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- Newsgroups: sci.engr
- Path: sparky!uunet!morrow.stanford.edu!leland.Stanford.EDU!leland.Stanford.EDU!gooch
- From: gooch@leland.Stanford.EDU (Carl Gooch)
- Subject: Re: Chemically Reacting Air
- Message-ID: <1992Oct8.181209.12637@leland.Stanford.EDU>
- Sender: news@leland.Stanford.EDU (Mr News)
- Organization: DSG, Stanford University, CA 94305, USA
- References: <1992Oct8.002254.20216@math.ucla.edu>
- Distribution: usa
- Date: Thu, 8 Oct 92 18:12:09 GMT
- Lines: 27
-
- In article <1992Oct8.002254.20216@math.ucla.edu>, rfedkiw@redwood.math.ucla.edu (Ronald Fedkiw) writes:
- |> I'm trying to model the flow of high temperature air.......
- |> I need to calculate the heat of formation of: N2 O2 N O NO NO+ e-
- |> ^^^^^^^^^^^^^^^^^
- |> Anyone know what to do ??? References ????
-
- If you're calculating the flow of equilibrium high temperature air, the
- JANAF tables should do nicely for heat of formation and whatever else
- you might need, as others have said.
-
- If you're trying to model non-equilibrium air with finite reaction rates,
- the task is a bit more daunting. I'd recommend that you start with Graham
- Candler's 1988 Stanford PhD thesis if you can find it, and papers by him
- starting around that time if you can't get the thesis. In either case,
- you'll immediately be armed with information about how to deal with a
- variety of implementation issues (which you may or may not need) and with
- a large flock of references, including references to a set of reactions
- and rates (due to Jachimowsky, I believe) that have been shown by Candler
- and others to be reasonably accurate. (NB: Xiao-Lin Zhong, a newly minted
- junior faculty member in the UCLA AA department, is also from Stanford and
- could conceivably have a copy of Graham's thesis.)
-
- Carl
-
- --
- Carl Gooch | Confidence: The feeling you get just
- gooch@leland.stanford.edu | before you discover you're wrong.
-
