N735FJ

HISTORY OF FLIGHT On September 22, 2012, at 2127 eastern daylight time, a Cessna 182Q, N735FJ, was substantially damaged when it impacted trees and terrain during a forced landing in Fort Thomas, Kentucky. The private pilot and the passenger sustained minor injuries. Night visual meteorological conditions prevailed, and a no flight plan had been filed for the local flight that originated at Cincinnati Municipal Airport-Lunken Field (LUK), Cincinnati, Ohio. The personal flight was conducted under the provisions of 14 Code of Federal Regulations Part 91.

According to the pilot, he arrived at LUK about 2000. "It was a beautiful ¼ moon-lit and starry evening…and although it had been windy mid-afternoon, it had calmed to 6-8 knots at 350 degrees and was to drop to calm winds later. It was the first really chilly evening since the installation of the overhauled engine, and it was also very humid."

The pilot performed a "complete" exterior and interior preflight inspection with a checklist, including oil, which was at 12 quarts, and 25 gallons of fuel in the left tank and 27 gallons in the right tank.

"Startup and pre-taxi procedures were followed exactly," and during subsequent engine checks (the engine had been overhauled about 3 hours earlier), the pilot confirmed proper operation of both magnetos, prop pitch (three times), and carburetor heat checks at both engine run-up speed and at idle.

The airplane subsequently took off from runway 3R about 2040, followed by a right turnout. At 500 feet above ground level, the pilot "pulled back the throttle until the manifold pressure was in the green," and continued the climb until 3,000 feet mean sea level, when he began cruise procedures via the checklist.

Shortly thereafter, as the pilot was scanning the instrument panel, he noticed that the "carburetor heat gauge" was not rising. He tapped the glass and it stayed to the left; then he noted that it as "NO OP" to tell his mechanic when he returned. He was concerned at that point since on mild days he had noticed that the carburetor heat needle would barely make it into the "green" when carburetor heat was applied, which he attributed to a difference in the old versus recently-overhauled engine. Nonetheless, after takeoff, he twice applied carburetor heat for 5-minute intervals whenever he changed tanks, which he was doing at 20-minute intervals.

The pilot also noticed on his onboard weather display that there was light rain falling to the northeast of LUK, so he cut the flight short. He asked the approach controller permission to descend from 3,000 feet to 2,500 feet in anticipation of returning to LUK on an extended right base to runway 3R. The approach controller advised him to descend at will, anticipate runway 3R, and to let the controller know when he had the airport in sight. The pilot acknowledged the instructions and applied full carburetor heat, descended using the descent procedures checklist, then started the pre-landing checklist. He informed the controller that he had the runway in sight and was handed off to the tower controller. About 9 nautical miles (nm) from the runway, with the carburetor heat applied, and the fuel tanks set to "Both," he began a slow descent at 10 degrees flaps.

About 6 nm from the runway, the pilot felt a "power drop." The engine was still running, but the airplane was descending faster than anticipated. The pilot applied more throttle and got a slight boost, but not enough, and the descent continued. The pilot called the tower and advised the controller that the engine was losing power. There were no suitable landing fields, only wooded hills. The airplane continued toward the runway, and the pilot "double and triple checked the controls, pulling them in and out to make sure they were not stuck, especially the carb heat, throttle, prop pitch (was full in) and mixture (also full in - rich)."

As the airplane descended toward trees, the pilot recalled the Hudson River tail-first landing, "which slowed the airplane and prevented diving in head first and flipping." He pulled back on the yoke and put the airplane "into a pronounced flair such that the stall warning came on, and still flared some more." The airplane then "hit the canopy more or less at a belly first attitude [about] 55 knots."

During a postflight interview with the NTSB phone duty investigator, the pilot confirmed that the carburetor temperature gauge indicator had been to the far left since the beginning of the flight, indicating severe carburetor icing, but that he thought there was a problem with the gauge and made a mental note to have his mechanic check it.

METEROLOGICAL INFORMATION

Weather, recorded at LUK at 2053, included calm winds, a temperature of 12 degrees C (54F), and a dew point of -1 degrees C (30F). Utilizing those ambient temperature/dew point conditions, the FAA chart titled "Conditions Favoring Carb Ice Formation" indicated the probability of serious carburetor icing at glide power. Temperature and dew point recorded at 2153 were the same as at 2053.

PERSONNEL INFORMATION

The pilot, age 67, held a private pilot certificate with a single engine land rating. He indicated 376 total flight hours with 116 hours in make and model. He also owned a Cessna 172.

AIRCRAFT INFORMATION

According to maintenance records, the airplane's Continental O-470-series engine was overhauled, then tested on July 25, 2012. It was subsequently installed on the airplane at a date not noted in the logbook, but at airplane total time 4,735.0 hours. A logbook entry, dated August 28, 2012, at airplane time 4736.0 hours, stated that the carburetor was removed, repaired, reinstalled, and "run up ok for return to service." When questioned about the need to repair the carburetor, the owner of the maintenance facility stated that anytime an engine was overhauled, the carburetor would be returned to the manufacturer for an overhaul as well.

The airplane was equipped with a carburetor temperature gauge. The gauge presentation arced into three sections: a black arc from -50 degrees C to -10 degrees C on the left side of the presentation, a yellow arc from -10 degrees C to +10 degrees C, and another black arc from +10 degrees C to +50 degrees C.

According to FAA-H-8083-25A, "Pilot's Handbook of Aeronautical Knowledge" (PHAK), "If the air temperature and moisture content of the air are such that carburetor icing is improbable, the engine can be operated with the indicator in the yellow range with no adverse effects. If the atmospheric conditions are conducive to carburetor icing, the indicator must be kept outside the yellow arc by application of carburetor heat."

There were no engine parameter recording devices onboard the airplane.

According to the Cessna 182Q Pilot Operating Handbook (POH),

Under "Air Induction System," the POH states:

"In the event carburetor ice is encountered or the intake filter becomes blocked, alternate heated air can be obtained from a shroud around an exhaust riser through a duct to a valve, in the air box, operated by the carburetor heat control on the instrument panel. Heated air from the exhaust riser shroud is obtained from unfiltered air inside the cowling. Use of full carburetor heat at full throttle will result in a loss of approximately one to two inches of manifold pressure."

Under "Inadvertent Icing Encounter," the POH states:

"An unexplained loss in manifold pressure could be caused by carburetor ice or air intake filter ice. Lean the mixture if carburetor heat is used continuously."

Under "Normal Procedures, Operation," the POH states:

For optimum operation of the engine in cold weather, the appropriate use of carburetor heat is recommended. The following procedures are indicated as guidelines:

(1) Use carburetor heat during engine warm-up and ground check. Full carburetor heat may be required for temperatures below -12 degrees C whereas partial heat could be used in temperatures between -12 degrees C and 4 degrees C.

(2) Use the minimum carburetor heat required for smooth operation in take-off, climb, and cruise.

NOTE

Care should be exercised when using partial carburetor heat to avoid icing. Partial heat may raise the carburetor air temperature 0 degrees to 21 C range where icing is critical under certain atmospheric conditions.

(3) If the airplane is equipped with a carburetor air temperature gauge, it can be used as a reference in maintaining carburetor air temperature at or slightly above the top of the yellow arc by application of carburetor heat."

For "Rough Engine Operation or Loss of Power, Carburetor Icing," the POH states,

"An unexplained drop in manifold pressure and eventual engine roughness may result from the formation of carburetor ice. To clear the ice, apply full throttle and pull the carburetor heat knob full out until the engine runs smoothly; then remove carburetor heat and readjust the throttle.

If conditions require the continued use of carburetor heat in cruise flight, use the minimum amount of heat necessary to prevent ice from forming and lean the mixture for smoothest engine operation."

WRECKAGE AND IMPACT INFORMATION

The responding Federal Aviation Administration (FAA) inspector did not note any preexisting mechanical anomalies with the airplane that would have precluded normal operation. Photographs he provided included the propeller, with no noticeable chordwise scratching, and one of the two blades bent aft.

Another photograph showed the carburetor heat control partially pulled out, the throttle full forward, the propeller pitch full forward, and the mixture pulled out; however, their positions in flight, before the crash sequence, could not be confirmed as the engine had pulled away from the firewall during impact.

The NTSB did not take control of or document the wreckage. Instead, it was removed in pieces from the woods and taken to an out-of-state recovery facility. It was subs...