Chemical Engineering Thermodynamics II (3140507)  

4
Credit
3 + 1 + 0
Lect + Tuto + Pract
Teaching Scheme
70 + 30 + 0
ESE + PA + ALA
Theory Marks
0 + 0 + 0
ESE + OEP + PA
Practical Marks
ESE - End Semester Examination, PA - Progress Assessment, ALA - Active Learning Assignments, OEP -Open Ended Problem


Prerequisite
Chemical Engineering Thermodynamics-I
Rationale
This subject introduces the concepts of fugacity, activity coefficient and other important thermodynamic properties and its evolution for pure components and solutions. Starting with ideal gas mixtures and ideal solutions, the concepts of bubble and dew points are introduced to enable flash calculations and design of process components. Subsequently, various levels of non-ideality and complexity are introduced. The course also provides fundamental insight into the underlying thermodynamic principles of phase equilibria and reaction equilibria to solve complex problems.
Course Outcome
Sr. Co Statement Marks % weightage
CO-1 Explain fundamentals of Solution thermodynamics, phase equilibria and reaction equilibria. 10
CO-2 Apply fundamental property relations to find thermodynamic properties of solutions 15
CO-3 Calculate maximum extent of separation possible under prevailing operating conditions for various multiphase multi component systems 30
CO-4 Determine thermodynamic properties like fugacity, activity coefficients, constants of model equations etc.. for solutions 20
CO-5 Determine equilibrium conversions of reaction systems and its dependence on various operating parameters 25

Active Learning
1. Students can refer to video lectures available on the websites including NPTEL.
2. Students can refer to the CDs which are available with some reference books for the solution of problems using softwares. Students can develop their own programs for the solutions of problems.
3. XSEOS–an Open Software for Chemical Engineering Thermodynamics