Publication Date:
2011-06-25
Description:
In a recent paper of Weidman and Sprague (Acta Mech., 2011 ), the unsteady flows generated by an impermeable infinite flat plate advancing with constant velocity V toward, or receding from an orthogonal (plane or axisymmetric) stagnation-point flow, have been investigated by an exact similarity reduction of the Navier–Stokes equations. It has been shown that in the co-moving reference frame of the plate, the induced flow appears as a steady flow, with an additional term R f ′′ in the governing equation of the similar stream function f ( η ). The Reynolds number R involved in this additional term is proportional to the plate velocity V . The present paper shows, however, that with the aid of a simple transformation, the additional term R f ′′ can be removed from the governing equation, its effect being transferred in the boundary condition for f ( η ). As a consequence, the unsteady flow problems of Weidman and Sprague reduce to the classical steady stagnation-point flow problems for permeable surfaces with a uniform lateral suction or injection of the fluid, so that the transpiration parameter f (0) coincides with R for the plane and with R /2 for the axisymmetric flow, respectively. The main benefit of this approach is that all the results of the latter well-investigated problems can simply be transcribed for the problems formulated by Weidman and Sprague (Acta Mech, 2011 ). Content Type Journal Article Pages 1-5 DOI 10.1007/s00707-011-0502-2 Authors Eugen Magyari, Departement Physik, Universität Basel, Klingelbergstr. 82, CH 4056 Basel, Switzerland Journal Acta Mechanica Online ISSN 1619-6937 Print ISSN 0001-5970
Print ISSN:
0001-5970
Electronic ISSN:
1619-6937
Topics:
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
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Physics