1. Chemical Engineering Thermodynamics (TKK-2137) 14/15 Semester 3 Instructor: Rama Oktavian Email: rama.oktavian@ub.ac.id Office Hr.: M.13-15, T. 13-15, W. 13-15, F. 13-15

2. Introduction  Find me on: /rama.oktavian /oktavian_rama Rama Oktavian +6285748298891 Lecturer’s blog http://oktavianrama.lecture.ub.ac.id/

3. Introduction  Based on study guide  3 credits - compulsory – Allowed :

4. Introduction – Not Allowed : University Rule : Come to class minimum 80% during one semester meeting or you will miss FINAL EXAM Academic misconduct

5. Objectives – Student will be able to solve chemical engineering problems by applying 1 st and 2 nd law thermodynamics. – Student will be able to use and choose very appropriate Equation of State (EoS) to determine fluid properties. – Student will be able to calculate the mixture properties and phase equilibria using appropriate thermodynamic models

6. Course Contents WeekContentSub content 1.Introduction and Thermodynamic terminology Introduction to course rule and objectives and course grading system. Thermodynamic concept review Thermodynamic properties 1 st law thermodynamic review 21 st law thermodynamics 1 st law thermodynamic for closed system 1 st law thermodynamic for open system Reversible and non-reversible process 3Thermodynamic properties Thermodynamic properties Equation of State (EoS) 41 st law thermodynamic and thermodynamic properties Exercise using commercial process simulator software

7. Course Contents WeekContentSub content 52nd law thermodynamics 2 nd law thermodynamics concept Entropy concept Maximum and minimum work in reversible and non-reversible process 62nd law thermodynamics The application of 1 st and 2 nd law thermodynamics in chemical processes Power plant cycle Refrigeration cycle 72nd law thermodynamics Exercise using commercial process simulator software 8Quiz I / midterm Course 1-7 materials

8. Course Contents WeekContentSub content 9Phase equilibria I Phase equilibria concept Phase equilibria for pure substances Phase equilibria for binary compounds Phase equilibria for multicomponent compounds 10Phase equilibria I (cont’d) Exercise 11Phase equilibria II Fugacity concept Fugacity for gas phase Fugacity for liquid phase Fugacity for solid phase 12Phase equilibria II (cont’d) Exercise 13 Phase equilibria III Vapor liquid equilibrium (VLE) Liquid liquid equilibrium (LLE)

9. Course Contents WeekContentSub content 14Phase equilibria III (cont’d) Exercise 15Chemical reaction equilibria Standard free Gibbs energy change Equilibrium conversion for single reaction 16Final exam Course 9-15 materials

10. Introduction Textbooks 1.Smith, J. M., Van Ness, H.C., Abbott, M. M.,”Introduction to Chemical Engineering Thermodynamics” 6th ed., McGwaw-Hill Co-Singapore (2001). 2. Poling, B. E., Prausnitz, J. M., O’Connell, “ The properties of gases and liquids fifth edition, McGraw-Hill, (2001). 3. Koretsky, Milo, D. Engineering and Chemical Thermodynamics, 2 nd ed., John Wiley and Sons 4. “Chemical, Biochemical, and Engineering Thermodynamics”, S.I. Sandler (4th. ed., Wiley, 2006)

11. Introduction Grading system Grading criteriaPercentage (%) Assignment I15 Assignment II15 Quiz I / midterm30 Final exam4040