摘要
微波加热不均匀性一直以来都是从事微波加热控制方向研究人员心目中的热点问题。根据微波加热装置的物理结构建立了炉内各层表面的温度静态差分模型结合实验以求得微波加热的实际功率。再基于传热学的有限差分法建立三维空间中的温度分布模型,利用MATLAB以及COMSOL仿真对比验证了模型的有效性。假定微波均匀加热求得被加热介质的平衡温度与不均匀加热时的温度进行比对以找出微波加热过程中介质的部分温升平衡点,最后互相比对找出最优点为控制对象进行专家PID(proportion-integral-derivative)微波加热。实验结果表明,该方法能较为精确地测量出被加热介质任何时刻的平衡温度,使得微波加热在工业生产上有着更加广泛的应用。
Microwave heating inhomogeneity has always been a hot issue in microwave heating controlresearch.According to the physical structure of the microwave heating device,the static difference model of thesurface temperature of each layer in the furnace is established,and the actual power of microwave heating is obtainedby combining with experiments.Based on the finite difference method of heat transfer,the temperature distributionmodel in 3D space is established,and the effectiveness of the model is verified by MATLAB and COMSOLsimulations.The equilibrium temperature of the heated medium obtained by uniformly heating the microwave iscompared with the temperature distribution during uneven heating,the partial temperature rise equilibrium points ofthe medium during the microwave heating process are identified.Finally,comparison is carried out to find out the bestpoint for the control object for expert PID(proportion-integral-derivative)microwave heating.The experimentalresults show that this method can accurately measure the equilibrium temperature of liquid heated medium at any time,and can make microwave heating more widely used in industrial production.
作者
吴昊
李少甫
王威
蒋成
唐颖颖
Wu Hao;Li Shaofu;Wang Wei;Jiang Cheng;Tang Yingying(School of Information Engineering,Southwest University of Science and Technology,Mianyang 621010,China)
出处
《强激光与粒子束》
CAS
CSCD
北大核心
2024年第1期84-93,共10页
High Power Laser and Particle Beams
基金
National Natural Science Foundation of China(U1830201)。
关键词
微波加热
静态差分
有限差分
COMSOL仿真
温升平衡点
microwave heating
static difference model
finite difference method
COMSOL simulation
equilibrium point of temperature rise
