KMU 200

CHEMICAL ENGINEERING THERMODYNAMICS

2019 - 2020 Spring Semester

Course Name:

Course Code:

Semester:

Course Type:

Course Language:

 

Theory:

Credit:

ECTS:

Chemical Engineering Thermodynamics

KMU 200

4th

Must

English

 

4 hours/week

4

6

Lecture:

 

Tuesday

Wednesday

SECTION 21

 

13:00 - 14:50

10:00 - 11:50

 

 

D1

D1

Lecture:

 

Tuesday

Wednesday

SECTION 22

 

13:00 - 14:50

10:00 - 11:50

 

 

D5

D4

Course objective:

 

  • The aim of this course is to teach the general principles (laws) of thermodynamics and energy conversion in all the systems.
  • Thermodynamic properties of the mixtures, solution thermodynamics and the phase equilibrium are studied.
  • The students are aimed to gain a thermodynamic perspective in dealing with the chemical reactions and chemical reaction equilibrium.

Learning outcomes:

 

  • To learn concepts and definitions of thermodynamics and calculate the relationship of work, energy and heat in closed and open systems
  • To learn the First Law of Thermodynamics and the concept of the thermodynamic state and state functions
  • Using the concepts related to The Second Law of Thermodynamics ,establishing the mass, energy and entropy equations in closed and open systems and to apply these equations to the steam power cycles, the internal combustion machines, the refrigeration cycles and the heat pump systems
  • To learn definitions and concepts about vapor / liquid phase diagrams and to apply to relevant engineering problems.
  • To learn the concepts of chemical potential, partial and partial molar properties and to find out the relationship between them and apply to engineering problems.
  • .To learn concepts related to gas mixtures and their thermodynamic properties (fugacity fugacity coefficient, Gibbs energy) and apply them to engineering problems
  • To apply equilibrium criteria in chemical reactions and to learn definitions of Gibbs energy and equilibrium coefficients.

Text-book:

 

  • J.M. Smith, H.C. Van Ness, M.M. Abbott, Chemical Engineering Thermodynamics,7th Edition, McGraw Hill, 2001.

 

References:

 

  • JR.E. Sonntag,C. Borgnakke, G.J. Van Wylen, Fundamentals of Thermodynamics , 5th Edition, John Wiley & Sons, Inc. 1998.
  • J.W. Tester, M. Modell, Thermodynamics and Its Applications, 3rd Edition, Prentice Hall, 1997.
  • S.I. Sandler, Chemical and Engineering Thermodynamics, 4th Edition, John Wiley & Sons, 2006.

Grading:

 

Homeworks:

Midterm Exams:

Final Exam:

 

Quantity

5

2

1

 

Total Percentage

10

40

50

Hacettepe University

Department of Chemical Engineering