Equilibrium Thermodynamics
A basic guide to research, understand and enjoy
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What about this course?
Equilibrium Thermodynamics is an undergraduate thermodynamics course taught in the 5th semester in the Chemical Engineering (ChE) and Biotechnology Engineering (BioE) Department. For the majority of ChE and BioE undergraduate students, chemical engineering thermodynamics, concentrating on the subjects of phase equilibria, IS ONE OF THE MOST ABSTRACT AND DIFFICULT CORE COURSES IN THE CURRICULUM.
Equilibrium Thermodynamics is an undergraduate thermodynamics course taught in the 5th semester in the Chemical Engineering (ChE) and Biotechnology Engineering (BioE) Department. For the majority of ChE and BioE undergraduate students, chemical engineering thermodynamics, concentrating on the subjects of phase equilibria, IS ONE OF THE MOST ABSTRACT AND DIFFICULT CORE COURSES IN THE CURRICULUM.
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The Va ExcYou will find 9 well prepared and complete topics from the course:
1. Differences between system in equilibrium and steady state
2. Gibbs free energy and chemical potential
3. Magnitude of the thermodynamic properties related to the management of the process.
4. G as a mathematical function of pressure and temperature for a closed system
5. Phase equilibrium in terms of the chemical potential
6. Equations of State
7. Fugacity, its coefficient and activity coefficient
8. Fugacity Calculation and real applications
9. Thermodynamic criteria between phases of a system with a pure component according to the Gibbs free energy and fugacity
10. Phase diagram concept and its components to determine aggregation state of a substance
11. Mathematical models based on Clapeyron equation
12. Equilibrium in a multicomponent system
13. Separation process by distillation
15. Enthalpy concentration diagram
16. Excess Gibbs Free Energy
17. Vapor-Liquid equilibrium deviations
18. Thermodynamic methods
1. Differences between system in equilibrium and steady state
2. Gibbs free energy and chemical potential
3. Magnitude of the thermodynamic properties related to the management of the process.
4. G as a mathematical function of pressure and temperature for a closed system
5. Phase equilibrium in terms of the chemical potential
6. Equations of State
7. Fugacity, its coefficient and activity coefficient
8. Fugacity Calculation and real applications
9. Thermodynamic criteria between phases of a system with a pure component according to the Gibbs free energy and fugacity
10. Phase diagram concept and its components to determine aggregation state of a substance
11. Mathematical models based on Clapeyron equation
12. Equilibrium in a multicomponent system
13. Separation process by distillation
15. Enthalpy concentration diagram
16. Excess Gibbs Free Energy
17. Vapor-Liquid equilibrium deviations
18. Thermodynamic methods
"This is a great opportunity for enrolled students to excercise abstract thinking and master creativity and analytical skills."