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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Moment Method Analysis
of a Microwave Tunnel Oven [PDF] |
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AUTHORS |
M. Sundberg, P. Kildal and T. Ohlsson 1998 33 1 36-48 |
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Abstract Industrial microwave
tunnel ovens have previously been analyzed using the finite difference time domain
(FDTD) method. However, it has been observed that since the computation time
on normal computers often becomes very long, it is desirable to develop more
efficient methods. In this paper an approach based on the moment method (MM)
is used to calculate the electromagnetic field in a tunnel oven. The oven
consists of a rectangular cavity mounted on a flat tunnel, containing one or
more dielectric layers. The layers correspond to e.g. the food load and the
conveyor belt. It is shown that the results from the MM calculations agree
well with the FDTD method and that the computation time, compared to FDTD, is significantly reduced. For some problems, the
computations are sped-up by a factor of 100. By combining the fast MM
computations with the simulated annealing method for optimization, together
with suitably chosen performance criteria, it is shown how the design process
can be drastically shortened. By varying the dimensions of the cavity and the
tunnel, the power distribution in the loads can be optimized for a wide range
of applications, and, since the basic design of the ovens is kept constant,
the development cost for new equipment can be reduced. Key Words: Moment method, MM, Finite
Difference Time Domain, FDTD, Microwave tunnel oven, Optimization, Simulated
annealing, Cost-function, Edge-overheating, Heating uniformity, Spectral
domain, Green's function |
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