摘要
为了弥补风光氢储微电网纯实物实验平台搭建难、成本高昂、安全可靠性不足的缺点,并填补暂态控制策略与多时间尺度稳态能量管理策略协同验证的空白,采用Typhoon HIL实时仿真器,设计开发了风光氢储微电网系统多控制器硬件在环仿真实验平台。基于该实验平台,面向本科生的电力电子技术类课程,设计了验证性实验、探究性实验与综合创新实验3个维度的实验内容;面向研究生的新能源发电技术类课程,设计了微电网技术相关的实践内容。实践结果表明,该平台可快捷高效地验证微电网各类高性能控制及优化算法效果,弥补了传统稳态与暂态控制实验的不足,具备较强的可扩展性,支持多层次实验内容的灵活设计。
The microgrid consists of the wind,solar,battery energy storage system(BESS)and hydrogen energy storage system(HESS).In order to compensate for the difficulties,high costs,low safety and reliability,a pure physical experimental platform is established to fill the gap in the collaborative verification of the transient control strategy and multi-time scale steady-state energy management strategy(EMS).A hardware-in-loop(HIL)simulation experimental teaching platform for multi-controller of the wind-solar-BESS-HESS microgrid system is designed and developed based on the Typhoon HIL.Based on the built experimental platform,three dimensional experimental contents including the confirmatory experiments,exploratory experiments and comprehensive innovative experiments are designed for undergraduate courses in power electronics.Additionally,practical contents related to microgrid technology are designed for graduate students in the field of new energy generation technology.Practical application demonstrates that the experimental platform can achieve fast and efficient verification of various high-performance control and optimization algorithm effects for microgrids,and address the shortcomings of traditional steady-state and transient control experimental methods.Additionally,the experimental platform has strong scalability,which allows for flexible design of multi-level experimental teaching contents and facilitates the scientific research work.
作者
赵建勇
于彦雪
陈磊磊
吴敏
年珩
孙丹
ZHAO Jianyong;YU Yanxue;CHEN Leilei;WU Min;NIAN Heng;SUN Dan(College of Electrical Engineering,Zhejiang University,Hangzhou 310027,China;College of Information Engineering,Hangzhou Dianzi University,Hangzhou 311305,China)
出处
《实验室研究与探索》
北大核心
2025年第6期55-60,共6页
Research and Exploration In Laboratory
基金
国家杰出青年科学基金项目(52325702)
浙江大学实验技术研究项目(SYBJS202407)
中央高校基本科研业务费专项资金(226202400244)。
