NTSB CAROL · Event
Event ERA16LA103
Aircraft involved
Probable cause & findings
A partial loss of engine power for reasons that could not be determined because postaccident examination of the airplane revealed no mechanical anomalies that would have contributed to the power loss.
Factual narrative
On February 2, 2016, at 1134 eastern standard time, a Piper PA-28-161, N8466G, ditched in the Atlantic Ocean off the coast of Miami, Florida, after a partial loss of engine power. The private pilot and the pilot-rated passenger were not injured. The airplane sustained substantial damage to the wings and the fuselage. The airplane was registered to a private company and operated by Airborne Career Academy, Fort Lauderdale, Florida, as a Title 14 Code of Federal Regulations Part 91 personal flight. Visual meteorological conditions were reported at the time of the accident, and no flight plan was filed for the flight that departed the Florida Keys Marathon Airport (MTH), Marathon, Florida, about 1100, and was destined for the Fort Lauderdale Executive Airport (FXE), Fort Lauderdale, Florida.The flight originated at FXE earlier that day. The pilot stated that when he performed the engine run-up before departure, he noted that the right magneto had a higher drop in rpm than normal. He leaned the mixture and let the engine run for about a minute before he tested the magneto again. This time the magneto had the normal drop and the pilot subsequently departed for MTH. The flight was uneventful. The pilot said that on the flight back to FXE, air traffic control instructed him to descend 500 ft, so he reduced power and turned the carburetor heat on. When he reached 500 ft, the pilot tried to increase engine RPM, but there was no response even when full throttle was applied. He switched fuel tanks and "jockeyed" the throttle a few times, but to no avail. The pilot was unable to maintain altitude and made a forced landing in the ocean about 100 ft offshore in about 15 ft of saltwater. The airplane was towed to a boat ramp and recovered. Examination of the airplane revealed it had sustained substantial damage to the fuselage and both wings. The ignition key was found in the "both" position, the fuel selector was set to the "right" tank, the throttle and mixture were full forward, and the carburetor-heat control was in the full "on" position. The left and right wing fuel tanks were contaminated with salt water and a fuel total for each tank could not be determined. The pilot reported there was about 17 gallons of fuel in each tank when they departed MTH. The engine remained attached to the airframe. The two-bladed propeller appeared undamaged and the engine was free to rotate. When the propeller was rotated, compression and valve train continuity were established to each cylinder. Engine timing was established on the left magneto, but not on the right magneto due to damage. Both magnetos were removed and disassembled. Each was filled with sand and had some salt water corrosion. Once the corrosion was removed from the right magneto's points, they opened and closed normally. No pre-accident mechanical anomalies were noted that would have precluded normal operation of the engine. Weather at Miami-Opa Locka Executive Airport (OPF), Opa Locka, Florida, about 20 miles west of the accident site, at 1125, was reported as wind from 120 degrees at 15 knots, visibility 10 miles, few clouds at 2,100 ft, overcast 3,100 ft, temperature 81 degrees F, dewpoint 66 degrees F, and a barometric pressure setting of 30.11 inches Hg. A Federal Aviation Administration-published Carburetor Icing Chart revealed a potential for serious icing at glide engine power settings, given the reported temperature and dew point conditions. The pilot held a private pilot certificate with a rating for airplane single-engine land. His last FAA second-class medical certificate was issued on July 31, 2015, with no limitations. The pilot reported a total of 86 flight hours, of which all 86 hours were in the same make/model as the accident airplane. The private pilot was flying over the ocean and just off the coast when an air traffic controller asked him to descend to 500 ft. The pilot reduced engine power and applied carburetor heat until he reached the assigned altitude, and he then attempted to increase engine power and level off; however, even with the throttle full forward, the engine power remained at its previous setting. The pilot attempted to resolve the situation, but he was unable to maintain altitude and ditched the airplane in the ocean Although weather conditions were conducive to serious icing at glide power, the pilot had applied carburetor heat during the descent which should have melted any carburetor ice during the descent. A postaccident examination of the airframe and engine revealed no evidence of mechanical malfunctions or failures that would have precluded normal operation. The cause for the partial loss of engine power 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).
- C Not determined-Not determined-(general)-(general)-Unknown/Not determined - C
Verbatim from NTSB's published report. Source file
NTSB_2016_ERA16LA103.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 ↗