N5018Y

HISTORY OF FLIGHT

On April 5, 2021, about 0950 central daylight time, a Piper PA-23-250, N5018Y, was destroyed when it was involved in an accident near Springfield, Tennessee. The flight instructor and the commercial-rated pilot receiving instruction were seriously injured. The airplane was operated as a Title 14 Code of Federal Regulations Part 91 instructional flight.

The purpose of the flight was to conduct multi-engine training in the twin-engine airplane.

The instructor provided both a telephone interview and a written statement. He stated that during taxi, he briefed the student that he would initiate a simulated engine failure during the takeoff roll and the actions the student was to perform. The pilot acknowledged, responded to the simulated engine failure as instructed, then initiated a takeoff with “4,400 ft of runway remaining.”

The instructor stated that, shortly after becoming airborne, the left engine started losing power and the airplane started yawing.” The instructor stated that he attempted to feather the left engine propeller, but it would not feather. He went on to describe a descent he could not arrest and his attempts to maintain aircraft control during the forced landing.

According to witnesses, their attention was drawn to the airplane during its takeoff roll from runway 22 due to its “unusual” sound that was inconsistent with takeoff power. One witness said that he could not discern if one engine or both engines were making “continuous sputtering/backfiring” sounds. He said the “obviously abnormal sound drew the attention of many of us out to observe the airplane struggle into the air.” The witness, an airline transport pilot and airframe and powerplant mechanic, stated that the airplane climbed to about 100 ft above ground level while on runway heading and that the landing gear remained extended until the departure end of the runway. Shortly thereafter, the airplane entered a shallow left turn and disappeared behind a tree line.

Another witness described “popping, sputtering, and crackling noises” and said that the airplane was “clearly struggling to climb” when it disappeared from her view.

The company mechanic who performed the annual inspection on the accident airplane stated that his “maintenance team” stopped work to witness the takeoff. He said they often stopped to watch the airplane’s “impressive takeoff abilities” and that they “loved the sound that her engines made.”

According to the mechanic, the airplane was normally airborne by the time it was abeam the company hangar on the takeoff roll, but during the accident takeoff, the airplane did not lift off the runway until it was “past the windsock on runway 22.” Based on the pilot’s estimated starting point, the airplane was over 1,400 ft into the takeoff roll when the airplane lifted from the runway. At that point, about 3,000 ft of runway and 2,000 ft of grass overrun remained between the airplane and the airport boundary.

Automatic dependent surveillance-broadcast (ADS-B) and radar data provided by the Federal Aviation Administration (FAA) revealed that the airplane departed from runway 22. The airplane achieved a groundspeed of 86 knots about midfield, and once off the ground, slowed, and did not accelerate above 80 knots. The track depicted a shallow climb for about 1 mile, where about 200ft agl, the track depicted a descending, decelerating turn to the left. The radius of the turn tightened until the last target was recorded in the vicinity of the accident site, about ground level, at 59 knots groundspeed.

PERSONNEL INFORMATION

The instructor held a commercial pilot certificate with ratings for airplane single-engine land, multiengine land, and instrument airplane. He held a flight instructor certificate with ratings for airplane single and multiengine. The pilot’s multiengine rating was added September 20, 2020. The pilot’s most recent FAA first class medical certificate was issued March 2, 2021. He reported 1,618 total hours of flight experience, of which 13 hours was in the accident airplane make and model.

The pilot receiving instruction held a commercial pilot certificate with ratings for rotorcraft-helicopter and instrument helicopter, and private privileges for airplane single-engine land. According to an FAA aviation safety inspector, the pilot had accrued 1,200 total hours of flight experience. His multiengine training had begun 3 days before the accident, and he had accrued 1.5 hours of multiengine experience, all of which was in the accident airplane.

AIRCRAFT INFORMATION

According to FAA airworthiness records, the airplane was manufactured in 1963 and was powered by Lycoming O-540-A1D5, 250-horsepower engines. Its most recent annual inspection was completed March 5, 2021, at 6,866.16 total aircraft hours.

After the accident, statements were provided by pilots who had flown, or attempted to fly, the accident airplane during the week before the accident. They each described the left engine either stopping or running roughly both on the ground and in the air with the fuel selector in the left inboard tank position. When the fuel selector was moved to the left outboard tank position, the engine could be restarted, or smooth, continuous operation would be restored. Each said that these power-loss events were reported to maintenance for correction. On April 2, 2021, a flight instructor could not start or sustain power on the left engine with the inboard tank selected but started and ran the engine continuously on the outboard tank. He then demonstrated the discrepancy to company maintenance personnel before he rejected the airplane for his scheduled flight.

According to the Owner’s Handbook, the airplane’s take off run was 750 ft and 1,100 ft over a 50-ft barrier. There was no accelerate/stop distance published, but the published landing roll was 900 ft.

WRECKAGE AND IMPACT INFORMATION

The airplane was examined and photographed by two FAA aviation safety inspectors. Examination of the photographs revealed that the cockpit and cabin areas were destroyed by impact and came to rest inverted. The wings were mostly separated, but remained attached by cabling and sheet metal. The engines were in their nacelles, and the propeller blades of the left engine appeared undamaged and in what approximated a feathered position. The propeller blades of the right engine displayed similar twisting, bending, leading edge gouging, chordwise scratching, and tip curling.

The wreckage was recovered from the accident site for further examination. Control continuity was confirmed from the flight controls, through several breaks, to the flight control surfaces. All breaks and fractures displayed features consistent with overstress.

The right wing fuel tank appeared intact, the thermos-style fuel cap was secure in its receptacle, and the tank contained about 15 to 20 gallons of fuel. The fuel pick-up was clear of obstruction and its filter screen was intact.

The right side gascolator contained debris, and the filter screen was obstructed with rust and other materials. No fuel was noted in the left gascolator, its filter screen was not installed; and the gascolator securement was not safety wired. Examination of the aluminum gascolator bowl revealed deep, corrosive pitting. The pitted areas displayed fresh scribe marks consistent with recent cleaning of oxidized material from the pitted areas.

The left wing inboard fuel tank was breached, contained trace amounts of fuel, and the thermos-style fuel cap fit loosely in its fuel port. Once removed, the ribbed, expandable rubber gasket of the cap was uniformly coated with a white, adhesive residue. A 12-inch length of white adhesive duct tape was observed loose inside the tank. Once removed, the adhesive side of the tape revealed a rubbery residue consistent with that of the fuel cap gasket. The adhesive-coated area of the rubber gasket matched the dimension of the tape strip. The fuel pickup was clear of obstruction, but its filter screen was not installed.

Fuel system continuity was confirmed visually and with low-pressure compressed air.

The right engine propeller remained attached to the crankshaft flange. The spark plugs and valve rocker covers were removed, and the engine crankshaft was rotated by turning the propeller. Continuity of the crankshaft to the rear gears and to the valve train was observed. Compression and suction were observed from all six cylinders. The interiors of the cylinders were observed using a lighted borescope and no anomalies observed.

Both magnetos remained attached to the engine. No damage was noted and both produced spark from all ignition towers when rotated by hand.

The carburetor displayed impact damage to control arms and cabling, and disassembly revealed trace amounts of fuel and no damage to brass floats or other internal components. The fuel pump operated when actuated by hand.

A cursory examination of the left engine was performed prior to shipment for a test run at the manufacturer’s facility. The spark plugs and valve rocker covers were removed, and the engine crankshaft was rotated. Continuity of the crankshaft to the rear gears and to the valve train was observed. Compression and suction were observed from all six cylinders. The interiors of the cylinders were observed using a lighted borescope and no anomalies observed.

The oil suction screen was removed, and no debris observed. The oil pressure screen was removed and about ¼ teaspoon of particulate matter observed in the screen. Some of the matter could be attracted to a magnet. The particulate matter was bagged and left to be shipped to the manufacturer along with the engine. The propeller was removed. The oil suction screen, oil pressure screen, rocker covers, and spark plugs were reinstalled, and the engine set aside for shipment.

Due to the metal contamination, disassembly was performed instead of the engine test run. Removal of the Nos. 2, 4, and 6 cylinder...