NTSB Factual Report

On November 25, 2013, about 1804 eastern standard time, a Piper PA-23-160, N4016P, was substantially damaged when it impacted trees after a loss of engine power during departure from Twin Lakes Airport (S17), Graniteville, South Carolina. The airline transport pilot was fatally injured. Night visual meteorological conditions prevailed for the personal flight conducted under the provisions of Title 14 Code of Federal Regulations (CFR) Part 91.

According to a witness, prior to the flight the pilot checked all of the airplane's external lights and ran both engines for a long period of time while in front of the hangar where it was kept. He next observed the airplane depart from runway 6. During the takeoff, the airplane lifted off about 1,500 feet down the runway from the point where the takeoff run began.

After lifting off, the airplane turned abruptly to the left while climbing. When it was just above the approximately 90-foot high trees located on the north side of the field, the airplane appeared to enter an aerodynamic stall, strike the trees, and then fall to the ground. The witness believed the pilot was trying to turn back to the runway when the accident occurred.

According to another witness, who was in a hangar after the airplane departed from runway 6, he heard "chatter" on the radio in the hangar but could not understand what the accident pilot was saying. About 10 seconds later, the airplane passed behind the hangar he was in, sounding "low" to the ground and possibly running on one engine. Moments later he heard the airplane impact trees. The witness stated that he believed that the accident pilot may have been attempting to land on Rachel Avenue when the accident occurred.

PERSONNEL INFORMATION

According to Federal Aviation Administration (FAA) and pilot records, the pilot held an airline transport pilot certificate with a rating for airplane multi-engine land, commercial privileges for airplane single engine land, and a flight instructor certificate with ratings for single, multiengine, and instrument airplane. He also held a ground instructor certificate with ratings for advanced and instrument, a repairman experimental aircraft builder certificate for a Sonex kit airplane he built, and a control tower operator certificate, which he was issued when he was previously employed as an air traffic controller. He did not hold an FAA mechanic certificate

His most recent FAA first-class medical certificate was issued on October 24, 2013. According to FAA and pilot records, he had accrued approximately 1,652 total hours of flight experience. Approximately 361 of those hours were in multi-engine airplanes, of which, 26 hours were in the accident airplane make and model.

AIRCRAFT INFORMATION

The accident aircraft was a twin engine, low wing airplane of metal construction. It was equipped with retractable landing gear and powered by two 160 horsepower, air cooled, normally aspirated engines equipped with two bladed constant speed propellers.

According to FAA airworthiness and registration records the airplane was manufactured in 1958 and was purchased by the pilot on May 9, 2013. Review of maintenance records revealed, it had been modified from its original configuration by the addition of numerous upgrades including updated avionics, an autopilot system, dual alternators, and dual vacuum pumps the airplane's most recent annual inspection was completed on August 1, 2013. At the time of the accident, the airplane had accrued 3675.6 total hours of operation.

METEOROLOGICAL INFORMATION

The recorded weather at Aiken Municipal Airport (AIK), Aiken, South Carolina, located 9 nautical miles east of the accident site, at 1755, approximately 9 minutes prior to the accident, included: winds 070 at 5 knots, 10 miles visibility, overcast clouds at clouds at 3,000 feet, temperature 08 degrees C, dew point -03 degrees C, and an altimeter setting of 30.40 inches of mercury.

According to the United States Naval Observatory on the day of the accident, the moon had set at 1236 and was in its last quarter at 1428. Sunset occurred at 1720, and the end of civil twilight occurred at 1747.

AIRPORT INFORMATION

Twin Lakes Airport was a privately-owned fly-in residential community, located four miles northwest of the central business district of Graniteville, South Carolina. It was classified by the FAA as a non-towered public use airport. The airport elevation was 540 feet above mean sea level and there was one runway oriented in a 06/24 configuration. Runway 6 was asphalt, and in good condition. The total length was 4,000 feet long and 60 feet wide. It was marked with basic markings in good condition. Runway 6 was surrounded by buildings and trees, and the threshold was displaced by 390 feet on the approach end, and 421 feet on the departure end.

Obstacles were present off the approach end of the runway in the form of a 52-foot-tall tree, located 624 feet from the runway threshold, and 89 feet left of the centerline, which required an 8:1 slope to clear. The approach ratio to the displaced threshold was 20:1. Obstacles were also present on the departure end of the runway in the form of a 43-foot-tall tree, located 877 feet from the departure end of the runway, 187 feet left of the centerline, which took a 15:1 slope to clear.

WRECKAGE AND IMPACT INFORMATION

Accident Site Examination

The accident site was located north-northwest of the airport, at the edge of a forested area. Examination of the accident site revealed that the airplane after striking trees and falling to the forest floor came into contact with the ground with its left wing, then nose, at an approximately 45-degree nose down attitude while turning to the left. It then slid approximately 15 feet, until it came into contact with the bases of some trees, where it came to rest in a nose down, left wing low attitude against their trunks. There was no appreciable wreckage path present, and all of the primary components of the airplane were collocated within 15 feet of the first point of ground impact, near where the airplane came to rest.

Wreckage Examination

Flight control continuity was established from the control wheel and rudder pedals in the cockpit and to all of the flight control surfaces. The fuselage and wings displayed multiple areas of crush and compression damage. The aft fuselage was bent about 20 degrees to the left of the fuselage centerline and the right wing was bent down and aft, and was partially separated at the wing root. The left wing was also partially separated at a point about 2 feet outboard of the wing root, was displaced aft, and was folded under the fuselage. The fuel tanks were damaged during the accident however, evidence of fuel being onboard the airplane was present in the form of fuel odors, and fuel being observed in the corners of the left and right main tanks, and the right auxiliary tank. No fuel was visible in the left auxiliary tank.

The master switch was in the on position, the flaps were retracted, and the landing gear was extended. The emergency hydraulic pump handle was stowed. The magneto switches were on, the carburetor heat controls were off, and the engine fuel primers were in and locked. The throttle control levers, propeller control levers, and mixture control levers were full forward prior to impact, and the left and right fuel valve controls were in the main tank positions.

Right Engine and Propeller Examination

The right engine remained attached to the airplane by the tubular engine mount. A tool was inserted in the vacuum pump drive pad and the drive train was rotated. Continuity of the crankshaft to the rear gears and to the valve train was confirmed. Compression and suction was observed on all engine cylinders. The interiors of the cylinders were examined using a lighted borescope and no anomalies were noted.

The carburetor remained attached to the engine. The bowl screw safety washers were in place and no fuel stains were noted on the external surfaces of the carburetor. The venturi was observed to be secure. About an ounce of blue liquid with an odor consistent with that of aviation gasoline was observed in the carburetor bowl. The liquid tested negative for water using water finding paste. No damage was noted to the brass floats or the other internal carburetor components. The carburetor fuel inlet screen was absent of debris. The engine driven fuel pump remained attached to the engine and no damage was noted and the pump would produce air at the outlet port when operated by hand.

Both magnetos remained attached to the engine and no damage was noted. The magnetos were removed and both produced spark from all electrode towers when rotated by hand. No damage was noted to the engine ignition harness, and the spark plugs electrodes were undamaged and displayed normal coloration.

Oil was observed in the engine and no debris was noted in the oil pressure screen. No damage was noted to the oil cooler or associated hoses.

The propeller remained attached to the engine crankshaft flange. One propeller blade displayed evidence of S-bending and was curved aft about 30-degrees at approximately the mid-span point of the blade, and curved forward approximately 20-degrees at a point about 8 inches inboard of the blade tip. The other propeller blade displayed chordwise scratching.

Left Engine and Propeller Examination

The engine remained attached to the airplane by the tubular engine mount. A tool was inserted in the vacuum pump drive pad and the drivetrain was able to be rotated. Continuity of the crankshaft to the rear gears and to the valve train was confirmed. Compression and suction were obtained from all engine cylinders. The interiors of the cylinders were examined using a lighted borescope and no anomalies were noted.

The carburetor was fractured across the throttle bore and partially separated from the engine. The bowl screw safety washers were in place and no fuel stains were noted on the external surfaces of the carburetor. The venturi was secure. About 2 teaspoons of blue liquid with an odor consistent with that of aviation gasoline was observed in the carburetor bowl. The liquid tested negative for water using water finding paste. No damage was noted to the brass floats or the other internal carburetor components. The carburetor fuel inlet screen was absent of debris.

The engine driven fuel pump remained attached to the engine and no damage was noted. The pump produced air at the outlet port when operated by hand. Partial disassembly of the pump revealed no damage to the rubber diaphragms or other internal components. Both magnetos remained attached to the engine and no damage was noted. The magnetos were removed and both produced spark from all electrode towers when rotated by hand. No damage was noted to the engine ignition harness, and the spark plugs electrodes were undamaged and displayed normal coloration.

Oil was observed in the engine and no debris was noted in the oil pressure screen. No damage was noted to the oil cooler or associated hoses.

The vacuum pump remained attached to the engine. No damage was noted, and when removed the pump produced air at the outlet port when rotated by hand. The drive coupling, carbon rotor and carbon vanes were intact.

The propeller remained attached to the engine crankshaft flange. The spinner displayed heavy crush damage only on one side of the spinner, and minimal damage on the other. One propeller blade was bent forward about 10-degrees approximately 18 inches inboard of the propeller tip and exhibited trailing edge gouging and chord-wise scuffing near the trailing edge of the blade. The other propeller blade was bent aft about 5 degrees at about 18 inches outboard of the hub.

SURVIVAL ASPECTS

Examination of the wreckage revealed that the tubular steel structure which surrounded the cabin had remained relatively intact and that cabin volume integrity had only been minimally reduced during the impact sequence. Examination of the occupant restraint system revealed that shoulder harnesses were not installed in any of the seat positions and the lap belts on the front left and right seats were anchored to the seat structure, and not the airplane structure. The pilot's lap belt did not display evidence of stretching, the latching mechanism had remained latched, and the belt attachment fittings had remained attached to the seat. The seat had been displaced from its mounting location, and there was evidence of the pilot having struck the front of the cabin area during the impact sequence.

No shoulder belts were required to be installed under the regulations that were in effect at the time of the airplane's manufacture. As of December 12, 1986, the FAA required that shoulder belts be installed for all seats in small airplanes manufactured since that date. There was no requirement that shoulder belts be retrofitted to airplanes made prior to that date but. Piper Aircraft issued Service Bulletin (SB) 980 on January 18, 1995, which required the installation of shoulder belts in any airplanes where they were not originally equipped. Piper considered compliance with the SB mandatory.

According to the FAA Civil Aerospace Medical Institute's publication AM-400-90/2, seat belts alone only protect occupants in minor impacts; however, the use of shoulder belts was found to reduce major injuries by 88 percent and fatalities by 20 percent.

MEDICAL AND PATHOLOGICAL INFORMATION

An autopsy was performed on the pilot at the Newberry County Memorial Hospital Morgue on behalf of the Edgefield County Coroner. The listed cause of death was blunt force injury of the head.

Toxicological testing of the pilot was conducted at the FAA Bioaeronautical Sciences Research Laboratory, Oklahoma City, Oklahoma. The specimens from the pilot were negative for carbon monoxide, basic, acidic, and neutral drugs with the exception of:

- Ibuprofen which was detected in Urine, and was a nonsteroidal anti-inflammatory drug with analgesic and antipyretic activity.

- Ranitidine which was detected in Blood and Urine, and was an over-the-counter (OTC) histamine H2-receptor antagonist used to decrease the production of gastric acid, treat ulcers, and a number of other stomach ailments.

- Salicylate which was detected in Urine, and was an aspirin metabolite, an OTC anti-inflammatory medication to treat aches and pains, an antipyretic to reduce fever, and also had an antiplatelet effect used to reduce the risk of myocardial infarction.

TESTS AND RESEARCH

Checklists

Review of the documentation found in the wreckage revealed that a checklist was onboard within reach of the pilot which listed both normal and emergency procedures.

Further review of the checklist revealed information in the pretakeoff checklist which required that the electric auxiliary fuel pumps be selected to the "On" position. The checklist also addressed engine failure in flight. It required that the pilot to "Maintain Control/Pitch/Airspeed" which directed that the airplane's speed be maintained at critical engine-out minimum controllable airspeed (Vmc) of 73 miles per hour, that the landing gear and the wing flaps be moved to the "Up" position and that the inoperative engine's propeller be selected to "Feather." It further required that the pilot accelerate to 95 mph, which was the best rate of climb speed single engine (Vyse) for the airplane.

At the time of the airplane's manufacture, the Civil Aviation Regulations only required that flight at Vyse to assure minimum sink rate. It did not guarantee that the airplane would be able to maintain altitude, particularly in the takeoff or landing configuration with one engine inoperative.

Propeller Feathering

The propellers on the airplane were constant speed, controllable, fully feathering units. These were controlled by the use of propeller pitch levers in the center of the control quadrant. Feathering of the propellers was accomplished by moving the controls fully aft through the high pitch detent into the feathering position. Feathering was expected to occur within 10 seconds. The propellers could be unfeathered by moving the propeller control forward, and pressing the engine starter buttons. Examination of both propelle

NTSB Probable Cause

The pilot's improper maintenance of the airplane's fuel system, which resulted a loss of power in the left engine due to fuel starvation. Also causal was the pilot's failure to maintain minimum controllable airspeed following the loss of engine power, which resulted in a loss of airplane control.