Papers Published

  1. Lage, J.L. and Bejan, A., Convection from a periodically stretching plane wall, Journal of Heat Transfer, Transactions ASME, vol. 112 no. 1 (1990), pp. 92 - 99 .
    (last updated on 2007/04/08)

    This paper documents the convection heat transfer enhancement effect that is associated with the periodic (timewise and spatial) longitudinal stretching of an infinite plane wall bathed by a semi-infinite fluid reservoir. It is shown that the flow field reaches a truly periodic state, and that the temperature field does not. The time-dependent heat transfer rate is greater than the classical pure-diffusion limit only when the Reynolds number based on wall speed and wavelength is greater than 1. The enhancement effect becomes pronounced as Re increases above 10. The enhancement effect increases also as the Prandtl number increases, provided Re is greater than 1.

    Mathematical Techniques - Numerical Methods;Mass Transfer;Flow of Fluids - Boundary Layer;Temperature Distribution;