Chemical Engineering Thermodynamics 2
Master advanced thermodynamics concepts for chemical engineering, focusing on non-ideal systems, solution thermodynamics, and equilibrium.
Master advanced thermodynamics concepts for chemical engineering, focusing on non-ideal systems, solution thermodynamics, and equilibrium.
This course delves into advanced concepts of chemical engineering thermodynamics, building upon fundamental principles. It emphasizes non-ideal features of single-component and multicomponent systems, with a significant focus on solution thermodynamics and chemical equilibrium. Students will explore the first and second laws of thermodynamics in depth, and learn to apply these principles to real-world engineering challenges. The course covers topics such as fundamental property relations, chemical potential, phase equilibrium, partial molar properties, and vapor-liquid equilibrium. It also introduces students to fugacity, excess properties, and various models for non-ideal solutions. Through eight comprehensive modules, learners will gain practical skills in solving complex thermodynamic problems, preparing them to address critical issues in energy usage, transformation, and global sustainability.
4.9
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What you'll learn
Understand and apply advanced concepts of chemical engineering thermodynamics
Analyze non-ideal features of single-component and multicomponent systems
Master solution thermodynamics and its applications in separations
Apply chemical equilibrium principles in reaction engineering
Use fugacity and activity coefficients to describe non-ideal behavior
Solve complex vapor-liquid equilibrium problems
Skills you'll gain
This course includes:
5 Hours PreRecorded video
8 assignments
Access on Mobile, Tablet, Desktop
FullTime access
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There are 8 modules in this course
This course offers an in-depth exploration of advanced chemical engineering thermodynamics. Students will study the intricacies of non-ideal systems, solution thermodynamics, and chemical equilibrium. The curriculum covers fundamental property relations, chemical potential, phase equilibrium, and partial molar properties. Learners will delve into topics such as fugacity, excess properties, and vapor-liquid equilibrium, gaining practical skills in applying these concepts to real-world engineering problems. The course emphasizes the application of thermodynamic principles to address critical issues in energy usage, transformation, and global sustainability, preparing students for challenges in various industrial sectors.
Week 1
Module 1 · 3 Hours to complete
Week 1
Module 2 · 4 Hours to complete
Week 3
Module 3 · 3 Hours to complete
Week 4
Module 4 · 3 Hours to complete
Week 5
Module 5 · 3 Hours to complete
Week 6
Module 6 · 3 Hours to complete
Week 7
Module 7 · 3 Hours to complete
Week 8
Module 8 · 4 Hours to complete
Fee Structure
Payment options
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Instructor
Associate Professor at KAIST
Dr. Dong-Yeun Koh is an Associate Professor at the Korea Advanced Institute of Science and Technology (KAIST). His expertise and academic contributions are centered around cutting-edge research and education, strengthening KAIST’s reputation as a leader in science and technology.
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4.9 course rating
13 ratings
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