N38DM

HISTORY OF FLIGHTOn October 1, 2016, about 1735 central daylight time, an Aero Smart Solutions Lancair Evolution airplane, N38DM, experienced a total loss of engine power during cruise flight. The pilot made a forced landing onto a roadway near Iola, Kansas. The private pilot was not injured and the passenger suffered minor injuries. The airplane was registered to, and operated by, Aero Smart Solutions, Inc. under the provisions of Title 14 Code of Federal Regulations Part 91 as a personal flight. Visual meteorological conditions prevailed for the flight, and an instrument flight rules flight plan was filed.

The pilot stated he had just departed after stopping to refuel at Allen County Airport (K88) in Iola, Kansas. Shortly after departure, air traffic control (ATC) cleared the pilot to his destination of Ogden-Hinckley Airport (OGD) in Ogden, Utah. The pilot reported he switched from the left fuel tank to the right fuel tank, he did not recall when he made the switch. Around 11,000 ft, the pilot heard the pitch of the engine "drastically change." Immediately following that, the pilot heard an alarm from the engine monitoring instrument which showed the oil pressure had decreased to "0." The pilot did not notice any instrument indications before the engine lost power.

The pilot pushed the nose over, and switched fuel tanks from the right to the left. He turned on the igniters and held the start button down but there were no changes to the engine power. The pilot called ATC and declared an emergency. He used his GPS to return directly back to K88, and the controller also provided a vector. The pilot feathered the propeller and it completely stopped rotating; the pilot noticed a billow of smoke out of the right exhaust pipe. At that time, the airplane was about 6,500 ft and 8-9 miles from the airport. About 6 miles from the airport, the pilot decided he was unable to make it back to the airport. He saw an open dirt road and decided to conduct a forced landing on the road. During the landing rollout, the roadway became tree-lined and both wings were substantially damaged due to impact with trees.

The raw, unsmoothed data from the engine monitoring system indicated normal flight parameters until 17:29:35 when the fuel flow abruptly dropped to zero. The flaps were extended at 17:32:33 to about 16°, or takeoff position, and remained at 16° until the end of the flight. The airplane achieved 110 knots, best glide speed, at 17:32:35. The propeller was feathered at 17:33:10. Figure 1 depicts these events during the flight. From 17:29:48 until 17:33:18 the rate of descent exceeded 1,000 ft per minute (fpm) and was, at times, in excess of 4,000 fpm. During that 3.5-minute period, the airplane descended from about 11,900 ft to about 3,560 ft, an average descent rate of nearly 2,300 ft per minute.

In multiple statements provided by the pilot, there was no mention of the use of an emergency engine out checklist or consultation of the pilot operating handbook (POH) during the event.

Figure 1: Plot of Flight Track with Control Inputs Depicted PERSONNEL INFORMATIONThe pilot's flight instructor who completed transition training with the pilot stated the pilot did not sump the fuel before every flight. The instructor also explained that he advised his students that the engine can tolerate some water. The instructor did not mention addressing the pilot's lack of a proper preflight inspection or advise the pilot that sumping the fuel was necessary. AIRCRAFT INFORMATIONAccording to the POH, the recommended configuration for a forced landing is landing gear up, flaps up, propeller feathered, and airspeed at 110 knots. This configuration provides a maximum glide performance of about 500 fpm descent, an 18:1 glide ratio, and about 3.5 nm glide distance per 1,000 ft of altitude lost.

Pratt & Whitney Service Bulletin 12144, Turboprop Engine Fuels and Additives - Requirements and Approved Listing, states, "Fuel shall consist solely of hydrocarbon compounds except as otherwise specified herein. It shall be free from water, sediment, and suspended matter, and shall be suitable for use in aircraft turbine engines." The Lancair Evolution Pilot Operating Handbook (POH) highlights the importance of sumping fuel and checking fuel quality on preflight and after refueling. The POH states, "The fuel system feeds fuel to the engine through a fuel screen pickup, fuel selector, gascolator/fuel filter, electric boost pump ad finally a fuel control unit. The fuel tanks should be sumped at regular intervals." Fuel sumping is also called for in the preflight inspection checklist contained in the POH. AIRPORT INFORMATIONAccording to the POH, the recommended configuration for a forced landing is landing gear up, flaps up, propeller feathered, and airspeed at 110 knots. This configuration provides a maximum glide performance of about 500 fpm descent, an 18:1 glide ratio, and about 3.5 nm glide distance per 1,000 ft of altitude lost.

Pratt & Whitney Service Bulletin 12144, Turboprop Engine Fuels and Additives - Requirements and Approved Listing, states, "Fuel shall consist solely of hydrocarbon compounds except as otherwise specified herein. It shall be free from water, sediment, and suspended matter, and shall be suitable for use in aircraft turbine engines." The Lancair Evolution Pilot Operating Handbook (POH) highlights the importance of sumping fuel and checking fuel quality on preflight and after refueling. The POH states, "The fuel system feeds fuel to the engine through a fuel screen pickup, fuel selector, gascolator/fuel filter, electric boost pump ad finally a fuel control unit. The fuel tanks should be sumped at regular intervals." Fuel sumping is also called for in the preflight inspection checklist contained in the POH. WRECKAGE AND IMPACT INFORMATIONThe airplane came to rest on the side of a tree-lined dirt roadway with substantial damage to both wings, the engine, and the empennage from tree strikes. The left wingtip separated about 9 ft outboard of the fuselage. The right wingtip separated just outboard of the fuel cap. The engine mounts were separated from the firewall, and the propeller blades had separated from the hub. The main and nose landing gear were separated.

Fuel samples were collected from 4 locations within the fuel system: the fuel control unit, fuel/oil heat exchanger, fuel lines to/from the fuel pump, and the fuel filter. Federal aviation Administration (FAA) inspectors performed testing on the fuel samples collected from the fuel control and fuel filter using a Kolor Kut water finding paste. All 4 samples tested positive for water contamination.

The fuel control unit (FCU) and fuel pump were examined and tested by the engine manufacturer. The FCU test results were consistent with typical field adjustment for operation. Corrosion was noted on the fuel pump; however, it performed satisfactorily during testing.

An examination revealed no preimpact anomalies with the flight controls, engine, or fuel system that would have precluded normal operation.