Fort Wayne, IN, USA
N580PU
CIRRUS DESIGN CORP SR20
The flight instructor reported that the private pilot receiving instruction performed the approach and crosswind landing. During the landing flare, the airplane suddenly and severely rolled to the left. He thought that he heard the left wing scrape the runway. The instructor took control of the airplane and simultaneously added full engine power and full right aileron to attempt a go-around. He stated that the full right aileron input did little to correct the airplane's attitude, and the wind continued to push the airplane to the left of the runway. As the airplane's airspeed increased, the instructor was able to level the wings and started to pitch the airplane up for the go-around. The instructor noted that he did not feel as if he had the airplane "under control" during the go-around. When the airplane was about 25-50 ft above the ground, it rolled right and pitched down to ground contact. Examination of the airplane, flight control system, and engine did not reveal any preimpact anomalies that would have precluded normal operation. Damage to the left wing was consistent with runway contact. The data recovered from the airplane's Recoverable Data Module (RDM) showed that, seconds before impact during the go-around, the airplane was banked 17° left and pitched 13° nose up at an airspeed of 55 knots. The pilot's operating handbook listed the airplane's aerodynamic stall speed as 59 knots when loaded to full gross weight with the most rearward center of gravity. The RDM data also indicated that the airplane's aerodynamic stall warning activated about 6 seconds before the impact. At the time of the accident, there was an approximate 50° right crosswind at 20 knots with gusts to 26 knots; these conditions exceeded the flight school's established crosswind limitations. Based on the available information, it is likely that the pilot receiving instruction failed to maintain control of the airplane during the crosswind landing, which led to the left wing contacting the runway. When the flight instructor assumed control of the airplane, he failed to attain appropriate airspeed and allowed the airplane to exceed its critical angle of attack during the attempted go-around, which resulted in an aerodynamic stall and incipient spin.
HISTORY OF FLIGHTOn March 29, 2017, about 2156 eastern daylight time, a Cirrus SR-20, N580PU, was destroyed when it impacted the ground following a loss of control while landing on runway 5 at the Fort Wayne International Airport (FWA), Fort Wayne, Indiana. The flight instructor received minor injuries and the pilot receiving instruction received serious injuries. The pilot receiving instruction held a private pilot certificate. The airplane received extensive damage to the forward fuselage and both wings. The aircraft was registered to the Trustees of Purdue University and operated by the University under the provisions of 14 Code of Federal Regulations Part 91 as an instructional flight. Visual meteorological conditions prevailed for the instructional flight, which operated on a visual flight rules flight plan. The flight originated from the Purdue University Airport (LAF), Lafayette, Indiana about 2100. The intended route of flight would have returned to LAF with interim stops at FWA and the South Bend International Airport (SBN), South Bend, Indiana. According to the flight instructor's statement, the flight was conducted as part of the University's commercial flight training program. He stated that his student obtained a weather briefing before the flight and the weather was monitored throughout the flight. He stated that although the surface winds were high, the flight progressed from LAF to FWA uneventfully. He stated that during the landing approach the student applied crosswind correction with the right-wing low (into the wind), and the nose of the airplane pointed straight down the runway. The instructor stated that as the student flared for landing the airplane suddenly and severely rolled to the left. He believed that he heard the left wing scrape the runway. He stated that he assumed control of the airplane and simultaneously added full engine power and full right aileron control to attempt a go-around. He stated that the full right aileron input did little to correct the airplane's roll attitude and the wind pushed the airplane to the left of the runway. As the airplane's airspeed increased the instructor was able to level the wings and started to pitch up for the go-around. He stated that he did not feel as if he had the airplane "under control". When the airplane was about 25-50 feet above the ground it rolled right and nose low. The airplane then impacted the ground. The student reported that they were landing on runway 5 at FWA and had planned to perform 4 touch and go landings at FWA before proceeding to SBN. The winds were strong and from the right of the airplane during final approach. He stated that he positioned the airplane in a crab to correct for the crosswind. The airplane remained in the crab and was stable until over the runway threshold. The final approach airspeed was increased appropriately for the gusts. Upon crossing over the runway numbers, he smoothly reduced power and transitioned the airplane into a slip, keeping the airplane banked into the wind and the rudder opposite to keep the nose aligned with the runway centerline. As he began the flare, a strong gust of wind pushed the airplane toward the left side of the runway. Because of this, a go around was initiated but the left wingtip struck the runway. He stated that the instructor took control of the airplane and the subsequent events happened too fast to remember. PERSONNEL INFORMATIONThe flight instructor held a commercial pilot certificate with airplane single-engine land, multiengine land, and instrument airplane ratings. He also held a flight instructor certificate with an airplane single-engine rating. According to a report submitted by the operator, the flight instructor had 414 hours total flight experience with 188 hours in the same make and model as the accident airplane. He had 149.8 hours experience as a flight instructor with 73.3 hours as an instructor in the same make and model as the accident airplane. The flight instructor's most recent first class medical certificate was issued on June 3, 2015. No limitations were listed on the medical certificate. The pilot receiving instruction held a private pilot certificate with airplane single-engine land rating. According to a report submitted by the operator, the student had 157.5 hours total flight experience all in the same make and model as the accident airplane. The student's most recent first class medical certificate was issued on July 12, 2016. No limitations were listed on the medical certificate. AIRCRAFT INFORMATIONThe airplane was a Cirrus SR-20, serial number 2039, manufactured in 2010. The airplane was a single-engine monoplane with an airframe constructed predominately of composite materials. The airplane had a fixed tricycle landing gear arrangement. A Continental IO-360-ES engine, serial number 1011589, producing a maximum of 200 horsepower, powered the airplane. The operator reported that the airplane was maintained under a manufacturer's inspection program and the most recent 50-hour inspection was performed on March 29, 2017. At the time of the inspection the airplane had accumulated 3,144 hours total time in service. METEOROLOGICAL INFORMATIONAt 2154, the recorded weather conditions at FWA were: wind from 100° at 20 knots, gusting to 26 knots, 10 miles visibility, broken clouds at 10,000 feet above ground level (agl), overcast clouds at 12,000 feet agl, temperature of 9° C, dew point of -1° C, and an altimeter setting 30.09 inches of mercury. At 1954, about 1 hour before departure, the recorded wind at FWA was from 80° at 18 knots gusting to 25 knots. At 2054, a few minutes before departure, the recorded wind at FWA was from 90° at 19 knots, gusting to 26 knots. A search of official weather briefing sources, such as Lockheed Martin Flight Service (LMFS), Leidos weather briefings, and Direct User Access Terminal Service (DUATS) was done. The pilot under instruction and flight instructor, had received several official weather briefings before the accident flight. The Terminal Aerodrome Forecast (TAF) that was valid for the time of the accident expected wind from 070 degrees at 16 knots at FWA. AIRPORT INFORMATIONThe airplane was a Cirrus SR-20, serial number 2039, manufactured in 2010. The airplane was a single-engine monoplane with an airframe constructed predominately of composite materials. The airplane had a fixed tricycle landing gear arrangement. A Continental IO-360-ES engine, serial number 1011589, producing a maximum of 200 horsepower, powered the airplane. The operator reported that the airplane was maintained under a manufacturer's inspection program and the most recent 50-hour inspection was performed on March 29, 2017. At the time of the inspection the airplane had accumulated 3,144 hours total time in service. WRECKAGE AND IMPACT INFORMATIONThe airplane was examined in a hangar after its recovery from the accident site. The airplane had significant damage to the forward fuselage. The engine was separated and only remained attached by control cabling and wiring. The top of the cowl exhibited crush damage to the right top. The windshield was broken out and the top of the windshield had mud and dirt stains. The firewall was crushed rearward into the cabin area. The right wing was broken about midspan and the tip shattered. The wing was broken in the rearward/downward direction. The left wing was broken about midspan and the leading edge was twisted downward. The pitot tube mounted on the lower surface of the left wing near the tip had its lower rear end partially ground off indicative of runway contact. The cabin section of the fuselage from about 2 feet aft of the firewall to the tail surfaces was intact. The tail surfaces were intact but the lower rudder fairing exhibited mud staining and crushing of the fairing indicative of ground contact. No preimpact structural defects were noted. Flight control system continuity checks were performed with the following results: Elevator cable continuity was confirmed from the elevator control surface forward to the elevator bellcrank located in the forward cabin console. Crushing damage to the forward fuselage resulted in the cables having slack. Due to the cable slack, movement of the yokes did not result in movement at the elevator; however, movement of the yoke did result in movement of the bellcrank to which the cables were attached. Rudder control cable continuity was verified from the rudder forward to the rudder pedals. Crush damage resulted in slack in the rudder cables as well, however, pulling on the cables in the aft fuselage access resulted in both movement of the rudder surface and movement of the rudder pedals. Aileron cable continuity was verified by pulling on the cables in the center console, which resulted in movement of the aileron actuators in the wings. The link between the aileron control surface and the actuator mounted on the rear spar was disconnected due to impact damage. This was true for both the right and left ailerons. Continuity from the yokes to the cables located in the center console was verified by movement of the yokes which resulted in movement of the cables in the center console. Continuity of the left and right yokes was verified by movement of one yoke which resulted in like movement of the opposite side yoke. Both flaps appeared equally deployed. The flap switch which was positioned at 50 percent. No preimpact defects were noted with respect to the flight control system. The airplane Cirrus Airframe Parachute System (CAPS) system had not been deployed. The safety pin for the activation handle was found in-place during the wreckage examination in the hangar. The opposite end of the cable which is normally attached to the rocket igniter had been previously disconnected after the accident. The CAPS solid propellant rocket motor, igniter, and reefing line cutters were removed from the airplane. The solid propellant rocket motor, the ignitor and reefing cutters were activated to dispose of potential hazards. INJURIES TO PERSONSThe flight instructor received lacerations to his hands and face, and other cuts and bruises. The student pilot received a fractured femur and various cuts and bruises. FLIGHT RECORDERSThe accident airplane was equipped with a Recoverable Data Module (RDM), located in the tail of the airplane. The unit was undamaged and the recorded data was downloaded during the wreckage examination. TESTS AND RESEARCHThe RDM data that was downloaded during the on-scene examination consisted of comma-delimited text entries recorded at one second intervals. The data contained various flight parameters including but not limited to: aircraft attitude, position, speed, acceleration, engine parameters, etc. At 2156, the RDM recording showed several blocks of missing data with the engine RPM dropping to zero. This was consistent with an impact that stopped the engine. The last data string before impact recorded the airplane in a 56° right roll with the nose pitched up 12°, at an indicated airspeed (IAS) of 57 knots. Three seconds earlier the RDM recorded a roll angle of 17° left wing down, and a pitch attitude of 13° nose up. At the same time, the IAS was 55 knots and the flaps were deployed 100 percent. During this time, the engine speed was above 2,600 RPM, indicating that the engine was at full power during the attempted go-around. According to the RDM data, the aerodynamic stall warning had activated about 6 seconds before the impact. According to the Pilot's Operating Handbook (POH) for the accident airplane, the aerodynamic stall speed at maximum gross weight, most rearward center of gravity, 0° of bank, and 100 percent flap deflection, was 59 knots IAS. The actual airplane loading was not determined during the investigation. The POH also stated that landings had been demonstrated in direct crosswinds up to 20 knots. Based on the reported wind gusts at FWA, the airplane was landing with a 16.7 knot headwind component and a 19.9 knot crosswind component. At the time of the accident the School of Aviation & Transportation Technology at Purdue University operated several SR-20 airplanes that were used for student training. The flight department had established wind and crosswind component limitations for all the aircraft that the university operated. For the SR-20 airplane used for dual instruction the wind limits were based on the reported winds and the wind direction relative to the runway heading. For wind 50° from runway heading the maximum wind was listed as 23 knots and was noted to include peak gusts. The wind limitations noted that if the wind began to exceed the limits that the airplane was to be returned to the airport for a full stop landing as soon as practical.
The pilot receiving instruction’s failure to maintain airplane control during a crosswind landing in high gusting winds, and the flight instructor’s failure to maintain a proper airspeed and angle of attack during the go-around, which resulted in an aerodynamic stall/spin. Contributing to the accident was the flight instructor’s decision to conduct a flight in crosswind conditions that exceeded flight school limitations.
Source: NTSB Aviation Accident Database
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