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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.

"Engineering Thermodynamics" is the science that studies the mutual conversion of thermal energy and mechanical energy and the effective utilization of thermal energy. It is an important textbook for majors such as energy engineering, power engineering, mechanical engineering, aerospace, engineering thermophysics, built environment and equipment engineering, chemical engineering and nuclear engineering. Professional basic courses are the theoretical basis of energy conservation, as well as the foundation of heat utilization, thermal design, thermal management and thermal control.

This course is an edX course of Tsinghua University's " Engineering Thermodynamics " ( National Quality Course ) physical course (64 hours ) . Considering the large differences in the foundation of students outside the school, the Engineering Thermodynamics edX course is divided into two parts: "Engineering Thermodynamics ( Part 1 )"》Mainly covers basic concepts, the first law of thermodynamics, the second law of thermodynamics, the properties and processes of ideal gases, and gas power cycles; while "Engineering Thermodynamics ( Part 2 ) " mainly covers the properties and processes of actual gases, steam power cycles, Refrigeration cycle, humid air, thermodynamic differential relations, basics of chemical thermodynamics, and expanded content such as subject research frontiers and introduction to research applications ( marked with * , no assessment requirements ) , etc.

What's inside

Learning objectives

  • The properties and processes of real gas;
  • Steam power cycle;
  • Refrigeration cycle;
  • Wet air;
  • Differential equation of thermodynamics;
  • Fundamentals of chemical thermodynamics;
  • Brief introductions of the research frontier and research application;
  • ……
  • Properties and processes of actual gases;
  • Steam power cycle;
  • Refrigeration cycle;
  • Moist air;
  • Thermodynamic differential relations;
  • Introduction to subject research frontiers and research applications;

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
适用人群为能源工程、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、化学工程、核工程本专业学生
授课老师为清华大学教授
本课程内容涵盖工热部分重要核心内容

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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 (II) | 工程热力学(下) with these activities:
Review calculus and differential equations
Refreshing your knowledge of calculus and differential equations will provide you with a strong foundation for understanding the mathematical concepts used in thermodynamics.
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  • Review your lecture notes and textbooks on calculus and differential equations.
  • Solve practice problems.
  • Complete online quizzes and assessments.
Review ideal gas law and its applications
Reviewing the ideal gas law and its applications will help you build a strong foundation for understanding the concepts of thermodynamics.
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  • Read the textbook chapter on the ideal gas law.
  • Solve practice problems involving the ideal gas law.
  • Review lecture notes on the ideal gas law.
Organize your lecture notes, assignments, and quizzes
Organizing your course materials will help you stay on top of the course content and easily access the information you need.
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  • Gather all of your lecture notes, assignments, and quizzes.
  • Sort the materials by topic.
  • Create a filing system or use a digital tool to organize the materials.
Six other activities
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Solve practice problems on the first law of thermodynamics
Solving practice problems on the first law of thermodynamics will help you develop a deeper understanding of the concept and its applications.
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  • Find practice problems on the first law of thermodynamics.
  • Solve the practice problems.
  • Check your answers and identify areas where you need more practice.
Review and discuss the properties of real gases
Reviewing and discussing the properties of real gases with peers will help you deepen your understanding and identify areas where you need more clarification.
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  • Form a study group with peers.
  • Review the lecture notes and textbook materials on the properties of real gases.
  • Meet with your study group to discuss the material.
Follow online tutorials on steam power cycles
Following online tutorials on steam power cycles will provide you with additional resources and perspectives to enhance your understanding.
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  • Search for online tutorials on steam power cycles.
  • Follow the tutorials and take notes.
  • Complete the practice exercises and quizzes.
Create a presentation on the second law of thermodynamics
Creating a presentation on the second law of thermodynamics will help you synthesize your understanding of the concept and communicate it effectively.
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  • Research the second law of thermodynamics.
  • Develop a presentation outline.
  • Create the presentation slides.
  • Practice delivering the presentation.
Create a diagram of the refrigeration cycle
Creating a diagram of the refrigeration cycle will help you visualize the process and understand its components.
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  • Gather information about the refrigeration cycle.
  • Sketch out a draft of the diagram.
  • Finalize the diagram and label the components.
Volunteer at a local power plant
Volunteering at a local power plant will provide you with hands-on experience and allow you to observe the practical applications of thermodynamics.
Browse courses on Thermodynamics
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  • Contact local power plants and inquire about volunteer opportunities.
  • Attend training and safety briefings.
  • Perform volunteer duties under the supervision of experienced staff.

Career center

Learners who complete Engineering Thermodynamics (II) | 工程热力学(下) will develop knowledge and skills that may be useful to these careers:
Mechanical Engineer
Mechanical Engineers design, build, and test mechanical devices, including tools, engines, and machines. This course may be useful for Mechanical Engineers because it provides a foundation in thermodynamics, which is the study of energy conversion. This understanding can help Mechanical Engineers design and optimize systems that efficiently convert thermal energy into mechanical energy.
Chemical Engineer
Chemical Engineers apply the principles of chemistry, biology, physics, and mathematics to solve problems involving the production or use of chemicals, fuels, drugs, food, and other materials. This course may be useful for Chemical Engineers because it provides a foundation in thermodynamics, which is essential for understanding and designing chemical processes. The course covers topics such as the properties of gases and liquids, chemical reactions, and energy transfer.
Materials Scientist
Materials Scientists research and develop new materials, such as metals, ceramics, polymers, and composites. This course may be useful for Materials Scientists because it provides a foundation in thermodynamics, which is essential for understanding the properties of materials and how they behave under different conditions. The course covers topics such as the structure of materials, phase transitions, and heat transfer.
Nuclear Engineer
Nuclear Engineers design, build, and operate nuclear power plants. This course may be useful for Nuclear Engineers because it provides a foundation in thermodynamics, which is essential for understanding the operation of nuclear reactors. The course covers topics such as heat transfer, fluid dynamics, and nuclear reactions.
Aerospace Engineer
Aerospace Engineers design, build, and test aircraft, spacecraft, and other vehicles that fly. This course may be useful for Aerospace Engineers because it provides a foundation in thermodynamics, which is essential for understanding the propulsion systems of aircraft and spacecraft. The course covers topics such as gas dynamics, heat transfer, and fluid mechanics.
Environmental Engineer
Environmental Engineers design, build, and operate systems to protect the environment. This course may be useful for Environmental Engineers because it provides a foundation in thermodynamics, which is essential for understanding the processes that affect the environment, such as air pollution, water pollution, and climate change. The course covers topics such as heat transfer, fluid dynamics, and chemical reactions.
Civil Engineer
Civil Engineers design, build, and maintain infrastructure, such as roads, bridges, and buildings. This course may be useful for Civil Engineers because it provides a foundation in thermodynamics, which is essential for understanding the properties of construction materials and how they behave under different conditions. The course covers topics such as heat transfer, fluid dynamics, and structural mechanics.
Electrical Engineer
Electrical Engineers design, build, and maintain electrical systems, such as power plants, transmission lines, and electronic devices. This course may be useful for Electrical Engineers because it provides a foundation in thermodynamics, which is essential for understanding the operation of electrical systems. The course covers topics such as heat transfer, fluid dynamics, and electromagnetism.
Computer Engineer
Computer Engineers design, build, and maintain computer systems. This course may be useful for Computer Engineers because it provides a foundation in thermodynamics, which is essential for understanding the cooling systems of computers. The course covers topics such as heat transfer, fluid dynamics, and materials science.
Software Engineer
Software Engineers design, build, and maintain software systems. This course may be useful for Software Engineers because it provides a foundation in thermodynamics, which is essential for understanding the cooling systems of computers. The course covers topics such as heat transfer, fluid dynamics, and materials science.
Data Scientist
Data Scientists collect, analyze, and interpret data to solve problems. This course may be useful for Data Scientists because it provides a foundation in thermodynamics, which can be used to analyze and interpret data related to energy consumption and efficiency. The course covers topics such as heat transfer, fluid dynamics, and statistical mechanics.
Financial Analyst
Financial Analysts analyze and interpret financial data to make investment recommendations. This course may be useful for Financial Analysts because it provides a foundation in thermodynamics, which can be used to analyze and interpret data related to energy companies and industries.
Management Consultant
Management Consultants help organizations improve their performance. This course may be useful for Management Consultants because it provides a foundation in thermodynamics, which can be used to analyze and interpret data related to energy consumption and efficiency in organizations. The course covers topics such as heat transfer, fluid dynamics, and economic analysis.
Sales Manager
Sales Managers lead sales teams to achieve sales goals. This course may be useful for Sales Managers because it provides a foundation in thermodynamics, which can be used to analyze and interpret data related to energy consumption and efficiency in sales processes. The course covers topics such as heat transfer, fluid dynamics, and customer relationship management.
Marketing Manager
Marketing Managers develop and execute marketing campaigns to promote products and services. This course may be useful for Marketing Managers because it provides a foundation in thermodynamics, which can be used to analyze and interpret data related to energy consumption and efficiency in marketing campaigns. The course covers topics such as heat transfer, fluid dynamics, and consumer behavior.

Reading list

We've selected 14 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 (II) | 工程热力学(下).
Provides an in-depth coverage of the principles and applications of engineering thermodynamics.
本书为化学热力学经典教材,可作为本课程的拓展教材。
本书为气体动力学经典教材,可作为本课程的拓展教材。
本书为湿空气领域的专著,可作为本课程中“湿空气”部分的补充教材。
本书为热力学原理教材,可作为本课程的拓展教材。

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