Check N2 ~ 74%
ENG MAIN 1 guard - CLOSE
Starting Second Engine
ENG MAIN 2 - IDLE
- Monitor
- N1 increase
- TOT rise
- Eng. Oil Pres. Incr.
- N2 and NR increase
Ground IDLE - Check N2 ~ 74%
ENG MAIN 2 guard - CLOSE
Post Start
Avionics Mstr. 1&2 - ON
STBY/HOR - ON
Inverter - ON
Pitot Htr 1&2 - ON
FUEL XFER pumps - ON
FUEL PRIME 1&2 - OFF
POS - ON for night flight
Instruments - check
ENG MAIN 1&2 - FLIGHT

2 QUICK START-UP

To start the helicopter quickly without using the checklist, the "qstart" command can be used in local chat.

3 PRE-TAKEOFF CHECKS

NR/N2 - Check >97%
CAD - All lights off
Warning Panel - All lights off
All Doors - Closed
Cyclic - Verify mast moment indication while making small cyclic inputs.
Cyclic - Centered

4 PICKUP TO HOVER

Picking up to a hover is performed by slowly raising the collective until the helicopter becomes light on the wheels. Pedal should be applied to stop any rotation, and cyclic should be applied to stop any lateral or forward/back motion. Considerable left pedal may be required in the pick-up to counteract torque from the main rotor.

5 HOVERING

There are two types of hovering. In Ground Effect (IGE) hovering occurs in ground effect within a few meters of a surface (land, water, or a flat prim) and Out of Ground Effect (OGE) hovering occurs at altitude away from any surface. While hovering in general requires more power (collective) than other phases of flight, OGE hovering requires significantly more power than IGE hovering. Cyclic inputs in a hover should be small and controlled taking into account delay between input and the reaction of the helicopter. Use collective to control height. It is important to learn to anticipate the reaction of the helicopter in response to an input. Over-controlling is a common problem for the beginning helicopter pilot. Forward hover taxi is performed by a very slight forward positioning of the cyclic. In general all hover taxiing should be performed with no more than a dot-width of movement from the center on the cyclic control display.

6 SET DOWN FROM HOVER

Setting down from a hover essentially the reverse of a pickup. Slowly lower collective letting helicopter settle. As collective is lowed, right pedal may be necessary due to the reduction in torque.

7 NORMAL TAKEOFFS

Normal takeoffs should begin in a hover with an adequate obstacle free area ahead of the helicopter. From a hover, apply forward cyclic and allow helicopter to accelerate forward in ground effect. At about 30 knots, the helicopter will achieve ETL (Effective Translational Lift) allowing the helicopter to climb (see Shergood Helicopter Flying Handbook for details on ETL). Some brief aft cyclic at 40 knots may be necessary. Control airspeed with forward cyclic to maintain a best climb airspeed of about 50 knots. Applying too much forward cyclic will reduce climb performance. Raise collective to increase rate of climb, but do not exceed the maximum torque (indicated by red line on torque indicator). Procedures:

Hover flight - perform
NR/N2 - check 100%
FLI needles - needles matched and showing torque.
Warning - No lights
CAD - No alerts
VEMD - Engine parms. Normal
Accel. and Climb - Apply forward cyclic and up collective to begin climb at 50 KIAS.
At 50 ft. AGL - Accelerate to 80 KIAS

8 MAX PERFORMANCE TAKEOFFS

If takeoff is from a confined area, the max performance takeoff procedure can be used. Begin with helicopter on the ground and collective full down. Raise collective as necessary to achieve desired climb profile while applying slight forward cyclic to begin forward movement. When clear of the obstacle apply additional forward cyclic. Once ETL is reached at about 30 knots, continue climb as normal.

9 CRUISE

In cruise flight, use collective to control altitude, forward/back cyclic to control airspeed, and left/right cyclic for turns. Use the inclinometer (black ball) below the #1 and #4 MFDs to help in coordinating turns. When using the inclinometer, pedal should be applied on the side to which the ball moves. Think "step on the ball". The VSI (Vertical Speed Indicator) can be used as a reference to help maintain a constant altitude. As with any helicopter, aggressive and abrupt control inputs should be avoided.

10 TURNS

Turns should be made primarily with the cyclic, using the inclinometer to maintain coordination with the pedals as described above. In very steep turns, it may be necessary to increase collective slightly in the turn.

11 PRE-LANDING CHECKS

All Instruments - Check
Warning - Check
CAD - Check
VEMD - Check

12 NORMAL LANDINGS

Begin a normal landing by reducing air speed to bout 50 knots and lowering the collective to maintain an approximately 500 foot per minute descent. Choose a target spot for your landing, keeping that spot at approximately the same place on the window. As you approach your touchdown spot, slowly decrease airspeed with back cyclic, and descent rate with up collective. Maintain above 30 knots until just before touchdown to avoid vortex ring state. As you transition to a hover, you will need additional up collective and left pedal to compensate for the torque.

At 50 ft. AGL - Descent < 300 ft/min
or < 500ft/min with 40 KIAS
Before touchdown - Establish flare to reduce groundspeed and raise collective to cushion ldg.
Touchdown - Establish with 0 groundspeed
Cyclic - Centered
Collective - Full down

13 STEEP APPROACHES

A steep approach can be used when landing is to a confined area. Follow the same procedure as for a normal landing, but slow to 30 knots and maintain that speed through the descent.

14 AIR TAXI

An air taxi is used to move quickly from one point to another on an airport. Begin an air taxi like a normal takeoff, but lower collective slightly to maintain a height of 10 to 20 meters over the airport while pitching with cyclic for approximately 50 knots. To exit an air taxi and land, apply back cyclic, down collective and ride pedal as necessary. Then make a normal landing to hover.

15 SHUT DOWN

ENG MAIN 1&2 - IDLE
Inverter - OFF
Avionics Mstr. 1&2 - OFF
STBY/HOR - OFF
FUEL XFR (both) - OFF
All electrical - OFF (except anti-collision and FADEC)
Cyclic - Centered
ENG 1&2 guards - OPEN
ENG MAIN 1&2 - OFF
Engine Parameters - Monitor
When rotor below 50%:
Rotor Brake - ON
When rotor has stopped:
A-COLL - OFF
FADEC 1&2 - OFF
BAT MSTR - OFF
Rotor Brake - OFF
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