摘要
该文聚焦新能源发电、智能用电技术,利用虚拟仿真、数字仿真、物理模拟等技术手段,构建并实施了面向新型电力系统发展的电气工程专业实践教学体系,涵盖基础认知、设备感知和综合设计三个层次。该体系将先进的科研成果应用于教学实践,全面拓展了电气工程专业实践教学的广度和深度,有助于巩固学生基础理论知识,培养学生实际操作能力、分析解决问题能力、研究设计能力和工程创新能力。
Focusing on renewable energy generation, this paper has constructed and implemented a new practical teaching system based on technologies such as virtual simulation, digital simulation, and physical simulation. The new system has covered three levels consist of basic cognition, device awareness, and comprehensive design. By applying the advanced scientific achievements to the teaching practice, the depth and breadth of the practical teaching of electrical engineering have been comprehensively expanded. Moreover, the new system could consolidate the students, basic theoretical knowledge, cultivate their practical operation ability, analysis and problem-solving ability, research and design ability, and innovation ability.
作者
宋关羽
赵金利
于浩
苏江
王智颖
冀浩然
SONG Guanyu;ZHAO Jinli;YU Hao;SU Jiang;WANG Zhiying;JI Haoran(Key Laboratory of Smart Grid of Ministry of Education,Tianjin University,Tianjin 300072,China;National Virtual Simulation Experimental Teaching Center of Electrical Engineering and Automation,Tianjin University,Tianjin 300072,China)
出处
《实验技术与管理》
CAS
北大核心
2022年第9期217-221,共5页
Experimental Technology and Management
基金
天津大学新工科项目式教学改革重点项目(天大校教[2021]1号)。
关键词
新型电力系统
新能源
电气工程
实践教学体系
教学应用
novel power system
renewable energy
electrical engineering
practical teaching system
teaching application
