Current Students

Advanced Thermodynamics

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

PE6220

*学时

Credit Hours

48

*学分 Credits

3

*课程名称 Course Name

(中文)高等工程热力学

(英文)Advanced Thermodynamics

课程性质  (Course Type)

公共基础课/General 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

工程热力学、大学物理

Engineering Thermodynamics, Physics

授课教师Teacher

薛渊

课程网址

(Course Webpage)

 

 

 

 

*课程简介

课程定位:重点介绍运用热力学第一、第二定律对热力系统进行分析的方法,涵盖广义热力学关系、热力学性质与系统分析的计算机应用技术,以及精选专题。

主要内容:课程内容包括基本热力学概念的梳理,热力学基本原理分析及应用(热力学第一定律、第二定律),典型热力学循环分析,㶲的介绍及其在热力循环中的应用;热力学在化学反应过程中的应用;燃烧学入门及分析。

先修课程:工程热力学、大学物理

 

 

 

 

 

 

 

 

* Description

Brief Introduction: Fundamentals of thermodynamics from the classical

viewpoint with emphasis on the use of the first and second laws for analysis of thermal systems. Generalized thermodynamic relationships. Computer

applications of thermodynamic properties and system analysis. Selected topics.

Course Content: Review of fundamental thermodynamic concepts;

Analysis and application of thermodynamic principles (First and Second Laws of Thermodynamics); Analysis of typical thermodynamic cycles; Introduction to exergy and its applications in thermodynamic cycles;

Applications of thermodynamics in chemical reaction processes; Fundamentals and analysis of combustion

Prerequisites: Engineering Thermodynamics, Physics
               

课程教学大纲(Course Syllabus

 

 

 

 

 

 

 

 

*学习目标

(Learning Outcomes)

Course Objectives:

  • Demonstrate a deeper understanding of thermodynamic principles
  • Analyze complex thermal systems and demonstrate ability to properly apply thermodynamic principles for modeling those systems
  • Develop facility to use thermomechanical exergy and for exergy analysis
  • Ability to use exergy analysis, including chemical exergy, to analyze systems involving combustion of fuels and reacting systems
  • Develop deeper understanding of thermodynamic property relations and property evaluations and develop mean to evaluate propertiesusing computer software
  • Ability to work in the field using technical resources and literature to investigate problems of interest
  • Ability to work effectively with others
  • Ability to present and defend one’s thinking through written, oral, and interpersonal communication

 

 

 

 

 

 

 

 

 

 

*教学内容、进度安

排及要求

(Class Schedule

& Requirements)

 

Week

Contents

Teaching

Hour

Teaching Method

Thermodynamic Part

1

1st Law: Concepts and Definitions

3

In-class Teaching

2

1st Law: Energy Balance

3

In-class Teaching

3

1st Law: Properties & Control Volume

3

In-class Teaching

4

2nd Law: Statements and Entropy

3

In-class Teaching

5

2nd Law: Exergy Analysis

3

In-class Teaching

6

Vapor Power Systems

3

In-class Teaching

7

Gas Power Systems

3

In-class Teaching

8

Mid-term Exam

3

In-class Exam

Heat Transfer Part

9

Refrigeration and Heat Pump

3

In-class Teaching

10

Thermodynamic Relations

3

In-class Teaching

11

Ideal Gas Mixture and Combustion

3

In-class Teaching

12

Combustion and Chemical Exergy

3

In-class Teaching

13

Chemical (Phase) Equilibrium

3

In-class Teaching

14

Project Presentation

3

In-class Teaching

15

Review

3

In-class Teaching

16

Final Exam

3

In-class Exam

 

 

*考核方式(Grading)

The final grade will be calculated based on the performance in

1) Homework and Quiz: 30%

2) Mid-term test: 20%

3) Final Exam: 20%

4) Project and Presentation: 30%

 

 

*教材或参考资料

(Textbooks & Other

Materials)

 

Chinese reference:

1、工程热力学,高等教育出版社,沈维道、童钧耕编

2、热工基础,高等教育出版社,张学学主编English reference

1. Fundamentals of Engineering Thermodynamics, Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner, Margaret B. Bailey, Wiley.

其它 More

 

备注 Notes

 

 

 

 

 

备注说明:

1.课程大纲一般为教师网上填写,填写要求会自动提示;对于新开课程,需要填着纸质大纲,并经院系教学委员会或专业委员会通过。

2.带*内容为必填项。

3.课程简介字数为 300-500 字;课程大纲以表述清楚教学安排为宜,字数不限。