N67667

HISTORY OF FLIGHTOn May 20, 2019, about 1556 Alaska daylight time, a float-equipped de Havilland DHC-2 (Beaver) airplane, N67667, sustained substantial damage when it was involved in an accident near Metlakatla, Alaska. The pilot and passenger were fatally injured. The airplane was operated as a Title 14 Code of Federal Regulations (CFR) Part 135 commuter flight.

According to company dispatch documents, the flight was a scheduled commuter flight with one passenger and cargo onboard, which originated from Ketchikan Harbor Seaplane Base (5KE), Ketchikan, Alaska, and was destined for Metlakatla Seaplane Base (MTM), Metlakatla, Alaska, about 16 miles southeast.

A review of GPS track data revealed that the airplane departed 5KE about 1543 and traveled southeast over an area known as the Tongass Narrows, then south to Metlakatla Harbor at an altitude of about 800 ft. The airplane made a right turn to a 240° (magnetic) heading in the southern portion of the harbor then the data ended. (See figure 1.)

Figure 1. Flight track (red) and wind observation.

There were three witnesses to the airplane’s approach and landing. One of the witnesses, who was taking photographs near the pier, reported that the wind appeared to be pushing the airplane right during touchdown and that the airplane was drifting right as the floats contacted the water. After the airplane skipped once or twice, the left wing “dipped” down, then the right wing “dipped down and dug into the water,” which resulted in the airplane nosing over and the right wing separating.

Another witness, who was in a boat, stated that the airplane hit the water hard and he saw the right float “dig into the water” before the airplane turned over as it pivoted around. The third witness stated that the airplane appeared to be “teetering back and forth” and a gust of wind appeared to push the tail upward as the right wing dropped down and the airplane nosed over. She stated that the wind was from the southeast with gusts of 13 mph and the water was less than choppy. The inverted airplane partially sank with the front fuselage and cockpit under water. (See figures 2 and 3.)

Figure 2. The airplane during the landing sequence after a brief touchdown on the left float. (Source: Nicholas King.)

Figure 3. The airplane inverted after the accident. (Source: Nicholas King.)

Two boats in the area immediately responded, followed by a Metlakatla Police vessel with volunteer

emergency medical technicians onboard. According to statements provided by the first responders, there were numerous boxes, mail, debris, and ATV tires obscuring their view and inhibiting access to the cockpit. After some debris was removed through the left cargo door, the passenger in the front right seat was removed after her shoulder harness was cut; the pilot was removed from the cockpit about 20 minutes later.

PERSONNEL INFORMATIONAccording to the operator's training records, the pilot was hired with 1,606 total hours of flight experience, including 5 hours of previous seaplane experience and no experience in Alaska. He began initial company training on April 22, 2019 and completed a competency check flight in a float-equipped DHC-2 on May 3, 2019, after completing 4 flights and 5.4 training hours. The pilot completed initial operating experience (IOE) flight requirements on May 11, 2019, with 6.9 hours of experience and 11 landings, which allowed him to be assigned to commuter flights in accordance with 14 CFR 135.244. His last IOE flight was to MTM. At the time of the accident, the pilot had accumulated about 22 hours in the accident airplane make and model. He flew 6.5 hours as pilot-in-command (PIC) on tour flights in the weeks before the accident flight.

A review of the pilot’s personal flight logbook revealed that, before flying for the operator, he gained most of his flight experience as a Cessna 208 and Cessna 182 pilot in skydiving operations.

AIRCRAFT INFORMATIONThe airplane was equipped with Edo model 679-4930 floats.

The airplane was configured with two Chelton Integrated Display Units (IDU) that operated as a primary flight display (PFD) and a multi-function display (MFD). The PFD displayed aircraft parameter data, including altitude, airspeed, vertical speed, and heading. The MFD displayed navigational information on a moving map, including wind information in the upper left corner, as shown in Figure 4. During normal system operation, wind was calculated during periods of relatively wings-level flight (bank < 6°). The wind calculation considered true airspeed, heading, ground speed, and track information.

Figure 4. Chelton IDU calculated wind indication.

Company dispatch documents for the accident flight indicated that the airplane's takeoff weight was 4,915 lbs and center of gravity was -1.6 inches, which were within operating limitations.

The Viking DHC-2 Flight Manual states that the maximum crosswind component for takeoff and landing is 10 mph. It does not stipulate a maximum tailwind component, but company pilots stated that 10 mph is generally accepted as the limit.

METEOROLOGICAL INFORMATIONCalculated wind velocity from the one of the airplane’s IDUs indicated that the wind during takeoff was from 090° (magnetic) at 15 knots. As the airplane climbed through an indicated altitude of 750 ft, the wind shifted to 290° at 9 knots and remained from the west throughout the en route portion of the flight and the initial segment of the visual approach to the destination. As the airplane descended and turned onto its final approach path of about 242°, the wind shifted from 253° at 6 knots, becoming southerly at 2 knots, then from 083° at 8 knots over the 30 seconds before the airplane landed. This was a shift of 170° and 14 knots, which resulted in a change from a 6-knot headwind to a 7-knot tailwind, and a 2-knot right crosswind to a 3-knot left crosswind component during the approach and landing sequence. According to the manufacturer’s operating handbook, the values can contain errors and wind peaks and gusts are not calculated.

Company pilots stated that the winds at MTM can be challenging and unpredictable due to the effects of the surrounding high terrain. Company check airmen stated that MTM is known for downdrafts on the water when the wind is from the east and southeast, where the highest mountains are located.

AIRPORT INFORMATIONThe airplane was equipped with Edo model 679-4930 floats.

The airplane was configured with two Chelton Integrated Display Units (IDU) that operated as a primary flight display (PFD) and a multi-function display (MFD). The PFD displayed aircraft parameter data, including altitude, airspeed, vertical speed, and heading. The MFD displayed navigational information on a moving map, including wind information in the upper left corner, as shown in Figure 4. During normal system operation, wind was calculated during periods of relatively wings-level flight (bank < 6°). The wind calculation considered true airspeed, heading, ground speed, and track information.

Figure 4. Chelton IDU calculated wind indication.

Company dispatch documents for the accident flight indicated that the airplane's takeoff weight was 4,915 lbs and center of gravity was -1.6 inches, which were within operating limitations.

The Viking DHC-2 Flight Manual states that the maximum crosswind component for takeoff and landing is 10 mph. It does not stipulate a maximum tailwind component, but company pilots stated that 10 mph is generally accepted as the limit.

WRECKAGE AND IMPACT INFORMATIONThe airplane came to rest inverted on an easterly heading with the right wing separated and floating about 15 ft to the west. First responders stated that the passenger’s front right seat was removed to facilitate rescue and subsequently sank in the bay. A postaccident examination of the airframe revealed that all other major components were attached. The floats, float struts, spreader bars, and control cables were intact. The right and left sea rudders were each fractured at the lower welds and exhibited minor bending deformation. (See figure 5.)

Figure 5. The airplane after recovery from the harbor.

The right wing forward fuselage attachment lug was fractured and exhibited dull, dimpled fracture surfaces; the rear attachment was fractured and deformed rearward. The right flap was attached to the fuselage by the inboard bracket, with the control rod fractured. An indentation on the right side of the fuselage was consistent with the right flap in the land position during impact. The left wing, aileron and flap were intact and attached. The left flap was extended to the land position. The cockpit flap position indicator was slightly above the land position. Flight control continuity was established from the pilot’s control wheel to the left aileron and right wing aileron pulley and the elevator. Rudder and elevator trim cable continuity was established to the aft trim tabs; however, the trim cables could not be moved due to airframe deformation and cable constriction forward of the cockpit upper trim wheels.

The forward fuselage above the cockpit was fractured at the upper center windshield brace, and the forward upper skin was deformed inward and downward into the left side of the cockpit. The left forward door (pilot’s) was secure in place with minor deformation. The right forward door was secure in place with mild deformation and the door opening mechanism worked properly. The right cabin door was open and attached partially by the forward lower attachment. The opening mechanism worked properly. Exit placards were in place.

The aft fuselage and empennage exhibited crushing deformation around the circumference, consistent with rescue efforts and recovery damage noted in photographs. The elevator and rudder were attached and exhibited full control movement.

The propeller was attached to the engine and the engine exhibited no damage. Full engine control continuity was observed. The ...