N835GC

HISTORY OF FLIGHTOn December 27, 2022, at 1635 Pacific daylight time, an Airbus Helicopters EC-130-T2, N835GC, was substantially damaged when it was involved in an accident near Boulder City, Nevada. The pilot and five passengers were seriously injured, and one passenger received minor injuries. The helicopter was operated as a Title 14 Code of Federal Regulations (CFR) Part 135 air tour flight.

The accident helicopter was the second of four company helicopters returning from Kingman, Arizona, to Boulder City Municipal Airport (BVU). According to the operator, the helicopters were not flying as a formation. Security video captured the first helicopter enter the camera’s view of the landing area from the west and enter a hover-taxi over a closed runway south of the camera’s location. The first helicopter then made a left turn over a paved taxiway and proceeded north toward the ramp area. The accident helicopter was the second helicopter to return and was visible in the camera’s view entering the landing area from the southeast as the first helicopter entered the hover-taxi. The accident helicopter exited the camera’s view for a short period of time before reentering from the west, flying a similar approach to hover-taxi as the first helicopter.

The video showed the accident helicopter traveling eastbound in a hover-taxi as the first helicopter entered the ramp area. The helicopter began a slow turn to the left as it approached the taxiway to the ramp area. The accident helicopter continued the left turn, entered a left climbing spin for about three revolutions, and then descended to the ground, impacting terrain 10-12 seconds after starting the left turn to align with the taxiway. The helicopter skids collapsed and the tail boom contacted the ground, resulting in substantial damage to the helicopter.

The pilot told investigators that when the helicopter started turning left, he applied right anti-torque pedal to stop the turn; when the helicopter continued to spin left, he lowered the cyclic.

The helicopter was equipped with an Engine Data Recorder (EDR) that records and stores specific engine parameters and some flight control parameters, including collective and pedal potentiometer values once every second (1Hz). Recovered EDR data for the accident flight is shown in Figure 1. The data showed that 10-12 seconds before ground impact the left pedal was deflected about 1/4 - 1/3 for about 4 seconds, followed by the right pedal being deflected about 3/4 towards full deflection, followed about 4 seconds later by a rapid reversal of pedal deflection to about 1/2 full left deflection, and then back to about ¼ - 3/4 full right pedal deflection until just before impact. (Note: The times and potentiometer readings are approximate due to the coarseness of the 1 Hz capture rate).

Figure 1 – Collective and Pedal Potentiometer Data PERSONNEL INFORMATIONDuring a postaccident interview the pilot told investigators he had never been terminated from employment and that he had no previous experience flying EC-130 helicopters. Investigators discovered the pilot participated in EC-130 ground and flight training with Maverick Helicopters from January 3-19, 2022. Maverick Helicopters conducts air tours and operates from seven locations in Nevada, Arizona, Hawaii, and California. The pilot completed 7.6 hours of flight training before training was terminated. According to Maverick Helicopters personnel they “felt he was not experienced enough to handle our aircraft or our flight environment in a normal amount of training.” The pilot was not employed by Maverick Helicopters during the training program.

The pilot was hired by Papillon Grand Canyon Helicopters (PGCH) November 30, 2022. On his pilot resume dated November 29, 2022, he stated he had 0.7 total flight hours in EC-130 helicopters, and he had accumulated that flight time in the previous 30 days. PGCH personnel stated they were unaware of the pilot’s training history with Maverick Helicopters before the accident and that they would not have extended an offer of employment to the pilot had they known of that experience. The PGCH Director of Operations further stated that there were no records of the pilot’s failure of the Maverick Helicopter’s training program in the Federal Aviation Administration’s Pilot Records Database.

The pilot accumulated 7.4 flight hours during 8 training flights with PGCH. The pilot’s PGCH training records indicated the pilot achieved a satisfactory level of proficiency in all trained areas, as defined by Title 14 Code of Federal Regulations Part 135 standards. The pilot successfully completed a Part 135 flight evaluation on December 20, 2022. PGCH reported the pilot had accumulated 23 total flight hours in make and model helicopter at the time of the accident, which did not include the unreported flight time accumulated during training at Maverick Helicopters.

The pilot was issued his private pilot certification in December 2019, and his commercial pilot certification in July 2020. His experience included flying air tour flights using Robinson helicopters, and his most recent experience was as second-in-command flying Boeing-Vertol 234 helicopters. ADDITIONAL INFORMATIONUnanticipated Yaw

Airbus Helicopters Safety Information Notice (SIN) No. 3297-S-00 (Revision 0, 2019-07-03) regarding unanticipated left yaw, commonly referred to as Loss of Tail-rotor Effectiveness (LTE), states:

“Unanticipated yaw is a flight characteristic to which all types of single rotor helicopter (regardless of anti-torque design) can be susceptible at low speed, dependent usually on the direction and strength of the wind relative to the helicopter.”

“Where this type of unanticipated yaw situation is encountered, it may be rapid and most often will be in the opposite direction of the rotation of the main rotor blades (i.e. left yaw where the blades rotate clockwise). Swift corrective action is needed in response otherwise loss of control and possible accident may result.”

“… use of the rudder pedal … may not cause the yaw to immediately subside, thus causing the pilot to make inadequate use of the pedal to correct the situation because he suspects that it is ineffective when, in fact, thrust capability of the tail rotor available to him remains undiminished.”

“Stabilizing surfaces are installed downstream of the center of gravity. The tail rotor and the fin have this role and are well located for forward flight conditions. In a tailwind, however, their position on the helicopter is not ideal. As a result, they cause yaw instability. This can be managed as long as the pilot is aware of the wind direction relative to the helicopter.”

“Most instances of unanticipated yaw which lead to accidents are to the left when the main rotor rotates clockwise. This shows that the main problem is not a tailwind or wind in the vicinity of the critical azimuth, where the pedal coming close to the 100% stop gives a clear warning. The main problem area for unanticipated left yaw is on the other side of the stability range, when the pedal position is much more benign.”

“The key feature of an unanticipated left yaw recovery is large amplitude right pedal input. Recovery may not be immediate, but will occur if the pilot persists in maintaining right pedal. [Recentering the pedal and then re-entering right pedal input] cannot help and only delays recovery from the yaw. If the yaw deceleration is not enough, more right pedal must be added, reaching the pedal end-stop if necessary.”

“The most probable reason for accidents following unanticipated yaw events is a late and too limited pedal input.”

Airbus Helicopters Information Notice (IN) No. 3540-I-00 addresses some flight characteristics, including unanticipated yaw, that differ between Fenestron-equipped helicopters and conventional tail rotor (CTR) equipped helicopters whose main rotor rotates counterclockwise when seen from above.

The notice outlines, “…some specific characteristics of the Fenestron that must be remembered, especially when transitioning from a helicopter equipped with a conventional tail rotor (CTR).”

“The effect of a control input is almost constant in the whole pedal range [of a CTR equipped helicopter], while it significantly varies for the Fenestron.”

“Transitioning from cruise to hover flight on a helicopter equipped with a Fenestron requires adding more left pedal than with a conventional tail rotor.”

“The CTR [tail rotor thrust] curve is more linear. The effect of a control input is almost constant in the whole pedal range, while it significantly varies for the Fenestron. The slope, and thus the perceived efficiency of the control, is much larger when coming close to full left pedal stop.”

The pilot told investigators that he was familiar with unanticipated yaw and that it was in “the manual” that he was responsible for reading. He stated he was not familiar with the IN that discusses the differences between Fenestron- and CTR-equipped helicopters.

Papillon Grand Canyon Helicopters (PGCH) Training Program

The PGCH training program consisted of both ground and flight training elements using Eurocopter manuals and training presentations. Pilots entering training were provided copies of the Eurocopter Training Manual and the Eurocopter Flight Manual, both of which provided information on the operating characteristics of the fenestron tail rotor system. At the time of the accident, PGCH also provided pilots in training with copies of SIB No. 3297-S-00 and IN No. 3540-I-00 and provided training regarding the subject matter in the notices, but they did not have focused training that covered those documents specifically. PGCH updated their training program following the accident to teach those two documents formally within their training program. INJURIES TO PERSONSFour of the seven occupants in the accident were diagnosed with vertebral fractures. One occupant had fractures at multiple vertebral levels and a fractured pelvis....