In Situ Optical Properties of Soot Particles in the Wavelength Range from 340 nm to 600 nm
- 1 June 1988
- journal article
- research article
- Published by Taylor & Francis in Combustion Science and Technology
- Vol. 59 (4-6) , 401-421
- https://doi.org/10.1080/00102208808947108
Abstract
Measurements of dynamic light scattering along with classical scattering/extinction as a function of the wavelength for a rich propane/oxygen flame are presented. Spectral optical properties of soot particles are inferred in the visible and infrared part of the spectrum. Particle size distribution. number densities and volume fractions of soot are determined and comparisons are made with predictions of existing models for the soot optical constants. The effects of agglomeration and temperature in the determination of the optical properties are assessed and a new set of dispersion constants for the optical properties of flame soot is presented.Keywords
This publication has 27 references indexed in Scilit:
- An automated light scattering system and a method for the i n s i t u measurement of the index of refraction of soot particlesReview of Scientific Instruments, 1987
- Refractive indices of soot particles deduced from in-situ laser light scattering measurementsCombustion and Flame, 1987
- The effect of soot particle optical inhomogenity and agglomeration on the analysis of light scattering measurements in flamesJournal of Quantitative Spectroscopy and Radiative Transfer, 1986
- Determination of the Refractive Indices of Soot Particles from the Reflectivities of Compressed Soot PelletsCombustion Science and Technology, 1984
- Optical Measurements of Soot Formation in Premixed FlamesCombustion Science and Technology, 1983
- Determination of the Rate Constant for Soot Surface GrowthCombustion Science and Technology, 1983
- The size and optical properties of soot particlesCombustion and Flame, 1978
- A light-scattering method for soot concentration measurementsCombustion and Flame, 1970
- Optical constants of carbons and coals in the infraredCarbon, 1968
- Light scattering measurements on soot in a benzeneair flameCombustion and Flame, 1964