A simulation method of coupled model for a microwave heating process with multiple moving elements

In practical chemical applications, in order to improve the microwave heating uniformity, moving elements, such as mode stirrers, turntables and conveyor belts, have been widely used as an easy way to implement. However, different moving elements may have different shapes, modes of motion and moving speed, which makes the simulation of the heating process very difficult. In this paper, a stepping algorithm based on implicit function and level set method is proposed to simulate the microwave heating process of multi-component with unequal moving speed. The accuracy of the algorithm is verified by discrete method and experiments. Moreover, the model was used to analyze the heating process with different components at different positions and speeds. The effect of different materials of mode stirrers and shapes of heated sample on heating process were also compared. The researches show that the proposed model can effectively improve the heating uniformity and heating efficiency. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

A stepping algorithm based on implicit function and level set method is proposed in this study to simulate the microwave heating process of multi-component with unequal moving speed, which has been verified for accuracy through discrete method and experiments. The model is effective in improving heating uniformity and efficiency by analyzing the heating process with different components at different positions and speeds, as well as comparing the effects of different materials of mode stirrers and shapes of heated sample on the heating process.