Straight-in Autorotation with Power Recovery

Purpose

To simulate landing the aircraft in the event of a complete loss of power

Description

  • Demonstrate the glide portion of an autorotation.
  • Allow the student to develop an understanding of how pitch and collective setting affect RPMs.
  • Demonstrate flare and power recovery procdures.
  • Allow the student to practice the power recovery procedure at altitude.
  • Allow the student to practice the flare and power recovery procedures.
  • Allow the student to practice the entire procedure, from entry to power recovery.

Instructional aids and pre-requisites

  • Ground Lesson pre-requisites: Emergency Procedures, Robinson R22 Safety Notices, Aerodynamics
  • Lessons PS-1 and PS-2 are pre-requisites

Content

  • Pre-flight briefing: Review the relationship between collective setting and attitude to RPMs
    Aft Cyclic No Change Forward Cyclic
    Up Collective Dec AS Dec RPM and Dec RoD Lg Dec RPMs
    No Change Inc RPM, Inc RoD Dec RPM, Dec RoD
    Down Collective Lg Inc RPM Inc RPM, Inc RoD Inc AS
  • Pre-flight briefing: Discuss procedure for preparing for an autorotation
    • Pre-landing checks, area clear, landing area clear, 3-count to enter
  • Pre-flight briefing: Student should be prepared for the high rate-of-descent that accompanies an autorotation, and should be confident that the instructor can recover from a low rotor RPM condition
  • From level flight at 70 kias, 2000-3000΄ agl and headed into the wind, enter an autorotation and establish a glide at 60-70 kias
    • Have the student focus on developing a scan (attitude, trim, RPMs, airspeed)
    • Demonstrate the effect of collective and attitude changes, and how collective setting does not need to be changed if attitude is held constant
    • Repeat the autorotation and allow the student to control the cyclic and collective during the glide (instructor enters and recovers from the autorotation)
    • Demonstrate the power recovery procedure at the termination of the glide, and allow student to practice the power recovery at altitude and without distraction from the landing area
  • Once the student is comfortable with RPM control and can perform a VFR scan during the autorotation, allow the student to perform a glide with power recovery at altitude
  • Once the student is comfortable with the glide and power recovery portions of the autorotation, demonstrate a normal flare and power recovery
    • Introduce decision point checks: at 100-200 ΄ AGL, check RPM in the green, airspeed stabilized between 60 and 70 kias, and rate-of-descent <1500 fpm
    • Maintain alignment with ground track below 100 ΄ agl
    • At approximately 40 ΄ agl, begin flare with aft cyclic to reduce rate-of-descent and airspeed (amount of flare will vary with wind conditions, gross weight, and density altitude: adjust so that rate-of-descent and airspeed can be decreased without ballooning)
    • At 8-10 ΄ agl, add throttle so that RPMs are in the lower green range
    • Level the aircraft with forward cyclic
    • As the aircraft reaches a level attitude, add collective (and throttle, if necessary) to attain a hover at 5-10 ΄ agl; maintain trim with left pedal
    • Avoid a nose-high attitude below 10 ΄ agl, and arrive at a hover above 5 ΄ agl
    • Repeat the autorotation and allow the student to perform the glide, flare, and power recovery (instructor performs the entry)
  • Once the student is comfortable with the glide, flare,  and power recovery portions of the autorotation, allow the student to enter the autorotation
    • From level flight at 70 kias, 700΄ agl and headed into the wind, clear the area, perform pre-landing check, and identify touchdown location
    • When aircraft is aligned with touchdown location, enter an autorotation by smoothly lowering the collective to full down and maintain trim with right pedal
    • Reduce throttle to split the needles, and add aft cyclic to a 60-knot attitude
    • Adjust cyclic to maintain 65 kias and collective so that RPMs are in the green
    • Continue with the glide, flare, and power recovery

Common errors

  • Airspeed and RPM deviations during glide
    • Have student call out scan elements, and point out deviations
    • Perform autorotations away from distractions (eg, traffic on the surface or in pattern) and, initially, without specifying a touchdown spot
    • Emphasize the importance of maintaining the correct attitude
    • Rushing the entry can set the student up for problems during the glide: before the autorotation, have focus on the horizon, and encourage a slow and deliberate entry
  • Initiating the flare too high/too low
    • Use a progressive flare that starts gently and increases as they approach the ground
    • Introduce quick stops (Lesson AM-6) so that student can develop the correct sight picture for the same altitude where the flare is initiated
  • Difficulty during the power recovery
    • Control coordination is essential and requires practice
    • Initiate a smooth, slow increase in throttle early in the flare
  • Overshoot/undershoot landing spot
    • Initially the instructor should prompt the student to initiate the autorotation, allowing the student to develop a windscreen reference for alignment with the landing spot

Completion standards

  • Pre-determined spot ±50 ΄
  • RPM maintained within the green range (101-104%)
  • Airspeed 60-75 kias

Teaching considerations

  • Instructor should set personal limits for practice autorotations; if limits are not met at any time during the procedure, terminate and recover
  • Limit practice autorotations to 3 or 4 consecutive attempts
  • Allow the student to fully understand the effect of control inputs during the glide before progressing to other stages
  • Fix problems/deviations immediately or terminate the manuever
  • Consider true airspeed if high denstity altitude
  • When practicing maximum glide or minimum rate-of-descent, adjust RPM setting for density altitude (+1% per 1000΄)

Videos on how to perform autorotations

httpvh://www.youtube.com/watch?v=WyNgCKErIoY       httpvh://www.youtube.com/watch?v=cajc9kDmb6o

Additional practice

  • Additional practice: Practice entry from various altitudes, airspeeds, and at different gross weights
  • Additional practice: Maximum glide configuration
    • Adjust attitude for 75 kias
    • Adjust collective for rotor RPMs at 90%
    • Below 500 agl, adjust attitude for 65 kias and collective so that RPMs are in the green range
  • Additional practice: Air restart procedure
    • During glide portion, practice procedure for attempting an air restart
  • Additional practice: Minimum descent rate configuration
    • Adjust attitude for 53 kias
    • Adjust collective for rotor RPMs at 90%
    • Below 500 agl, adjust attitude for 65 kias and collective so that RPMs are in the green range

Real-Life Experience

It has been my experience that the vast majority of engine failures in piston or turbine are very seldom a castrophic immediate stoppage. Rather they are presaged by some form of warning such as in the engine instruments, an unusual vibration or noise, or a decrease in rpms. Even running out of fuel doesn’t stop the engine as fast as a throttle chop. Some helicopters (piston) are prone to quit on ya with a chop and you are going to make a touchdown auto like it or not. I learned a long time ago if you are going to practice an autorotation you better expect it to go to a full down just in case. Never bent one yet (the aviation Gods must like me and blessed me with a full load of luck!) and not all were to a nice prepared area. As for counting down to an auto entry, it is fine with a low timer for initial training but after that I think it can cause problems later on. As was pointed out, you won’t often get the countdown for an actual and if you are trained to go on a countdown, you may find yourself way behind events with a real one. Your mileage may vary.

Additional resources

  • Helicopter Concepts Video

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