Anna University Syllabus - Anna University ME Syllabus
AO7015 COMPUTATIONAL HEAT TRANSFER Syllabus | Anna University ME Aerospace Technology & Satellite Technology streams Second Semester Syllabus Regulation 2013. Below is the Anna University 2013 Regulation Syllabus for 2nd Semester for ME Aerospace Technology & Satellite Technology streams, Textbooks, Reference books, Exam portions, Question Bank, Previous year question papers, Model question papers, Class notes, Important 2 marks, 8 marks, 16 marks topics.
It is applicable for all students admitted in the Academic year 2013-2014 onwards for all its Affiliated institutions in Tamil Nadu.
Anna University Chennai Syllabus
AO7015 COMPUTATIONAL HEAT TRANSFER L T P C
3 0 0 3
OUTCOME:
Upon completion of the course, students will learn the concepts of computation applicable to heat
transfer for practical applications.
UNIT I INTRODUCTION 9
Finite Difference Method-Introduction-Taylor’s series expansion - Discretisation Methods Forward,
backward and central differencing scheme for Ist order and second order Derivatives – Types of
partial differential equations-Types of errors. Solution to algebraic equation-Direct Method and
Indirect Method-Types of boundary condition.
FDM - FEM - FVM.
UNIT II CONDUCTIVE HEAT TRANSFER 9
General 3D-heat conduction equation in Cartesian, cylindrical and spherical coordinates.
Computation(FDM) of One –dimensional steady state heat conduction –with Heat generation- without
Heat generation- 2D-heat conduction problem with different boundary conditions- Numerical treatment
for extended surfaces. Numerical treatment for 3D- Heat conduction.
Numerical treatment to 1D-steady heat conduction using FEM.
UNIT III TRANSIENT HEAT CONDUCTION 9
Introduction to Implicit, explicit Schemes and crank-Nicolson Schemes Computation(FDM) of One –
dimensional un-steady heat conduction –with heat Generation-without Heat generation - 2D- transient
heat conduction problem with different boundary conditions using Implicit, explicit Schemes.
Importance of Courant number.
Analysis for I-D,2-D transient heat Conduction problems.
UNIT IV CONVECTIVE HEAT TRANSFER 9
Convection- Numerical treatment(FDM) of steady and unsteady 1-D and 2-d heat convection-diffusion
steady-unsteady problems- Computation of thermal and Velocity boundary layer flows. Upwind
scheme. Stream function-vorticity approach-Creeping flow.
UNIT V RADIATIVE HEAT TRANSFER 9
Radiation fundamentals-Shape factor calculation-Radiosity method- Absorption Method-Montacalro
method-Introduction to Finite Volume Method- Numerical treatment of radiation enclosures using finite
Volume method.
Developing a numerical code for 1D, 2D heat transfer problems.
TOTAL: 45 PERIODS
REFERENCES
1. Pletcher and Tennahils “ Computational Heat Trasnfer”…..
2. Yunus A. Cengel, Heat Transfer – A Practical Approach Tata McGraw Hill Edition, 2003.
3. S.C. Sachdeva, “Fundamentals of Engineering Heat & Mass Transfer”, Wiley Eastern Ltd., New
Delhi, 1981.
3. John H. Lienhard, “A Heat Transfer Text Book”, Prentice Hall Inc., 1981.
4. J.P. Holman, “Heat Transfer”, McGraw-Hill Book Co., Inc., New York, 6th Edition, 1991.
5. John D. Anderson, JR” Computational Fluid Dynamics”, McGraw-Hill Book Co., Inc., New York,
1995.
6. T.J. Chung, Computational Fluid Dynamics, Cambridge University Press, 2002
7. C.Y.Chow, “Introduction to Computational Fluid Dynamics”, John Wiley, 1979.
AO7015 COMPUTATIONAL HEAT TRANSFER L T P C
3 0 0 3
OUTCOME:
Upon completion of the course, students will learn the concepts of computation applicable to heat
transfer for practical applications.
UNIT I INTRODUCTION 9
Finite Difference Method-Introduction-Taylor’s series expansion - Discretisation Methods Forward,
backward and central differencing scheme for Ist order and second order Derivatives – Types of
partial differential equations-Types of errors. Solution to algebraic equation-Direct Method and
Indirect Method-Types of boundary condition.
FDM - FEM - FVM.
UNIT II CONDUCTIVE HEAT TRANSFER 9
General 3D-heat conduction equation in Cartesian, cylindrical and spherical coordinates.
Computation(FDM) of One –dimensional steady state heat conduction –with Heat generation- without
Heat generation- 2D-heat conduction problem with different boundary conditions- Numerical treatment
for extended surfaces. Numerical treatment for 3D- Heat conduction.
Numerical treatment to 1D-steady heat conduction using FEM.
UNIT III TRANSIENT HEAT CONDUCTION 9
Introduction to Implicit, explicit Schemes and crank-Nicolson Schemes Computation(FDM) of One –
dimensional un-steady heat conduction –with heat Generation-without Heat generation - 2D- transient
heat conduction problem with different boundary conditions using Implicit, explicit Schemes.
Importance of Courant number.
Analysis for I-D,2-D transient heat Conduction problems.
UNIT IV CONVECTIVE HEAT TRANSFER 9
Convection- Numerical treatment(FDM) of steady and unsteady 1-D and 2-d heat convection-diffusion
steady-unsteady problems- Computation of thermal and Velocity boundary layer flows. Upwind
scheme. Stream function-vorticity approach-Creeping flow.
UNIT V RADIATIVE HEAT TRANSFER 9
Radiation fundamentals-Shape factor calculation-Radiosity method- Absorption Method-Montacalro
method-Introduction to Finite Volume Method- Numerical treatment of radiation enclosures using finite
Volume method.
Developing a numerical code for 1D, 2D heat transfer problems.
TOTAL: 45 PERIODS
REFERENCES
1. Pletcher and Tennahils “ Computational Heat Trasnfer”…..
2. Yunus A. Cengel, Heat Transfer – A Practical Approach Tata McGraw Hill Edition, 2003.
3. S.C. Sachdeva, “Fundamentals of Engineering Heat & Mass Transfer”, Wiley Eastern Ltd., New
Delhi, 1981.
3. John H. Lienhard, “A Heat Transfer Text Book”, Prentice Hall Inc., 1981.
4. J.P. Holman, “Heat Transfer”, McGraw-Hill Book Co., Inc., New York, 6th Edition, 1991.
5. John D. Anderson, JR” Computational Fluid Dynamics”, McGraw-Hill Book Co., Inc., New York,
1995.
6. T.J. Chung, Computational Fluid Dynamics, Cambridge University Press, 2002
7. C.Y.Chow, “Introduction to Computational Fluid Dynamics”, John Wiley, 1979.
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