E. K. Parks scite author profile

Although downburstshave been identified as the major cause of a number of aircraft takeoff and landing accidents, only the 1985 Dallas/Fort Worth (I)FW) and the more recent (July 1994) Charlotte, North Carolina, landing accidents provided sufficient onboard recorded data to perform a comprehensive analysis of the downburst phenomenon.The first step in the present analysis was the determination of the downburst wind components.Once the wind components and their gradients were determined, the degrading effect of the wind environment on the airplane's performance was calculated. This wind-shearinduced aircraft performance degradation, sometimes called the F-factor, was broken down into two components F_ and F2, representing the effect of the horizontal wind gradient and the vertical wind velocity, respectively.In both the DFW and Charlotte cases, F_ was found to be the dominant causal factor of the accident. Next, the aircraft in the two cases were mathematically modeled using the longitudinal equations of motion and the appropriate aerodynamic parameters.Based on the aircraft model and the determined winds, the aircraft response to the recorded pilot inputs showed good agreement with the onboard recordings.Finally, various landing abort strategies were studied. It was concluded that the most acceptable landing abort strategy from both an analytical and pilot's standpoint was to hold constant nose-up pitch attitude while operating at maximum engine thrust.

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Analysis of a ''Coanda'' type flow.

Parks

Petersen

1968

AIAA Journal

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Angle-of-attack estimation for analysis of wind shear encounters

Bach

Parks

1987

Journal of Aircraft

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Parameter identification and modeling of longitudinal aerodynamics

Aksteter

Parks

Bach

1995

Journal of Aircraft

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E. K. Parks

Identification of vortex-induced clear air turbulence using airline flight records

Comprehensive analysis of two downburst-related aircraft accidents

Analysis of a ''Coanda'' type flow.

Angle-of-attack estimation for analysis of wind shear encounters

Parameter identification and modeling of longitudinal aerodynamics

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