|
[Sponsors] |
How to put infinity reaction rate in the program? |
|
LinkBack | Thread Tools | Search this Thread | Display Modes |
September 3, 1999, 14:47 |
How to put infinity reaction rate in the program?
|
#1 |
Guest
Posts: n/a
|
Hi: Now I am trying to solve following problem: One species(A) is on the calculated domain, and another species (B) comes in( velocity field has been solved). There is reaction between A and B and this reaction is a fast reaction(which means A and B can not coexist at same location at given time: either concentraion of A or concentration of B has to be zero at one location). I tried to put a source term in the governing equations(mass transfer equation), but I failed. Does anybody have an idea how to solve this kind problem?
Thank you Lu |
|
September 3, 1999, 16:34 |
Re: How to put infinity reaction rate in the program?
|
#2 |
Guest
Posts: n/a
|
Equilibrium.
|
|
September 3, 1999, 17:39 |
Re: How to put infinity reaction rate in the program?
|
#3 |
Guest
Posts: n/a
|
Yes, I agree with Andy. Infinite reaction rates mean the flow is in equilibrium. Zero reaction rates mean the flow is non-reacting or frozen. Finite reaction rates mean the flow is reacting. For more information, please read Dr. John Anderson's compressible fluid dynamics book. I think Dr. Anderson is now available at University of Maryland, College Park in the Department of Mechanical or Aerospace Engineering.
|
|
September 4, 1999, 16:29 |
Re: How to put infinity reaction rate in the program?
|
#4 |
Guest
Posts: n/a
|
Hi: Thanks a lot for your help. Could you tell more about the book: compressible fluid dynamics. The only book I can find from Dr. John Anderson is: Computational Fluid Dynamics: The Basics with Applications.
Thank you. Lu |
|
September 4, 1999, 17:39 |
Re: How to put infinity reaction rate in the program?
|
#5 |
Guest
Posts: n/a
|
Anderson, J. D., Jr., Modern Compressible Flow, 2nd ed., Mc-Graw-Hill Publishing Company,1990, New York,pp. 510-643.
Dr. Anderson has great contribution in the development of the Time Marching Technique algorithm for analyzing chemically non-equilibrium nozzle flows through rocket nozzles. For my master's thesis, I was working to develop a better approach and named it the 'Space Marching Technique' which is simpler and converges faster than the traditional Time Marching Technique for one-dimensional chemically non-equilibrium nozzle flows. Please note that this book may have latest publications say may be 3rd. or 4th. edition. Dr. Anderson is probably the President or the Vice-president of AIAA Journal Publications. The Chief editor of AIAA Journal is from University of Michigan, Ann Arbor. |
|
September 7, 1999, 10:14 |
Re: How to put infinity reaction rate in the program?
|
#6 |
Guest
Posts: n/a
|
Dr. Anderson is retiring from his professor position at Maryland. You may also want to check out his "Hypersonic and High Temperature Gas Dynamics" book. It goes into even more detail than his compressible flow book and, as usual, is very well written.
|
|
September 7, 1999, 22:44 |
Re: How to put infinity reaction rate in the program?
|
#7 |
Guest
Posts: n/a
|
Thank you for the information of the book. I will try to get hold of the book you have mentioned through library.
|
|
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
using rate equation for volumetric reaction | byronsmith | FLUENT | 4 | April 14, 2019 12:28 |
UDF for catalyst volumetric reaction, temperature overshoot though rate is small | elmcmaster | FLUENT | 0 | October 11, 2010 09:37 |
Reaction Rate | Dhruv | Siemens | 1 | October 1, 2005 10:34 |
abnormal reaction rate coefficients? | peter.zhao | Main CFD Forum | 4 | June 6, 2001 02:06 |
chemical reaction - decompostition | La S. Hyuck | CFX | 1 | May 23, 2001 00:07 |