A procedure is described for the calculation of momentum and heat transfer rates through laminar boundary layers over rotating axisymmetric bodies in forced flow. By applying appropriate coordinate transformations and Merk’s type of series, the governing momentum equations can be expressed as a set of coupled ordinary differential equations that depend on a wedge parameter and on a rotation parameter. For the energy equation, a set of ordinary differential equations is obtained which depend explicitly on the Prandtl number and implicitly on the aforementioned parameters. These equations are numerically integrated for a range of parameter values for the special case of a rotating sphere, and the local friction coefficient and the local Nusselt number are presented for values of the rotation parameter B = 1, 4, and 10 with Prandtl numbers of 1, 10, and 100. These results are then compared with previous theoretical results. It is also shown how the flow and heat transfer characteristics for a rotating disk can be readily obtained as a special case from the formulation for the rotating sphere. The disk results are also compared with previous theoretical and experimental studies.
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Laminar Boundary Layer Transfer over Rotating Bodies in Forced Flow
Min-Hsiun Lee,
Min-Hsiun Lee
Auburn University, Auburn, Ala.
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D. R. Jeng,
D. R. Jeng
The University of Toledo, Toledo, Ohio
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K. J. De Witt
K. J. De Witt
The University of Toledo, Toledo, Ohio
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Min-Hsiun Lee
Auburn University, Auburn, Ala.
D. R. Jeng
The University of Toledo, Toledo, Ohio
K. J. De Witt
The University of Toledo, Toledo, Ohio
J. Heat Transfer. Aug 1978, 100(3): 496-502 (7 pages)
Published Online: August 1, 1978
Article history
Received:
June 7, 1977
Online:
August 11, 2010
Citation
Lee, M., Jeng, D. R., and De Witt, K. J. (August 1, 1978). "Laminar Boundary Layer Transfer over Rotating Bodies in Forced Flow." ASME. J. Heat Transfer. August 1978; 100(3): 496–502. https://doi.org/10.1115/1.3450837
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