Crash location | 35.673611°N, 119.055556°W |
Nearest city | Mcfarland, CA
35.678010°N, 119.229275°W 9.8 miles away |
Tail number | N408FC |
---|---|
Accident date | 10 Dec 2015 |
Aircraft type | Bell 407 |
Additional details: | None |
HISTORY OF FLIGHT
On December 10, 2015, at 1903 Pacific standard time, a Bell 407 helicopter, N408FC, was destroyed when it impacted terrain during cruise flight near McFarland, California. The commercial pilot, flight paramedic, flight nurse, and patient sustained fatal injuries. The helicopter was registered to American Airborne EMS, Fresno, California, and was operated by Rogers Helicopters, Inc., doing business as SkyLife, under the provisions of 14 Code of Federal Regulations Part 135 Air Medical Flight as call sign SkyLife 4. Night visual meteorological conditions prevailed, and a company visual flight rules (VFR) flight plan was filed. The cross-country flight originated from the Porterville Municipal Airport (PVT), Porterville, California, at 1849 with an intended destination of San Joaquin Community Hospital, Bakersfield, California.
Information provided by the helicopter operator, the Federal Aviation Administration (FAA), and local law enforcement officials indicated that the helicopter was initially dispatched from Visalia Municipal Airport (VIS), Visalia, California, to facilitate the transfer of a patient from PVT to a hospital helipad in Bakersfield.
Data recovered from a handheld Garmin GPSMap 396 GPS unit revealed that the helicopter departed from VIS about 1734, arrived at PVT about 1756. The operator's check pilot stated that he talked with the accident pilot via telephone about 1800. During this conversation, the accident pilot told the check pilot that he had just arrived at PVT and had checked the weather for Bakersfield, noting that visibility of 6 miles had been reported. The check pilot expressed his concern that the weather would be worse in the area than predicted. The accident pilot agreed and stated that he would carefully check the weather for the flight.
The flight departed from PVT at 1849:47. The recorded data showed that the helicopter was on a southerly course, along State Highway 65, and that the helicopter ascended to a GPS altitude of about 1,000 ft for the first 6 minutes 11 seconds of the flight with groundspeeds that varied between 125 mph and 141 mph. Beginning at 1855:58, the helicopter continued along a southerly course and began to ascend, reaching a maximum GPS altitude of 1,554 ft at 1902:43; the groundspeed varied between 124 and 144 mph.
Between 1903:08 and 1903:20, the helicopter's GPS altitude decreased from 1,535 to 1,476 ft, and the groundspeed increased from 135 to 138 mph, while the helicopter flew along a magnetic heading of 185°. At 1903:28, the helicopter began a left turn while descending through 1,300 ft at a groundspeed of 141 mph. The last three recorded data points—at 1903:32, 1903:35, and 1903:38—showed that the helicopter continued to descend; the GPS did not indicate a groundspeed for the last data point, which was recorded when the helicopter was about 590 ft southwest of the accident site. The calculated rate of descent for the last three data points was 2,210 ft per minute. Figure 1 shows the GPS-derived data points between 1902:43 and 1903:38.
At 1927, the dispatcher radioed the pilot to determine the flight's status but did not receive a response. The dispatcher contacted personnel at the destination hospital and Meadows Field Airport (BFL), Bakersfield, California, and learned that the flight had not reached the intended destination. An FAA alert notification was issued at 2034, and the helicopter wreckage was located by pilots in a sheriff's office helicopter at 2054. The pilot-in-command of the sheriff's office helicopter reported that, during the search for the accident helicopter, he observed dense ground fog between 200 and 500 ft above ground level and encountered heavy rainfall.
PERSONNEL INFORMATION
The pilot, age 49, held a commercial pilot certificate with rotorcraft helicopter and instrument rotorcraft ratings and a flight instructor certificate with rotorcraft helicopter and instrument helicopter ratings. He held a second-class medical certificate dated April 8, 2015, with the limitation "must wear corrective lenses."
Company records and the pilot's most recent logbook showed that the pilot was hired on August 15, 2012 and conducted mostly ferry flights and LIDAR utility work in Bell 206 and McDonnell Douglas MD530 and MD500 helicopters. On June 4, 2015, the pilot was reassigned to the Bell 407 with a special training authorization for emergency medical services. Before his employment with Rogers Helicopters, the pilot conducted air tours mostly in the Airbus Helicopters AS350 BA helicopter.
According to his most recent logbook, with entries dated from August 27, 2009, to December 10, 2015 the pilot had accumulated 11,415.3 hours of total flight experience, 159.3 hours of which were at night. The logbook also showed that, between August 27, 2009, and the accident date, the pilot had accumulated 17.8 hours of night flight experience; 4 hours of flight in actual instrument conditions; and 55.3 hours of simulated instrument time, including 0.5 hours in the accident helicopter between May 30 and June 4, 2015.
Between May 28, 2015, and the accident date, the pilot had accumulated 48.8 hours of total flight experience in the Bell 407, 11.2 hours of which were in the accident helicopter. During this timeframe, he accumulated 15 hours of night flight time, including 2.3 hours in the accident helicopter, which comprised 2 hours of night training that included 0.78 hours of night vision goggle (NVG) training. During the 90 days that preceded the accident, the pilot had accumulated 5.2 hours of night flight time, including 0.3 hours in the accident helicopter 2 days before the accident. A review of FAA records indicated that the pilot had not flown a helicopter equipped with advanced avionics (glass cockpit displays) before his first flight in the accident helicopter.
During a postaccident interview, the pilot's wife reported that he expressed numerous concerns about not having NVG. She stated that the pilot had started, but had not yet completed, company NVG training. In addition, she stated that the pilot's night training was limited but that, with his skill level, he was "fine" with night flying; however, he wasn't comfortable flying at night without the use of NVG's.
A company pilot also reported that the accident pilot expressed concern about flying near terrain in the area during periods of darkness without the use of NVG's.
AIRCRAFT INFORMATION
The accident helicopter, serial number 53450, was configured for helicopter air ambulance (HAA) operations. The FAA type certificate required one flight crewmember (a pilot) and permitted operations under day or night visual flight rules (VFR). The helicopter was equipped with a Garmin G500H glass cockpit system, which was installed in February 2013. As shown in figure 2, the system comprised a Garmin GDU 620 primary flight display and multifunction display, a Garmin GRS 77 attitude heading reference system (AHRS), and a Garmin GDC 74 air data computer. The helicopter also had an analog airspeed indicator and altimeter; however, no additional attitude reference instruments were installed. The helicopter was also configured for the use NVG's.
The helicopter was powered by a Rolls-Royce model M250-C47B turboshaft engine, serial number CAE-847778, with maximum takeoff and maximum continuous power ratings of 650 and 600 shaft horsepower, respectively. A review of the airframe logbooks showed that the helicopter's most recent annual inspection completed on June 1, 2015, with an airframe total time of 9,017.5 hours.
The pilot primarily flew another company Bell 407 helicopter, N101HF, that was also configured for HAA operations. As shown in figure 3, this helicopter had analog instruments and not the advanced avionics installed in the accident helicopter.
METEOROLOGICAL INFORMATION
At 1854, the recorded weather conditions at PTV, elevation 443 ft msl, located about 21 nautical miles (nm) north of the accident site, were as follows: wind from 040° at 5 knots, visibility 10 statute miles or greater, light rain, overcast ceiling at 3,300 ft, temperature and dew point of 12°C, and altimeter setting 29.91 inches of mercury. At 1854, the recorded weather conditions at BFL, located about 14 nm south of the accident location, were as follows: wind from 280° at 4 knots, visibility 10 statute miles or greater, ceiling overcast at 6,000 ft, temperature of 14°C, dew point 11°C, and altimeter setting 29.91 inches of mercury. No weather reporting stations were located along the route of flight.
The closest National Weather Service Weather (NWS) Surveillance Radar-1988, Doppler (WSR-88D) was located in the San Joaquin Valley, California, about 47 nm northwest of the accident site. The WSR-88D captured base reflectivity imagery at 1902, as shown in figure 4, which mainly depicted light to moderate values of reflectivity to the east, northeast, north, and northwest of the accident site.
The NWS Weather Forecast Office (WFO) in Hanford, California, issued an area forecast discussion at 1516. It noted areas of marginal visual/instrument conditions with mountain obscurations in clouds and precipitation developing over the Sierra Nevada mountains near Yosemite, California, and spreading south through the day.
Airmen's Meteorological Information (AIRMET) advisories for instrument conditions, mountain obscuration, and moderate turbulence were in effect for the accident site at the accident time.
A postaccident discussion with meteorologists at the NWS Weather Forecast Office in Hanford indicated that the conditions about the time and near the location of the accident were conducive to fog. The WFO referenced a Twitter post from an individual that observed fog in the area of McFarland, however this Twitter post was unavailable. The NWS meteorologists indicated that ground fog near the accident region is commonly relatively shallow and suggested common depths are 150 to 300 feet agl.
For further meteorological information, see the weather study in the public docket for this investigation.
WRECKAGE AND IMPACT INFORMATION
The helicopter impacted open, sparsely populated, unlit, hilly terrain about 9 miles east of McFarland. State Highway 65 was located about 0.8 nm west of the accident site. All major structural components of the helicopter were located within the wreckage debris path, which was about 465 ft in length and oriented on a magnetic heading of about 037°. Portions of the main rotor blades, metal fragments, medical equipment, various flight controls, and fuselage components were observed along the debris path.
The first identified point of contact (FIPC) was a ground scar, measuring about 2 inches wide by 7 inches long, which was consistent with a main rotor blade strike. Two additional ground scars, consistent with main rotor blade strikes, were located about 12 and 21 ft beyond the FIPC. Adjacent to the 21-ft ground scar was an impact crater that was about 12 inches deep, between about 29 and 54 inches wide, and 5 ft in length. Within the impact crater, portions of a landing skid, fuselage antenna, and a panel from the bottom side of the fuselage were found.
About 77 ft from the FIPC, the left skid was located along slightly down-sloping terrain. The lower portion of the left door was located about 126 ft from the FIPC. The right skid was located about 213 ft from the FIPC, and the inboard portion of the yellow main rotor blade was located about 226 ft from the FIPC. The main wreckage and tailboom were located about 260 and 337 ft, respectively, from the FIPC.
The fuselage came to rest in an upright position, oriented on a magnetic heading of about 330°. The main rotor head remained attached to the mast, and three of the four main rotor blades remained attached to the rotor hub. The forward portion of the fuselage was torn open, crushed, and twisted. The bottom portion of the fuselage was partially displaced and torn open. The tailboom had separated from the fuselage slightly aft of its aft fuselage attach point. The vertical stabilizer had separated from the tailboom and was located adjacent to the fuselage.
The NTSB examined the recovered wreckage at the facilities of Plain Parts, Pleasant Grove, California. Bell Helicopter, Rolls-Royce, Rogers Helicopters, and the FAA also participated in the examination.
The fuselage was mostly fragmented from the bottom of the engine deck structure downward. The forward fuselage exhibited crush damage from the nose to slightly forward of the baggage compartment. The transmission deck and engine pan exhibited significant impact damage and remained attached to the intermediate section of the fuselage. The tailboom was mostly intact. The left-hand finlet on the horizontal stabilizer was fractured, and the right-hand finlet remained attached. The stinger remained attached to the bottom of the vertical stabilizer.
The forward fuel cell, which had about 20 to 24 gallons of fuel that was removed before recovery of the airframe, was ruptured along the top of the fuel cell. The aft (main) fuel cell was ruptured with no fuel noted prior to removal of the wreckage. The fuel transfer and fuel boost pumps were damaged from impact.
The main rotor hub remained attached to the main rotor mast with the mast nut in place. The yoke displayed fractures near two of the four inner elastomeric shear bearings. The red blade, which had been cut about 12 inches from the hub for wreckage recovery purposes, exhibited fractures outboard of the blade root that spanned about one-third of the blade's length. The green blade also exhibited fractures outboard of the blade root that spanned about one-third of the blade's length. The yellow blade remained attached at the grip with the yoke flexure separated from the main rotor hub. The blue blade remained attached at the grip. All of the main rotor blades exhibited ground impact marks along the leading edges.
Continuity was established from the collective and cyclic to the main rotor blades and from the pedals to the tail rotor. Numerous separations were observed throughout the flight control system that were consistent with impact damage. The three-control servos were removed for further examination and functional testing.
No evidence was found of any foreign object or wildlife strike on the tail rotor, wind screen, main rotor blades, main rotor mast, or pitch change links.
The engine remained attached to the airframe. The N2 system turned freely from the fourth-stage turbine wheel to the power takeoff gear. The N1 system turned freely, and continuity was established from the compressor impeller to the starter generator pad. Several blades from the impeller were bent opposite their direction of travel. The fourth-stage turbine wheel was intact and appeared normal. The bleed valve was fractured from the compressor scroll. Multiple dents were noted on the compressor scroll, discharge tube, and outer combustion case. Neither the upper nor the lower magnetic chip detectors contained magnetic debris. The airframe fuel filter and fuel removed from the filter bowl were free of debris. The fuel tested negative for water.
The engine control unit (ECU) was found intact and attached to the airframe. The ECU was removed, and stored data were downloaded. The data showed no faults or anomalies before the accident sequence. The ECU recorded less than one line of operational data, including an NR drop below 92%.
MEDICAL AND PATHOLOGICAL INFORMATION
The Kern County Sheriff's Office, Coroner Section, Bakersfield, California, performed an autopsy on the pilot. The autopsy report indicated that the pilot's cause of death was blunt injuries.
The FAA's Bioaeronautical Sciences Research Laboratory, Oklahoma City, Oklahoma, performed toxicological tests on specimens recovered from the pilot, which were negative for drugs, ethanol, and carbon monoxide.
TESTS AND RESEARCH
Engine Examination
The engine was further examined at the Rolls-Royce facility in Indianapolis, Indiana under the supervision of the NTSB investigator-in-charge. The lower chip detector exhibited a small sliver of metal. The fuel filter and oil filter were free of debris. N1 and N2 could freely be rot
The pilot's loss of control and collision with terrain while attempting a course reversal after inadvertently entering an area of reduced visibility weather conditions. Contributing to the accident was the pilot's lack of recent experience with night time operations.