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    Course Contents ESE-402

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    This document provides an overview of the ESE-402 Heat and Mass Transfer course. The course is worth 3 credits with 2 hours of theory and 1 hour of practical per week. The course aims to help students understand heat and mass transfer modes and applications, analyze problems using suitable transfer modes, design thermal systems, and demonstrate heat exchanger operation. Topics covered include conduction, convection, radiation, heat exchangers, and mass transfer. Assessment methods include midterm and final exams, assignments, reports, quizzes, and practical experiments related to heat and mass transfer. Recommended textbooks are also provided.

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    Course Contents ESE-402

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    24 views2 pages
    This document provides an overview of the ESE-402 Heat and Mass Transfer course. The course is worth 3 credits with 2 hours of theory and 1 hour of practical per week. The course aims to help students understand heat and mass transfer modes and applications, analyze problems using suitable transfer modes, design thermal systems, and demonstrate heat exchanger operation. Topics covered include conduction, convection, radiation, heat exchangers, and mass transfer. Assessment methods include midterm and final exams, assignments, reports, quizzes, and practical experiments related to heat and mass transfer. Recommended textbooks are also provided.

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    Course contents ESE-402

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    This document provides an overview of the ESE-402 Heat and Mass Transfer course. The course is worth 3 credits with 2 hours of theory and 1 hour of practical per week. The course aims to help students understand heat and mass transfer modes and applications, analyze problems using suitable transfer modes, design thermal systems, and demonstrate heat exchanger operation. Topics covered include conduction, convection, radiation, heat exchangers, and mass transfer. Assessment methods include midterm and final exams, assignments, reports, quizzes, and practical experiments related to heat and mass transfer. Recommended textbooks are also provided.

    Copyright:

    © All Rights Reserved
    Download as DOCX, PDF, TXT or read online from Scribd
    Download as docx, pdf, or txt
    24 views2 pages

    Course Contents ESE-402

    Uploaded by

    verify name
    This document provides an overview of the ESE-402 Heat and Mass Transfer course. The course is worth 3 credits with 2 hours of theory and 1 hour of practical per week. The course aims to help students understand heat and mass transfer modes and applications, analyze problems using suitable transfer modes, design thermal systems, and demonstrate heat exchanger operation. Topics covered include conduction, convection, radiation, heat exchangers, and mass transfer. Assessment methods include midterm and final exams, assignments, reports, quizzes, and practical experiments related to heat and mass transfer. Recommended textbooks are also provided.

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    © All Rights Reserved
    Download as DOCX, PDF, TXT or read online from Scribd
    Download as docx, pdf, or txt
    of 2

    1.

    ESE-402 Heat and Mass Transfer 3(2-1)

    Theory =32 Theory = 2.0


    Practical = 48 Practical = 1.0
    Total = 80 Total = 3.0
    --------------------------------------------------------------------------------------
    Course outcome:
    COURSE LEARNING OUTCOMES:
    Upon successful completion of the course, the student will be able to:
    Ser CLO Domain Taxonomy PLO
    level
    1. UNDERSTAND the basic knowledge of Cognitive 2 1
    modes of heat and mass transfer and their
    applications.
    2. ANALYZE the problems using suitable mode Cognitive 4 2
    of heat and mass transfer in engineering
    application
    3. DESIGN distinct types of thermal systems. Cognitive 5 3
    4. DEMONSTRATE individually operation of Psychomoto 3 4
    heat exchangers. r

    Course outline:

    1. Introduction
    a. Introduction to conduction, convection and radiation heat transfer,
    b. Thermodynamics and heat transfer,
    c. Engineering techniques in heat transfer,
    d. Different forms of energy,
    e. Heat transfer mechanisms;
    2. Conduction Heat transfer
    a. Principles of conductive heat transfer,
    b. Energy balances concerning heat transfer,
    c. Heat transfer coefficient correlations, Equations of change for isothermal systems,
    macroscopic balances for isothermal systems,
    d. Analytical, approximate solutions to equations of heat transfer,
    e. Empirical model for the evaluation of conductive heat transfer coefficients.
    3. Convection heat Transfer
    a. Principles of convective heat transfer,
    b. Shell balances concerning heat transfer,
    c. Heat transfer coefficient correlations,
    d. Boiling and condensation, transient heat transfer.
    e. Equations of change for isothermal systems, macroscopic balances for isothermal
    systems,
    f. Analytical, approximate solutions to equations of heat, transfer, momentum, energy
    transport, interphase momentum, heat transfer.
    g. Empirical model of the evaluation of heat transfer coefficients.

    4. Radiation Heat Transfer


    a. Radiation properties, black body radiation, absorptivity, reflectivity, transmissivity,
    b. Wien’s law, Kirchoff’s law, Grey body radiation,
    c. Radiation shape factor and relations between shape factors,
    5. Heat Exchangers
    a. Principles of working of heat exchangers,
    b. Thermal design of heat exchangers
    c. Empirical model for the evaluation of heat transfer in heat exchangers
    6. Mass Transfer
    a. Analogy between heat and mass transfer,
    b. Mass diffusion, boundary conditions, steady mass diffusion through a wall, transient
    mass diffusion, diffusion in moving medium,
    c. Mass convection, simultaneous heat and mass transfer.
    d. Principles of diffusion, mass transfer in turbulent flow,
    e. Mass transfer theories, general principles of stage wise and continuous contacting
    operations, applications to absorption and distillation.

    Practical:
    Experiments related to Heat and Mass Transfer will be covered.

    Teaching Methodology
     Lecturing
     Written Assignments
     Guest Speaker
     Industrial Visits
     Report Writing

    Assessment
    Mid Term, Report writing/Presentation, Assignments, Quizzes, Final Term

    Text and Reference books:


    1. Heat and Mass Transfer: Fundamentals and Applications 5th Edition by Yunus A. Cengel
    Dr. Afshin J. Ghajar McGraw-Hill Education; (April 4, 2014) New York USA
    2. Heat transfer by J. P Holman (1999-07-30) McGraw-Hill Education; (April 4, 2014) New
    York USA by J. P Holman  (Author)
    3. Incropera and Dewitt. Fundamentals of Heat and Mass Transfer. 7th Ed. Wiley; (January 15,
    1996) UK
    4. Kreith, F. Principles of Heat Transfer. 7th Ed. Feffer and Simons; International edition UK

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