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N8225T accident description

Georgia map... Georgia list
Crash location 33.871945°N, 84.301111°W
Nearest city Atlanta, GA
33.748995°N, 84.387982°W
9.9 miles away
Tail number N8225T
Accident date 23 May 2013
Aircraft type Beech A36
Additional details: None

NTSB Factual Report

HISTORY OF FLIGHT

On May 23, 2013, about 1456 eastern daylight time a Beech A36, N8225T, operated by Bonanza 5 Incorporated, was substantially damaged when it entered an aerodynamic stall and impacted terrain shortly after takeoff at DeKalb-Peachtree Airport (PDK), Atlanta, Georgia. The private pilot and four passengers were not injured. Visual meteorological conditions prevailed, and an IFR flight plan had been filed for the personal flight destined for Venice Municipal Airport (VNC), Venice, Florida, which was conducted under Title 14 Code of Federal Regulations Part 91.

According to the pilot, the purpose of the flight was to fly to VNC for fuel and then continue on to their final destination, Key West International Airport (EYW), Key West, Florida. In anticipation of having a "full load" of passengers and baggage, two days before the trip the pilot had fueled the airplane up to the "slots", which equated to 70 gallons of usable fuel onboard. On the day of the flight, he checked the weather and obtained a full weather briefing from flight service before leaving for the airport.

When he and his passengers arrived at the airport, they loaded their possessions into the airplane and the pilot conducted a preflight inspection of the airplane. Everything was "good" and they pulled the plane out of the hangar, put their cars in the hangar, and got in the airplane. He then started the engine and started to taxi. One of the passengers however, had left his iPad in the hangar, so he taxied back to the hangar, shut down, and the passenger retrieved it.

When the passenger returned, the pilot started the airplane again and taxied out to the end of the row of hangars, obtained the field conditions from the airport terminal information service, received his IFR clearance to VNC, then his clearance to taxi, and set the altimeter setting in the Kollsman window. He was cleared to taxi to runway 3L but, asked for runway 3R as he preferred to use runway 3R which was the longest runway at PDK. He then taxied to the run up area for runway 3L and completed the run up. Again, everything was normal.

He was then cleared to cross 3L and hold short of 3R while waiting for release from air traffic control. There was a King Air behind him and he was asked to move over to let him by, which he did. Around this time, someone asked for a wind check and the tower replied that the wind was from 300 degrees (a direct cross wind). He then asked if Runway 34 was available and was told it was closed because of an air show. Then while they were waiting, or when they were cleared to depart, he looked at the wind sock and it seemed to be indicating a slight quartering tailwind.

He performed a static takeoff, and double checked that all instruments were normal and in the green before releasing the brakes. At 50 knots indicated airspeed he cross-checked the instruments and everything was normal. He would normally try and rotate around 80-84 Knots and leave the landing gear down as long as there was runway remaining. He could not recall exactly what speed he rotated at, but it was "probably around 80 knots". Because of the cross wind, he applied left aileron during the takeoff. As he rotated, something didn't feel right. The stall warning horn started "chirping", the plane then turned into the wind, and did not takeoff with "its usual vigor". He leveled off to stop the stall horn and it still didn't feel right. The engine also didn't sound right. He believed that something was wrong and that he should abort the takeoff. He was not sure of his exact altitude at this point, but guessed that he was probably 30 feet above ground level. The engine, or prop, still didn't sound right. He still had runway remaining ahead of him and the landing gear was still down, so he radioed that he was "putting it back down". He decided to land on the runway and not risk an over run, so he reduced power and tried to glide it in. Shortly thereafter, the stall warning horn "blared", the airplane entered an aerodynamic stall and impacted the runway.

PERSONNEL INFORMATION

According to Federal Aviation Administration (FAA) and pilot records, the pilot held a private pilot certificate with ratings for airplane single-engine land, multi-engine land, and instrument airplane. His most recent application for a FAA third-class medical certificate was dated October 28, 2012. The pilot reported that he had accrued 613 total hours of flight experience, of which 306 hours were in the accident airplane make and model.

AIRCRAFT INFORMATION

According to FAA and airplane maintenance records, the airplane was manufactured in 2006. The airplane's most recent annual inspection was completed on March 14, 2013. At the time of the accident the airplane had accrued 3,763 total hours of operation.

METEOROLOGICAL INFORMATION

The following meteorological information was derived from multiple sources:

Recorded Weather

The recorded weather at PDK, at 1456, included: winds from 290 degrees at 13 knots gusting to 18 knots, 10 miles visibility, few clouds at 5,000 feet, scattered clouds at 6,500 feet, temperature 28 degrees C, dew point 16 degrees C, and an altimeter setting of 29.98 inches of mercury.

Density Altitude

Calculations using the recorded temperature, station pressure, and dew point, for PDK indicated, that the density altitude for the airport was, approximately 2,899 feet above sea level around the time of the accident.

Synoptic Conditions

The National Weather Service (NWS) Surface Analysis chart for 1400 edt, depicted a cold front extending across eastern Kentucky, Tennessee, into northern Alabama, Mississippi, into Louisiana moving southeastward. The chart depicted a relative weak pressure gradient across the area with wind from the west-northwest at about 10 knots across northern Georgia.

The NWS NEXRAD Mosaic of WSR-88D radars across the southeast indicated no significant meteorological echoes in the Atlanta vicinity at 1450 edt.

Pilot Reports

There were 2 pilot reports of low-level wind shear reported at 1420 and 1840 EDT from aircraft landing at KPDK, and reported wind shear of plus or minus 10 to 15 knots within the lowest 200 feet agl of runway 3R.

Sounding

The Atlanta-Peachtree City 0800 sounding depicted a frontal inversion immediately above the surface to about 1360 feet. The sounding had a relative humidity greater than 80 percent from the surface to 8,000 feet. The wind profile indicated a surface wind from the west or 285 degrees at 4 knots with wind veering to the northwest immediately above the inversion to 5,000 feet and then backing to the west with height. A low level wind maximum was identified at 2,000 feet with the wind from 320 degrees at 23 knots. As a result a low-level turbulence potential existed within the lowest 1,000 feet of the surface. The mean 0 to 6 kilometer or 18,000 feet wind from 278 degrees at 22 knots.

Satellite

The Geostationary Orbiting Environmental Satellite (GOES-14) visible image at 1445 depicted scattered fair weather cumulus clouds surrounding the area. No cumulonimbus or cumulus congestus type clouds were identified in the vicinity that could have produced any microburst type activity, and no outflow boundaries were identified for any significant shifts in wind direction

Radar

The NWS Atlanta WSR-88D radar depicted no meteorological echoes in the vicinity during the period, only ground cluster associated with the surface based temperature inversion and false echoes.

AIRPORT INFORMATION

DeKalb-Peachtree Airport was located approximately 8 miles northeast of the city of Atlanta, Georgia.

According to the Airport Facility Directory, PDK had four runways oriented in a 3R/21L, 16/34, 3L/21R, and 9/27 configuration. Runway 3R was concrete, grooved, and in good condition. The total length of the runway was 6,001 feet, and its width was 100 feet.

It was equipped with nonprecision runway markings, in good condition, high intensity runway edge lights, and runway end identifier lights.

FLIGHT RECORDERS

The airplane was not equipped with a cockpit voice recorder (CVR) or a flight data recorder (FDR), nor was it required to be equipped with a CVR or FDR under the CFRs. The airplane was however, equipped with an engine monitoring system that had recording capability, and one of the passengers had a cell phone that was capable of recording video which was operating during the takeoff and initial accident sequence.

Engine Monitor

The J.P. Instruments (JPI) EDM-700 was a panel mounted instrument enabling the operator to monitor and record up to 24 parameters related to engine operations. Depending on the installation, engine parameters monitored could include: exhaust gas temperature (EGT), cylinder head temperature (CHT), oil pressure and temperature, manifold pressure, outside air temperature, turbine inlet temperature (TIT), engine revolutions per minute, compressor discharge temperature, fuel flow, carburetor temperature, and battery voltage. The unit could also calculate, in real-time, horsepower, fuel used, shock cooling rate and EGT differentials between the highest and lowest cylinder temperatures. The calculations were also based on the aircraft installation.

The unit contained non-volatile memory for data storage of the parameters recorded and calculated. The rate at which the data was stored was selectable by the operator from 2 to 500 seconds per sample. The memory could store up to 20 hours of data at a 6 second sample rate. The data could then be downloaded by the operator using J.P. Instruments software.

The unit was in good condition and data was extracted normally. The unit contained recorded data over 13 power cycles, recorded at a sample rate of once every 6 seconds. The recorded data spanned dates of April 27, 2013 through the accident flight on May 23, 2013, as recorded by the unit internal clock. The parameters recorded were EGT, CHT, voltage, and fuel flow. Additionally, the calculated shock cooling rate and maximum difference between EGT sensors was also recorded. No other parameters were recorded by the unit.

When the unit was powered on, it displayed 71 gallons of fuel remaining and 2 gallons of fuel used. The EDM-700 recorded time of the first data sample based on the unit's internal clock. This clock was set and updated by the operator. Examination of the recorded data, and comparison with the reported accident time, indicated the EDM-700 internal clock was set to Coordinated Universal Time (UTC), but was 10 minutes ahead of actual UTC. As such, 10 minutes was subtracted from all EDM-700 recorded times to correct for the error.

Review of the data revealed that, fuel flow began to increase above 5 gallons per hour (gph) at approximately 14:47:08 achieving a value of about 26 gph by 14:47:20. Coincident with the fuel flow increase, the EGT and CHTs also increased. At about 14:47:44, the fuel flow began to decrease from 26 gph, reaching 5 gph by 14:47:56 and then 0 gph by the end of the recording at 14:48:08. Throughout the recording, CHT-5 was the coolest recorded cylinder.

Cell Phone

The video file that was retrieved from the cell phone was in an MP4 format of 1920 X 1080 resolution at 29.97 frames per second with a 48000Hz audio track. The video was recorded with the cell phone oriented in a vertical position, causing the file to be cropped and two black bars added to either side of the video to maintain a 16:9 aspect ratio.

The video was shot by a rearward facing passenger, on the right side of the airplane. The video captured the view out of the right rear passenger window looking toward the airplane's right horizontal stabilizer. As the video progressed, a portion of the airplane's cabin was captured including a view of the baggage storage area and another passenger sitting in the rearmost, forward facing seat, on the left side of the cabin. An additional passenger was also seen briefly as the camera panned during the recording. The video was 36 seconds and 19 frames in length (36.43 seconds).

Time in the video is expressed as video elapsed time, which is the time from the beginning of the recording. Times are expressed as SSFF, where SS represents seconds and FF frames of video elapsed time. Additionally, the video elapsed time in seconds has been added in parentheses immediately following the convention noted above.

The video began with a view out of the right rear window during the takeoff roll, with the airplane accelerating on the ground. The recorded engine noise on the audio track sounded constant and healthy, which concurred with the data that was downloaded from the engine monitor. At 1018 (10.6 sec.) as the airplane continued its takeoff roll, the camera began to pan toward the interior of the airplane. As the camera panned right, at 1408 (14.26 sec.), the reference to the horizon was lost As the camera panned inside the airplane a view of the baggage area was shown and a young adult male was seen reading in the left rear forward facing seat. The baggage area was noted to have an amount of luggage (restrained by a cargo net) great enough to fill the cabin to the ceiling. Additional baggage could also be seen piled up on the floor in front of the cargo net area. The camera continued to pan right, and at 1418 (14.6 sec.), the horizon became visible again, outside of the left rear passenger window. At approximately 1515 (15.5 sec.) an airplane pitch change in the positive (up) direction was observed and the airplane rotated for takeoff. Almost immediately after rotation however, at 1602 (16.06 sec.), the stall warning horn was heard to annunciate. The airplane continued in a nose up attitude as the camera panned camera right, at 1701 (17.03 sec.), the left side, rearward facing, adult passenger, was captured. At this instant the stall warning alarm was intermittent at a high rate.

Between 1800 (18.0 sec.) and 1900 (19.0 sec.), the stall warning alarm briefly ceased, and little change in pitch attitude was noted, which indicated that the airplane was still pitched nose up. At 2006 (20.2 sec.), the stall warning horn was heard again, and it continued to fluctuate in frequency. At 2020 (20.66 sec.), the camera panned back toward the left rear, forward facing, passenger, and the airplane was noted to be in a nose high attitude. At 2300 (23.0 sec.), the horizon was visible again. At this moment, the camera panned back to the left outside of the right rear window, and showed that the airplane was in a nose high attitude. Between 2500 (25.0 sec.) and 2700 (27.0 sec.) a sound similar to a very slight engine surge was noted. At 3001 (30.03 sec.), the airplane appeared to have reached its highest altitude (50 to100 feet above the runway surface). At the same instant, the engine noise reduced by a significant amount. By 3311 (33.36 sec.), the camera showed the elevator control surface exhibiting a range of motion between neutral and a positive pitch command which continued until the end of the recording. At 3316 (33.53 sec.), the stall warning horn became steady for the remainder of the recording. The airplane was in an obvious descent and at 3505 (35.16 sec.), the elevator could last be seen exhibiting a significant pitch up command. The camera then rapidly changed its field of view, and at 3529 (35.96 sec.) the sound of impact was heard. The recording terminated at 3613 (36.43 sec.).

WRECKAGE AND IMPACT INFORMATION

Examination of the airplane by a Federal Aviation Administration inspector revealed no evidence of any preimpact failure or malfunction of the airplane that would have precluded normal operation. Further examination revealed that, the airplane had incurred substantial damage to the wings and fuselage.

TESTS AND RESEARCH

Weight and Balance

Review of the pilot's weight and balance revealed that he had calculated that the airplane was approximately 5 pounds below its maximum takeoff weight of 3,650 pounds. Further review revealed however that the empty weight listed did not agree with either the empty weight that was in the airplane flight manual / pilot's operating handbook (AFM/POH) or any of the flying club's weight and balance sheets that was supplied to members for the airplane.

Review of flying club documents also

NTSB Probable Cause

The pilot's inadequate preflight planning, which resulted in the airplane being loaded in excess of its maximum gross weight at an aft center of gravity for a takeoff with a quartering tailwind and high-density altitude conditions, all of which degraded the airplane’s climb performance and led to the airplane exceeding its critical angle-of-attack and experiencing an aerodynamic stall.

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