NTSB CAROL · Event
Event WPR17LA157
Registry · N754AP
FAA Aircraft Registry record.
Make / Model
CIRRUS DESIGN SR22
TCDS
A00009CH · CIRRUS DESIGN CORP
Engine
CONT MOTOR IO-550-N (310 hp)
Seats / Engines
4 seats · 1 engine
Last airworthiness date
20071214
ADS-B equipped
Yes — Mode-S AA28F3
Registrant of record
PETROLLINI ALEX
Source: FAA Aircraft Registry (releasable master file).
Aircraft involved
Probable cause & findings
The failure of the No. 4 cylinder exhaust valve head, which resulted in a total loss of engine power due to oil starvation.
Factual narrative
On July 14, 2017, about 1948 mountain daylight time, a Cirrus Design Corp SR22 airplane, N754AP, sustained substantial damage when it was involved in an accident near Ogden, Utah. The pilot was not injured. The airplane was operated as a Title 14 Code of Federal Regulations Part 91 personal flight. According to the pilot, he was established on the final approach, about 7 miles from Ogden-Hinckley Airport, Ogden, Utah, when he heard a loud bang then felt a shudder from the engine. Subsequently, the engine’s oil pressure decreased to zero and the engine shut down. At this point, having lost altitude and believing that he was too low to deploy the airplane’s parachute, the pilot initiated a forced landing to a nearby open field. During the landing sequence, the airplane’s left wing impacted two fence posts, resulting in substantial damage to the wing. Postaccident review of the airplane’s flight data (downloaded from the its primary flight and multifunction displays) revealed that, after leveling off at 12,900 ft, the airplane cruised at that altitude until 1925:00, when it started to descend. At 1942:48, The exhaust gas temperature (EGT) values for all the cylinders began to decrease rapidly. Between 1943:00 and 1944:00, the EGT values for the No. 2, 4, and 6 cylinders dropped below the valid range of the sensor input. At 1943:00, the rpm, manifold pressure, oil pressure, and fuel flow values all temporarily increased and, 1 second later, these values decreased. At 1943:06, the oil pressure began to rapidly decrease. At 1943:30, the oil pressure indicated 0 psi and did not recover before the landing in the field. Examination of the engine revealed no noticeable impact damage, but a large hole in the top of the crankcase between the Nos. 3 and 5 cylinders was observed. All engine accessories were attached to the engine. The oil sump was intact, and a large amount of metallic material had collected within the sump. The oil pickup screen had a large amount of metallic material on the screen. The oil pump was removed and examined, and no anomalies were noted. The oil filter remained securely attached and was undamaged. Removal of the oil filter found its internal pleats were contaminated with metallic material. Examination of the oil cooler found no anomalies. During removal of the cylinders, it was noted that the No. 4 cylinder’s exhaust valve head was separated from the valve stem and was located within the engine. The valve head sustained extensive damage consistent with repeated impact in the combustion chamber. Metallurgy examination of the valve head and stem revealed that they met hardness requirements. Several cracks were also observed on the outer edge of the valve stem; however, the valve body’s condition before the crack formation could not be determined due to the condition of the valve head and stem. Further examination revealed that the internal portion of the No. 4 cylinder sustained mechanical damage and the piston was destroyed from the valve head separation. The disassembly of the engine crankcase uncovered all the bearing supports. Examination of the supports revealed no signs of fretting or bearing shift. The Nos. 1, 2, and 3 bearings were intact, undamaged, and exhibited normal operating and lubrication signatures. The Nos. 4 and 5 bearings exhibited damage consistent with lubrication distress. The crankshaft displayed thermal damage signatures around the Nos. 5 and 6 connecting rod journals and the No. 4 main journal that were consistent with lubrication distress. According to the pilot, the personal cross-country flight was uneventful until he was established on the final approach about 7 miles from the destination airport. At that point, he heard a bang, felt a shudder from the engine, and noticed the airplane’s oil pressure decreasing. Shortly thereafter, the oil pressure indicated zero and the engine shut down. Unable to maintain altitude and too low to deploy the airplane’s parachute, the pilot decided to land on a nearby open field. During the landing sequence, the airplane’s left wing struck two wood posts, incurring substantial damage. Postaccident examination of the airplane’s engine revealed that the No. 4 cylinder exhaust valve head was separated from the valve stem, which destroyed the No. 4 piston causing oil to dump through the No. 4 cylinder’s exhaust valve area. The resulting oil starvation led to catastrophic engine failure. The reason for the failure of the No. 4 cylinder exhaust valve head could not be determined. Source: NTSB Aviation Accident Database Retrieved: 2026-02-12
NTSB Findings
Hierarchical cause / factor breakdown from the FAA bulk avdata database. Each finding tagged C (Cause) or F (Factor).
- — Aircraft-Aircraft power plant-Engine (reciprocating)-Recip eng cyl section-Failure
- — Aircraft-Fluids/misc hardware-Fluids-Oil-Fluid level
Verbatim from NTSB's published report. Source file
NTSB_2017_WPR17LA157.txt.
Findings + structured fields enriched from FAA avall.mdb.
Full investigation docket on
data.ntsb.gov ↗.
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Related research
What the literature says.
Academic papers and agency reports matching this event's aircraft type or causal vocabulary (engine failure). Sourced from NASA NTRS, NTSB Safety Studies, FAA CAMI, AOPA Air Safety Institute, Embry-Riddle Scholarly Commons, arXiv, and the Semantic Scholar academic graph.
- arXiv 2022 · arXiv preprint
Multi-level Adaptation for Automatic Landing with Engine Failure under Turbulent Weather
This paper addresses efficient feasibility evaluation of possible emergency landing sites, online navigation, and path following for automatic landing under engine-out failure subject to turbulent wea…
- NASA NTRS 2019 · Conference Paper
Simulation of Liquid Rocket Engine Failure Propagation Using Self-Evolving Scenarios
Traditional probabilistic risk assessment approaches often require failure scenarios to be explicitly defined through event sequences that are then quantified as part of the integrated analysis.
- NASA NTRS 2019 · Conference Paper
Rocket engine failure detection using system identification techiques
The theoretical foundation and application of two univariate failure detection algorithms to Space Shuttle Main Engine (SSME) test firing data is presented.
- NASA NTRS 2019 · Conference Paper
Rocket engine failure detection using system identification techniques
The theoretical foundation and application of two univariate failure detection algorithms to Space Shuttle Main Engine (SSME) test firing data is presented.
- NASA NTRS 2019 · Technical Memorandum (TM)
A simulator investigation of engine failure compensation for powered-lift STOL aircraft
A piloted simulator investigation of various engine failure compensation concepts for powered-lift STOL aircraft was carried out at the Ames Research Center.
- Semantic Scholar 2019 · Article (AIAA Scitech 2019 Forum)
Impact of Engine Failure Constraints on the Initial Sizing of Hybrid-Electric GA Aircraft
Potential advantages of hybrid-electric aircraft are fuel savings, lower emissions, and reduced noise. Since these aircraft generally apply multiple power sources, they can also be designed to sustain…
Browse the full corpus — academia portal ↗