摘要
飞轮储能具有储能密度高、能量转换效率高、充放电速度快、环境适应力强、运行寿命长和易于检修维护的特点,是一种非常有前景的新型绿色能源。从工程实践角度出发,系统地设计了一款立式飞轮储能实践教学装置。基于目前已有的飞轮储能技术,从飞轮储能原理、系统搭建及机械系统进行了完整地设计,并完成了样机及实践产品的开发。同时,通过优化工程实践模块,将飞轮储能装置融入到了面向电机专业的定制版“金工实习”课程中。利用项目驱动式的新型教学模式,培养学生理论与实践结合的能力,从而提高学生的综合工程素养。
Flywheel energy storage has the characteristics of high energy storage density,high energy conversion efficiency,fast charging and discharging speed,strong environmental adaptability,long operation life and easy maintenance,which is a very promising new green energy.From the perspective of engineering practice,a practical teaching device of vertical flywheel energy storage was systematically designed.Based on the existing flywheel energy storage technology,the flywheel energy storage principle,system construction and mechanical system were completely designed,and the prototype and practical product development were completed.At the same time,by optimizing the engineering practice module,the flywheel energy storage device was integrated into the customized"Metalworking Practice"course for electrical engineering majors.Using the new project driven teaching mode,students'ability to combine theory with practice is cultivated,and students'comprehensive engineering literacy is improved.
作者
赵萌
杜平
赵天骄
高党寻
李睿
林蔚然
曾武
Zhao Meng;Du Ping;Zhao Tianjiao;Gao Dangxun;Li Rui;Lin Weiran;Zeng Wu(Fundamental Industry Training Center,Tsinghua University,Beijing 100084,China;Department of Physics,Tsinghua University,Beijing 100084,China)
出处
《机电工程技术》
2022年第9期10-14,共5页
Mechanical & Electrical Engineering Technology
基金
清华大学本科生教育教学改革项目(编号:53412280122)。
关键词
飞轮
机械储能
实验装置
flywheel
mechanical energy storage
experimental device
