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Dong-Yeun Koh

An appreciation of thermodynamics is required to become a chemical and biomolecular engineer. Thermodynamics can assess the viability of a process and is one of the curriculum's most essential topics. The principles are utilized in following engineering courses (kinetics, mass transfer, design, materials) and are applicable to numerous engineering disciplines. The increased emphasis on energy usage and transformation as a result of rising demand, diminishing supply, and global warming necessitates that the engineers who will tackle these issues have a firm grasp of thermodynamics.

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An appreciation of thermodynamics is required to become a chemical and biomolecular engineer. Thermodynamics can assess the viability of a process and is one of the curriculum's most essential topics. The principles are utilized in following engineering courses (kinetics, mass transfer, design, materials) and are applicable to numerous engineering disciplines. The increased emphasis on energy usage and transformation as a result of rising demand, diminishing supply, and global warming necessitates that the engineers who will tackle these issues have a firm grasp of thermodynamics.

The first and second laws will be studied in this course. Non-ideal features of single-component and multicomponent systems will be emphasized. A substantial portion of the course is devoted to solution thermodynamics, which is crucial for separations (e.g., distillation, extraction, membranes), and chemical equilibrium, which is crucial for reaction engineering.

"A theory is more striking when its premises are simpler, when it relates more diverse types of things, and when its scope of applicability is broader. Consequently, the profound impact that classical thermodynamics had on me. It is the only physical theory with universal content that I am confident, within the range of its applicability, will never be overthrown."

— Albert Einstein

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What's inside

Syllabus

Week 1
Week 2
Week 3
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Week 4
Week 5
Week 6
Week 7
Week 8

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Applicable to a range of disciplines, it includes process assessment, identification of critical aspects for succeeding, and diversification
Involves hands-on activities, problem-solving, and practical experiments
Exploration of first and second laws, non-ideal single and multicomponent systems, solution thermodynamics, and chemical equilibrium
Taught by renowned professors with expertise in the field
Incorporates diverse media formats, including videos, discussions, and interactive materials, to enhance engagement and knowledge retention
Builds a strong foundation in thermodynamics for chemical and biomolecular engineering students

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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 Chemical Engineering Thermodynamics 1 with these activities:
Review basic algebra and calculus concepts
Ensure a solid foundation in algebra and calculus, which are essential for understanding thermodynamics.
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  • Review notes or online resources on basic algebra and calculus concepts.
  • Practice solving simple equations and derivatives.
Compile Your Course Materials
Gathering and organizing your materials will provide easy access to everything you need for this course and facilitate ongoing preparation and review.
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  • Gather and organize your syllabus, assignments, notes, and any available practice questions
  • Create a designated space for your course materials
  • Establish a system for organizing your materials, whether physical or digital
Connect with a mentor in thermodynamics
Gain personalized guidance and support from an experienced professional in the field.
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  • Identify and research potential mentors.
  • Reach out to mentors and express your interest.
Six other activities
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Read 'Thermodynamics: An Engineering Approach'
Solidify your foundational understanding of the principles of thermodynamics.
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  • Read the assigned chapters thoroughly.
  • Take notes or highlight important concepts.
  • Complete end-of-chapter problems or review questions.
Join a study group for thermodynamics
Reinforce your understanding by collaborating with peers, discussing concepts, and solving problems together.
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  • Identify classmates or peers who are also taking the course.
  • Establish regular meeting times and locations for study sessions.
  • Take turns presenting concepts, leading discussions, and working through problems.
Solve practice problems
Develop your problem-solving skills and strengthen your understanding of thermodynamic concepts.
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  • Find practice problems or homework assignments online or in textbooks.
  • Attempt to solve the problems without looking at solutions.
  • Check your solutions against answer keys or consult with a tutor or instructor.
Attend a workshop on thermodynamics applications
Expand your knowledge and explore practical applications of thermodynamics in various fields.
Browse courses on Thermodynamics
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  • Research and find upcoming workshops related to thermodynamics.
  • Register and attend the workshop.
  • Participate actively and engage with speakers and attendees.
Create a visual representation of thermodynamic processes
Enhance your comprehension and communication skills by creating visual aids that illustrate key thermodynamic processes.
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  • Identify a specific thermodynamic process to focus on.
  • Research and gather data related to the process.
  • Choose a visualization tool (e.g., charts, graphs, simulations).
  • Create and present your visual representation.
Design a system that incorporates thermodynamic principles
Apply your knowledge of thermodynamics to a real-world scenario by designing a system that meets specific requirements.
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  • Identify a specific problem or need that can be addressed through thermodynamics.
  • Research and gather data on relevant thermodynamic principles.
  • Design and develop a system that meets the identified requirements.
  • Evaluate the performance of the system and make necessary adjustments.
  • Present and document your design.

Career center

Learners who complete Chemical Engineering Thermodynamics 1 will develop knowledge and skills that may be useful to these careers:
Chemical Engineer
Chemical engineers apply physical, chemical, and biological sciences to the design and construction of chemical plants and processes. Thermodynamics plays a crucial role in the design and analysis of chemical processes, including the optimization of energy efficiency, the prediction of phase equilibrium, and the evaluation of chemical reactions. This course provides a solid foundation in thermodynamics, which is essential for success as a chemical engineer. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of innovative chemical processes.
Petroleum Engineer
Petroleum engineers design and manage the extraction and production of oil and gas. Thermodynamics is essential for understanding the behavior of fluids in the subsurface, predicting reservoir performance, and optimizing production strategies. This course provides a strong foundation in thermodynamics, which is crucial for success as a petroleum engineer. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of efficient and sustainable oil and gas production methods.
Materials Scientist
Materials scientists research and develop new materials for a wide range of applications, including electronics, aerospace, and medicine. Thermodynamics plays a crucial role in understanding the properties and behavior of materials, including their thermal stability, phase transitions, and mechanical properties. This course provides a solid foundation in thermodynamics, which is essential for success as a materials scientist. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of innovative materials.
Nuclear Engineer
Nuclear engineers design and operate nuclear power plants, which generate electricity by using the heat released from nuclear reactions. Thermodynamics is essential for understanding the thermal performance of nuclear reactors, predicting the behavior of nuclear fuels, and designing safety systems. This course provides a solid foundation in thermodynamics, which is crucial for success as a nuclear engineer. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of safe and efficient nuclear power systems.
Environmental Engineer
Environmental engineers design and implement solutions to environmental problems, such as pollution control, water treatment, and waste management. Thermodynamics is essential for understanding the fate and transport of pollutants in the environment, predicting the behavior of environmental systems, and designing sustainable solutions. This course provides a solid foundation in thermodynamics, which is crucial for success as an environmental engineer. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of effective and sustainable environmental solutions.
Bioengineer
Bioengineers design and develop biological systems and devices for a wide range of applications, including healthcare, pharmaceuticals, and environmental protection. Thermodynamics plays a crucial role in understanding the behavior of biological systems, including the stability of proteins, the kinetics of biochemical reactions, and the transport of fluids in living organisms. This course provides a solid foundation in thermodynamics, which is essential for success as a bioengineer. By understanding the fundamental principles of thermodynamics, you will be well-equipped to solve complex problems and contribute to the development of innovative biological systems and devices.
Chemical Technician
Chemical technicians assist chemical engineers and scientists in the design, development, and operation of chemical processes and equipment. Thermodynamics is essential for understanding the behavior of chemicals and gases in various processes, predicting the outcome of reactions, and optimizing the efficiency of chemical plants. This course provides a solid foundation in thermodynamics, which is crucial for success as a chemical technician. By understanding the fundamental principles of thermodynamics, you will be well-equipped to perform complex tasks and contribute to the safe and efficient operation of chemical processes.
Research Scientist
Research scientists conduct experiments and analyze data to develop new knowledge in a variety of fields, including chemistry, biology, and physics. Thermodynamics plays a crucial role in understanding the behavior of matter and energy, predicting the outcome of reactions, and designing new materials. This course provides a solid foundation in thermodynamics, which may be useful for research scientists who work in fields that require a deep understanding of the fundamental principles of thermodynamics.
Science Teacher
Science teachers educate students about the principles of science, including chemistry, physics, and biology. Thermodynamics is an important part of the science curriculum, and a strong understanding of thermodynamics is essential for science teachers to effectively teach this subject. This course provides a solid foundation in thermodynamics, which may be useful for science teachers who wish to improve their knowledge of this topic.
Technical Writer
Technical writers create user manuals, technical reports, and other documents that explain complex technical concepts to a non-technical audience. Thermodynamics is often used to explain the behavior of machines, products, and processes, and a strong understanding of thermodynamics can be helpful for technical writers who need to write about these topics. This course provides a solid foundation in thermodynamics, which may be useful for technical writers who wish to improve their knowledge of this topic.
Quality Assurance Analyst
Quality assurance analysts ensure that products and services meet quality standards. Thermodynamics is sometimes used to ensure that products meet performance and safety standards, and a basic understanding of thermodynamics can be helpful for quality assurance analysts who work in industries where thermodynamics is relevant. This course provides a basic introduction to thermodynamics, which may be useful for quality assurance analysts who wish to improve their knowledge of this topic.
Patent Examiner
Patent examiners review patent applications to ensure that they meet legal and technical requirements. Thermodynamics is often used in patent applications for inventions related to energy, materials, and processes, and a basic understanding of thermodynamics can be helpful for patent examiners who need to evaluate these applications. This course provides a basic introduction to thermodynamics, which may be useful for patent examiners who wish to improve their knowledge of this topic.
Technical Sales Representative
Technical sales representatives sell technical products and services to businesses and organizations. Thermodynamics is often used to explain the benefits of technical products and services, and a basic understanding of thermodynamics can be helpful for technical sales representatives who need to communicate with customers about these products and services. This course provides a basic introduction to thermodynamics, which may be useful for technical sales representatives who wish to improve their knowledge of this topic.
Product Manager
Product managers oversee the development and marketing of products and services. Thermodynamics is sometimes used to design and test products, and a basic understanding of thermodynamics can be helpful for product managers who need to make decisions about these products. This course provides a basic introduction to thermodynamics, which may be useful for product managers who wish to improve their knowledge of this topic.
Consultant
Consultants provide advice and expertise to businesses and organizations on a variety of topics. Thermodynamics is sometimes used to solve problems related to energy, materials, and processes, and a basic understanding of thermodynamics can be helpful for consultants who work in these areas. This course provides a basic introduction to thermodynamics, which may be useful for consultants who wish to improve their knowledge of this topic.

Reading list

We've selected 13 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 Chemical Engineering Thermodynamics 1.
This textbook comprehensive treatment of chemical engineering thermodynamics. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
This textbook classic work on the thermodynamics of fluid-phase equilibria. It provides a comprehensive treatment of the subject, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
This textbook classic work on statistical thermodynamics. It provides a comprehensive treatment of the subject, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
This textbook comprehensive treatment of the thermodynamics of materials. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Classic work on thermodynamics. It provides a comprehensive treatment of the subject, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of chemical thermodynamics. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of thermodynamics in earth and planetary sciences. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of thermodynamics and an introduction to thermostatistics. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of the thermodynamics of surfaces and interfaces. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of molecular thermodynamics. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of the thermodynamics of solutions. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.
Comprehensive treatment of advanced thermodynamics engineering. It covers both fundamental principles and practical applications, and it is written in a clear and concise style. The book includes numerous examples and problems to help students learn the material.

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