DocumentCode
1279962
Title
Modeling microwave and hybrid heating processes including heat radiation effects
Author
Haala, Jens ; Wiesbeck, Werner
Author_Institution
Marc:oni Commun. Software Syst., Backnang, Germany
Volume
50
Issue
5
fYear
2002
fDate
5/1/2002 12:00:00 AM
Firstpage
1346
Lastpage
1354
Abstract
This paper presents an efficient simulation tool for conventional, microwave, and combined heating. Two heat-transfer mechanisms are included: conductive and radiant heat transfer. The conductive heat transfer is modeled by a finite-difference algorithm. A modeling technique for radiant heat transfer in nonuniform grids has been developed and is here presented for the first time. For the radiant heat transfer a finite-difference scheme is not applicable, as radiation from a material surface; is not bounded to the immediate vicinity, as is conductive heat transfer. Therefore, ray optical methods are used. Rays connecting mutually visible surfaces are obtained by a new fast method. Necessary, but acceptable simplifications allow fast computations. The algorithms are integrated conveniently together with an electromagnetic finite-difference time-domain program to one simulation tool. Representative simulations are presented for an oven heated conventionally, by microwaves, and by a combination of both
Keywords
finite difference time-domain analysis; heat radiation; microwave heating; ovens; ray tracing; temperature distribution; combined heating; conductive heat transfer; electromagnetic simulation; finite-difference algorithm; finite-difference time-domain program; heat radiation effects; heat-transfer mechanisms; hybrid heating; microwave heating; microwave ovens; ray optical methods; simulation tool; temperature distribution; thermal energy exchanges; Computational modeling; Conducting materials; Electromagnetic heating; Electromagnetic radiation; Finite difference methods; Heat transfer; Joining processes; Microwave ovens; Optical materials; Time domain analysis;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.999149
Filename
999149
Link To Document