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机构地区:[1]常州大学,江苏常州213164
出 处:《科技创新与应用》2023年第9期61-64,共4页Technology Innovation and Application
基 金:常州大学教育教学课题(YJK2021012,GJY2021064,GJY2021090,GJY2021008,GJY2021046)。
摘 要:太阳能高倍聚光电池的冷却设计课程注重实际工程应用,存在实验条件难以满足、设备数量不足、散热器设计繁琐等问题。针对这些问题,提出数值仿真和实验设计结合的教学理念,教学采用实验与模拟对照优化的教学过程,通过仿真灵活改变散热器结构提高模拟与实验契合度,增加实验成功率,减少实验误差。将数值模拟与实验结合可以使学生将多门课程的知识综合运用,既弥补高倍聚光实验的不足,又让学生掌握一定的数值模拟软件,提高了学生实践与创新能力。The course of cooling design of solar high power concentrator pays attention to practical engineering application,and there are some problems,such as difficult to meet experimental conditions,insufficient number of equipment,tedious radiator design and so on.In order to solve these problems,the teaching concept of the combination of numerical simulation and experimental design is put forward.The teaching adopts the teaching process of experiment and simulation optimization,and flexibly changes the structure of radiator through simulation to improve the fit between simulation and experiment,increase the success rate of experiment and reduce the error of experiment.The combination of numerical simulation and experiment can enable students to make comprehensive use of the knowledge of many courses,which not only makes up for the shortcomings of high-power focusing experiments,but also enables students to master certain numerical simulation software and improve their ability of practice and innovation.
关 键 词:太阳能高倍聚光 电池散热 实验设计 仿真教学 教学效果
分 类 号:TK511[动力工程及工程热物理—热能工程]
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