Course Information

Course Name	Turkish	Kimya Mühendisliği Termodinamiği
	English	Chemical Engineering Thermodynamics
Course Code	KMM 224	Credit	Lecture (hour/week)	Recitation (hour/week)	Laboratory (hour/week)
Semester	-	4	3	2	-
Course Language		Turkish
Course Coordinator		Reha Yavuz
Course Objectives		The objective of this course is provide students with knowledge on the following subjects: 1.Understand the laws of thermodynamics and have an ability applying them to various processes. 2.Calculate the amount of heat and work produced and/or consumed in different physical and chemical processes. 3.Get informed about the terminology, theory, and some common models used in describing solutions. 4.Have an ability to apply the principles of chemical thermodynamics to chemical reaction systems and to analyse the effects of temperature, pressure, and initial composition on the equilibrium conversion. 5.Learn the model equations related with vapour liquid mixtures at equilibrium condition and evaluate PTxy, V, L values for a given condition, and draw PTxy phase diagrams for binary mixtures based on the model equations approach
Course Description		Introduction, Basic concepts and definitions, The zeroth and first law of thermodynamics, The ideal gas, Phase change of pure substances and their pressure-volume-temperature behavior, Heat effects, The second and third laws of thermodynamics, Production of power from heat, Thermodynamic properties of fluids, Thermodynamics of flow processes, Theory of solution thermodynamics, Chemical reaction equilibria, Vapor/Liquid equilibrium, Application of solution thermodynamics
Course Outcomes		1.Application of the laws of thermodynamics to various engineering problems. 2.Calculation of the amount of heat and work produced and/or consumed in different physical and chemical processes. 3.Establishing the relations between pressure, volume, and temperature for pure substances and mixtures. 4.Investigation of ideal and real gas behaviors. 5.Calculation of the fundamental thermodynamic properties of fluids. 6.Calculation of thermodynamic properties, such as enthalpy, entropy, fugacity and activity coefficients, and Gibbs energy, of pure species or solutions in single- or multi-phase conditions 7.Predicting the equilibrium compositions of mixtures undergoing chemical reaction. 8.Calculation of PTxy, V, and L values based on model equations for a given condition and drawing PTxy vapor liquid equilibrium phase diagrams for binary mixtures representing ideal and non-ideal behavior. 9.Usage of computer programs ( Phyton, Excel, ChemCAD )
Pre-requisite(s)		(KIM 101 MIN DD or KIM 101E MIN DD) and (FIZ 101 MIN DD or FIZ 101E MIN DD) and KMM102E MIN DD
Required Facilities		Usage of computer tools such as Phyton, Excel, ChemCAD will be required in some of the homework assignments.
Other		In-class studies will be held regularly during the semester.
Textbook		Smith J.M., Van Ness H.C., Abbot M.M., Introduction to Chemical Engineering Thermodynamics, 7th Ed., McGraw-Hill, 2005.
Other References		1.Cengel Y., Boles M.A., Thermodynamics- An Engineering Approach, McGraw-Hill, 2006. 2.Matsoukas T., Fundamentals of Chemical Engineering Thermodynamics, Pearson Education, 2012 3.Koretsky M.D., Engineering and Chemical Thermodynamics, John Wiley & Sons, Inc, 2004 4.Sandler, S.I., Chemical, Biochemical and Engineering Thermodynamics, 4th Ed., John Wiley & Sons Inc., 2006. 5.Modell M., Reid R.C., Thermodynamics and Its Applications, Prentice-Hal,1983.

Courses

Help

About