N985EW

HISTORY OF FLIGHTOn October 29, 2013, at 1720 Hawaiian standard time, a Eurocopter France AS350/B3 helicopter, N985EW, was substantially damaged when it landed hard following a loss of main rotor rpm (NR) at Kona International Airport, Kailua Kona, Hawaii. The flight instructor received minor injuries, and the commercial pilot receiving instruction was not injured. The helicopter was being operated by Air Medical Resource Group under the provisions of 14 Code of Federal Regulations Part 91. Visual meteorological conditions prevailed for the local instructional flight that began about 1659. A flight plan had not been filed for the flight.

The commercial pilot reported that the first planned maneuver of the flight was to practice manual throttle control with the Full Authority Digital Engine Control (FADEC)-governor disengaged. The helicopter was started and repositioned to a taxiway with the governor engaged. The instructor then moved the "AUTO[matic]/MAN[ual]" governor switch to "MAN" to disengage the governor. As expected, the red "GOV" light on the caution/warning panel illuminated. The commercial pilot found the twist grip throttle control "excessively stiff and difficult to rotate." He checked the throttle control friction wheel and determined that no friction was applied. This was the first time the commercial pilot had flown a Eurocopter helicopter in the manual mode, and he was unfamiliar with "how stiff the control was supposed to be." He said that the flight instructor assured him that it was normal and was purposely stiff to avoid over controlling.

The commercial pilot lifted the helicopter to a 3-foot hover and, by using the anti-torque pedals, executed two 360-degree stationary hovering turns, one to the right and one to the left. He stated that it "took a good bit of effort" to rotate the twist grip but he was able to manipulate it and maintain NR within normal limits. Next, he was asked by the instructor if he was ready to perform a left closed traffic pattern back to their departure point. He informed the instructor that he was ready, and the instructor told him to perform a normal takeoff using non-abrupt control inputs in order to maintain normal NR. The commercial pilot reported that the takeoff, transition into cruise flight on downwind leg, and initial descent were uneventful with NR within normal limits. While on final approach to land south on taxiway A, "at some point below 400 feet," the commercial pilot noticed that NR was decreasing. He rotated the twist grip to increase power, but the NR continued to decrease. Next, he heard the low NR audio warning, and he felt the instructor join him on the flight controls. The two pilots lowered the collective to enter an autorotation. The commercial pilot said that NR never recovered to the normal range even though the twist grip had been rotated to its maximum position.

The commercial pilot said that about 50 feet, he applied initial pitch (increased collective) to decrease the rate of descent but the NR was "quite low," and the rate of descent did not decrease. He adjusted the cyclic to level the helicopter before ground impact. Both pilots pulled up on the collective to cushion the landing, but there was insufficient NR remaining to slow the descent. The helicopter landed hard, slid forward on the taxiway, and yawed about 90 degrees to the left. The commercial pilot said that after the helicopter came to a stop, he made no attempt to shut down the engine or turn off electrical power before exiting the helicopter, and he had no knowledge as to "when or how the engine became shutdown."

The instructor reported that they were conducting maneuvers in manual governor mode and that the flight was uneventful until the helicopter was on short final about 200 to 300 feet above the ground. At that point, NR began to "decrease rapidly and at the same time [the commercial pilot] said the throttle was full open." The instructor stated that he took the controls and attempted to roll on more throttle but found that the throttle was already full open. He lowered the collective in an attempt to conserve NR and then attempted to cushion the landing (by raising the collective) and land as flat as possible with some ground run. He stated that the helicopter landed hard but stayed upright. When the helicopter came to a stop, "the engine was not running and [the main rotor] blades were coasting to a stop." The instructor applied the rotor brake and shut off the battery and engine switches before exiting the helicopter. PERSONNEL INFORMATIONThe flight instructor held a commercial pilot certificate with rotorcraft-helicopter and instrument-helicopter ratings. He had private pilot privileges in single-engine land airplanes. He held a flight instructor certificate with helicopter and instrument-helicopter ratings. He held a second-class medical certificate dated January 3, 2013, with the limitation that he possess glasses for near and intermediate vision. He was hired by Air Medical Resource Group on July 1, 2012. He had a total flight time of about 15,500 hours, of which about 15,000 hours were in rotorcraft and about 1,500 hours were in the accident make and model helicopter. He had given about 12,000 hours of flight instruction, of which about 1,000 hours were in the accident make and model helicopter.

The commercial pilot receiving instruction held a commercial pilot certificate with airplane single-engine land, airplane multi-engine land, rotorcraft-helicopter, and instrument-helicopter ratings. He also held a flight instructor certificate with airplane single-engine land, helicopter, instrument-airplane, and instrument-helicopter ratings. The pilot was issued a second-class medical certificate dated October 1, 2013, with no limitations. The pilot was hired by Air Medical Resource Group on October 23, 2013, and had accumulated a total flight time of about 5,760 hours, of which about 5,484 hours were in rotorcraft and about 6 hours were in the accident make and model helicopter. AIRCRAFT INFORMATIONThe helicopter was manufactured in 2000 and had accumulated about 2,634 hours at the time of the accident. It was powered by a Turbomeca Arriel 2B engine, which had a single-channel FADEC-type governor with a manual back-up in the form of a twist grip throttle control. The FADEC system included a digital computer or Digital Engine Control Unit (DECU), a pump/metering unit assembly or Hydro-Mechanical Unit (HMU), and electrical/mechanical links between the helicopter's controls, the DECU, and the HMU.

The twist grip throttle control had two ranges, one to reduce fuel flow and one to increase fuel flow, that were separated by a disengageable stop, referred to as the "VOL" or "FLIGHT" stop. The "FLIGHT" stop was installed on the right side collective only. When practicing FADEC-governor failure procedures (or in the case of an actual FADEC-governor failure), the stop is manually disengaged by the pilot, allowing the grip to be rotated through its full range of motion.

The AS350 B3 Flight Manual Supplement titled "Engine Failures Training Procedures" described the procedure for FADEC-governor failure training. The training procedure said that "in steady flight conditions," the pilot should set the governor switch to the "MAN" position and then follow the emergency procedure in the Flight Manual for a red "GOV" warning light.

The AS350 B3 Flight Manual listed the following pilot actions to be performed for a red "GOV" warning light:

· Check flight parameters

· Maintain NR in green range

· Unlock the FLIGHT detent (VOL), the fuel flow can be modified by turning the twist grip:

- to the left to increase fuel flow

- to the right to decrease fuel flow

· Only apply small amplitude adjustments, synchronized with the collective pitch control in order to maintain NR in the green range.

· Fly the approach at 40 [knots] and adjust the fuel flow rate to maintain NR within the upper section of the green range. Slowly reduce the speed[;] if necessary adjust the fuel flow rate slightly on the twist grip to maintain NR within the green range.

On final approach, when the collective pitch is increased on reaching hover, let the NR drop for touchdown, reduce the fuel flow rate before lowering the collective pitch.

With regard to returning from manual mode to automatic mode, the Flight Manual stated that the governor switch "can be replaced in the AUTO position irrespective of the NR value. Then return the twist grip to the FLIGHT detent (VOL)."

Eurocopter Information Notice No. 2169-I-67, "Rotor Flight Controls, Use of Twist Grip," dated June 15, 2010, included information about FADEC-governor failure training. Page 6 of the information notice stated, in part (emphasis in original):

Training for total governor failure must be carried out with an experienced instructor.

The training starts by simulating a total engine governor failure by setting the "Auto/Manu" selector to "Manu."

During training, regardless of the maneuvers carried out, it is always possible to de-activate the failure simulation by resetting the selector to "Auto." The automatic governor becomes immediately active provided that the twist grip has not been reduced beyond 30° ("Idle" switch activated).

The change to "Manu" mode freezes the fuel flow, lights up the red "GOV" light and activates the GONG (as for an actual total governor failure).

"Manu" mode shall be engaged only in stabilized flight conditions.

In "Manu" mode, the fuel flow is adjusted by the pilot using the twist grip. The pilot (on the RH side) must disengage the "Flight" stop of the grip. Relative to the frozen fuel flow, the pilot can then increase power by turning the grip in the increase range or reduce power by turning the grip in the reduction range.

The pilot must become accustomed to continuously coordinating movements with the collective pitch control lever and twist grip, hence the need to train regularly.

He must be accus...