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Ehsan Amani
  Courses 

 (SPRING_2018)

Aims:

Syllabus:

    Text Book:




     Advanced Fuel & Combustion(SPRING_2018)

    Aims:

    A stuudy of combustion theory and reacting flow phenomena, Preparing a review on an advanced combustion science and technology topic

    Syllabus:

    • Introduction
    • Combustion thermodynamics
    • Combustion kinetics
    • Governing equations
    • Laminar premixed flames
    • Laminar diffusion flames
    • An Introduction to turbulent combustion
    • An Introduction to numerical simulation

    Text Book:

    • Principles of combustion, by K.K. Kuo
    • Theoretical and numerical combustion, by T. Poinsot and D. Veynante
    • Applications of turbulent and multiphase combustion, by K.K. Kuo and R. Acharya
    • Numerical simulation of reactive flow, by E.S. Oran and J.P. Boris


     Fluid Mechanics (I)(SPRING_2018)

    Aims:

    A systematic study of fluid mechanics with the focus on the relation between physical phenomena and mathematical modeling tools. Lerning approaches to solve engineering problems

    Syllabus:

    • Introduction
    • Basic concepts
    • Fluid kinematics
    • Fluid kinematics
    • The Bernoulli equation
    • Fundamental principles
    • Finite control volume
    • Dimensional analysis and similarity

    Text Book:

    • Fundamentals of fluid mechanics, by B.R. Munson, D.F. Young, and T.H. Okiishi
    • Mechanics of fluids, by I.H. Shames
    • Fluid mechanics, by F.M. White


     Fluid Mechanics (II)(FALL_2017)

    Aims:

    A systematic study of fluid mechanics with the focus on the relation between physical phenomena and mathematical modeling tools. Lerning approaches to solve engineering problems

    Syllabus:

    • Introduction
    • A review of Fluid Mechanics I
    • Differential system and Navier-Stokes equations
    • Internal flows – Flow in pipes
    • External flows – Boundary layer
    • Ideal-fluid flow
    • An introduction to computational fluid dynamics

    Text Book:

    • Fundamentals of fluid mechanics, by B.R. Munson, D.F. Young, and T.H. Okiishi
    • Mechanics of fluids, by I.H. Shames
    • Fluid mechanics, by F.M. White


     Fuels & Combustion(FALL_2017)

    Aims:

    A Study of combustion theory and reacting flow governing equations, Performing a preliminary design of an industrial combustion system, an introduction to detailed design

    Syllabus:

    • Introduction
    • Combustion thermodynamics
    • Combustion kinetics
    • Mass transfer
    • Governing equations
    • An introduction to simulation of combustion systems

    Text Book:

    • An introduction to combustion, by S.R. Turns


     Numerical Simulation of Turbulent Flows(FALL_2017)

    Aims:

    A review on turbulence theory in physical space and spectral space, introducing different turbulence models, a study of and simulation experience in Large eddy Simulation method both in physical and spectral space

    Syllabus:

    • Introduction
    • The equations of fluid motion
    • Mean flow equations
    • Turbulence: a short review
    • Reynolds-Averaged-Numerical-Simulation (RANS)
    • Large Eddy Simulation (LES)
    • Spectral description, modeling, and simulation
    • An introduction to Probability Density Function (PDF) method

    Text Book:

    • Turbulent flows, by S.B. Pope
    • Fluid mechanics, turbulent flow and turbulence modeling, by L. Davidson
    • Fundamental of engineering numerical analysis, by P. Moin
    • Spectral Methods, 2 volumes, by C. Canuto et al.


     Advanced Fuel & Combustion(SPRING_2017)

    Aims:

    A stuudy of combustion theory and reacting flow phenomena, Preparing a review on an advanced combustion science and technology topic

    Syllabus:

    • Introduction
    • Combustion thermodynamics
    • Combustion kinetics
    • Governing equations
    • Laminar premixed flames
    • Laminar diffusion flames
    • An Introduction to turbulent combustion
    • An Introduction to numerical simulation

    Text Book:

    • Principles of combustion, by K.K. Kuo
    • Theoretical and numerical combustion, by T. Poinsot and D. Veynante
    • Applications of turbulent and multiphase combustion, by K.K. Kuo and R. Acharya
    • Numerical simulation of reactive flow, by E.S. Oran and J.P. Boris


     Fluid Mechanics (I)(SPRING_2017)

    Aims:

    A systematic study of fluid mechanics with the focus on the relation between physical phenomena and mathematical modeling tools. Lerning approaches to solve engineering problems

    Syllabus:

    • Introduction
    • Basic concepts
    • Fluid statics
    • Fluid kinematics
    • The Bernoulli equation
    • Fundamental principles
    • Finite control volume
    • Dimensional analysis and similarity
    • An introduction to differential system

    Text Book:

    • Fundamentals of fluid mechanics, by B.R. Munson, D.F. Young, and T.H. Okiishi
    • Mechanics of fluids, by I.H. Shames
    • Fluid mechanics, by F.M. White


     Fluid Mechanics (II)(FALL_2016)

    Aims:

    A systematic study of fluid mechanics with the focus on the relation between physical phenomena and mathematical modeling tools. Lerning approaches to solve engineering problems

    Syllabus:

    • Introduction
    • A review of Fluid Mechanics I
    • Differential system and Navier-Stokes equations
    • Internal flows – Flow in pipes
    • External flows – Boundary layer
    • Ideal-fluid flow
    • Compressible flows
    • An introduction to turbulent flows

    Text Book:

    • Fundamentals of fluid mechanics, by B.R. Munson, D.F. Young, and T.H. Okiishi
    • Mechanics of fluids, by I.H. Shames
    • Fluid mechanics, by F.M. White


     Fuels & Combustion(FALL_2016)

    Aims:

    A Study of combustion theory and reacting flow governing equations, Performing a preliminary design of an industrial combustion system

    Syllabus:

    • Introduction
    • Combustion thermodynamics
    • Combustion kinetics
    • Mass transfer
    • Governing equations
    • Key concepts and definitions

    Text Book:

    • An introduction to combustion, by S.R. Turns


     Numerical Simulation of Turbulent Flows(FALL_2016)

    Aims:

    A review on turbulence theory in physical space and spectral space, introducing different turbulence models, a study of and simulation experience in Large eddy Simulation method both in physical and spectral space

    Syllabus:

    • Introduction
    • The equations of fluid motion
    • The statistical description of turbulence
    • Mean flow equations
    • Turbulence in physical space
    • Turbulence in spectral space
    • Turbulence simulation: an overview
    • Large eddy simulation (LES)
    • An introduction to probability density function (PDF) method

    Text Book:

    • Turbulent flows, by S.B. Pope
    • Turbulence, by P.A. Davidson
    • Fundamental of engineering numerical analysis, by P. Moin
    • Spectral Methods, 2 volumes, by C. Canuto et al.


     
     
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