NTSB CAROL · Event
Event DFW06LA183
Registry · N93010
FAA Aircraft Registry record.
Make / Model
CESSNA A185F
Year of manufacture
1976 · 30 years old at event
Engine
CONT MOTOR IO 520 SERIES (285 hp)
Seats / Engines
6 seats · 1 engine
Last airworthiness date
19761111
ADS-B equipped
Yes — Mode-S ACE83D
Registrant of record
DAVIS RUSSELL C
Source: FAA Aircraft Registry (releasable master file).
Aircraft involved
Probable cause & findings
The loss of fuel pressure and subsequent loss of engine power for undetermined reasons. A contributing factor was the lack of suitable terrain for the forced landing.
Factual narrative
On July 14, 2006, approximately 1145 central daylight time, a single-engine Grumman AA-1 airplane, N93010, was substantially damaged during a forced landing following a reported loss of engine power during cruise flight near Floydada, Texas. The private pilot and passenger were not injured. The airplane was registered to and operated by a private individual. Visual meteorological conditions prevailed and a flight plan was not filed for the 14 Code of Federal Regulations Part 91 personal flight. The cross-country flight originated from Gillespie County Airport (T82), near Fredericksburg, Texas, and was destined for the Dalhart Municipal Airport, near Dalhart, Texas. The 666-hour pilot reported in the Pilot/Operator Aircraft Accident Report (NTSB Form 6120.1/2) that he was in cruise flight, when he noticed the fuel pressure was "higher than normal". The pilot observed no change in fuel pressure after he changed fuel tanks and switched on the electric fuel pump. The pilot added that "approximately 3 minutes later, [the] fuel pressure dropped to zero and the engine stopped producing power." The pilot then switched tanks again, and replaced the fuse for the electric fuel pump. The engine's fuel pressure was not restored, and the pilot elected to perform a forced landing to a cotton field. According to a Federal Aviation Administration (FAA) inspector, who responded to the accident site, the aircraft sustained structural damage during the forced landing. The inspector also noted that the airplane's fuel tanks contained fuel. The inspector checked the airplane's fuel system soon after the airplane was recovered. When switched "on," the electric fuel pump appeared to "work;" however, no fuel was pumped through the lines since the fuel lines and tanks were emptied during the airplane's recovery and transport to a nearby facility. The reason for the reported loss of pressure and engine power could not be determined. The inspector added that the airplane was originally equipped with a Lycoming O-235 engine; however, this particular airplane was equipped with a 150-horsepower Lycoming O-320 engine. Additionally, the airplane had auxiliary fuel tanks installed. Both modifications were approved under Supplemental Type Certificates (STC's). At 1153, the automated weather observing system at DHT, approximately 5 miles north of the accident site, reported wind at 040 degrees at 12 knots, 10 miles visibility, a clear sky, temperature 93 degrees Fahrenheit, dew point 55 degrees Fahrenheit, and an altimeter setting of 30.18 inches of Mercury. The 666-hour pilot was in cruise flight, when he noticed the fuel pressure was "higher than normal". The pilot observed no change in fuel pressure after he changed fuel tanks and switched on the electric fuel pump. The pilot added, "approximately 3 minutes later, [the] fuel pressure dropped to zero and the engine stopped producing power." The pilot then switched tanks again, and replaced the fuse for the electric fuel pump. The engine's fuel pressure was not restored, and the pilot elected to perform a forced landing in a cotton field. The airplane's fuel system was later checked. When switched on, the electric fuel pump appeared to "work", but no fuel was pumped through the lines, since the fuel lines and tanks were emptied during the airplane's recovery and transport to a nearby facility. The reason for the reported loss of fuel pressure and loss of power could not be determined. Source: NTSB Aviation Accident Database (Pre-2008 Archive) Retrieved: 2026-02-12
Verbatim from NTSB's published report. Source file
NTSB_2006_DFW06LA183.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 (stall). 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 · Conference Paper
Computational Analysis of Steady State Aerodynamics of Transonic Truss-Braced Wing Configuration in Deep Stall
This study presents a computational investigation of steady state aerodynamics of the Subsonic Ultra-Green Aircraft Research (SUGAR) Transonic Truss-Braced Wing (TTBW) configuration over a wide range …
- arXiv 2023 · arXiv preprint
Automating Bird Diverter Installation through Multi-Aerial Robots and Signal Temporal Logic Specifications
This paper tackles the task assignment and trajectory generation problem for bird diverter installation using a fleet of multi-rotors.
- arXiv 2023 · arXiv preprint
Variation of Critical Crystallization Pressure for the Formation of Square Ice in Graphene Nanocapillaries
Two-dimensional square ice in graphene nanocapillaries at room temperature is a fascinating phenomenon and has been confirmed experimentally.
- arXiv 2023 · arXiv preprint
Polycrystallinity enhances stress build-up around ice
Damage caused by freezing wet, porous materials is a widespread problem, but is hard to predict or control. Here, we show that polycrystallinity makes a great difference to the stress build-up process…
- arXiv 2022 · arXiv preprint
Enhanced Prediction of Three-dimensional Finite Iced Wing Separated Flow Near Stall
Icing on three-dimensional wings causes severe flow separation near stall. Standard improved delayed detached eddy simulation (IDDES) is unable to correctly predict the separating reattaching flow due…
- Embry-Riddle Scholarly Commons 2021 · Journal article (JAAER)
Analysis on the Negative Emotional, Physiological, and Cognitive Responses Elicited from of the Activation of a Stall Alarm
Failing to identify an aerodynamic stall can lead to the inability of an aircraft to sustain flight. To warn pilots of an impending or fully-developed stall, many aircraft have safety devices installe…
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