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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Coupled Electromagnetic
and Termal Modeling of
Microwave Oven Heating of Foods [PDF] |
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AUTHORS |
H. Zhang
and A K. Datta 2000 35 2 71-85 |
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Abstract Temperature distributions
from heating in a domestic microwave oven were studied by considering the
coupling between the electromagnetics and heat
transfer through changes in dielectric properties during heating. Maxwell's
equations for electromagnetics and the thermal
energy equations are solved numerically using two separate finite element softwares. The coupling between the softwares
was developed by writing special modules that interfaced these softwares at the system level. Experimentally measured
temperature profiles were compared with the numerical predictions. The
importance of coupling was evident when the properties changed significantly
with temperature for low and high dielectric loss materials and more so for
the high loss materials. For moderate loss materials, when the properties do
not change as much with temperature, coupled solutions lead to results very
close to the results for the uncoupled solution. Key Words: Temperature, hot spots,
cavity, dielectric loss, uniformity |
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