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1、中国科学技术大学本科新开课程申请表中国科学技术大学本科新开课程申请表2011 年 6 月 20 日课程名称能源科学大师讲堂能源科学大师讲堂英文名称Master forum on Energy Science姓名职称年龄所在院系 开课教师 张卓敏张卓敏教授教授50美国乔治亚理工大学美国乔治亚理工大学面向对象工程学院高年级本科及研究生,其它院感兴趣学生工程学院高年级本科及研究生,其它院感兴趣学生预修课程传热学或热工基础传热学或热工基础通修 学科群基础 专业 高级选修 必修春 夏 秋 冬 理论学时/实验学时20学分1课程属性理论课20学时1学分,实验40学时1学分新编课号原计划中的必修学分不变。 原
2、计划中的必修学分从 变为 。 替换原计划中的课程: 课程编号课程名称学分/学时计划调整申请原因:配合学校三学期改革,邀请国际著名学者来学校开 设国际前沿课程,开拓学生国际视野,引领国际科学前沿。学院意见:教务处意见:备注:理论教学大纲大纲撰写人 张卓敏教授一、教学目标和基本要求 目标:培养学生国际视野,引领学生到科学前沿 要求:有传热学或热工基础基础,并完成课堂作业及相关领域文献阅读与交流 二、课程简介 Understanding the energy transport mechanisms in small dimensions and short timescales is crucia
3、l for future advances of nanotechnology. When the characteristic length becomes comparable to the mechanistic length scale, continuum assumptions that are often made in conventional thermal analyses may break down; similarly, when the characteristic time becomes comparable to the mechanistic timesca
4、le, traditional equilibrium approaches may not be appropriate. This short course will follow a logical sequence about the emerging field of micro/nanoscale heat transfer, which is very important for future energy, microelectronics, biomedical, manufacturing and environmental research. The mechanisms
5、 of energy transport by molecules, atoms, electrons, phonons, and photons are to be explained in an easy-to- understand approach, considering both the particle nature and wave nature of thermal energy carriers. The materials are based on the comprehensive and coherent textbook, written by the instru
6、ctor, with ample examples and end-of-chapter problems; see Zhang, Z.M., Nano/Microscale Heat Transfer (New York: McGraw-Hill, 2007). An outline of each cluster is given below. 三、教学重点、难点 重点:微纳米尺度传热基础理论,国际研究热点,最新研究动态 难点:尺度效应、常规理论限制、研究方法 四、教材名称及主要参考书 Nano/Microscale Heat Transfer (McGraw-Hill, 2007)五、课
7、程章节主要内容及学时分配共 4 个专题,每个专题 4 学时 课堂除了教学之外,需要完成相应作业,阅读指定文献及交流Cluster 1 (3 hrs): Historical Development and Importance of Micro/Nanoscale Heat Transfer- Historic retrospective and the driving force of micro/nanoscale heat transfer- Microfluidics and microscale heat conduction- Transport phenomena: diffus
8、ion versus radiation- Background on statistical mechanics- Applications to microchannel and solid-state devicesCluster 2 (3 hrs): Boltzmann Transport Equation (BTE) and the Size Effect- Kinetic theory and transport properties- Boltzmann transport equation and its applications- Temperature effect on
9、thermal properties- Size effect on electrical and thermal properties- Practical examplesCluster 3 (3 hrs): Nonequilibrium Heat Transfer- Crystal structures and electron band structures- Thermal issues in solid-state devices- Laser heating and ultrafast processes- Non-Fourier-type heat equations- Com
10、ments on the local equilibrium condition and hyperbolic heat equation- Radiation entropy, phonon entropy, and brightness temperatureCluster 4 (3 hrs): Nanoscale Thermal Radiation and Applications to Energy Conversion- Wave versus particle approaches- Far field versus near field- The origin of thermal radiation and the fluctuational electrodynamics- Applications to near-field thermophotovoltaic systems- Thermal radiative properties of micro/nanostructures- Metamaterial or negative refractive index - Summary and conclusions六、系审批意见系主任签字: 年 月 日 七、学院审批意见院长签字: 年 月 日
