Title of article
Optimizing the Design of Space Radiators
Author/Authors
R. J. Naumann ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
13
From page
1929
To page
1941
Abstract
A procedure for optimizing the configuration of a heat pipe/fin radiating element
in terms of heat rejected per radiating mass has been developed. The
optimization was carried out analytically by expressing the heat radiated per
radiating mass in terms of a function involving a dimensionless heat transfer
coefficient and the dimensionless thermal gradient at the root of the fin
where it joins the heat pipe. The dimensionless Stefan–Boltzmann radiation
equation was solved numerically to determine the value that maximizes the
function that determines the heat transfer per radiating mass. Once this value
is obtained, the optimum width and thickness of the fins as well as the heat
radiated per mass can be specified in terms of the operating temperature,
emissivity, diameter, and mass/length of the heat pipe, and the density and
thermal conductivity of the fin material. The resulting analytical expression
can then be used to determine the maximum heat radiated per radiating mass
over a wide range of operating conditions, to optimize the design of a specific
heat pipe/fin combination, and to conduct analyses of the influence of
design and materials properties on the performance of the system. The optimization
procedure was carried out for the case of uniformly tapered fins as
well as for flat fins.
Keywords
heat pipe/fin radiator , space radiators , optimization
Journal title
International Journal of Thermophysics
Serial Year
2004
Journal title
International Journal of Thermophysics
Record number
427162
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