摘要
针对传统的风力发电教学实验平台功能单一、难以完全满足新工科建设对学生多维能力培养需求的现状,基于半实物仿真技术,设计了一种产学研一体化的风力发电控制装置研发及教学实验平台。以OBE(基于学习产出的教育模式,Outcomes-Based Education)理念为指导,依托贵州大学通用实时仿真平台,以培养科学素养高、创新能力强、实践能力强的三位一体的复合型高级工程技术人才为目标,参考企业实际产品研发测试流程,通过采用先进的实时仿真技术,构建了适用于新工科建设的新一代实验教学平台,探索了产学研一体化的新工科人才培养路径。
The function of traditional wind power experiment teaching platform is single,so it could not fully meet the needs of developing students'multi-dimensional ability in the construction of emerging engineering education.This research and teaching experiment platform was designed.Based on the hardware-in-the-loop simulation technology that applied a wind-power control device integrating industry,education and research.Guided by the concept of OBE,it was supported by the Universal Real-time Experimental Platform of Guizhou University,aiming at training high-level engineering and technical personnel with strong scientific,innovative and practical ability.The new experimental teaching platform was constructed according to the real product R&D and testing process of enterprises by using advanced real-time simulation technology,exploring a new training path of engineering talents in the integration of industry,education and research.
作者
潘春鹏
郝正航
PAN Chunpeng;HAO Zhenghang(College of Electrical Engineering, Guizhou University, Guiyang 550025, China)
出处
《贵州大学学报(自然科学版)》
2020年第3期53-57,共5页
Journal of Guizhou University:Natural Sciences
基金
国家自然科学基金项目资助(51567005)。
关键词
风力发电
硬件在环
产学研一体化
新工科
wind power generation
HIL
integration of industry,education and research
emerging engineering education
