Current Students

New Energy Systems

上海交通大学硕士研究生课程教学大纲

 

课程基本信息(Course Information

课程代码

Course Code

PE6441

*学时

Credit Hours

48

*学分

Credits

3

*课程名称

Course Name

(中文)新能源系统

(英文)New Energy Systems

课程性质

(Course Type)

专业基础课

Discipline Fundamental Course

授课语言

(Language of Instruction)

英文

English

*开课院系

School

中英国际低碳学院

China-UK Low Carbon College

先修课程

Prerequisite

Fundamentals of Thermodynamics (热力学基础)

Heat Transfer (传热学)

授课教师

Teacher

张振东/薛渊

课程网址

(Course Webpage)

/

 

*课程简介(Description

新能源系统课程将根据所依赖的各项技术来介绍各种能源系统。基于热力学及经济性的原则,对各类能源系统进行分析。同时,对新能源系统使用的背景,包括气候变化、能源可再生等议题,也会有相应的介绍。

*课程简介(Description

New Energy Systems (Credits: 3) - Typical energy systems will be introduced with economic and thermodynamic principles. Various production systems will be analyzed. Sustainability, climate change, and other current energy system topics will also be addressed. The technologies of clean renewable energy such as nuclear power, hydropower, solar energy and wind energy are discussed, followed by a review of the state-of-the-art processes to produce alternative fuels such as biodiesel, bioethanol and biogases. Mobile power packs such as battery technology, hydrogen energy and fuel cells are discussed and the prospects of application in the transportation sector are examined. Lastly, energy sources from the Mother Nature such as geothermal energy, ocean thermal energy, tidal and wave energy for power generation are discussed

 

课程教学大纲(course syllabus

*学习目标(Learning Outcomes)

Upon completion of course study, students should:

  1. Understand the complexities associated with various energy systems:
  2. Appreciate the “big picture” related to different energy systems;
  3. Have quantitative and qualitative tools to evaluate energy systems or sub-systems;
  4. Appreciate the global energy picture

*教学内容、进度安排及要求

(Class Schedule

& Requirements)

Week 1

Overview + Energy System Analysis Tool + Economic Analysis Tool

Week 9

Alternative Fuels

Week 2

Climate Change + Carbon Neutrality

Week 10

Battery + Transportation System

Week 3

Fossil Fuel + Combustion System + Carbon Sequestration

Week 11

Hydrogen + Fuel Cell

Week 4

Nuclear Energy

Week 12

Energy Storage

Week 5

Solar Energy + Heat Storage

Week 13

Hydropower + Tidal + Wave Energy

Week 6

Solar PV

Week 14

Presentation

Week 7

Wind Energy

Week 15

Final Review

Week 8

Biomass Conversion Technology

Week 16

Case Study

+ Final Exam

 

*考核方式

(Grading)

Your final grade will be calculated based on your performance in the following areas: Homework+Quiz (25%), Midterm Test (15%), Final Exam (20%), Project+Presentation (40%).

*教材或参考资料

(Textbooks & Other Materials)

English Textbook:

  1. Vanek, F.M., Albright, L.D., and Angenent, L.T., Energy Systems Engineering: Evaluation and Implementation, 2nd Edition, McGraw-Hill, New York, 2012
  2. Boyle, Godfrey. Renewable Energy: Power for a Sustainable Future, Third Edition. Oxford University Press, 2012.
  3. Bent Sørensen, Renewable Energy-Its physics, engineering, use, 3rd ed, Elsevier Science, 2004
  4. Aldo Vieira da Rosa, Fundamentals of Renewable Energy Processes, 2nd ed. Academic Press, 2009
  5. 左然,施明恒,王希麟,可再生能源概论,机械工业出版社,2007

Other Supplemental Materials may also be provided.

其它

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备注

Notes