Current Students

Energy Clean and Cascade Utilization

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

PE6420

*学时

Credit Hours

48

*学分

Credits

   3

*课程名称

Course Name

(中文)能源清洁与梯级利用

(英文)Energy Clean and Cascade Utilization

课程性质

(Course Type)

专业选修课

授课语言

(Language of Instruction)

English

 

*开课院系

School

China-UK Low Carbon College

先修课程

Prerequisite

Clean Energy, Thermodynamic Engineering, Heat Transfer, Fluid Dynamics

授课教师

Teacher

Associate Prof. Xiaojing Lv

课程网址

(Course Webpage)

/

 

*课程简介(Description

《能源清洁与梯级利用》是一门针对在“碳达峰、碳中和”背景下,

以可再生能源开发、化石能源清洁高效转化利用为主要内容的研究生专业课程,具体包括:天然气/煤等化石能源的高效利用技术及相关设备,燃气轮机/蒸汽轮机发电技术、燃料电池、制氢技术、太阳能利用技术、海洋能利用技术、燃料电池/燃气轮机混合动力系统、能源梯级利用、智慧能源集成系统、碳捕集再利用技术等相关技术的发展状况及前景。通过课程学习使学生掌握能源清洁及梯级利用技术的基本理论、研究方法以及数学建模方法。

本课程目标主要包括:1)掌握可再生能源基本概念,掌握可再生能源利用原理及方法;2)掌握天然气、煤气合成气、合成气制氢等的组成成分及高效转化计算原理和技术方法;3)了解国内外先进能源高效转换和利用原理及基本方法;4)掌握能源梯级利用原理及基本方法,熟悉CCHP IGCCIGFC、智慧能源集成系统、碳捕集再利用技术等基本过程。

*课程简介(Description

Energy Clean and Cascade Utilization is a postgraduate professional course focusing on renewable energy exploitation, clean and efficient energy conversion and utilization under the background of "carbon peak and carbon neutral", that include the following contents: high efficiency utilization technology and related equipment of fossil energy such as natural gas/coal, gas turbine/steam turbine power generation technology, fuel cell, nuclear energy, solar energy technology, hydrogen production technology, ocean energy technology, fuel cell/gas turbine hybrid system, energy cascade utilization, smart energy systemscarbon capture and recycling and related technology development status and prospects. The students will master the fundamental theory of clean energy and cascade utilization as well as the research method, and mathematic modeling method.

课程教学大纲(course syllabus

*学习目标(Learning Outcomes)

The focus of Energy Clean and Cascade Utilization is integration of the renewable energy efficient utilization technology, the cleaning of conventional fossil energy and the energy cascade utilization. The course is intended to provide students with the following benefits:

1) Understand the basic concept of renewable energy, master the clean energy utilization technology and method.

2) Master the composition of conventional fossil energy, hydrogen production technology, and efficient conversion principle and application technology of conventional fuels like coal, oil, and natural gas.

3) Understand the principles and basic methods of advanced energy efficient conversion and utilization.

4) Master energy cascade utilization principle and basic technology, be familiar with the basic processes of cold, heat and electricity co-generation, IGCC, IGFC, smart energy system, carbon capture and recycling etc

*教学内容、进度安排及要求

(Class Schedule

& Requirements)

Contents: 1) Energy Category and Define; 2) World energy consumption and outlook; 3) Fossil fuels and the environment; 4) Energy transition.5Clean energy technology: Fuel cell category and define

3

Classroom teaching& Discussion

Associate Prof. Xiaojing Lv

1

Contents:

1Fuel cell power system2Energy conversion in fuel cells3

Thermodynamic and electrochemical performance and model establishment 4Fuel Cell power plant in the world

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

 (2

Contents:

1Gas turbine classification and development

2) Theory of operation and energy conversion

3) Gas turbine power plant and Combined cycle system

4) Modelling and thermodynamic

5) Gas turbine power using H2 and NH3

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

 (3

Contents:

  1. Low-temperature heat source concept and classification;
  2. Working principle of the ORC
  3. Applications for the ORC
  4. Modeling of ORC systems
  5. ORC combined with other clean power cycle

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

 (4

Contents:

  1. Natural gas category and components;
  2. Natural gas Utilization Technology;
  3. Traditional Combustion
  4. Clean Combustion Technology
  5. Natural gas in Smart energy system

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

 (5

Contents:

Gas turbine combined cycle generator system and smart energy saving technology in Shanghai relative company

3

Visit and discussion

Associate Prof. Xiaojing Lv

6

 

Contents:

1) Conception of energy grade and utilization vale analysis;

2) Method and technology of Energy cascade utilization;

3) Theory of thermal conversion and technology; 4) Low-grade energy utilization and the heat pump; 5) The theory of the combined cooling heating and power generation and case study.

6) Design of Low carbon cycle

6

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

7)(8

Contents: 1) Power regeneration technology with supercritical steam;

2) Power regeneration technology by using fluidized boiler with high pressure;

3) Integrated coal gasification combined cycle technology (IGCC);

4) Integrated coal gasification combined fuel cell cycle (IGFC) technology.

 

6

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

9)(10

Contents: 1) History of biomass energy utilization;

2) Power generation with biomass power and comparing with the other power generation technology;

3) Influence of biomass power on the environment;

4) Some problems confronted with hydrogen made from biomass, including the safety of transportation of the raw material and the biomass waste process.

5) Modeling of producing H2

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

11

Contents: 1) General introduction of solar energy; 2) Solar collector and corresponding design theory; 3) The application of solar energy in the buildings;

 4) Power generation by using solar energy.

 

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

(12)

Contents: 1) General introduction of wind energy; 2) Fundamental theory of wind energy and corresponding equipment as well as the efficiency of power generation with wind.

 

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

(13)

Contents: 1) General introduction of Multi-vector energy system;

2)Smart energy system and its application;

3) Operational performance;

4) Microgrid.

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

(14)

Contents: 1) Introduction of ocean energy and relevant equipment;

2) Introduction of ocean flow energy and relevant equipment;

3) Introduction of tidal energy and relevant equipment

3

Classroom teaching & discussion

Associate Prof. Xiaojing Lv

(15)

Discussion and Report

Each student will make a presentation PPT, and the presentation and discussion time will be 10 minutes.

3

Grading

Associate Prof. Xiaojing Lv

(16)

 

*考核方式

(Grading)

Class attendance 20%+Individual assignments30% +Team assignments 50%

*教材或参考资料

(Textbooks & Other Materials)

[1] Lawrence E. Jones. Renewable Energy Integration. Academic Press. ISBN:9780124079106. 2014.

[2] China national development and reform commission. International Renewable Energy Current Status and Future Outlook. China Environmental Science Press. ISBN9787802092938. 2006.

[3] Honggang Jin, Rumou Lin. Comprehensive cascade utilization of energy and gas turbine total energy system. Science Press. ISBN: 9787030203663. 2008.

[4] Zongxing Wu, Wenying Chen. Multiplication Strategy of Clean energy Based on the Coal. Tsinghua University Publishing House, ISBN 7302042985.2001.

[5]. Yiwu Weng. Low grade heat energy conversion process and utilization. Shanghai Jiao Tong University Publishing House, ISBN: 9787313123763/TK.2014.

[6]. Yiwu Weng, Xiaojing Lv. Energy technology. Shanghai Science and Technology Publishing House, ISBN  9787547836392/N. 2017.

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