附件5．电气学院（系、所）全英研究生课程简介(中英文各一份)课程名称：超导电力科学技术课程代码：131.512课程类型：□博士专修课程■硕士专修课程考核方式：全英文考试教学方式：全英文讲授适用专业：电气工程适用层次：■硕士□博士开课学期：总学时：32学分：2先修课程要求：电磁场、电力系统分析、超导应用基础、应用超导材料课程组教师姓名职称专业年龄学术方向唐跃进（负责人）教授电气工程54超导电力技术任丽副教授电气工程44超导电力技术石晶副教授电气工程32超导电力技术课程负责教师留学经历及学术专长简介：唐跃进，男，1958年生，华中科技大学教授，博士生导师，博士。

中国电机工程学会会员，日本电气学会会员，“十五”863计划材料领域超导技术专项专家组成员。

1982年毕业于华中工学院（华中科技大学前身）高电压技术专业，1984年获高电压技术专业硕士学位后留校任教，1990年赴日本名古屋大学留学，开始从事超导应用技术研究工作并获得博士学位，1996年任日本琉球大学副教授，从事电力系统的教学以及超导技术、高电压技术的研究工作。

1999年5月回国，主要从事超导电力应用技术研究。

课程教学目标：本课程主要目的是学习超导应用技术的相关知识，在简要复习超导基础知识的基础上，根据国内外最新研究进展、发展趋势为，学习超导电力、超导磁体、超导微弱电磁检测、超导应用实验技术。

授课形式：超导基础复习部分采用讲授形式，最新发展动向部分采用研讨形式。

课程大纲：（章节目录）第一章概论（2学时）§1.1 课程简介§1.2 超导电力技术的发展现状及发展趋势§1.3 分配研讨课题第二章超导基础知识（4学时）§2.1 超导的基本电磁物理特性，零电阻、麦斯纳效应、磁通量子效应、交流损耗、超导导线动态电磁特性等；§2.2 超导的约瑟夫森效应、磁通动力学。

第三章超导电力装置（6学时）§3.1 超导电机、超导变压器的特性要点，设计中的注意事项，交流损耗以及超导稳定性分析与设计方法；§3.2 超导电缆、超导磁悬浮的技术特点，设计要点，绝热措施及热损耗；§3.3 超导限流器的基本形式、动作原理及技术要点；§3.4 超导磁储能系统的基本原理、技术特点、以及关键技术难点；§3.5 超导脉冲功率应用技术的研究现状和技术难题；§3.6 查阅最新科技论文，撰写相关内容的调研报告。

第四章含超导装置电力系统特性（4学时）§4.1 超导电力装置对动态电流的响应、交流损耗、动态热稳定性；§4.2 含超导电力装置电力系统的动态特性分析方法、失超保护问题以及和电力系统常规控制保护装置的协调动作问题；§4.3 查阅最新科技论文，撰写相关内容的调研报告。

第五章超导强磁场磁体应用技术（4学时）§5.1 超导磁体的设计方法、技术要点、稳定性设计以及超导磁体电磁场、温度场、应力场综合优化；§5.2 超导磁体在科学研究中的应用简介：加速器、核聚变、磁悬浮、磁推进、磁分离、核磁共振成像等；§5.3 查阅最新科技论文，撰写相关内容的调研报告。

第六章超导电力中的实验测试技术（4学时）§6.1 超导材料电磁参数测量方法，临界电流、磁化、交流损耗；§6.2 超导应用技术中的其他关键参数测量手段，温度、失超传播速度；§6.3 查阅最新科技论文，撰写相关内容的调研报告。

第七章超导微弱电磁信号检测基础（6学时）§7.1 SQUID的形式、原理以及用SQUID进行微弱电磁检测的原理；§7.2 电压标准、心脑电磁检测等微弱电磁检测应用研究的进展；§7.3 查阅最新科技论文，撰写相关内容的调研报告。

第八章课程报告评点与考查（2学时）全英文教材：Bernd Seeber, Handbook of Applied Superconductivity, Institute of Physics Publishing,Bristol and Philadelphia,1998主要参考书：1. 唐跃进，任丽，石晶. 超导电力基础2. 王家素等，超导技术应用，成都科技大学出版社，19953．林良真等.超导电性及其应用.北京：北京工业大学出版社，1998年4. 国际权威杂志上发表的超导应用技术方面的最新论文附件5．电气学院（系、所）全英研究生课程简介(中英文各一份)课程名称：Superconducting power technology课程代码：131.512课程类型：□博士专修课程■硕士专修课程考核方式：全英文考试教学方式：全英文讲授适用专业：electrical engineering适用层次：■硕士□博士开课学期：总学时：32学分：2先修课程要求：electromagnetic field、Power system analysis、foundation of superconductivity application、应用超导材料课程组教师姓名职称专业年龄学术方向Tang Yue Jin （负责人）Professorelectricalengineering54Applied superconductivity课程负责教师留学经历及学术专长简介：Yuejin Tang, professor of HuaZhong University of Science and Technology. He received the B.Sc. and M.Sc. degree from Huazhong University of Science and Technology (HUST) in 1981 and 1984 respectively, and has been engaged in High Voltage Engineering in HUST until 1990. From Oct. 1990, he studied in Nagoya University, Japan, and received the Doctor Degree in Engineering, majoring in applied superconductivity in 1996. During this period, he participated the project of “Prospective Power Transmission Model System Integrated under Superconducting Environment (PROMISE)”. This project won the prize of progress on science and technology form IEE Japan in 1995. Then, he worked in Ryukyu’s University, Okinawa, Japan as an associate professor for three years, and had be engaged in the teaching and researching work on the Power System, the High Voltage Engineering and the Applied Superconductivity. In May 1999, he returned to China and joined to HUST. He is presently engaged in Applied Superconductivity and High Voltage Technology. Now, he is one of the members of Specific Committee on Applied Superconductivity, Institute of Electrical Technology of China.Teaching goals：The main objective of this course is to learn the relevant knowledge of Applied Superconductivity. Based on a brief review of superconducting knowledge and the latest domestic and foreign research progress and development trend，study superconducting power technology, superconducting magnet, superconducting electromagnetic detection and superconducting test technology.Course program：（List of chapters）Chapter 1 Introduction（2 hours）§1.1 Course introduction§1.2 Present station and development trend of superconducting power technology§1.3 Research topicChapter 2 Superconducting Basics（4 hours）§2.1 Basic e lectromagnetic properties of superconductors§2.2 Joseph Sen effect and flux dynamicsChapter 3 Superconducting power devices（6 hours）§3.1 Superconducting motor and transformer§3.2 Superconducting power cable and magnetic levitation§3.3 Superconducting current limiter§3.4 Superconducting magnetic energy storage system§3.5 Superconductor applied in pulsed power technology research and technical problems§3.6 Writing research reportsChapter 4 Research on p ower system containing superconducting power devices （4 hours）§4.1 Dynamic characteristics analysis on superconducting power devices§4.2 Coordination of quench protection and relay protection§4.3 Consulting the latest academic papers, writing research reportsChapter 5 Application of superconducting magnet for high magnetic field (4 hours)§5.1 Design method of superconducting magnets§5.2 Application of superconducting magnet in scientific research§5.3 Consulting the latest academic papers, written research reportsChapter Experimental test of superconducting power technology (4 hours)§6.1 Method for measuring electromagnetic parameters of superconducting materials, such as critical current, magnetic susceptibility, exchange losses;§6.2 Other means of measuring key parameters of superconducting technology, such as temperature and quench propagation velocity§6.3 Consulting the latest academic papers, written research reportsChapter 7 superconducting weak electromagnetic signal detection (6 hours)§7.1 The basic principle of SQUID§7.2 the research development of electromagnetic detection of weak magnetic detection applications§7.3 Consulting the latest academic papers, written research reportsChapter 8 Course report comments and examination (2 hours)teaching materials:Bernd Seeber, Handbook of Applied Superconductivity, Institute of Physics Publishing,Bristol and Philadelphia,1998Teaching materials and major reference books:1. Tang Yuejin, Ren Li, Shi Jing. Foundation of superconductivity application. China Electric Power Press, 20122. Wang Jiasu, et al. The Application of superconducting technology. Chengdu university of science and technology Press, 19953．Lin Liangzhen, et al. The superconductivity and its application. Beijingpolytechnic university press, 19984. The latest research papers about superconducting application published in international magazines。