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Xiaomin Wu

Engineering thermodynamics is a classical subject that studies the conversion of thermal energy and mechanical energy and the effective utilization of thermal energy. It is not only an important professional basic course for energy engineering, power engineering, mechanical engineering, aerospace, engineering thermophysics, building environment and equipment engineering, chemical engineering, and nuclear engineering, but also the theoretical basis of energy saving and the basis of heat utilization, heat design, heat management, and heat control foundation.

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Engineering thermodynamics is a classical subject that studies the conversion of thermal energy and mechanical energy and the effective utilization of thermal energy. It is not only an important professional basic course for energy engineering, power engineering, mechanical engineering, aerospace, engineering thermophysics, building environment and equipment engineering, chemical engineering, and nuclear engineering, but also the theoretical basis of energy saving and the basis of heat utilization, heat design, heat management, and heat control foundation.

This is an edX course of "engineering thermodynamics" (National Excellent Course, 64 class hours) of Tsinghua University. Considering the differences in the basic knowledge of the learners outside the university, the edX course is divided into two parts: Engineering Thermodynamics (I) mainly includes basic concepts, the First Law of Thermodynamics, the Second Law of Thermodynamics, the properties and process of ideal gas and gas power cycle, etc; Engineering Thermodynamics (Ⅱ) mainly includes the properties and processes of real gas, steam power cycle, refrigeration cycle, wet air, the differential equation of thermodynamics, fundamentals of chemical thermodynamics, as well as some brief introductions of the research frontier and research application (as an extension of the course, marked with *, not included in grades), etc.

《工程热力学》是研究热能与机械能互相转换以及热能有效利用的科学,是能源工程、动力工程、机械工程、航空航天、工程热物理、建筑环境与设备工程、化工及核工程等专业的重要的专业基础课,是节能的理论基础,是热利用、热设计、热管理及热控制等的基础。

本课程为清华大学“工程热力学”(国家精品课)实体课(64学时)的edX课程,考虑到校外学员的基础等差异较大,工程热力学edX课程分上下两部分:《工程热力学(上)》主要有基本概念、热力学第一定律、热力学第二定律、理想气体的性质与过程以及气体动力循环等;而《工程热力学(下)》则主要有实际气体的性质与过程、蒸汽动力循环、制冷循环、湿空气、热力学微分关系式、化学热力学基础,以及学科研究前沿及研究应用简介等拓展内容(以*标注,不作考核要求)等。

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What's inside

Learning objectives

  • Basic concepts;
  • First law of thermodynamics;
  • Second law of thermodynamics;
  • The properties and processes of ideal gas;
  • Gas power cycle;
  • ……
  • 基本概念;
  • 热力学第一定律;
  • 热力学第二定律;
  • 理想气体的性质与过程;
  • 气体动力循环;

Good to know

Know what's good
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May be a good choice for students who have a solid foundation in thermodynamics
Suitable for undergraduates or graduates in engineering or related fields who seek a comprehensive understanding of engineering thermodynamics
Offers a strong foundation in the fundamentals of thermodynamics, making it suitable for beginners in the field
Incorporates interactive materials, such as simulations and exercises, to enhance understanding
Taught by instructors from Tsinghua University, who are recognized for their expertise in thermodynamics
Course materials are available in both English and Chinese, making it accessible to a wider audience

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Engineering Thermodynamics (I) | 工程热力学(上) with these activities:
Review basic calculus and differential equations
Refreshing your foundational skills in calculus and differential equations will provide a strong basis for understanding the mathematical concepts in engineering thermodynamics.
Browse courses on Calculus
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  • Review lecture notes, textbooks, or online resources on calculus and differential equations.
  • Solve practice problems to refresh your problem-solving skills.
热力学术语和公式汇编
创建一个汇编,收集所有重要的热力学术语和公式
Show steps
  • 从教科书、讲义和笔记中收集热力学术语和公式
  • 将术语和公式整理成易于阅读和理解的格式
  • 定期回顾汇编,加深记忆
Explore online tutorials and video lectures
Taking advantage of online resources can supplement your learning and provide alternative perspectives on the course material.
Show steps
  • Search for reputable online tutorials and video lectures related to the course topics.
  • Set aside time to watch or read the tutorials, taking notes on key concepts and insights.
  • Apply what you learn from the tutorials to your assignments and discussions.
Seven other activities
Expand to see all activities and additional details
Show all ten activities
Review 'Engineering Thermodynamics' by Yunus A. Cengel and Michael A. Boles
Review a widely respected textbook to refresh your foundational knowledge in thermodynamics. This will help you better understand the course materials and improve your performance.
Show steps
  • Order and read the book.
  • Take notes on the key concepts, definitions, and equations.
  • Solve practice problems at the end of each chapter to test your understanding.
Organize and review your notes, assignments, and practice problems
Regularly organizing and reviewing your materials will help you retain information and identify areas where you need additional support.
Show steps
  • Create a system for organizing your notes, assignments, and practice problems.
  • Set aside time each week to review your materials.
  • Identify areas where you need additional clarification and seek support from your instructor or peers.
Participate in study groups or online forums
Engaging in discussions with peers can help you clarify concepts, identify areas of improvement, and stay motivated throughout the course.
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  • Join or form a study group with classmates.
  • Set regular meeting times and identify topics to discuss each session.
  • Take turns presenting the material, leading discussions, and facilitating group problem-solving.
  • Participate actively in online forums, asking and answering questions related to the course.
Solve practice problems from the textbook and online resources
Regularly practicing problem-solving will enhance your comprehension of the course material and improve your problem-solving skills.
Browse courses on Thermodynamics
Show steps
  • Identify challenging practice problems from the textbook or reputable online sources.
  • Set aside time each week to work on these problems.
  • Check your solutions against the provided answers or consult with a tutor or instructor if needed.
Develop a presentation on a specific engineering thermodynamics topic
By actively teaching a topic to others, you will reinforce your understanding of the material and develop effective communication skills.
Show steps
  • Choose a specific topic related to the course material that you find interesting or challenging.
  • Research the topic in depth, gathering information from textbooks, journal articles, and other credible sources.
  • Organize your findings into a logical presentation structure, including an introduction, body, and conclusion.
  • Create visual aids, such as slides or diagrams, to enhance your presentation.
  • Practice delivering your presentation to receive feedback and improve your delivery skills.
热力学讨论小组
参与讨论小组,与同学交流和讨论热力学概念
Show steps
  • 加入或组织一个热力学讨论小组
  • 积极参与讨论,提出问题并回答问题
  • 与小组成员合作解决难题和练习题
Contribute to open-source projects related to engineering thermodynamics
Participating in open-source projects will provide you with practical experience and deepen your understanding of engineering thermodynamics principles.
Show steps
  • Identify open-source projects related to engineering thermodynamics.
  • Review the project documentation and codebase to understand the project's purpose and structure.
  • Contribute code, documentation, or other resources to the project.
  • Collaborate with the project maintainers and other contributors.

Career center

Learners who complete Engineering Thermodynamics (I) | 工程热力学(上) will develop knowledge and skills that may be useful to these careers:
Power Plant Engineer
A Power Plant Engineer designs, constructs, and operates power plants that generate electricity. This course in Engineering Thermodynamics (I) will help you build a foundation for this career by providing you with a comprehensive understanding of the basic concepts and principles of thermodynamics, including the First and Second Laws of Thermodynamics, the properties and process of ideal gas and gas power cycle, etc.
HVAC Engineer
An HVAC Engineer designs, installs, and maintains heating, ventilation, and air conditioning systems. This course in Engineering Thermodynamics (I) will help you build a foundation for this career by providing you with a comprehensive understanding of the basic concepts and principles of thermodynamics, including the First and Second Laws of Thermodynamics, the properties and process of ideal gas and gas power cycle, etc.
Energy Auditor
An Energy Auditor conducts energy audits to identify ways to reduce energy consumption and improve energy efficiency. This course in Engineering Thermodynamics (I) will help you build a foundation for this career by providing you with a comprehensive understanding of the basic concepts and principles of thermodynamics, including the First and Second Laws of Thermodynamics, the properties and process of ideal gas and gas power cycle, etc.
Thermodynamics Engineer
A Thermodynamics Engineer designs and develops systems that convert thermal energy into mechanical energy or vice versa. This course in Engineering Thermodynamics (I) will help you build a foundation for this career by providing you with a comprehensive understanding of the basic concepts and principles of thermodynamics, including the First and Second Laws of Thermodynamics, the properties and process of ideal gas and gas power cycle, etc.
Environmental Engineer
An Environmental Engineer designs, develops, and implements solutions to environmental problems. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Software Engineer
A Software Engineer designs, develops, and maintains software systems. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Civil Engineer
A Civil Engineer designs, builds, and maintains infrastructure. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Nuclear Engineer
A Nuclear Engineer designs, develops, and operates nuclear power plants. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Aerospace Engineer
An Aerospace Engineer designs, develops, and tests aircraft, spacecraft, and other aerospace vehicles. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Electrical Engineer
An Electrical Engineer designs, develops, and maintains electrical systems. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Computer Engineer
A Computer Engineer designs, develops, and maintains computer systems. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Petroleum Engineer
A Petroleum Engineer designs, develops, and operates oil and gas fields. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Mechanical Engineer
A Mechanical Engineer designs, develops, and builds mechanical systems. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Materials Scientist
A Materials Scientist researches and develops new materials. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.
Chemical Engineer
A Chemical Engineer designs, develops, and operates chemical plants. This course in Engineering Thermodynamics (I) may be useful for this career by providing you with a basic understanding of the concepts and principles of thermodynamics.

Reading list

We've selected eight books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Engineering Thermodynamics (I) | 工程热力学(上).
Classic textbook on engineering thermodynamics and is widely used in university courses. It provides a comprehensive coverage of the subject and is written in a clear and concise style. The book is also rich in examples and problems, which makes it a valuable resource for students.
本书以通俗易懂的语言介绍了热力学基本原理和工程应用。适合作为热力学课程的教材或参考书。
本书以工程应用为导向,内容全面、深入浅出,适合作为热力学课程的教材或参考书。
本书介绍了统计热力学的基本原理和应用,适合作为热力学课程的补充教材或参考书。
本书注重工程应用,介绍了热力学系统的工作和传热的原理。适合作为热力学课程的参考书。

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