Laser Diagnostic Analyses of Sooting Flames.
Abstract
Temperature distribution and soot particle size distributions have been measured in axisymmetric, laminar, diffusion flames in order to provide the basis for modelling the influence of fuel structure and temperature on soot formation. This document is the final report and management summary for the joint activities of UTRC and Princeton University. Coherent anti-Stokes Raman spectroscopy (CARS) was used for non-intrusive determination of temperature. Soot particle size and number densities were determined by Mie scattering. The experimental results were then applied to current models of soot formation in an effort to determine the physical and chemical basis for fuel structure and temperature effects on soot formation in diffusion flames. In the course of this first application of CARS and Mie diagnostics to diffusion flames, a large number of questions was raised in regard to the structure of particulate-laden diffusion flames. Measured distributions were compared with a numerical flame-sheet model. Originator-supplied key words include: Soot formation, Diffusion flames, Flame structure, Temperatures in diffusion flames, CARS temperature measurement.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 29, 1984
- Accession Number
- ADA150478
Entities
People
- A. C. Eckbreth
- G. M. Dobbs
- L. R. Boedeker
Organizations
- United Technologies Corporation