CFD
CFD
CFD
3. Diffusion Equation
5. Linear Solvers
Gauss-Seidel scheme
Tri-diagonal matrix algorithm (TDMA), line-iterative solvers
Multi-grid methods and application to unstructured meshes
Conjugate gradient methods
6. Flow Field Calculation
7. Projects
Assignments
Solution to Assignment 1
Solution to Assignment 2
Solution to Assignment 3
Solution to Assignment 4
Solution to Assignment 5
Final Exam
Mid-Term Exam
Mid-Term Exam Solution
Average: 76.6/100
Max: 99/100
Min: 43/100
Week 1 (1/10/11)
1/10/2011 Lecture 1
1/12/2011 Lecture 2
Week 2 (1/17/11)
1/19/2011 Lecture 5
1/21/2011 Lecture 6
Week 3 (1/24/11)
1/24/2011 Lecture 7
1/28/2011 Lecture 9
Week 4 (1/31/11)
1/31/2011 Lecture 10 Lecture 10 (narrated)
2/4/2011 Lecture 12
Week 5 (2/7/11)
2/7/2011 Lecture 13
2/9/2011 Lecture 14
2/11/2011 Lecture 15
Week 6 (2/14/11)
2/14/2011 Lecture 16
2/16/2011 Lecture 17
2/18/2011 Lecture 18
Week 7 (2/21/11)
2/21/2011 Lecture 19
2/23/2011 Lecture 20
2/25/2011 Lecture 21
Week 8 (2/28/11)
Week 9 (3/7/11)
3/7/2011 Lecture 25
Week 11 (3/21/11)
3/23/2011 Lecture 32
3/25/2011 Lecture 33
Week 12 (3/28/11)
4/1/2011 Lecture 36
Week 13 (4/4/11)
4/6/2011 Lecture 38
Week 14 (4/11/11)
4/11/2011 Lecture 40
4/15/2011 Lecture 42
Week 15 (4/18/11)
4/18/2011 Lecture 43
4/20/2011 Lecture 44 Example AMG problem
4/22/2011 Lecture 45
Week 16 (4/25/11)
Instructor Information
jmurthy@ecn.purdue.edu
Lectures
Assignments
Examinations
Project
Students will be expected to complete a CFD project during the course. The
project will typically require 3-4 weeks of effort and will involve groups of
two students working together. Suggested project topics will be discussed
by the instructor in class and will be finalized during the middle of March to
allow enough time for project completion. A project report will be required,
and classroom presentations will be scheduled for the end of the semester.
Office Hours
Grading
Assignments : 30 %
Mid Term Examination: 25 %
Final 25%
Project: 20 %
Total: 100 %
A mixture of absolute and relative grading will determine the final grade for
the class.
Project Topics
Important Dates
Project reports are due on the last day of class, April 29, 2011.
Project Presentations
TBA
Please submit a paper copy to Prof. Murthy, along with an annotated copy of
your code.
ME 608
10) ME 608 Numerical Methods in Heat, Mass and Momentum Transfer by Jayathi Y.
Murthy very good!!!!! http://widget.ecn.purdue.edu/~jmurthy/me608/
13) CVEN 680-600 Advanced Computation Methods for Fluid Flow by Hamn-Ching
Chen
30) METR 5344 CFD Course Home Page (Spring 2000) Instructor: Dr. Ming Xue
http://twister.caps.ou.edu/cfd2000/
31) CSI 756 - Numerical Methods for Climate Dynamics by Professor Paul Schopf
http://www.scs.gmu.edu/climate/courses/csi756/
32) ACM 210a Numerical Methods for PDEs
http://www.acm.caltech.edu/~acm210/2005/WINTER/
37) courses by Division of Thermo and Fluid Dynamics at the Department of Mechanical
Engineering, Chalmers University of Technology in Göteborg http://www.tfd.chalmers.se/
REPORTS
A few sample project reports submitted for the final project in ME 608 in
Spring 2006 are posted below. The projects were approximately one month's
effort. Students could select from a list provided by the instructor, or work
on a topic of their own choosing. The use of commercial CFD codes was not
allowed, and each project required code development based on the material
covered in the class.
Thomas H. Pulliam
NASA Ames Research Center
Moffett Field, CA 94035
email:Thomas.H.Pulliam@nasa.gov
Homework #2 Assigned
Homework #3 Assigned
Homework #4 Assigned
Thomas H. Pulliam
NASA Ames Research Center
Moffett Field, CA 94035
A Matlab code showing the effect grid resolution on the representation of waves.
Also check out the Matlab example programs on modified wave number analysis
A Matlab code showing the effect of finite differencing schemes on wave propagation.
A support routine for My matlab codes (you need this)