Crash location | 30.667778°N, 89.094722°W |
Nearest city | Saucier, MS
30.635748°N, 89.135045°W 3.3 miles away |
Tail number | N50KH |
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Accident date | 30 Mar 2015 |
Aircraft type | Bell Helicopter Textron 206 L-1 |
Additional details: | None |
HISTORY OF FLIGHT
On March 30, 2015, about 1436 central daylight time, a Bell 206 L-1, N50KH, registered to HLW Aviation, LLC and operated by T & M Aviation, Inc. under contract to the United States Forest Service, was destroyed by controlled burn fire after it impacted terrain near Saucier, Mississippi. The commercial pilot and the front left seat crew member were fatally injured; the rear seat crew member sustained serious injuries. Visual meteorological conditions prevailed and no flight plan was filed for the aerial application flight that was conducted under the provisions of Title 14 Code of Federal Regulations Part 137. The flight departed Dean Griffin Memorial Airport (M24), Wiggins, Mississippi, about 1334.
After a pre-mission briefing at M24, the flight departed to assist in the scheduled burn of an 800 acre wooded area through a process known as "aerial ignition." A witness that observed the helicopter prior to the accident was walking a road on the southern end of the burn area when he noticed the helicopter "make a turn and go back." About 7 seconds after the turn, the witness heard a sound that resembled an air hose being unplugged from a high pressure air tank, and heard the helicopter impact terrain about three seconds later. With the exception of the high pressure sound, the witness did not observe anything unusual with the helicopter. According to the witness, the helicopter's last transmission to ground personnel was approximately 7 minutes prior to the accident.
Several Forest Service personnel were performing controlled burn functions on the ground during the mission. About 6 employees were located near the northeastern tip of the planned burn area, 1 employee was located at the western end, and 3 employees were stationed at the southeastern end, where the helicopter came to rest. Multiple witnesses on the ground, were in contact with the accident helicopter during the operation; however, none of the witnesses observed the helicopter crash nor did they hear a distress call prior to the accident. Several witnesses observed small plumes of smoke scattered across the burn area blowing east as a result of the western wind. One witness reported that a helicopter crewmember inquired about the smoke levels during the mission and made a decision to continue after he determined the smoke levels would not pose a hazard to the flight. None of the witnesses observed the helicopter come into contact with smoke.
Satellite tracking data provided by the online government contracted application Automated Flight Following (AFF), and monitored by a Forest Service dispatch office through a unit mounted in the helicopter, indicated that the helicopter had been operating at a low altitude over the controlled burn area for approximately 56 minutes prior to the accident. According to the data, the helicopter had been flying a grid pattern from the northwest to the southeast. The last recorded position for the helicopter at 1433, indicated that it was at an altitude of 354 feet mean sea level (132 feet above ground level (AGL)), a heading of 150 degrees true and a calculated groundspeed of 43 knots. Forest Service employees reported that the flight pattern for firing is normally based on wind parameters and vegetative conditions to control for smoke management and burn results. According to the surviving crew member, the accident helicopter and crew completed a reconnaissance flight on the morning of the accident flight to evaluate the prescribed burn area. The AFF satellite tracking data showed that the flight was completed in approximately 72 minutes.
The surviving crew member stated that he was operating a plastic sphere dispenser (PSD) from the rear right seat at the time of the accident. This device injects plastic spheres filled with potassium permanganate with glycol and dispenses them below the helicopter. Towards the end of the aerial ignition mission, the helicopter was in "slow" forward flight about 20 feet above the trees when the surviving crew member heard "buzzers and alarms" and the engine spool down. Almost simultaneously, the pilot announced "we lost power" and the firing boss remarked "we are going in." The helicopter completed a quarter turn and "slipped" through the trees in a nose high attitude; it subsequently impacted the ground hard and came to rest on its left side. The surviving crew member did not receive a response from the front seat occupants despite his attempts to get their attention. The wreckage was not on fire after it came to rest, but the crew member observed an approaching ground fire from the controlled burn and decided to vacate the area to a nearby Forest Service road. The surviving crew member reported that the helicopter was in level forward flight at an estimated airspeed of approximately 50 knots when the pilot announced a loss of power.
The audio files from the helicopter's aural warning system were played for the surviving crew member during a follow-up telephone conversation. The crew member recognized both alarms and arranged them in the following sequence: the sustained alarm immediately followed by the fast pulse alarm. According to the manufacturer, the sustained alarm corresponds with the low rpm horn and the fast pulse alarm is an engine out indication; however, the pulsed tone will sometimes follow the steady tone when a power loss occurs.
The surviving crew member recounted the events that transpired during a failed engine start attempt that occurred before the accident flight. He described hearing "whine" and "clicking" sounds with the absence of the turbine flame associated with a normal engine start. The second attempt resulted in a successful engine start, which was preceded by a "click, click, click" of the igniter followed by the flame of the turbine.
PERSONNEL INFORMATION
The pilot, age 40, held a commercial pilot certificate with ratings for rotorcraft-helicopter, airplane single engine land, and instrument airplane. He additionally held a mechanic's certificate with ratings for airframe and powerplant, which was issued on May 19, 2005. His most recent Federal Aviation Administration (FAA) second-class medical certificate was issued on February 23, 2015 with the limitation, "must wear corrective lenses."
According the pilot's resumé, in 1998, he accepted a position as an aircraft technician with T&M Aviation and subsequently received flight instruction from a company owner. After he obtained his private pilot certificate, he performed ferry flights for the company until 2005, when he received his commercial pilot certificate and was subsequently approved to fly under the company's Federal Aviation Regulations (FAR) Part 135 certificate. The pilot's flight experience between 2006 and the date of the accident, included agricultural spraying, long line external load, low level reconnaissance flights, and prescribed burn operations. Additionally, he maintained the company's helicopters as a mechanic during this time and served as the director of maintenance from 2010 through 2013. According to the aircraft owner's records, the pilot's most recent FAR Part 135.293 and FAR Part 135.299 recurrent check was completed on February 3, 2015 in a Bell 206 L3 helicopter. The pilot satisfactorily completed the proficiency check, which involved two emergency simulations; a stuck pedal, and an autorotation.
T&M Aviation entered into a contract with the Forest Service on January 10, 2012 to conduct aerial ignition operations. Pilots of T&M Aviation were required to complete an Interagency Helicopter Pilot Qualifications and Approval Record and pass a flight evaluation by an Interagency Helicopter Inspector Pilot. The pilot's most recent mission approval was completed on April 30, 2014, at which time he was approved to fly aerial ignition operations until April 30, 2015.
According to the pilot's personal flight logbooks, he had accumulated 6,471 total hours of flight experience, about 6,300 hours of which were in the accident helicopter make and model. The owner estimated that the pilot had accrued 22 additional flight hours in the 90 days that preceded the accident flight.
AIRCRAFT INFORMATION
According to FAA records, the accident helicopter was manufactured in 1980, at which time it was equipped with an Allison 250-C28 500 hp turbo-shaft engine. In 1993, an Allison 250-C30P 650 hp turbo-shaft engine was installed in accordance with Petroleum Helicopters, Inc. supplemental type certificate (STC) SH5695SW and modified in 2001 in accordance with Air Services International STC SH296NM. At the time of the accident, the helicopter had accrued approximately 11,602 flight hours.
A maintenance history of the helicopter was established through the operator's archived records, as the most recent maintenance records were destroyed by fire. The helicopter's most recent 100-hour inspection was completed on March 11, 2015, at which time it had accumulated 11,597 hours total time in service. Life limited component inspection schedules were listed for the gearbox, compressor and turbine, which had accrued 11,487 hours, 1,974 hours, and 1,861 hours since their most recent overhauls, respectively. A review of the component maintenance tracking history revealed that each life or time limited engine component were within their respective life expectancies.
A scheduled inspection of the accident helicopter was completed on November 20, 2014, as part of the operator's contractual agreement with the Forest Service, which did not reveal any discrepancies.
The helicopter's most recent turbine engine power check was completed on February 28, 2015, at 5,742 flight hours. A trend value of +19 was recorded under the following atmospheric conditions: 2 degrees C and a pressure altitude of 10,000 feet, which did not exceed the helicopter's operating limitations when compared to the pilot's operating handbook (POH).
The pilot completed a load calculation form, provided by the Forest Service, for a reconnaissance flight that took place on the morning of the accident flight. According to a USDA Forest Service representative, a new form must be completed each day or if there are changes to the flight crew, the pressure altitude changes by at least 1,000 feet, or the ambient temperature changes by a minimum of 5 degrees C. The pilot first calculates the mission operating weight, the combined sum of the aircraft empty weight, the pilot's weight, and total weight of the fuel. This number is then subtracted from the helicopter gross weight to determine the mission payload weight. A pressure altitude of 300 feet and an outside air temperature of 23 degreee C were included on the form that was completed the day of the accident. The form showed a total combined weight of 3,952 lbs, 198 lbs below the helicopter's published gross weight and 118 lbs below the USDA Forest Service's artificially reduced gross weight. The pilot used the same form to calculate an additional payload to plan for an unscheduled long line fire-fighting mission; however, a representative of the USDA Forest Service reported that the bucket and line were not used on the day of the accident flight.
At the time of the accident, the helicopter had burned approximately 196 lbs of fuel. The density altitude at the time of the accident was 1,489 feet, which was used in conjunction with a temperature of 27 degrees C and a revised total weight of 3,756 lbs. to compute the helicopter's performance at the time of the accident. A review of the helicopter flight manual indicates the helicopter was operating within "AREA A" of the out of the ground effect performance chart.
T&M Aviation uses a portable fuel truck to supply helicopters based at M24 with JP-5 aviation fuel. As part of their refueling procedure, a record of the fuel sample, quantity, and amount dispensed is maintained by the fuel technician. T&M Aviation was not able to provide a copy of the fuel record on the date of the accident flight; however, according to a load calculation, the helicopter was serviced with approximately 600 lbs of fuel in advance of the helicopter's morning flight. Fuel performance calculations indicate the helicopter landed at 1050 with approximately 133 minutes of fuel remaining and the surviving crew member reported that the helicopter was subsequently refueled before departing on the accident flight. A fuel sample taken from the fuel tank after the accident was clear and free of any water or contaminants.
METEOROLOGICAL INFORMATION
According to a National Transportation Safety Board weather study, the observations at GPT and BXA indicated ceilings greater than 3,000 feet AGL at the surface at the time of the accident, no visibility restrictions, and variable wind. The wind reported at GPT at the time of the accident was from the south/southwest between 10 and 20 knots, and the wind at BXA reported a west/northwest wind between 5 and 15 knots. Witnesses reported the winds at the time of the accident were variable from the northwest and south at approximately 5 mph
The environment was unstable from the surface through 8,000 feet mean sea level (msl), which would allow for air to rise and fall easily with lifting mechanisms in the area of the accident site. A sounding wind profile revealed the presence of low level wind shear between the surface and 1,000 feet msl, with several layers of clear air turbulence from the surface through 10,000 feet.
A base reflectivity measurement indicated multiple targets at the accident site at the time of the accident, likely as a result of the smoke and particulates from the fire burning before, during and after the accident. While Forest Service personnel reported the presence of smoke in the area, there was little smoke at the accident site when the helicopter impacted the ground.
WRECKAGE AND IMPACT INFORMATION
The accident site was located at the southern end of the controlled burn area in a wooded area about one quarter mile north of a road. An initial impact point (IIP) was identified by several 80-foot-tall broken trees, about 70 feet south of the main wreckage. The helicopter tail rotor marked the beginning of the debris path, which was located about 30 feet beyond the IIP on a northerly heading. The main wreckage was oriented northwesterly about 180 feet above msl and comprised of the cockpit, fuselage, engine, main rotor assembly, and main rotor blades. The high landing skid was in the debris path, a few feet aft of the main wreckage. The helicopter upper deck section, which included the main rotor, transmission, and collective/cyclic hydraulic servos, was attached to the fuselage and had sustained fire damage. The cockpit and cabin were destroyed by fire with the exception of the center window frame and portions of the instrument panel, which were co-located with the fuselage. Both main rotor blades sustained significant fire damage, but were attached to the main rotor hub: Blade A (the white blade) was slightly bent opposite the direction of the rotation and Blade B (the red blade) displayed two 45 degree chordwise bends. The tip to Blade B exhibited signs of overload separation that was consistent with impact forces and was located about 20 feet northeast of the main wreckage. Both the tail rotor and tailboom sustained fire damage and were co-located near a tree 20 feet south of the main wreckage.
The tail rotor assembly was located next to a tree and was separated from the tail rotor drive shaft. The tail rotor drive system was traced from the tail rotor through the gearbox to the steel tail rotor drive shaft that was mounted to the freewheeling unit on the engine gearbox. There were no indications of spline drive wear on the tail rotor spline shaft coupling at the freewheeling unit and the main drive shaft did not exhibit any resistance when moved forward and aft.
The cockpit/cabin section came to rest on its left side and was destroyed by fire. The collective control was found in the cockpit area with the throttle mechanism exposed and in the idle position. Cyclic and collective control continuity from the cockpit to the hydraulic servos could not be attained due to fire damage. The helicopter upper deck section, including the main rotor assembly and transmission, was dam
A loss of engine power for reasons that could not be determined due to postaccident fire damage.