HHP38 - Chemical Engineering Thermodynamics

Course specification
Course titleChemical Engineering Thermodynamics
Study programme
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
    ConditionThermodynamicsОблик условљености
    The goalComprehension of thermodynamic properties calculations necessary for the analysis and design of the industrial process equipment.
    The outcomeStudents will learn about thermodynamic properties of pure substances or multicomponent mixtures: gas phase, liquid mixtures, phase equilibria. Application of fundamental equations for correlation and prediction of thermodynamic properties of pure substances, simple and complex mixtures of non polar, weakly polar and highly polar compounds, as well as of asymmetric mixtures containing associates and solvates.
    Contents of lecturesThermodynamic properties of pure fluids. Two and three-parameter corresponding state. Virial equation of state. Cubic equations of state. ; Determination of thermodynamic properties of pure systems. (Fundamental properties relations. Maxwell equations. Residual properties. Calculation of thermodynamic properties of pure fluids: enthalpy, entropy, chemical potential, fugacity and fugacity coefficient.) ; Determination of thermodynamic properties in multicomponent systems. (Application of virial and cubic equations of state for the calculation of thermodynamic properties of mixtures. Mixing rules. Fundamental thermodynamic relations. Partial properties. Ideal solutions. Chemical potential. Fugacity and fugacity coefficient in mixtures.) Excess functions and solution theory. (Activity. Activity coefficient. Activity coefficient models. Solution theory.) ; Phase equilibria models. (Phase diagrams. Vapour-liquid equilibrium at low pressures. Vapour-liquid equilibrium at moderate and high pressures: calculations by an equation of state and by - method. Liquid-liquid equilibrium.) diagrams. ; Equilibrium in reacting systems. (Gibbs phase rule. Criteria for reaction equilibrium and equilibrium constant. Pressure and temperature effect on equilibrium constant. Multireaction equilibria. ) ;
    Contents of exercisesExamples that follow the theoretical classes. Application of computer programs.
    1. M. Kijevčanin, B. Đorđević, S. Šerbanović: Hemijsko-inženjerska termodinamika-zbirka zadataka sa teorijskim osnovama, Tehnološko-metalurški fakultet, Beograd, 2007 (Original title)
    2. B. Đorđević, M. Kijevčanin, S. Šerbanović, I.Radović: Hemijsko-inženjerska termodinamika (udžbenik u pripremi za štampu). (Original title)
    3. Referentna literatura: (Original title)
    4. J. Smith, H. Van Ness, M. Abbott, Introduction to Chemical Engineering Thermodynamics, Mcraw-Hill, 2005 (Original title)
    5. B.E. Poling, J.M. Prausnitz, J.P. O'Connell, The Properties of Gases and Liquids, McGraw-Hill, New York, 2001. (Original title)
    Number of hours per week during the semester/trimester/year
    LecturesExercisesOTCStudy and ResearchOther classes
    Methods of teaching
    Knowledge score (maximum points 100)
    Pre obligationsPointsFinal examPoints
    Activites during lecturesTest paper30
    Practical lessonsOral examination