N66HJ

HISTORY OF FLIGHTOn September 7, 2022, about 1555 Pacific daylight time, a Bell 205A-1, N66HJ, was substantially damaged when it was involved in an accident near Cougar, Washington. The pilot sustained minor injuries. The helicopter was operated as a public aircraft firefighting flight.

The privately owned helicopter was involved in firefighting operations under contract with the Bureau of Land Management (BLM), under the operational control of the US Forest Service in response to the Kalama Fire. The fire was located above a cliff at an elevation between 2,000 and 3,000 ft mean sea level (msl) on the southwest side of Mount St. Helens; at the time of the accident the fire was about four acres in size.

The pilot provided a summary of the event two days after the accident and an additional statement the following week. He stated that earlier on the day of the accident he performed a series of water drops and crew relocation activities in the helicopter using the north end of Merrill Lake and lasting about 2 hours. The flights were uneventful, and the helicopter performance was nominal. He then refueled at Southwest Washington Regional Airport, Kelso, Washington (KLS), using the same fuel truck as on the previous flight.

He returned to the lake, and by the time he was ready for the next mission, the winds had shifted and were now more northerly. As a result, he decided to dip from the northwest corner of the lake using the same approach he had taken during similar wind conditions the previous day. He flew oval approaches from the fire to the lake, flying a downwind leg around 60 kts over the northeast corner, and then circling while slowing and descending to arrive at the dip location with a headwind.

He stated that the area was notorious for downslope katabatic wind, and there was unusual turbulence in the area, but nothing of concern.

The bucket was set for 90% capacity, and he performed between 4 and 5 dip and drop cycles. On the final dip he slowed the helicopter to a hover about 130 ft above ground level (agl) and began lowering the bucket into the water. The bucket touched the water and began to tip and fill, and as he was pulling it out of the water, “all hell broke loose.”

In his initial statement he reported that the helicopter began to exhibit heavy airframe vibrations, and he had a strong sense of sinking coupled with an uncommanded yaw to the left. He stated that he could not specifically hear any engine tone change or interruptions and he did not know if the engine had failed, but the vibrations were so extreme that he could not focus on the gauges, and he lowered the collective control. The events happened very quickly, and he was presented with a series of caution lights and eventually a low rotor RPM horn. He pulled the collective control as the ground approached, and to guide the helicopter towards the shoreline he lowered the collective control again and pushed the cyclic forward. He stated that he has been flying for almost 30 years and these were all instinctive reactions.

He then got a sense of ground rush and pulled the collective up in a pumping action. The helicopter landed flat and hard. After impact everything had stopped, including the engine. He turned off the fuel valve and the battery; the helicopter then started rolling to the right. He unbuckled his seatbelt, removed his helmet, and egressed.

During a series of follow up questions as the investigation progressed, the pilot stated that he was certain the event had been initiated by a loss of engine power. He recalled that he ensured full throttle during the event, and attempted to release the bucket as he approached the shore, but it was likely still connected and may have slowed his progress.

Although there were many kayakers, fire crew, and Helitak crew members in the area, none of them observed the accident sequence until the helicopter was already in the water. PERSONNEL INFORMATIONOn June 3, 2022, the pilot was issued a USDA/USDI Interagency Helicopter Pilot Qualification Card with authorization for external load; water/retardant, bucket; Helitack/PAX transport; low level & reconnaissance; and mountainous terrain. He reported total flight experience of 6,100 hours, with 2,774 in rotorcraft and 89 in the accident make and model. He stated that the make and model time involved training, utility work, and long line operations on wildfires. The remainder of his rotorcraft experience consisted of a mix of air tours, utility work, and mountain flying in Bell 206 and the Airbus Helicopters AS350 (H125). AIRCRAFT INFORMATIONThe helicopter operator, Kachina Aviation, provided fire-suppression services to support federal, state, and municipal operations. It was granted authority by the FAA to perform rotorcraft external load (Part 133), agricultural aircraft (Part 137), and commuter & on demand (Part 135) operations.

The helicopter was powered by a single Ozark Aeroworks T5317B turboshaft engine. METEOROLOGICAL INFORMATIONA High Resolution Rapid Refresh (HRRR) model sounding was created for the time and location of the flights performed by the pilot earlier in the day. With the modeled surface elevation at 1,982 ft msl and at an elevation of 2,223 ft msl, the sounding indicated the temperature was about 21.3 °C and the dewpoint was about 7.6 °C with 4-knot winds from 200°. The wind transitioned to the west through 3,323 ft with the velocity remaining the same.

A weak cold front passed through the area during the time leading up to the accident, and an updated HRRR model indicated that at the time of the accident flight, the wind had shifted and was now from 326° at 14 knots. The wind remained out of the northwest, but increased to 17 knots through 4,232 ft.

The models did not account for any wind field or flow induced by the fire. AIRPORT INFORMATIONThe helicopter operator, Kachina Aviation, provided fire-suppression services to support federal, state, and municipal operations. It was granted authority by the FAA to perform rotorcraft external load (Part 133), agricultural aircraft (Part 137), and commuter & on demand (Part 135) operations.

The helicopter was powered by a single Ozark Aeroworks T5317B turboshaft engine. WRECKAGE AND IMPACT INFORMATIONThe helicopter came to rest partially submerged on its right side on the north end of the western shore of Merrill Lake, about 2 miles south of the fire. The lake was at an elevation of about 1,550 ft msl and along the southwest foothills of Mount St. Helens (elevation 8,363 ft). The lake was within a bowl-like depression surrounded by rising terrain (see Figure 1).

Figure 1 – Helicopter at the accident site with fire in the background.

The helicopter was largely intact except for the tailboom, which had bent forward and underneath the main cabin after partially detaching about 2 ft forward of the horizontal stabilizer (see Figure 2). The vertical fin exhibited diagonal crush features along with a cut on its right side consistent with tail rotor blade contact.

Figure 2 – Helicopter at the accident site (photo taken about 10 minutes after the accident).

Both main rotor blades remained attached to the rotor hub and mast, which was attached to the main transmission. The “white” main rotor blade was bent upwards about 5 ft outboard of its hinge. The leading-edge spar had severed, and the blade skin had torn open, exposing the internal honeycomb structure. The “red” blade was intact and bent slightly upwards at the tip. Both blades exhibited leading-edge and chordwise abrasions and gouges opposite the direction of rotation, along with skin buckling. The engine inlet cowling and barrier filter assembly exhibited a diagonal indentation on its left forward side.

The main driveshaft had fragmented into multiple pieces, distributing coupling and housing fragments into the surrounding areas and puncturing both the upper forward driveshaft cowling and engine inlet cowling. Drivetrain continuity was confirmed from the main transmission input through to the main rotor mast and tail rotor output.

The fuel supply system was intact and continuous from the tank through to the inlet of the engine fuel control unit (FCU). Clean fuel was found throughout the system, and both boost pumps were operational and able to maintain sufficient fuel pressure when tested.

Helicopter Water Bucket

The helicopter was equipped with a 240-gallon capacity, 2,130-lb gross weight Bambi Bucket, manufactured by SEI Industries Inc. in 2006. It was found about 20 feet away from the helicopter postaccident and had been released from the helicopter’s cargo hook.

Examination revealed that the bucket was intact and had been adjusted to 90% capacity. The bucket’s purse, suspension, and trip lines were all intact, and the control head activated appropriately with the application of power.

The cinch strap, which controls the bucket’s capacity, had severed at the location of the 90% cinch ring. The seam of the dump valve was torn along the entire length vertically and approximately 4 inches horizontally at the circumferential seam with the bucket. The bucket contained residual quantities of sand and gravel.

The water fill operation required that the helicopter be flown at a low height and speed, such that it was operating within the “AVOID” area of its Height-Velocity Envelope. In this range, a safe landing could not be guaranteed following an engine failure. TESTS AND RESEARCHThe engine was removed and examined at the facilities of the manufacturer (Ozark Aeroworks), under the oversight of the NTSB.

During the examination, the engine was found to be intact and had sustained water intrusion throughout. There were no indications of fire or uncontainment. Initial examination following engine removal revealed that the compressor section could be rotated by hand.

Disassembly showed dents on both the fore and aft faces of the inlet guide vanes. All stages of the axial compressor had tears and nicks to the leading edg...