N917JT

HISTORY OF FLIGHT

On April 11, 2002, about 1415 Alaska daylight time, a Eurocopter AS-350-B2 helicopter, N917JT, sustained substantial damage when it impacted terrain following a loss of control during an emergency landing, about 30 miles east of Valdez, Alaska. The helicopter was being operated as a visual flight rules (VFR) on demand charter flight under Title 14, CFR Part 135, when the accident occurred. The helicopter was being operated by Evergreen Helicopters of Alaska, Inc., of Anchorage, Alaska. The airline transport pilot and the six passengers were not injured. Visual meteorological conditions prevailed, and a VFR company flight plan was filed. The flight originated at the Tsina Lodge helipad, with an offsite landing at Thompson Pass, about 35 miles east of Valdez, to pickup skiers, and then return to Tsina Lodge.

During a telephone conversation with the National Transportation Safety Board (NTSB) investigator-in-charge (IIC), on April 12, the pilot said he was en route to the Tsina lodge from Thompson Pass, when the hydraulic pressure warning horn activated, followed by the illumination of the hydraulic (HYD) warning light. He said he was descending west bound from about 4,000 feet msl to a roadway about 1,600 feet msl. The pilot said he knew he could not make it back to the lodge helipad, so he setup a landing pattern for the road. He said as he flew the landing pattern the cyclic control became stiff and hard to move. He brought the helicopter to a hover about four feet above the road. According to the pilot, the cyclic was frozen in the full aft left position when he lost control. The helicopter rolled left, and struck the ground inverted.

In his written statement to the IIC dated April 12, the pilot wrote; "Turned into the wind and set up a shallow approach at about 30 knots airspeed. At approximately a 4 foot hover, the aircraft became uncontrollable and banked left and contacted the ground inverted."

During an in-person interview with the IIC on April 16, a mechanic for the operator said he was at the helipad near Tsina lodge when the pilot of the accident helicopter radioed that he had a hydraulic problem. He said he drove to the area of the roadway where the pilot intended to land. He blocked the road with his pickup truck, and watched as the pilot made an approach to the road. He said the helicopter seemed to make the base leg of the approach a little slower then normal, but appeared to be under control. During the final approach leg the helicopter was coming straight at him, and he could see that the sink rate of the helicopter appeared normal, but he could not estimate the helicopter's forward speed. He said the helicopter seemed to come to a hover about 10 feet above the road. He said the helicopter then started to move forward and banked steeply to the helicopter's left, and he thought the pilot was "going around." The helicopter continued banking hard and rolled inverted. The helicopter disappeared below the edge of the elevated roadway. He said he drove to where the helicopter disappeared, and found the helicopter crashed inverted in the snow, in a wetlands area below the level of the road. He helped the passengers and pilot out of the wreckage.

PERSONNEL INFORMATION

The pilot held an airline transport pilot certificate with airplane single-engine land, and helicopter ratings. The most recent second-class medical certificate was issued to the pilot on October 3, 2001, and contains the limitation for corrective lenses.

According to records supplied by the pilot, his total aeronautical experience consisted of about 11,000 hours, of which about 760 hours were accrued in the accident helicopter make and model. In the preceding 90 and 30 days prior to the accident, records indicate a total of 85.1 and 75.6 hours of flight time respectively. In the 24 hours preceding the accident the pilot flew 6.1 hours.

Training records provided by the operator indicate that the last FAR Part 135 proficiency check performed by the pilot in the accident helicopter make and model was accomplished on May 13, 2001. According to the records, the pilot accomplished a FAR Part 135 proficiency check in a Bell 206 helicopter on January 10, 2002. FAA form 8410-3 AIRMAN COMPETENCY/PROFICIENCY CHECK dated May 13, 2001, indicates the pilot received a satisfactory rating in emergency procedures. The records further indicate the pilot completed and passed training and written testing on the accident helicopter make and model hydraulic system on May 2, 2001.

AIRCRAFT INFORMATION

The accident helicopter had accrued a total airframe and engine time of 1424.8 hours at the time of the accident. The last 100 hour inspection was completed on April 5, 2002, at a total airframe and engine time of 1402.3 hours.

The helicopter is equipped with a hydraulic actuated flight control system. It is comprised of a hydraulic pump driven by a belt connected to the tail rotor drive shaft, four hydraulic servo/actuators, and four nitrogen precharged accumulators. The pump supplies hydraulic pressure to the hydraulic servo/actuators, which in turn assist the pilot with flight control inputs. If a mechanical loss of hydraulic pressure occurs, such as the failure of the hydraulic pump or the hydraulic pump drive belt, the four nitrogen precharged accumulators attached to the hydraulic actuator/servos provide pressure to assist the pilot while slowing the helicopter's airspeed. The airspeed reduction is required to reduce the dynamic loading of the rotor system to a level where the pilot can fly the helicopter without the hydraulic assistance. The precharged accumulators will not provide sufficient pressure to operate the system for a protracted period. The number of control inputs available depends on the nature and duration of the inputs. In order to operate the flight controls following a loss of hydraulic pressure, the hydraulic system must be fully disengaged. When the system is disengaged, the servos attached to the hydraulic actuators open gate valves that allow hydraulic fluid to flow freely through the system. If hydraulic fluid cannot flow freely during a hydraulic failure, the system may suffer a hydraulic lock. The system is controlled by a cutoff switch located on the pilot's collective control lever.

METEOROLOGICAL INFORMATION

According to the pilot, weather at the time of the accident was VFR, and weather was not a factor in the accident.

COMMUNICATIONS

The only communications at the time of the accident was via the company radio. According to the pilot and the mechanic, the pilot clearly communicated that he had a hydraulic problem and was returning to land. The company radio is not recorded.

WRECKAGE AND IMPACT INFORMATION

Photographs of the accident site were provided to the IIC by an FAA airworthiness inspector who is assigned to the operator as the primary maintenance inspector (PMI). The inspector stated that due to the reported hydraulic failure, the first thing he looked for at the site was the hydraulic pump drive belt. He said the belt was not on the drive-shaft pulley and hydraulic pump. He located the broken belt inside the engine/transmission cowling. The inspector said he did not see anything at, or near, the drive-shaft pulley and hydraulic pump that would have cut the drive belt. The belt was given to the IIC.

On April 16, the IIC examined the wreckage of the helicopter in a hangar at Anchorage. Continuity of all cyclic and collective controls was established. The tail rotor actuator/servo was visually inspected, and there were no signs of hydraulic fluid leakage or spray. The nitrogen precharge for this actuator/servo accumulator was not checked. The three actuator/servos integrated in the rotor head control linkage were visually inspected. All hydraulic and electrical lines were attached, and there were no signs of leakage or hydraulic fluid spray. The actuator/servo accumulator located forward on the right side had a nitrogen precharge of 91 psi. The actuator/servo accumulator located forward on the left side had a nitrogen precharge of 95 psi, and the actuator/servo accumulator located on the aft left side had a nitrogen precharge of 125 psi. The normal actuator/servo nitrogen precharge is about 220 psi and bleeds down to zero during emergency operation. The actuator/servos were energized during the examination, and they all operated correctly.

The hydraulic pump, which mounts on the rear of the transmission housing, showed no visible damage. The hydraulic pump is driven by a flat synthetic belt. The belt is driven by a pulley machined into the first segment of the tail rotor drive shaft attached to the transmission tail rotor output quill. There was no visible damage to the output quill, drive shaft, or pulley. The drive belt (part number 704A33690004) is flat, about 5/8 inch wide, about 24 inches long, and the ends are bonded to form a continuous loop about 7 1/4 inches in diameter. The belt was broken at the point where the ends are bonded. The ends had uniform fraying laterally across the width of the belt. There were no visible signs of cutting at the point where the belt separated.

There were no mechanical anomalies discovered with engine operation. The main rotor head was damaged, and the three main rotor blades were destroyed. The roof and windscreen of the pilot/passenger cabin was crushed inward along a diagonal plane from the nose to the top of the cabin's aft bulkhead. The forward section of the cabin floor was buckled accordion fashion reward, and the tail cone was buckled near its attachment to the cabin.

ADDITIONAL INFORMATION

Instructions for the emergency operation of the helicopter following a hydraulic failure are contained in the Owner/Operator's Manual, and read in part:

Hydraulic Servo-control System Failure

In-flight:

Calmly reduce collective pitch and adjust the airspeed to...