论文部分内容阅读
“水电站自动化”是热能与动力工程(水动方向)重要的专业主干课程,其课程建设是十分必要和重要的。在近年的教学实践中将Multisim引入“水电站自动化”的教学和实验,大力改革了实验教学的形式和内容,精选课堂教学内容和教学方法,提高了课堂教学的效果。实验室建设方面,在保留原有硬件试验的基础上,设计了基于Multisim的仿真实验,增加了设计性、综合性实验,使学生能够更加深入地理解和灵活运用所学理论知识。通过“水电站自动化”课程建设,该课程的教学质量和教学效果都上了一个新的台阶。
“Hydropower Station Automation ” is an important major trunk course in thermal energy and power engineering (hydrological direction). Its course construction is very necessary and important. In the teaching practice in recent years, Multisim was introduced into the teaching and experiment of “Hydropower Station Automation”, the form and content of experimental teaching were greatly changed, the content of classroom teaching and teaching methods were selected, and the effect of classroom teaching was improved. On the base of laboratory construction, based on the original hardware experiment, a simulation experiment based on Multisim is designed, and the design experiment and comprehensive experiment are added to enable students to understand and flexibly use the theoretical knowledge gained. Through the “Hydropower Automation” curriculum, the course of teaching quality and teaching effectiveness have reached a new level.