


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 NavierStokes equations
 Internal flows – Flow in pipes
 External flows – Boundary layer
 Idealfluid 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
 ReynoldsAveragedNumericalSimulation (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 NavierStokes equations
 Internal flows – Flow in pipes
 External flows – Boundary layer
 Idealfluid 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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