NTSB CAROL · Event
Event WPR17LA208
Aircraft involved
Probable cause & findings
A partial loss of engine power due to the formation of carburetor ice during descent for landing. Contributing to the accident was the pilot’s failure to apply carburetor heat.
Factual narrative
On September 17, 2017, about 1347 Pacific daylight time, a Piper 28-161 airplane, N2587X, experienced a loss of engine power while on downwind for runway 27L at Gillespie Field Airport (SEE), El Cajon, California. The certified flight instructor (CFI) sustained minor injuries and pilot rated passenger was not injured. The airplane sustained substantial damage to the left wing. The airplane was registered to and operated by the pilot as a Title 14 Code of Federal Regulations Part 91 personal flight. Visual meteorological conditions prevailed, and no flight plan was filed. The flight originated from SEE at about 1250. The pilot reported that after flying around the area they returned to the airport to practice a few touch-and-go landings. The first two left traffic touch-and-goes were uneventful; after the third takeoff, the tower informed them to make right traffic. While on downwind they were cleared to land; the pilot reduced power and started to descend. After turning base, the pilot increased power, but the engine did not respond and remained at idle. There was no change in engine noise and the engine was not running rough. Both pilots manipulated the throttle several times, but the engine did not respond; they also manipulated the primer, but to no avail. The pilot elected to land the airplane onto a nearby road. During the descent the airplane struck powerlines and a tree, before it impacted the roadway and slid to a stop. A postaccident engine examination revealed no anomalies that would have precluded normal operations. The throttle and mixture controls moved freely from stop to stop. The gascolator bowl was removed and the screen was clear of debris. The oil filter was removed and opened; oil was present and no contaminates or debris were noted. The spark plugs were removed from the engine and exhibited wear consistent with normal operations per the Champion check-a-plug chart. The rocker covers were removed and the propeller was rotated by hand. Spark was obtained in proper firing order and the rockers moved at the appropriate time. Thumb compression was obtained on all cylinders, except for the number 2 cylinder. Further examination revealed the intake valve was unseated due to impact damage. The engine was boroscoped and all cylinders exhibited normal operating signatures. The carburetor bowl was removed from the engine. The fuel screen was clear of debris; the carburetor bowl was removed and no fuel was present in the bowl or the accelerator pump well. The floats were intact and undamaged. Air was blown from the gascolator to the wing root, as well as from the electric driven fuel pump to the carburetor inlet; all lines were clear of blockages and debris. At the time of the accident, weather at SEE reported a temperature of 25°C and a dewpoint of 15°C. A review of the carburetor icing probability chart, located in the Federal Aviation Administration's (FAA) Special Airworthiness Information Bulletin CE-09-35, dated June 30, 2009, revealed that the airplane was operating in an area favorable for the formation of serious carburetor icing at glide power. On scene photographs provided by the FAA inspector revealed the carburetor heat lever was in the off position. The commercial pilot reported that he and the pilot-rated passenger returned to the airport to practice touch-and-go landings after a local flight. The first two landings were uneventful. While on the downwind leg of the traffic pattern for the third landing, the pilot reduced engine power and started to descend the airplane. After turning base, the pilot increased power, but the engine did not respond and remained at idle. There was no change in engine noise and the engine was not running rough. The pilot manipulated the throttle and primer several times, but the engine did not respond, and the pilot elected to land the airplane on a nearby road. During the descent, the airplane struck powerlines and a tree before it impacted the road and slid to a stop. A postaccident engine examination did not reveal any anomalies that would have precluded normal operation. A review of the carburetor icing probability chart revealed that the airplane was operating in conditions favorable to the formation of serious carburetor icing at glide power. In addition, on-scene photographs revealed that the carburetor heat lever was in the off position; therefore, it is likely that carburetor ice accumulated during the descent, which resulted in a partial loss of engine power. 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).
- — Environmental issues-Conditions/weather/phenomena-Temp/humidity/pressure-Conducive to carburetor icing-Effect on operation
- F Aircraft-Aircraft systems-Ice/rain protection system-Intake anti-ice, deice-Not used/operated - F
- F Personnel issues-Task performance-Use of equip/info-Use of equip/system-Pilot - F
Verbatim from NTSB's published report. Source file
NTSB_2017_WPR17LA208.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 (icing). Sourced from NASA NTRS, NTSB Safety Studies, FAA CAMI, AOPA Air Safety Institute, Embry-Riddle Scholarly Commons, arXiv, and the Semantic Scholar academic graph.
- NASA NTRS 2026 · Contractor Report (CR)
Icing Physics Studies Using the 3D SIDRM Test Article: 2023 Icing Tests Analysis
In-flight icing is an important safety issue and is a factor that affects aircraft design and performance. Newer regulations are driving a need for improvements in airframe and engine icing simulation…
- arXiv 2025 · arXiv preprint
Multi-Agent Deep Reinforcement Learning for UAV-Assisted 5G Network Slicing: A Comparative Study of MAPPO, MADDPG, and MADQN
The growing demand for robust, scalable wireless networks in the 5G-and-beyond era has led to the deployment of Unmanned Aerial Vehicles (UAVs) as mobile base stations to enhance coverage in dense urb…
- Embry-Riddle Scholarly Commons 2025 · Journal article (JAAER)
A Mathematical Model on the Temporal Dynamics of Aviation Competitive Pricing
This study investigates the competitive dynamics of airport pricing using U.S. airport data to validate the findings. It employs linear and nonlinear ordinary differential equation models to analyze t…
- NASA NTRS 2025 · Presentation
NASA Icing Update – March 2025
This NASA Icing Update was prepared for presentation to the SAE International AC-9C Inflight Icing Technology Committee. This update includes the following topics: planned Rotational Icing Scaling tes…
- arXiv 2024 · arXiv preprint
An energy-stable phase-field model for droplet icing simulations
A phase-field model for three-phase flows is established by combining the Navier-Stokes (NS) and the energy equations, with the Allen-Cahn (AC) and Cahn-Hilliard (CH) equations and is demonstrated ana…
- NASA NTRS 2024 · Presentation
NASA Icing Update – Oct 2024
This presentation provides a status update on select NASA icing research activities for the SAE AC-9C Icing Technical Committee Meeting on Oct 21, 2024.
Browse the full corpus — academia portal ↗