K. Hackett scite author profile

This paper reviews and highlights recent developments of certain aspects of flow control concerned with reducing the drag of, and delaying flow separation on, wings and bodies over which the flow is turbulent. The study is restricted to devices that extend beyond the viscous sub-layer but are on a smaller scale than geometric features of the aircraft (e.g. wing chord).The review is mainly concerned with developments within the UK, although significant developments in other countries are discussed.The review discusses types of flow that need to be controlled, basic features of flow control devices and applications. It concludes with recommendations for future research.

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Studies of flows induced by Sub Boundary Layer Vortex Generators (SBVGs)

Ashill

Fulker²,

Hackett³

2002

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Aerodynamic Studies for Blended Wing Body Aircraft

Qin¹,

Vavalle²,

Moigne³

et al. 2002

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This paper presents aerodynamic studies of a blended wing body (BWB) configuration within an European project, MOB. Firstly, the effects of spanwise distribution on the BWB aircraft aerodynamic efficiency were studied through an inverse design approach, combining both a low fidelity panel method and a high fidelity RANS method. Secondly, the BWB aerofoil profiles were optimised for improved performance. Finally, three-dimensional optimisation of the BWB twist and camber distribution were carried out based on continuous and discrete adjoint approaches.

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K. Hackett

Aerodynamic considerations of blended wing body aircraft

Research at DERA on sub boundary layer vortex generators (SBVGs)

A review of recent developments in flow control

Studies of flows induced by Sub Boundary Layer Vortex Generators (SBVGs)

Aerodynamic Studies for Blended Wing Body Aircraft

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