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22IZS424 - Energy of Process Industry

Course specification
Course titleEnergy of Process Industry
Acronym22IŽS424
Study programmeEnvironmental Engineering
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
    ESPB3.0Status
    ConditionОблик условљености
    The goalThe aim of the course is that students apply the material, energy and exergy balances in the process industry in order to gain understanding of the process integration (design and optimization of heat exchangers network in the process industry) in order to improve the energy efficiency of the process, taking into account the maximum utilization of energy and other resources, as well as possibilities for the use of renewable energy.
    The outcomeThe main objective of the course is to provide a detailed insight to the analysis and design of processes and equipment starting from the energy integration of the heat exchangers. More efficient operation of specific parts or the process in general, is realized through the heat exchangers network synthesis method based on subnetwork method or the "pinch method" taking into account the environmental requirements.
    Contents
    Contents of lecturesI ENERGY AND EXERGY BALANCES OF EQUIPMENT AND PROCESSES. Energy and exergy efficiency of the process. Flowchart of energy and exergy of complex systems II DETERMINATION OF THE ENERGY REQUIREMENTS OF THE INDUSTRIAL PROCESSES. III ENERGY EFFICIENCY INCREASING AND ENERGY SAVING IN PROCESS INDUSTRY IV HEAT EXCHANGER NETWORK. V SUBNETWORK ANALYSIS VI PINCH TECHNOLOGY. VII CONVENTIONAL AND RENEWABLE ENERGY SOURCES
    Contents of exercisesComputer simulations that follow the theoretical classes.
    Literature
    1. B. Đorđević, M. Kijevčanin: Energetika procesne industrije, internal material, Faculty of Technology and Metallurgy, Beograd, 2012.
    2. Reference literature:
    3. R. Smith, Chemical Process Design and Integration, Wiley, New York, 2014.
    4. B. Linnhoff, D.W. Townsend, D. Boland, G. F. Hewitt, B.E.A. Thomas, A. R. Guy and R. H. Marsland, User Guide on Process Integration for the Efficient Use of Energy, IChemE, UK, 1994
    5. M.M. El-Halwagi, Sustainable Design through Process Integration: Fundamentals and Applications to Industrial Pollution Prevention, Resource Conservation, and Profitability Enhancement,Elsevier, 2017.
    Number of hours per week during the semester/trimester/year
    LecturesExercisesOTCStudy and ResearchOther classes
    21
    Methods of teachingTheoretical and practical lectures.
    Knowledge score (maximum points 100)
    Pre obligationsPointsFinal examPoints
    Activites during lecturesTest paper40
    Practical lessons20Oral examination
    Projects
    Colloquia
    Seminars40