Stuart, FL, USA
N10VD
GRUMMAN OV-1
The purpose of the flight was for the pilot to visually locate the aerobatic box in preparation for his airshow performance the following day; he told his crew chief that he did not intend to perform aerobatics during the accident flight due to the low cloud ceiling and wind. After takeoff, the pilot performed a left climbing turn followed by a left descending turn, then flew parallel to the runway while descending to about 500 ft. About the midpoint of the runway, he began a climbing left turn followed by a right climbing turn of increasing pitch attitude. The right turn was described by several witnesses as being about 10° to 45º past 90°, with one witness describing it as an “overbank” and another describing it as a “…crisp right roll to about 135°.” The airplane began descending and accelerating, and several witnesses reported that the pilot was attempting “pulling,” or applying aft elevator control input. The airplane was destroyed when it impacted the ground near the runway in a nose- and right-wing-low attitude. Witnesses reported hearing no issues with the engines, and examination of the wreckage revealed no evidence of preimpact failure or malfunction with either engine, the airframe, flight controls, or propellers. An impact signature on adjacent structure from the elevator was consistent with up-elevator input at impact. It could not be determined why the pilot did not roll left to recover from the inverted attitude while descending rather than attempting to pull through it. The pilot had not reported any use of medication at the time of his most recent medical examination. Although postaccident toxicology testing identified the antidepressant medication citalopram and its metabolite, given the circumstances of this accident, it is unlikely that effects from his use of citalopram or his depression were factors in the accident. Although ethanol was also detected, it is likely that the identified ethanol was from sources other than ingestion and did not contribute to the accident. While a video depicted dark coloration that was somewhat translucent near and on the airplane just before impact, that coloration did not appear in any prior or subsequent frames until ground contact. All primary and secondary flight controls were accounted for, there was no evidence that any other parts separated from the airplane in-flight, and no bird remains were noted among the wreckage.
HISTORY OF FLIGHTOn November 1, 2019, about 1310 eastern daylight time, a Grumman OV-1D, N10VD, was destroyed when it was involved in an accident near Stuart, Florida. The airline transport pilot was fatally injured. The airplane was operated as a Title 14 Code of Federal Regulations Part 91 personal flight. The pilot informed his crew chief before departure that he was not going to attempt any aerobatic maneuvers due to the cloud ceiling and windy conditions. The crew chief also reported that the pilot’s, “…only reason to fly was to visually locate the aerobatic box so he would be ready [for] the [air]show on Saturday. His intent was to make a slow-speed low pass followed by a high-speed low pass and a normal landing to a full stop.” While taxiing, the pilot, “did a complete flight control check,” including elevators, ailerons, flaps, inboard ailerons, speed brakes and rudders, and all flight controls appeared to move and work normally. Automatic dependent surveillance-broadcast (ADS-B) data depicted the airplane taxiing and the entire flight. Before departure, the pilot advised the airboss that he would perform a “low show.” There was no further communication from the accident pilot. The airplane departed from runway 30, and one witness reported that he saw the landing gear and flaps retract after takeoff. The flight continued and deviated slightly north of the runway while climbing, then, when near the departure end of runway 30, began a climbing left turn, which one witness (an airshow performer) described as a “dog bone,” followed by a descending left turn. The airplane proceeded north of runway 12/30, then turned right, briefly flying parallel to the runway along the 1,500-ft show line, and descended to about 500 ft mean sea level (msl). About the midpoint of runway 12/30, the pilot began a climbing left turn, followed by a climbing right turn. A pilot-rated witness reported that the airplane entered an approximate 15° climb, before the pitch increased to “at least 35°” nose up. The witness stated that it appeared that there was “a break in the weather at the point he established that 2nd climb.” Multiple witness accounts, including airshow performers, fire rescue personnel, a pilot associated with the airshow, and Federal Aviation Administration (FAA) personnel were consistent in describing the final portion of the flight, with slight variation based on their location and experience. During the climbing right turn near the approach end of runway 30, the airplane banked to the right to between 10° and 45° past 90°, characterized by one witness as “overbank.” This same witness reported that the airplane was pointed down runway 34, while another witness characterized the right turn as, “…a crisp right roll to about 135° and stabilized in that position.” The witnesses were consistent in describing the airplane descending nose-low, with several witnesses indicating that the airplane was accelerating while descending with the pilot “pulling,” or applying aft elevator control input. The turn radius decreased and the nose-low attitude continued until impact. Several witnesses described the engines sounding normal, with one reporting that he thought the engines were at full power. Fire rescue personnel on the airport responded immediately to the accident site, with a Quick Response Truck arriving in less than 1 minute. Additional firefighting vehicles and personnel arrived, and the fire was under control within about 5 minutes of their arrival. PERSONNEL INFORMATIONAccording to the pilot’s statement of aerobatic competency, he was required to complete all maneuvers, except for takeoff or landing, no lower than 250 feet. He reported that the date of his last performance or practice was August 31, 2019. The Special Provisions of the waiver for the airshow for pilots performing aerobatics required documentation of performing or practicing their performance within the previous 15 days. The pilot’s most recent FAA second-class medical certificate was issued on October 25, 2019. On the application for that certificate, the pilot reported 8,000 total hours of flight experience with 225 hours in the previous 6 months. The pilot reported no medical conditions and no medication use. AIRCRAFT INFORMATIONThe airplane was equipped in part with ejection seats and a manually jettisonable top canopy; the ejection seats were disabled. Earlier that day, a mechanic was dispatched to check oil lines in the right engine compartment due to the pilot finding residual oil inside the engine cowling. The cowling was opened, and the mechanic reported checking the flexible lines on the bottom right side of the right engine. The pilot told him it was time for him to go, and he then closed the engine cowling. The mechanic added that the pilot told him he had added 1 quart of oil to the right engine. The primary flight controls were controlled from the cockpit through mechanical linkages by the control stick and rudder pedals. In addition to the primary flight control surfaces, hydraulically powered inboard ailerons (used for additional control during takeoff and landing) were installed. The inboard ailerons were inoperative when the flaps were retracted. Trimming of secondary flight controls was performed manually by a cable and drum system that controlled the trim tab position. AIRPORT INFORMATIONThe airplane was equipped in part with ejection seats and a manually jettisonable top canopy; the ejection seats were disabled. Earlier that day, a mechanic was dispatched to check oil lines in the right engine compartment due to the pilot finding residual oil inside the engine cowling. The cowling was opened, and the mechanic reported checking the flexible lines on the bottom right side of the right engine. The pilot told him it was time for him to go, and he then closed the engine cowling. The mechanic added that the pilot told him he had added 1 quart of oil to the right engine. The primary flight controls were controlled from the cockpit through mechanical linkages by the control stick and rudder pedals. In addition to the primary flight control surfaces, hydraulically powered inboard ailerons (used for additional control during takeoff and landing) were installed. The inboard ailerons were inoperative when the flaps were retracted. Trimming of secondary flight controls was performed manually by a cable and drum system that controlled the trim tab position. WRECKAGE AND IMPACT INFORMATIONThe airplane impacted the engineered material arresting system (EMAS) at the approach end of runway 30 on a magnetic heading of about 145°. A strong smell of jet fuel was noted in the area. Further examination of the initial impact point revealed two distinct impact craters consistent with each propeller/engine, which penetrated asphalt beneath the EMAS. Wreckage was noted on the EMAS and in grass north of the runway. The main wreckage, consisting of the cockpit, section of left wing, and empennage, were located about 150 feet from the initial impact location. The energy path between the initial impact point and the main wreckage was oriented on a magnetic heading of 055°. No bird remains were noted in the area of the accident site. Examination of the airplane revealed extensive impact damage to the fuselage and aft empennage. The cockpit was destroyed by impact forces and the postcrash fire. Both wings exhibited extensive impact and/or fire damage. Examination of the right external fuel tank revealed impact damage to the front portion, which correlated to being about 38° from horizontal. Both landing gear were retracted, and the flaps appeared retracted. All primary and secondary flight control surfaces were connected or accounted for at the accident site. Examination of the flight controls for pitch, roll, and the right rudder control system revealed multiple fractures or were cut for recovery, but there was no evidence of preimpact failure or malfunction. Examination of the left rudder flight control cable on the left side of the airplane between fuselage station (FS) 78 and about FS 107 revealed the cable remained attached at both ends, but was cut/fractured about 9 inches from the crank assembly near FS 107. Both ends of the cable and crank assembly were retained for examination by the NTSB Materials Laboratory, which revealed heat tinting and embedded particles with peaks of aluminum and oxygen, consistent with separation due to being cut from an aluminum oxide abrasive wheel during recovery. The left elevator inboard edge exhibited a corresponding parallel static impact damage to the adjacent structure. The damage location was consistent with the elevator being at about 8° trailing edge up (nose up). The elevator trim tab was slightly tab-trailing-edge down (tail down), with the elevator in a neutral position. Both engines exhibited extensive impact damage. The left engine was separated between the first and second stage axial compressor rotors, while the right engine was separated between the inlet guide vanes and the first stage axial compressor. Rotational scoring on both engines was noted in the second stage power turbine and the compressor sections. Borescope examination of both engines revealed rotational scoring on each impeller and impeller shroud. There was no evidence of preimpact failure or malfunction of either engine. Examination of both propellers revealed that each had one blade remaining in the propeller hub and the remaining two blades from each propeller was separated but located in the debris field. Each blade that remained secured to the propeller hub exhibited forward bending; the remaining blade for the left propeller was slightly loose in the hub. Examination of the separated left propeller blades revealed both exhibited aft bending with sections of blade tip missing/separated. Examination of the separated right propeller blades revealed that one blade exhibited a slight twist toward low pitch, while the other blade exhibited chordwise scratches on leading edge and a gouge on the leading edge at the 1-inch paint stripe. The damage to all blades of each propeller were similar; there was no evidence of preimpact failure or malfunction of either propeller. ADDITIONAL INFORMATIONFueling The airplane was fueled before departure with 214 gallons of Jet A with fuel system icing inhibitor. Visual examination of samples taken from the fuel truck and fuel farm that supplied fuel to the fuel truck revealed all were straw-colored with no evidence of water contamination. The pilot who flew an airplane fueled by the same fuel truck earlier that day reported no fuel-related issues during the short duration flight. Video Information A camera captured the final portion of the flight and firefighting efforts. A review of the video revealed that, when the airplane came into view, the left side of the nose and portion of the cockpit area, and a portion of the right wing, including several propeller blades and the right external fuel tank, were visible. The airplane was in a nose-low attitude. No objects were seen around the airplane at that time. In the second frame, nearly the entire portion of the airplane was in view. No objects were seen around the airplane at that time. The third frame occurred when the airplane was about 57 ft above the ground and depicted the bottom and left side of the airplane. In that view, the landing gear and left speedbrake were retracted, all three vertical stabilizers were visible, a small black coloration which was somewhat translucent was seen ahead of the left wing leading edge just outboard of the engine nacelle, and a smaller black-colored squared coloration was seen near the left wingtip behind the wing. In addition, black-colored squared coloration was noted in an area of the left side of the airplane in the aft area of the window. The positions of the left aileron, left elevator, and rudder could not be accurately determined. In the fourth frame, the airplane was close to the ground and no objects were seen around the airplane. The airplane was in about a 60° nose-low and right-wing low attitude. In the fifth frame, airplane to ground contact had occurred. No objects were seen around the airplane. MEDICAL AND PATHOLOGICAL INFORMATIONToxicology testing performed by the FAA Forensic Sciences Laboratory detected ethanol in the pilot’s liver, muscle, and kidney tissue at 0.626 grams per hectogram (gm/hg), 0.047 gm/hg and 0.010 gm/hg, respectively. Ethanol was not detected in brain or lung tissue. N-propanol was detected in liver and muscle tissue, isopropanol was detected in lung tissue, and acetone was detected in liver tissue. The submitted tissue samples were reported to have exhibited putrefaction. A non-sedating high cholesterol medication, rosuvastatin, was detected in liver and muscle tissue, while an antidepressant medication, citalopram, and its active metabolite, n-desmethylcitalopram, were detected in liver and muscle tissues. Toxicology testing performed for the medical examiner’s department was negative for ethanol and drugs of abuse in liver tissue; citalopram and caffeine were detected in liver tissue. Ethanol is a social drug commonly consumed by drinking beer, wine, or liquor. It acts as a central nervous system depressant; it impairs judgment, psychomotor functioning, and vigilance. Ethanol is water soluble, and after absorption it quickly and uniformly distributes throughout the body’s tissues and fluids. The distribution pattern parallels water content and blood supply of the tissue. Ethanol can be produced after death by microbial activity, sometimes in conjunction with other alcohols, such as propanol. Extensive trauma increases the spread of bacteria and raises the risk of ethanol production after death. Citalopram is a prescription antidepressant medication marketed under the trade name Celexa. N-desmethylcitalopram is the active metabolite of citalopram. Both carry the warning that their use may impair mental of physical ability for performing hazardous tasks. TESTS AND RESEARCHAccording to the Special Provision of the Certificate of Waiver or Authorization for the airshow, for solo aircraft, aerobatic flight was defined as, “when the pitch angle exceeds a positive or negative 60° angle from the horizon, and/or when the bank angle exceeds 75°.”
The pilot’s improper recovery from a low-altitude aerobatic maneuver, which resulted in descent into terrain.
Source: NTSB Aviation Accident Database
Aviation Accidents App
In-Depth Access to Aviation Accident Reports