J. D. Mclean scite author profile

J. D. Mclean

5Publications

96Citation Statements Received

10Citation Statements Given

How they've been cited

182

How they cite others

Affiliations

Boeing (United States), Princeton University, Munich University of Applied Sciences

Publications

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Drag reduction: enticing turbulence, and then an industry

Spalart

Mclean

2011

Phil. Trans. R. Soc. A.

124

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We examine drag-reduction proposals, as presented in this volume and in general, first with concrete examples of how to bridge the distance from pure science through engineering to what makes inventions go into service; namely, the value to the public. We point out that the true drag reduction can be markedly different from an estimate based simply on the difference between turbulent and laminar skin friction over the laminarized region, or between the respective skin frictions of the baseline and the riblettreated flow. In some situations, this difference is favourable, and is due to secondary differences in pressure drag. We reiterate that the benefit of riblets, if it is expressed as a percentage in skin-friction reduction, is unfortunately lower at full-size Reynolds numbers than in a small-scale experiment or simulation. The Reynolds number-independent measure of such benefits is a shift of the logarithmic law, or 'DU + '. Anticipating the design of a flight test and then a product, we note the relative ease in representing riblets or laminarization in computational fluid dynamics, in contrast with the huge numerical and turbulence-modelling challenge of resolving active flow control systems in a calculation of the full flow field. We discuss in general terms the practical factors that have limited applications of concepts that would appear more than ready after all these years, particularly riblets and laminar-flow control.

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Spanload optimization for strength designed lifting surfaces

Craig

Mclean

1988

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Three-dimensional turbulent boundary layer calculations for swept wings

Mclean

1977

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Aeroelastic Stability of Cylindrical Shells Subjected to a Rotating Flow

et al. 1974

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Shock/Boundary-Layer Interaction Model for Three-Dimensional Transonic Flow Calculations

Mclean

Matoi

1986

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J. D. Mclean

Drag reduction: enticing turbulence, and then an industry

Spanload optimization for strength designed lifting surfaces

Three-dimensional turbulent boundary layer calculations for swept wings

Aeroelastic Stability of Cylindrical Shells Subjected to a Rotating Flow

Shock/Boundary-Layer Interaction Model for Three-Dimensional Transonic Flow Calculations

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