The pilot stated that after departure and climbing to approximately 200 feet, the engine lost power and the airplane began to descend. During the forced landing the airplane struck a power line and impacted terrain resulting in substantial damage.
Tag: U.S.
The airplane used for the skydiving operation was equipped with a foot step just above the right wheel, which the skydivers used to launch from the airplane. As the last of four skydivers stepped on the foot step, the right main landing gear fell away. The pilot reported that after he flew around for about 1 1/2 hours to burn off fuel, he intended to perform a low pass over the runway before coming around to land.
The non-instrument rated private pilot planned to attend a skydiving event near the destination airport that began the next day. Prior to departure, the pilot was aware of the low clouds affecting the destination airport. The pilot told an acquaintance at the destination airport that he needed to make the flight that night because of deteriorating weather conditions that were expected on the next day.
The flight was at 13,500 feet overhead the airport, preparing for the skydivers to jump. The pilot turned on the green light to initiate the jump. He then felt the aircraft shudder, but did not lose control of the airplane. After most of the jumpers had left the airplane, one of the skydivers came forward and notified the pilot of damage to the tail.
The pilot of a Piper L-4 airplane reported that shortly after he started the taxi roll from the parking area, he initiated a shallow turn toward the taxiway. As he reached the taxiway he steered to follow the centerline, however, the airplane continued to turn to the right. He reported, in part, that the left brake inputs were not responsive and the airplane continued to the right and collided with a standing occupied Cessna.
The private pilot stated that he was at an altitude of 3,500 feet when the engine stopped producing power. He made a forced landing to field and struck a cedar post with the airplane’s nose wheel and subsequently flipped over resulting in structural damage to the vertical stabilizer
The airplane was fueled before the pilot’s first flight that day. A total of 6.0 gallons of fuel were added to each fuel tank. After fueling, the pilot dipped each fuel tank using the provided dipstick, and determined that each tank contained between 7.0 and 7.5 gallons of usable fuel. He then flew one load of skydivers, returned, and attempted to secure the engine for fueling but was pressured by company personnel that he had enough fuel to make the second flight and that he needed to keep the airplane operating.
The helicopter impacted unmarked power transmission lines as the pilot maneuvered at a low altitude over a river. The helicopter impacted the river and separated into several pieces. The pilot and his passengers were not injured and were rescued by nearby boaters.
The pilot flew nine skydiving flights on the day of the accident in the Cessna 182A. Each flight was approximately 30 minutes in duration. The airplane was refueled after approximately every other flight with about 12 gallons of fuel. Prior to takeoff for the tenth and final flight of the day, the pilot thought he had about 16 gallons of fuel in the airplane; however, he did not visually confirm how much fuel was in the tanks and could not remember what the fuel gauges indicated.
The pilot reported that there were no observed anomalies with the left wing prior to the flight. During the flight, which was conducted as a local parachute operation, the pilot performed a descending turn. The left wing’s aileron bound when the pilot attempted to level the bank. The pilot declared an emergency.
The commercial pilot reported that he was en route to a parachutist jump zone on the first of two planned jumps. Prior to the first jump, before he had slowed the airplane, or illuminated the green jump light, indicating that the parachutists had permission to jump, two of the parachutists prematurely jumped.
The pilot landed on runway 33, which is a dirt runway. The wind direction at the time was 320 degrees at 19 knots, gusting to 29. The pilot turned the airplane around to back taxi to parking. While back taxiing, the airplane’s nose wheel encountered a soft spot of sand, and the pilot added some power to get through the soft spot. The tail came up, and the airplane nosed over.
The pilot reported that the airplane, which was used for sky diving operations, was climbing through 7,000 feet mean sea level (msl) when he heard an explosion followed by a metal grinding noise coming from the engine section of the airplane. He felt the airplane vibrate, and smoke began to fill the cabin. He reported that the engine was not producing any power so he shut the fuel off and performed procedures to rid the cabin of smoke.
The pilot was landing the twin-engine, turboprop airplane on a 3,000-foot-long, 70-foot-wide, asphalt runway, when he encountered a high sink rate. He applied engine power; however, the engines did not respond quickly enough to prevent a hard landing. During the hard landing, the main landing gear separated and the left landing gear struck the vertical stabilizer. The pilot subsequently performed a go-around and landed on a grass runway, without further incident. The pilot stated that he did not experience any mechanical malfunctions. He reported 5000 hours of total flight experience, which included 500 hours in the same make and model as the accident airplane.
Surviving skydivers said that as the airplane was climbing to the jump altitude of 10,500 feet agl, the stall warning horn sounded intermittently several times. They paid no particular attention to it because they had heard it on previous flights. When the airplane reached the jump altitude, the pilot signaled for one of the parachutists to open the door. When she did, she told the pilot that the airplane had overshot the drop zone by approximately 1 mile.
The pilot was returning to the departure airport following the release of skydivers. The airplane was on a straight in approach to the runway during windy conditions when the engine lost power. The pilot applied full throttle but the engine did not respond.
The pilot was returning to the airport after releasing some skydivers. He was following a training airplane in the traffic pattern and was gaining on it, so he decided to extend his downwind leg. On final approach to runway 08, his airplane was still gaining on the other airplane. The pilot reduced power and raised the nose to reduce airspeed to 85 mph.
The pilot was returning a group of skydivers to their home base after a weekend of skydiving. He flew several jump flights, and then stopped early in the afternoon to prepare the airplane for the flight home. The flight was planned into an area of clouds, turbulence, and icing, which the pilot had researched. He delayed the departure until he decided that he could complete the planned flight under visual flight rules (VFR).
Following an uneventful flight, the pilot overflew the destination airport and observed no apparent wind speed or direction on the windsock. The airplane approached the runway fast, and landed “very hard,” separating the right main landing gear from the airplane in the process.
The commercial pilot was climbing the airplane with four skydivers aboard when the engine lost power. The pilot told the skydivers to jump when he could not restart the engine, and they all jumped successfully without injury. The pilot made a forced landing short of the departure runway, and the airplane collided with small trees, sustaining substantial damage to the wings and fuselage.
The pilot began descending when he thought all jumpers had departed the airplane, but 1 jumper remained. The remaining jumper realized the airplane was descending but was too late to stop his exit. After exiting the airplane he contacted the horizontal stabilizer and broke the femur of his left leg.
Following three days of rain, the pilot attempted a soft field takeoff from a turf runway. The pilot reported that as the airplane was “sliding” down the runway he observed something on the windscreen that resembled oil, followed by a decrease in engine oil pressure.
After preflighting the airplane, adding fuel and checking the oil, the pilot radioed that he was taxiing to runway 32. Witnesses subsequently observed the airplane takeoff on runway 32, make a 180-degree turn toward the south, and then fly downwind and parallel to the runway at an altitude of between 300 and 500 feet above ground level. At approximately the end of the runway the airplane was observed making a left turn onto base leg for runway 32, followed by a steep turn to final before nosing into the ground and bursting into flames.
The pilot checked the fuel quantity with a wooden stick and estimated 21 gallons of fuel was onboard for the parachute flight. The takeoff and climb to 10,000 feet msl, and release of the jumpers, was normal. On the return to the airport, while on the turn to base leg, the engine lost power.
After releasing skydivers, the pilot was descending the airplane from 11,000 feet and returning to his home airport. He utilized carburetor heat while descending to 3,000 feet, and everything seemed normal during the approach to the 3,999-foot-long asphalt runway. The bounced upon landing and the pilot initiated a go-around; however, the airplane experienced a loss of engine power during the initial climb, about 50 to 75 feet above ground level (agl).