N323TT – ROBINSON HELICOPTER COMPANY R44 II – 2024-06-19 NTSB Accident Report

HISTORY OF FLIGHTOn June 19, 2024, about 1620 Pacific daylight time, a Robinson Helicopters R-44 II, N323TT, was destroyed when it was involved in an accident near Bluestem, Washington. The pilot and pilot-rated passenger were fatally injured. The helicopter was operated as a Title 14 Code of Federal Regulations Part 91 personal flight.

According to the owner, the helicopter was at a maintenance facility at Boeing Field/King County International Airport (BFI), Seattle, Washington, where it underwent an annual inspection and other maintenance. The owner asked the accident pilot to travel to BFI and return the helicopter to Coeur d’Alene/Pappy Boyington Field (COE), Coeur d’Alene, Idaho. The owner was also acquainted with the pilot-rated passenger but knew nothing about the details of the flight plan.

According to an acquaintance and trainee of the accident pilot, he flew the pilot and the pilot-rated passenger to BFI in his personal airplane. Once at BFI, he observed the pilot conduct a preflight inspection of the helicopter, and he saw a fuel truck top off the helicopter. The acquaintance departed BFI after the helicopter departed. While en route, he saw the helicopter and observed no indication of a problem. The acquaintance did not follow the same flight route as the helicopter and did not stop at Bowers Field (ELN), Ellensburg, Washington. He described the return flight weather as high clouds and no visibility restrictions, and the temperature was comfortable, but the ride was a little choppy.

FAA ADS-B data did not record the helicopter’s departure from BFI. ADS-B data, provided by a commercial source, showed that the helicopter departed BFI around 1338, climbed to a maximum altitude of about 2,000 ft mean sea level (msl), passed eastward over the Snoqualmie Pass, and proceeded directly to ELN. FAA ADS-B data first recorded the helicopter when it was about 10.5 miles northwest of ELN. The helicopter proceeded directly to the parking ramp, where it arrived about 1437. A fuel receipt from the ELN fixed-base operator recorded 14.38 gallons of 100LL fuel purchased for the helicopter. The helicopter departed ELN around 1511, climbed to a maximum altitude of about 3,927 ft msl, and proceeded northeast, consistent with flight toward COE. The helicopter generally maintained about 80 to 100 kts ground speed for most of the flight. The helicopter slowed momentarily when it neared Ephrata Municipal Airport (EPH), Ephrata, Washington, but accelerated back to about 80 to 100 kts after passing the airport. Although there were minor changes in heading and the ground speed varied, there were no indications of notable maneuvering during the 1 hour, 21-minute flight. ADS-B data revealed that, about one quarter mile southwest of the accident site, the helicopter began to decelerate from 85 kts to 55 kts at the last recorded data point, about 3,050 ft msl (745 ft agl) and about 40 ft west of the accident site. No witnesses came forward to provide first-hand accounts of the accident. PERSONNEL INFORMATIONThe pilot’s personal logbooks were not available for review. The pilot reported on his last medical examination 21,300 total flight hours and 50 flight hours in the last 6 months.

According to the owner of Inland Helicopters, Spokane, Washington, the accident pilot was a contract flight instructor for his company. The employer estimated that the accident pilot accrued at least 250 to 350 hours of flight experience in Robinson helicopters and held the Special Federal Aviation Regulations number 73 (SFAR 73) endorsement for the R-44. The company owner reported that the accident pilot initially provided flight instruction training to the helicopter owner as part of the pilot’s employment with the company, but that the training developed into personal flight training that was no longer associated with his company. AIRCRAFT INFORMATIONAccording to the maintenance facility’s director of maintenance, the helicopter was at their facility for an annual inspection and other maintenance that included replacement of the horizontal stabilizer. The replacement stabilizer had not arrived and was not replaced. A review of the maintenance records revealed that the maintenance included the installation of a left electronic ignition system fixed timing module and a right magneto. A JP Instruments (JPI) fuel flow indicating system and a JPI fuel flow transducer were installed. The fuel flow transducer was mounted between the throttle body and the fuel flow divider. METEOROLOGICAL INFORMATIONA weather study revealed that the synoptic conditions indicated no frontal boundaries in the immediate vicinity of the accident site and a weak pressure gradient, which resulted in light and variable winds over eastern Washington.

The closest weather observations to the accident site reported low instrument meteorological conditions (IMC) to IMC during the morning hours due to low ceilings and visibilities in fog before 0840, which cleared to VMC around the time of the accident. Conditions were reported as light and variable wind, visibility 10 statute miles or more, clear skies below 12,000 ft, with temperatures near 70°F.

A high-resolution rapid refresh (HRRR) numerical model wind profile depicted a near surface wind from 040° at 6 kts with little variation in direction or speed through 5,000 ft. Above 5,000 ft, the wind shifted to the west with slowly increasing wind speed with height. Between 8,600 and 11,200 ft, the sounding depicted a potential for light turbulence due to a change in wind direction and an increase in wind speed. AIRPORT INFORMATIONAccording to the maintenance facility’s director of maintenance, the helicopter was at their facility for an annual inspection and other maintenance that included replacement of the horizontal stabilizer. The replacement stabilizer had not arrived and was not replaced. A review of the maintenance records revealed that the maintenance included the installation of a left electronic ignition system fixed timing module and a right magneto. A JP Instruments (JPI) fuel flow indicating system and a JPI fuel flow transducer were installed. The fuel flow transducer was mounted between the throttle body and the fuel flow divider. WRECKAGE AND IMPACT INFORMATIONThe helicopter impacted open, hilly terrain and came to rest upright at the first point of impact, on a heading of about 086°, at an elevation of 2,182 ft msl. A postaccident fire destroyed most of the wreckage (see figure 1).

Figure 1. Main wreckage (Source: Robinson Helicopters).

The empennage, including the tail rotor gearbox, tail rotor assembly, and about two ft of the tailcone, separated from the helicopter and was about 338 ft southwest of the fuselage (see figure 2). Examination of the empennage revealed no indication of smoke or soot deposits.

Figure 2. Helicopter empennage, including the tail rotor gearbox and tail rotor assembly.

Postaccident examination of the main wreckage revealed the attached section of the tailcone exhibited an overall flattened deformity and an upward “scorpion” bending. Both main rotor blades exhibited a significant downward bending along with chordwise creases. One main rotor blade exhibited a color transfer on the leading edge that matched the color of the paint on the tailcone. The main rotor hub surface, adjacent to the main rotor blades, had small arc-shaped scuff marks through the paint, consistent with upward coning and contact of the blade grips with the hub. Each of the elastomeric teeter stops exhibited deep impact marks. One spindle tusk exhibited bending, consistent with excessive downward movement of the parent spindle and blade. The aft section of one of the main landing gear skids was bent upward to about 45°. The left-seat flight controls were installed.

Examination of the engine revealed multiple fractures of the engine case, along with extensive thermal damage. The engine cooling fan exhibited upward crushing with no rotational signatures on the non-impacted top section of the fan. The upper sheave exhibited deep score marks and dents, along with a buildup of material at the end of one deep score mark that showed movement in the direction opposite of normal rotation. Most of the external components of the engine were extensively thermally damaged. Spark plug examination revealed some exhibited normal color when compared with a Champion Check-A-Plug chart, some exhibited impact damage, and at least one exhibited white color and some corrosion. All fuel injectors were unobstructed. The fuel servo was thermally damaged. All lines normally connected to the fuel servo were thermally damaged and separated, except for the line from the fuel flow transducer to the flow divider, which remained attached to the fuel servo. Multiple B-nuts from the fuel lines that were associated with the fuel flow transducer and fuel servo could be turned by hand. Thermal damage precluded further examination. ADDITIONAL INFORMATIONRobinson Safety Notice SN-10, Fatal Accidents Caused by Low RPM Rotor Stall, issued in October 1982, and revised in February 1989 and June 1994, states:

A primary cause of fatal accidents in light helicopters is failure to maintain rotor rpm. To avoid this, every pilot must have his reflexes conditioned so he will instantly add throttle and lower collective to maintain rpm in any emergency…Power available from the engine is directly proportional to rpm. If the rpm drops 10%, there is 10% less power. With less power, the helicopter will start to settle, and if the collective is raised to stop it from settling, the rpm will be pulled down even lower, causing the ship to settle even faster. If the pilot not only fails to lower collective, but instead pulls up on the collective to keep the ship from going down, the rotor will stall almost immediately. When it stalls, the blades will either “blow back” and cut off the tailcone or it will just stop flying, allowing the helicopter to fall at an extreme rate. In ...