Lecturer: Sayyed Mahmoud Reza Pishvaie
Status (in the study program): Optional course in graduate study
Aims/Scope/Objectives: The students are acquainted with engineering judgment and analysis of results obtained from simulation of flow processes, albeit within the context of chemical engineering. The basic aim is to familiarize students with key components of Computational Fluid Modeling (CFM) and Computational Fluid Dynamics (CFD) with an emphasis on reactive flow systems. In the early sections of the lectures (named FDM and FEM), students are brought the paradigm of discretization and functional schemes of Partial Differential Equations (PDEs). The remaining parts, named Finite Volume Methods, discuss about the well-established flow formulations and solution techniques of underlying equations.
References:
[1] Suhas V. Patankar, Numerical Heat Transfer and Fluid Flow, Taylor & Francis (1980).
[2] John C. Tannenhill, Dale A. Anderson, Richard H. Pletcher, Computational Fluid Mechanics and Heat Transfer, 2nd Ed., Taylor &Francis (1997).
[3] Vivek V. Ranade, Computational Flow Modeling for Chemical Reactor Engineering, Academic Press (2002).
[4] S.V. Patankar, Computational Modeling of Flow and Heat Transfer in Industrial Applications, Int J. Heat & Fluid Flow, 23 (2002), pp. 222 - 231.
[5] H. K. Versteeg, W. Malalasekera, An Introduction to Computational Fluid Mechanics, The Finite Volume Method, Longman Scientific & Technical (1995).
[6] J. Blazek, Computational Fluid Dynamics: Principles and Applications, Elsevier (2001).
[7] T. J. Chung, Computational Fluid Dynamics, Cambridge University Press (2002).
[8] H. Lomax, T.H. Pulliam, D. W. Zingg, Fundamentals of Computational Fluid Dynamics, NASA Ames Research Center (1999).
[9] Charles Hirsch, Numerical Computation of Internal & External Flows, Butterworth-Heinemann (Elsevier), 2nd Ed. (2007).
[10] FLUENT Documents.
Teaching Method: Lectures.
Prerequisites: Numerical Analysis, (Advanced) Analytical Mathematics, MATLAB/SIMULINK, FLUENT.
Personal work required: Home works & Term Projects
Examination method: Project-based.
CONTENTS ( Download Cover):
1. Preface
2. Introduction
3. Finite Difference Methods, Download
4. Weighted Integral Methods (Orthogonal Collocation & FEM) , Download
5. Finite Element Methods, Download
6. Finite Volume Methods, Basics
7. Algorithms for Pressure-Velocity coupled problems, Download
8. Unstructured Grid for FVM,
9. Turbulence Modeling,
10. CFM - Moving and Deforming Zone,
11. CFM - Multiphase Flows,
12. CFM - Moving Boundary Problems,
13. Acceleration Techniques,
14. Grid Generation Principles,
Homeworks:
1. HW01.docx, HW01.pdf (due date: 91/01/28)
2. HW02.docx, HW02.pdf (due date: 91/02/25)
3. HW03.docx, HW03.pdf (due date: 91/03/27)
4. HW04, Under construction
5. Term Project, Under construction
FLUENT Introduction , By Faghihi & Karbaschi, Download
COMSOL-Hadjipour-EditedByPishvaie.ppt
Simulation Documentation,
40 Farsi Fonts for XP, Download
XY_Extract Utility, Download
Matrix Cook-book, Download