基于硬件在环的光储系统实验教学平台设计  

Design of Teaching Experimental Platform for PV Storage System Based on Hardware-in-Loop

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作  者:徐万万[1] 张良力[1] 王斌[1] 毕精华 XU Wanwan;ZHANG Liangli;WANG Bin;BI Jinghua(College of Information Science and Engineering,Wuhan University of Science and Technology Wuhan 430081,China)

机构地区:[1]武汉科技大学信息科学与工程学院,武汉430081

出  处:《实验室研究与探索》2024年第8期57-60,共4页Research and Exploration In Laboratory

基  金:教育部产学合作协同育人项目(230703612314515);武汉科技大学教学研究项目(2023Z016,2023X045)。

摘  要:现有新能源发电实验平台存在利用率低、交互性差等问题,难以满足培养学生解决复杂工程能力的要求。借助硬件在环仿真技术,设计并开发光伏-储能互补发电综合实验教学平台。基于该平台,设计了从基础教学到探索类实验项目,并具有可扩展性,实践表明,该实验平台实用、便捷,可快速实现先进控制算法在光储领域应用的教学实践。对培养新工科建设下的高水平卓越工程师具有重要作用。The current experimental setup for new energy power generation exhibits challenges such as limited utilization efficiency and inadequate interactivity,hampering its capacity to fulfill the need for fostering students’abilities in tackling intricate projects.Leveraging hardware-in-the-loop simulation technology,we designed and developed a comprehensive experimental teaching platform tailored for photovoltaic-energy storage complementary power generation.This platform encompasses a range of experimental contents,from fundamental teaching to exploratory endeavors,and possesses scalability.Practical application demonstrates that this experimental platform is practical and user-friendly,which can quickly realize the teaching practice of the application of advanced control algorithms in the field of PV storage.It holds a pivotal role in preparing top outstanding engineers for new engineering building.

关 键 词:硬件在环仿真 光伏-储能 实验教学平台 卓越工程师 

分 类 号:TM74[电气工程—电力系统及自动化]

 

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