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N437RA accident description

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Crash location 60.541389°N, 165.087222°W
Nearest city Toksook Bay, AK
60.530278°N, 165.102500°W
0.9 miles away
Tail number N437RA
Accident date 01 Nov 2008
Aircraft type Construcciones Aeronauticas Sa CASA-212
Additional details: None

NTSB Factual Report

On November 1, 2008, about 1902 Alaska daylight time, a twin-engine Construcciones Aeronauticas SA (Casa) 212 turboprop airplane, N437RA, collided with tundra-covered terrain during a forced landing, about 1 mile north-northeast of Toksook Bay, Alaska. The airplane sustained substantial damage. The airplane was being operated as a visual flight rules (VFR) cargo flight under the provisions of Title 14 Code of Federal Regulations (CFR) Part 135. The airplane was owned and operated by Arctic Transportation Services (ATS), Inc., Anchorage, Alaska. The two crew members, the airline transport captain, and the commercial first officer, sustained minor injuries. Visual meteorological conditions (VMC) were reported in the area at the time of the accident, and company flight following procedures were in effect. The flight originated at the Bethel Airport, Bethel, Alaska, about 1822, and was en route to Toksook Bay, and Tununak, Alaska, before returning to Bethel.

During a telephone conversation with the National Transportation Safety Board investigator-in-charge (IIC) on November 2, the captain reported that the trip to Toksook Bay was flown by the first officer. He said that when the flight initially departed Bethel, instrument meteorological conditions (IMC) prevailed, and an instrument flight rules (IFR) flight plan was filed. He noted that just after departure from Bethel, weather conditions improved significantly, and they canceled the IFR clearance. The flight continued to Toksook Bay in VFR conditions.

The captain noted that as they approached Toksook Bay from the northeast, he instructed the first officer to land on Runway 16. He said that during the landing approach, as the first officer maneuvered the airplane from base leg to final, she advanced the engine power levers to shallow the airplane’s approach path, but there was no response from the right engine. He said that as the airplane began to yaw to the right, he took control of the airplane, initiated a go-around, and added full engine power in an attempt to climb away from rising terrain. About 500 to 600 feet above the ground, the airplane's yaw to the right intensified, and it began to descend rapidly. He said he applied full left aileron and rudder to correct the yaw, but he was unable to maintain altitude. He observed that the left engine torque meter was indicating 100 percent engine torque, and the right engine torque meter was indicating between 0 and 10 percent engine torque. The captain noted in his written report to the NTSB, in part: “As I was calling for [propeller] feather, the stall warning horn sounded, the stall warning light illuminated, and I used both hands to pitch the aircraft forward to avoid a stall.” He selected an area of tundra-covered terrain as a forced landing site. The airplane struck the ground with the right main landing gear, and right front portion of the fuselage. The airplane sustained substantial damage to the fuselage, wings, and empennage.

The airplane was powered by two Honeywell TPE331 series turbo shaft engines, equipped with a Negative-Torque-Sensing (NTS) system, which provides automatic drag reduction in the event of an engine failure. The function of the NTS system is to limit the amount of negative torque that a windmilling propeller produces by automatically cycling the propeller blades towards feather. According to a technical representative from Honeywell Aerospace, the NTS system is not an automatic propeller feathering system. To feather the propeller after an engine failure, the crew must move the appropriate cockpit lever to the FEATHER position. The captain said that right engine NTS system did not reduce the drag during the approach, and that he was unable to increase power to the right engine.

The airplane was not equipped with a Cockpit Voice Recorder (CVR) or Flight Data Recorder (FDR), nor was it required to be.

At 1856, an Aviation Routine Weather Report (METAR) from Toksook Bay was reporting, in part: Wind, 230 degrees at 6 knots; visibility, 6 miles with light mist; clouds and sky condition, 5,500 feet broken; temperature, 34 degrees F; dew point, 30 degrees F; altimeter, 29.75 inHg.

TESTS AND RESEARCH

On November 4, a Federal Aviation Administration (FAA) airworthiness inspector, Anchorage Flight Standards District Office, along with a technical representative from Honeywell Aerospace, examined the airplane at the accident scene. The FAA inspector reported that during their examination of the airplane’s wreckage, it was discovered that the mechanical linkage, which connects the cockpit-mounted engine power lever to the right engine propeller pitch control (PPC), was found disconnected. He said that the bolt which connects the linkage to the PPC was missing. He added that the fuel control unit setting remained in the "flight-idle" position once the mechanical PPC linkage became disconnected.

The mechanical linkage lever is attached to PPC by means of a serrated fitting that is machined into the base of the lever, which then fits over a splined shaft on the PPC. The mechanical linkage lever is held onto the splined shaft of the PPC by tightening a bolt that clamps the linkage to the splined shaft.

Engine Maintenance and Inspection Information

At the time of the accident, the airplane had accumulated 26,005.9 flight hours. The left engine had accrued 20,470.0 flight hours, and 1,103.0 flight hours since overhaul. The right engine had accrued 3,410.4 fight hours since new.

According to the operator’s director of maintenance, the right engine was a leased engine used while their engine was being repaired. A review of the operator's maintenance logs revealed that the right engine was installed on the accident airplane on August 26, 2008, 237.2 flight hours before the accident. The director of maintenance noted that the PPC mechanical linkage is removed when the engine is removed then reinstalled once the new engine is installed.

Operator Maintenance Program

The airplane was maintained on an FAA approved aircraft inspection program (AAIP). The AAIP is divided into phase inspections, each consisting of four event cycles, 100 hours apart.

Examination of the maintenance records revealed that two separate inspection events were accomplished since the right engine was installed. An event number 2A inspection was accomplished on October 4, 2008, 114.3 flight hours before the accident, and an event number 1A inspection was accomplished on October 20, 2008, 21.2 flight hours before the accident.

A review of the operator’s FAA approved AAIP inspection control sheet for a 2A event check revealed that item 40, which specifically relates to the inspection of the airplane’s engine control rods and locking devices, states in part: “Visual inspection of assembly for security. Check for correct alignment of control rods and bars, levers, arms, and linkages for evidence of damage.” Additionally, item 41 of the AAIP inspection control sheet requires that maintenance technicians accomplish a “functional test for torque” of the bolts and screws which attach levers and arms of serrated shafts of the fuel control, propeller pitch control, and governor.

On January 27, 2009, at the direction and under the supervision of the NTSB IIC, the accident airplane’s right propeller hub assembly was disassembled and inspected at Dominion Propeller, Inc., Anchorage. The impact damaged right propeller hub was received with three of the four composite propeller blades broken at or near the root of each propeller blade. The fourth propeller blade was cut about six inches from the propeller hub. The damaged propeller spinner was removed, exposing the underlying propeller dome, propeller hub, and each propeller blade grip. An examination of the propeller hub assembly revealed all four propeller blades remained attached to the propeller hub, with no evidence of propeller blade slippage within the blade grips. The four propeller blade grips had impact score marks which matched corresponding score marks on the propeller dome. According to a technician with Dominion Propeller, Inc., the score marks could only be attained during impact, and while all four propeller blades were at, or near, the flight-idle position. The propeller inspection revealed no preaccident mechanical anomalies.

The Safety Board did not take custody of the wreckage, and no parts or components were retained.

ADDITIONAL INFORMATION

According to the operator’s director of maintenance, company management personnel elected to install a bolt to the PPC mechanical linkage, which provides a secondary means of attachment. The bolt screws into the previously threaded splined shaft of the PPC. The bolt installation is considered by the FAA as a minor repair or alteration requiring no FAA field approval prior to installation. The director of maintenance also noted that all of the company’s Casa 212’s were modified immediately after this accident.

NTSB Probable Cause

The flight crew’s inability to adjust/increase power to the right engine during the landing approach due to an in-flight disconnect of the engine power control linkage, resulting in a loss of control of the airplane. Contributing to the accident was the flight crew’s delayed response in feathering the right engine propeller.

© 2009-2020 Lee C. Baker / Crosswind Software, LLC. For informational purposes only.