Solar heating of a rotating solid cylinder
Authors:
W. E. Olmstead and S. Raynor
Journal:
Quart. Appl. Math. 21 (1963), 81-90
DOI:
https://doi.org/10.1090/qam/99959
MathSciNet review:
QAM99959
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Abstract: This paper is concerned with the quasi-steady temperature distribution of a solid cylinder which rotates about its geometric axis, arbitrarily inclined to the incoming parallel radiation. The differential equation for the temperature with a linearized boundary condition is solved by the method of Green’s functions. The numerical results for the case of an aluminum alloy cylinder indicated only small temperature variations for all angular velocities.
A. Charnes and S. Raynor, Solar heating of a rotating cylindrical space vehicle, ARS Journal 30 (1960) 479
W. E. Olmstead and S. Raynor, Solar heating of a rotating spherical space vehicle, Internat. J. Heat Mass Transfer, to be published.
L. D. Nichols, Surface-temperature distribution on thin walled bodies subjected to solar radiation in interplanetary space, NASA Tech. Note D—584, (1961)
P. J. Schneider, Conduction heat transfer, Addison-Wesley, Reading, Mass., 1957, p. 284
G. N. Watson, A treatise on the theory of Bessel functions, 2nd ed., Cambridge, 1958, p. 80
A. Charnes and S. Raynor, Solar heating of a rotating cylindrical space vehicle, ARS Journal 30 (1960) 479
W. E. Olmstead and S. Raynor, Solar heating of a rotating spherical space vehicle, Internat. J. Heat Mass Transfer, to be published.
L. D. Nichols, Surface-temperature distribution on thin walled bodies subjected to solar radiation in interplanetary space, NASA Tech. Note D—584, (1961)
P. J. Schneider, Conduction heat transfer, Addison-Wesley, Reading, Mass., 1957, p. 284
G. N. Watson, A treatise on the theory of Bessel functions, 2nd ed., Cambridge, 1958, p. 80
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Article copyright:
© Copyright 1963
American Mathematical Society