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MIN31 - Combustion and Furnaces in Metallurgy

Course specification
Course titleCombustion and Furnaces in Metallurgy
AcronymMIN31
Study programmeMetallurgical Enginering
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
    ESPB5.0Status
    ConditionThermodynamicsОблик условљености
    The goalTo teach students about the types of fuels and their properties. Fuel optimal composition for a given process. Modelling optimal fuel combustion conditions. Acquisition of basic knowledge in the field of refractories and furnace atmosphere. Introduction to structural elements and design of the basic types of devices and furnaces used in metallurgy.
    The outcomeBasic knowledge for the subjects at further semesters and levels of studies. Posiiblities for independently calculate and model the basic parameters that define the fuel. Determination of combustion conditions with calculation of the combustion temperature to coordinate the work of furnaces and process parameters.
    Contents
    Contents of lecturesI FUELS Clasification, Solid, liquid and gassous fuels. Washing of coal. calorific value determination II COMBUSTION. General principles of Combustion, Types of combustion processess , Combustion calculations, Gas analysis. Combustion control and optimization Flame characteristics Flame temperatures of fuel. Pproducts of combustion analysis in order to prevent air pollution.. III FURNACES Clasification and elements of design. Furnace construction, IV REFRACTORIES Clasification, Testing, Properties, V FURNACE ATMOSPHERES Definitiona, Clasification of furnace atmospheres, Unisng for different processes and furnaces VI CALCULATION SAMPLES FOR FURNACES Energetic devises (Cowper, recuperator, regenerator), Sintering mashines, Fluo solid reactor, Crucible furnaces, Heat furnaces, Shaft furnaces, Retorts, Converers, I FUELS Clasification, Solid, liquid and gassous fuels. Washing of coal. calorific value determination II COMBUSTION. General principles of Combustion, Types of combustion processess , Combustion calculations, Gas analysis. Combustion control and optimization Flame characteristics Flame temperatures of fuel. Pproducts of combustion analysis in order to prevent air pollution.. III FURNACES Clasification and elements of design. Furnace construction, IV REFRACTORIES Clasification, Testing, Properties, V FURNACE ATMOSPHERES Definitiona, Clasification of furnace atmospheres, Unisng for different processes and furnaces VI CALCULATION SAMPLES FOR FURNACES Energetic devises (Cowper, recuperator, regenerator), Sintering mashines, Fluo solid reactor, Crucible furnaces, Heat furnaces, Shaft furnaces, Retorts, Converers,
    Contents of exercises
    Literature
    1. O.P.Gupta, Elements of Fuels, Furnaces and Refractories, Khana Publishers, 2004. (Original title)
    2. T.Volkov Husović, K.T.Raić, Metalurške peći, SIM, Beograd 2010 (Original title)
    3. T.Volkov Husović, Vatrostalni materijali: svojstva i primena. Beograd, TMF.2007 (Original title)
    4. T Volkov Husović, K.T.Raić, Goriva i sagorevanje, SIM, Beograd 2008 (Original title)
    5. 2. W. Trinks,M. H. Mawhinney,R. A. Shannon,R. J. Reed,J. R. Garvey,INDUSTRIAL FURNACES, six edition, JOHN WILEY & SONS, INC. 2004. (Original title)
    Number of hours per week during the semester/trimester/year
    LecturesExercisesOTCStudy and ResearchOther classes
    320
    Methods of teaching
    Knowledge score (maximum points 100)
    Pre obligationsPointsFinal examPoints
    Activites during lecturesTest paper
    Practical lessonsOral examination30
    Projects
    Colloquia40
    Seminars30