Computational Ground Effect Aerodynamics and Airplane Stability Analysis During Take-off and Landing

Date

2017-09-22

Advisors

Journal Title

Journal ISSN

ISSN

Volume Title

Publisher

EUCASS

Type

Conference

Peer reviewed

Abstract

Computational simulations of aerodynamic characteristics of the Common Research Model (CRM), representing a typical transport airliner, are conducted using CFD methods in close proximity to the ground. The obtained dependencies on bank angle for aerodynamic forces and moments are further used in stability and controllability analysis of the lateral-directional aircraft motion. Essential changes in the lateral-directional modes in close proximity to the ground have been identified. For example, with approach to the ground, the roll subsidence and spiral eigenvalues are merging creating the oscillatory Roll-Spiral mode with quite significant frequency. This transformation of the lateral-directional dynamics in piloted simulation may affect the aircraft responses to external crosswind, modify handling quality characteristics and improve realism of crosswind landing.

Description

Keywords

CFD, ground effect, flight dynamics

Citation

Sereez, M., Abramov, N. and Goman, M. (2017) Computational Ground Effect Aerodynamics and Airplane Stability Analysis During Take-off and Landing. 7TH EUROPEAN CONFERENCE FOR AERONAUTICS AND AEROSPACE SCIENCES (EUCASS)

Rights

Research Institute