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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Analysis and Design of Industrial
Microwave Ovens Using the Finite Difference Time Domain Method [PDF] |
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AUTHORS |
M. Sundberg, P .O. Risman, P-S
Kilda and T. Ohlsson 1996 31 3 142-157 |
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Abstract The Finite Difference Time
Domain (FDTD) method is applied to industrial microwave ovens used in the,
food industry. Theoretical and practical aspects of FDTD analysis for this
purpose are dealt with. Two different open-ended applicator types are
described and analyzed numerically and experimentally and their relative
performance is discussed. One of these applicators is a novel design based on
low impedance TM modes which reduces edge-overheating and load reflections.
It is shown that the common belief that the heating pattern from open-ended
microwave applicators can be predicted from their radiation fields alone is
often in error, and that resonances in the whole system of applicators and
food loads are of major importance. Key Words: Industrial microwave
ovens, Finite difference time domain, FDTD, Electromagnetic simulation, Low
impedance modes, Heating pattern, Edge-overheating. |
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