ADAPTIVE AND STOCHASTIC FINITE ELEMENT ANALYSIS IN DRYING |
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Authors: | Kamyar Haghighi Christiana G. Aguirre |
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Affiliation: | Department of Agricultural and Biological Engineering , Purdue University , West Lafayette, IN, 47907-1146 E-mail: E-mail: haghighi@purdue.edu |
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Abstract: | ABSTRACT The focus of this paper is on the use of new advances in the finite element method to model and analyze drying problems, with emphasis on biological, food and grain materials. It presents the current status of the use of numerical analysis for such process, and emphasizes the need and advantages of incorporating adaptive and stochastic strategies into the finite element analysts. The existing literature on the application of the adaptive and stochastic finite elements is reviewed in conjunction with the relevant advances in this area. A new perturbation-based stochastic methodology far nonlinear and transient drying problems is formulated and presented in detail. The specific application of this new methodology to drying is under development. In conclusion, tracks for future research in this field are proposed. |
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Keywords: | numerical simulation thermal processing perturbation methods error estimation adaptive analysis |
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