Hurst, IL, USA
N255CP
VANS RV-10
About a year before the accident, the pilot replaced the carburetor as a troubleshooting effort because the airplane had sustained previous loss of engine power events that he attributed to carburetor icing. About two weeks before the accident, the pilot completed an annual inspection and engine condition inspection. Before the post-maintenance test flight, he completed an engine ground run with no anomalies noted. After takeoff, he climbed the airplane to 8,100 ft above ground level (agl), flew for a few minutes and confirmed that all instruments showed normal indications. The pilot reduced engine power and started a slow descent to 2,600 ft agl. When he leveled the airplane and advanced the throttle the engine ran rough, so he applied carburetor heat and turned on the fuel boost pump, but the engine roughness did not improve. The pilot maneuvered for an emergency landing and landed hard in a bean field. The airplane sustained substantial damage to the engine mounts and fuselage. After the accident, the left fuel tank contained 9 gallons of fuel and the right tank contained about 19 gallons of fuel. The carburetor bowl also contained fuel. The pilot stated that the airplane had not been flown for about a year and that the fuel in the fuel tanks at the time of the accident was the same fuel from a year ago. Neither the engine nor the airplane was made available for a detailed examination. The recorded engine data did not reveal a reason for the loss of engine power. It is possible that the loss of engine power was due to carburetor icing that could not be completely alleviated with the use of carburetor heat. The reason for the loss of engine power could not be determined.
On August 3, 2022, about 1010 central daylight time, a Vans RV-10 airplane, N255CP, was substantially damaged when it was involved in an accident near Hurst, Illinois. The pilot was not injured. The airplane was operated as a Title 14 Code of Federal Regulations Part 91 post-maintenance test flight. The pilot, who was also the airplane owner, reported that he finished an annual inspection and engine condition inspection about two weeks earlier, on July 20, 2022, and intended to complete a test flight before the airplane was sold. He completed an extensive engine ground run with no anomalies noted. After takeoff, he climbed the airplane to 8,500 ft mean sea level (msl) (about 8,100 ft agl), flew for a few minutes and confirmed that all instruments showed normal indications. He reduced engine power and started a slow descent to 3,000 ft msl (2,600 ft agl). When he leveled the airplane and advanced the throttle, “the engine started running rough,” so he applied carburetor heat and turned on the fuel boost pump, but the engine roughness did not improve. He maneuvered for an emergency landing but was unable to glide to the nearby grass strip. The airplane landed hard in a bean field and came to rest upright. The pilot stated that after the accident, the left fuel tank contained 9 gallons of fuel and the right tank contained about 19 gallons of fuel. The carburetor bowl also contained fuel. The responding Federal Aviation Administration (FAA) inspectors reported that the airplane sustained substantial damage to the engine mounts and fuselage. Before the FAA was notified of the accident and could examine the airplane, the pilot had already recovered the airplane to a hangar, removed the engine cowling, drained the fuel tanks, checked the carburetor bowl, and pulled the ignition leads and spark plugs. The FAA inspectors interviewed the pilot, who stated that he could not remember exactly when the engine stopped running, but that the propeller stopped rotating about 300 ft agl and that he did not shut down the engine. The pilot stated that the airplane had not been flown for about a year and that the fuel in the fuel tanks was the fuel that had been in it when it was flown last. A new carburetor was installed in June 2021, because the pilot previously had similar engine issues that resulted in a loss of power. The pilot thought the engine issues were due to carburetor icing. The airplane was equipped with a Dynon electronic flight instrument system (EFIS) and its recorded data was provided for the investigation by the pilot. The airplane was operating in an environment conducive for carburetor icing at glide and cruise power. The airplane was not made available for a detailed examination and the pilot did not submit the National Transportation Safety Board Pilot/Operator Aircraft Accident/Incident Report Form 6120.1.
A loss of engine power for reasons that could not be determined.
Source: NTSB Aviation Accident Database
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