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22ZP31 - Elements of Reactor Design

Course specification
Course titleElements of Reactor Design
Acronym22ZP31
Study programmeBiochemical Engineering and Biotechnology,Environmental Engineering
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
    ESPB5.0Status
    ConditionTo attend the course - 90 ЕCTS; To attend the exam - following exames passed: Mathematics 2, Diferential Equations and Introduction to Chemical EngineeringОблик условљености
    The goalKnowledge attainment in the field of reactor design referred to: concept of ideal chemical reactors, design of ideal reactors, nonisothermal reactor design, unstady-state operation of ideal reactors, kinetic data analyses and rector design for multiple reactions.
    The outcomeOn the basis of the knowledge gained in this course, students are capable of solving simpler problems regarding design of laboratory and industrial chemical reactors.
    Contents
    Contents of lecturesMole balances for ideal reactors, conversion and reactor sizing; Rate laws and stoichiometry; Ishotermal reactor design; Collection and analysis of rate data; Plug flow reacor with recycle and auto-catalytic reactions; Nonisothermal reactor design; Reactor design for multiple reactions.
    Contents of exercisesPractilal part consists of problem solving in following fields: Mole balances for ideal reactors, conversion and reactor sizing; Rate laws and stoichiometry; Ishotermal reactor design; Collection and analysis of rate data; Plug flow reacor with recycle and auto-catalytic reactions; Nonisothermal reactor design; Reactor design for multiple reactions.
    Literature
    1. Script: Elements of Reactor Design. Dejan Skala
    2. Chemical Reaction Engineering. Octave Levenspiel (translated to Serbian by G. Jovanovic and N. Catinovic). Faculty of Technology and Metallurgy, Belgrade, 1991.
    3. Elements of Reactor Design (in Serbian).Irena Zizovic, Faculty of Technology and Metallurgy, Belgrade 2010, ISBN 978-86-4701-268-0
    4. Elements of chemical reaction engineering. S. Fogler, Prentice Hall 3rd Ed. 1999.
    5. The Chemical Reactor Omnibook. Octave Levenspiel, OSU 1979.
    Number of hours per week during the semester/trimester/year
    LecturesExercisesOTCStudy and ResearchOther classes
    22
    Methods of teachingLectures and practices in reactor design. Consultations.
    Knowledge score (maximum points 100)
    Pre obligationsPointsFinal examPoints
    Activites during lecturesTest paper50
    Practical lessonsOral examination
    Projects
    Colloquia45
    Seminars