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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Temperature Profiles in Microwave
Heating of Solids: A Systematic Study [PDF] |
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AUTHORS |
J. Dolande and A. Datta 1993 28 2 58-67 |
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Abstract Time-temperature profiles
in microwave heating depend qualitatively on several additional parameters (dielectric
properties, size, shape) in contrast with
conventional heating where only thermal properties are needed. These
additional parameters can give rise to qualitatively different transient and
spatial temperature profiles. Using an analytical solution to the heat
equation, three characteristic temperature profiles were identified in
microwave heating of a solid in the absence of evaporation and microwave
concentrations due to shape. As a first approximation, thermal diffusion can
be ignored compared to heat generation during the initial heating period and
temperature profiles were similar to those obtained in conventional heating.
Intermediate heating period was characterized by a temperature peak that
developed near the surface and propagated inward as heating continued. After
sufficient duration of heating, the profiles developed a concave down shape,
characteristic of the steady state with internal heat generation. Effects of
penetration depth, applied microwave power, and surface convection was also
studied. Key Words: Temperature profile, Solid,
Microwave, Diffusion. |
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