Title :
Experimental verification of a finite element solution to heating problems in a multi-mode cavity
Author :
Dibben, D. ; Metaxas, A.C.
Author_Institution :
Cambridge Univ., UK
Abstract :
Computational analysis is playing an increasingly important part in the design process for microwave applicators and packaging of food products. It is important to assess these methods with respect to real situations and experimental results rather than simply testing the method on a problem for which the analytical solution is known. These test problems rarely reflect the complexities of a real heating problem, such as where a dielectric material load is placed in a multimode microwave applicator. To reflect realistic heating the authors have used a resonant cavity of a similar size to a typical domestic oven and a food material, mashed potato. They have also carried out tests on a block of low loss plastic
Keywords :
finite element analysis; food processing industry; radiofrequency heating; waveguide theory; computational analysis; design; dielectric material load; domestic oven; finite element solution; food products; heating problems; low loss plastic; mashed potato; multimode cavity; multimode microwave applicator; packaging; resonant cavity;
Conference_Titel :
Computation in Electromagnetics, 1994. Second International Conference on
Conference_Location :
London
Print_ISBN :
0-85296-609-1
DOI :
10.1049/cp:19940035
