Magazine Article

Processing Raman Spectra of High-Pressure Hydrogen Flames

TBMG-1714

02/01/2006

Abstract
Content

The Raman Code automates the analysis of laser-Raman- spectroscopy data for diagnosis of combustion at high pressure. On the basis of the theory of molecular spectroscopy, the software calculates the rovibrational and pure rotational Raman spectra of H2, O2, N2, and H2O in hydrogen/air flames at given temperatures and pressures. Given a set of Raman spectral data from measurements on a given flame and results from the aforementioned calculations, the software calculates the thermodynamic temperature and number densities of the aforementioned species. The software accounts for collisional spectral-linebroadening effects at pressures up to 60 bar (6 MPa). The line-broadening effects increase with pressure and thereby complicate the analysis. The software also corrects for spectral interference ("crosstalk") among the various chemical species. In the absence of such correction, the cross-talk is a significant source of error in temperatures and number densities. This is the first known comprehensive computer code that, when used in conjunction with a spectral calibration database, can process Raman-scattering spectral data from high-pressure hydrogen/ air flames to obtain temperatures accurate to within ±10 K and chemicalspecies number densities accurate to within ±2 percent.

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Citation
"Processing Raman Spectra of High-Pressure Hydrogen Flames," Mobility Engineering, February 1, 2006.
Additional Details
Publisher
Published
Feb 1, 2006
Product Code
TBMG-1714
Content Type
Magazine Article
Language
English