ASN Wikibase Occurrence # 281849
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| Date: | Thursday 29 August 2019 |
| Time: | 11:00 LT |
| Type: |  Air Tractor AT-502 |
| Owner/operator: | Lane Aviation |
| Registration: | N8517Q |
| MSN: | 502A-3210 |
| Year of manufacture: | 2019 |
| Total airframe hrs: | 1 hours |
| Engine model: | Pratt & Whitney PT6A-140AG |
| Fatalities: | Fatalities: 0 / Occupants: 1 |
| Aircraft damage: | Substantial |
| Category: | Accident |
| Location: | Olney Municipal Airport, TX (KONY) -
 United States of America
|
| Phase: | Initial climb |
| Nature: | Unknown |
| Departure airport: | Olney Municipal Airport, TX (KONY) |
| Rosenburg, TX (T54) | |
| Investigating agency: | NTSB |
| Confidence Rating: |  Accident investigation report completed and information captured |
The pilot was conducting a cross-country business flight of the newly manufactured airplane when during initial climb the airplane's thrust began to oscillate every 1-2 seconds between what the pilot perceived as idle and full engine power. He was unable to resolve the malfunction and a forced landing was made in a rough pasture. The airplane sustained substantial damage to the fuselage, wings, and empennage during the forced landing.
The investigation determined that a combination of the propeller design and the airplane's nose-high angle while on the ground likely resulted in trapped air in the propeller's external piston cavity. Air is present in the piston cavity of new or overhauled propellers before installation, is introduced during maintenance when a propeller is separated from an engine, or replaces the oil that gradually drains from the external piston cavity while the engine is not operating. Trapped air in the external piston cavity can act as an unintended spring in the system and confuse the interaction between the propeller and governor, which can result in an undamped oscillation event.
While the airplane is operated on the ground, it is unlikely that all trapped air is purged from the external piston cavity when the propeller is cycled between maximum speed and feather. The pilot stated that he cycled the propeller 3 times before takeoff. The airplane manufacturer's test pilots typically cycle the propeller 4 to 5 times before takeoff in a newly-manufactured airplane. Although the airplane flight manual states to feather the propeller twice before takeoff, it does not address propeller surge behavior, how to avoid it, or how to respond when it occurs during flight.
The airplane manufacturer's chief test pilot stated they do not change the engine power lever in the event of a propeller surge; they slightly retard the propeller speed lever. Implementing a small, less than ¼ inch, aft movement of the propeller speed lever changes the propeller speed 10-20 RPM and stops the propeller surges. However, this slight reduction of propeller speed as a resolution to a propeller surge is not discussed in the airplane flight manual.
The airplane manufacturer stated that although their flight test department has used a slight aft change of the propeller control lever to resolve propeller surge events, they have not conducted a formal evaluation to determine how or why this resolves the propeller surge event or if it could be implemented in an effective way that also ensures pilots do not inadvertently exceed the engine's maximum torque limitation.
Probable Cause: A loss of thrust control due to a propeller surge event, which resulted in a forced landing shortly after takeoff.
Accident investigation:
 |
|
Sources:
NTSB CEN19LA295
Location
Revision history:
| Date/time | Contributor | Updates |
|---|---|---|
| 21-Aug-2022 18:59 | ASN Update Bot | Added |
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