A Strategy to Simulate Radio Frequency Heating Under Mixing Conditions

S. Wang [1], L. Chen [1],
[1] Northwest A&F University, Yangling, Shaanxi, China
Published in 2015

A computer simulation model was developed using finite element-based commercial software, COMSOL Multiphysics®, to simulate temperature distributions in wheat samples packed in a rectangular plastic container and treated in a 6 kW, 27.12 MHz RF system with and without mixing conditions. The developed model was then experimentally validated by temperature distributions of three layers without mixing condition, and surface and interior temperature distributions of wheat samples under one, two and three times mixing conditions. Both simulation and experiment showed similar heating patterns in RF treated wheat samples under both conditions, in which corners and edges were overheated and the temperatures were higher in the lower sections of the container. The uniformity index (UI) was used to evaluate effects of mixing on RF heating uniformity. Both experimental and simulated UI showed decreasing trend with the increasing mixing times. The developed model can help to understand the RF heating patterns and effects of mixing conditions on RF heating uniformity and provide valuable strategy for developing effective industrial-scale RF treatments with mixing processes.

应用 COMSOL Multiphysics® 的 Joule heating 接口,求解射频腔室内的电磁和传热2个物理场,通过瞬态求解器求解。为了解决农产品加热过程的搅拌过程,模型做了一些假设来简化,最终该模型通过实验验证,达到了预期效果。