N109BC

HISTORY OF FLIGHTOn August 28, 2023, about 0844 eastern daylight time, a Eurocopter (Airbus Helicopters) Deutschland GMBH EC135T1, N109BC, was destroyed when it was involved in an accident near Pompano Beach, Florida. The commercial pilot sustained minor injuries. One paramedic onboard and a resident of an apartment building were fatally injured, while a second paramedic onboard was seriously injured. The helicopter was operated as a Title 14 Code of Federal Regulations Part 135 air medical flight.

The pilot reported that the helicopter was dispatched to transport a patient from the scene of an automobile accident. About 90 seconds after liftoff and during initial climb, west of Pompano Beach Airpark (PMP), Pompano Beach, Florida, about 300 to 400 ft above ground level, the pilot heard a “bang” from the rear of the helicopter and noticed that the turbine outlet temperature (TOT) was rising on the No. 1 engine, but was still within limits. Prior to the “bang,” the pilot did not recall seeing or hearing any cockpit caution or warning indicators. He set the No.1 engine throttle to idle, declared an emergency to air traffic control, and reversed direction to return to the airport. He scanned the cockpit instrument panel and noticed that the No.1 engine fire button had illuminated. The pilot further stated that he pressed the button to activate the fire suppression system; however, the TOT continued to rise near 1,000° C on the No. 1 engine (maximum limit 895°C). The pilot subsequently heard a second “bang” and was unable to control the helicopter. It spun and descended into an apartment building.

Review of witness video revealed an in-flight fire near the area of the No. 1 engine exhaust, and air conditioner condensing fans. The inflight fire spread to the central area near the tail boom attach point. Subsequently, the tailboom partially separated inflight and the helicopter descended in an uncontrolled right spin. PERSONNEL INFORMATIONThe pilot held a commercial pilot certificate with ratings for rotorcraft helicopter and instrument helicopter. He also held a second-class medical certificate. The pilot reported 3,895 hours of total helicopter experience, of which 272 hours were in the same make and model as the accident helicopter. He had been flying for the operator for over four years. AIRCRAFT INFORMATIONThe helicopter was manufactured in 1999 and powered by two Turbomeca Arrius 2B1, 670-turboshaft-horsepower engines. It was maintained under a manufacturer’s approved inspection program. Its most recent 100-hour inspection was completed on May 23, 2023. At that time, the airframe had accrued 5,557.1 total hours. The engines had accrued 5,327.2 hours since new (2,251.3 hours since overhaul in 2016). The helicopter was operated about 24 hours from the time of the most recent inspection until the accident. An air conditioner was installed on the helicopter under supplemental type certificate on August 1, 2023, about 16 flight hours prior to the accident flight. AIRPORT INFORMATIONThe helicopter was manufactured in 1999 and powered by two Turbomeca Arrius 2B1, 670-turboshaft-horsepower engines. It was maintained under a manufacturer’s approved inspection program. Its most recent 100-hour inspection was completed on May 23, 2023. At that time, the airframe had accrued 5,557.1 total hours. The engines had accrued 5,327.2 hours since new (2,251.3 hours since overhaul in 2016). The helicopter was operated about 24 hours from the time of the most recent inspection until the accident. An air conditioner was installed on the helicopter under supplemental type certificate on August 1, 2023, about 16 flight hours prior to the accident flight. WRECKAGE AND IMPACT INFORMATIONThe wreckage came to rest on its left side, facing south, through the roof of a one-story apartment building. A postcrash fire consumed a majority of the airframe. The tailboom was located about 30 ft south of the main wreckage and its fenestron (tailrotor) remained intact. All four main rotor blades separated near the blade root, consistent with impact damage. Both engines and their respective electronic engine control units (EECUs) were retained for further examination and data download. Additionally, the No. 1 engine fuel shutoff valve assembly was also retained for further examination.

The No. 1 engine was further examined at the manufacturer’s facility. The examination revealed that five turbine blades had fractured below the blade platform. Metallurgical examination of the separated turbine blades revealed their inner walls exhibited dissolution of material precipitates (microstructural transformation) consistent with an overheating condition beyond 1,295° C and fatigue cracking due to excessive temperatures. There was no evidence of fire inside the No. 1 engine; however, the exhaust gases in excess of 1,000° C were consistent with an ignition source. Specifically, a fiberglass air conditioner housing and composite tailboom fuselage were located near the No.1 engine exhaust. While the composite fuselage offered more fire resistance than the fiberglass housing, neither were certified to withstand temperatures in excess of 1,000° C. (For more information, see the Airworthiness Group Chair’s Factual Report, Powerplants Group Chair’s Factual report, and Materials Laboratory Report in the public docket for this investigation.)

Review of data downloaded from the No. 1 engine EECU revealed a simultaneous double N1 and double N2 failure recorded about 67 seconds after liftoff, and about 25 seconds before the pilot heard the first “bang.” This failure would result in a “FADEC FAIL” cockpit caution and would freeze the fuel control unit (FCU) at the fuel flow at the time of the failure, which was 123 l/h. Postaccident examination and testing of the FCU resolver revealed that it remained in a 123 l/h position. The reason for the failure could not be determined. Consequently, setting the engine throttle to idle will have no effect on fuel flow, but rather the engine twist grip must be manipulated to manually control fuel flow to that engine.

Computed Tomography scanning of the No. 1 emergency fuel shutoff valve revealed that it was in the open position. Examination of the cockpit revealed that the No. 1 and No. 2 engine fire buttons’ breakable safety wire were found unbroken and the the buttons did not exhibit inward deformation. Examination of the No. 1 engine air inlet did not reveal any blockages; however, that area had been subject to a postcrash fire.