Combustion and Flame, Vol.115, No.1-2, 253-261, 1998
Determination of the soot volume fraction in an ethylene diffusion flame by multiwavelength analysis of soot radiation
The features of the multiwavelength emission technique for the measurement of soot volume fraction and temperature in an ethylene diffusion flame have been investigated. For this purpose we have exploited the emission spectra from 300 nm to 800 nm and a mathematical Abel inversion procedure. To interpret the measurements, the quantity f(v)/K-abs = lambda(36 pi F(lambda)), here called natural length for absorption, rho(abs), is modeled as a continuous function according to literature data. Soot temperature profiles were also obtained showing small variations in the investigated region of the flame. Extinction measurements on the same flame were compared, and good agreement was found between the two techniques. With respect to the more-common two-color emission technique, the use of a wide set of spectral data reduces the uncertainties due to the determination of the index of refraction of soot. Different sets of refractive index have been compared and the results are discussed.
Keywords:LASER-INDUCED INCANDESCENCE;OPTICAL-PROPERTIES;INDUCEDFLUORESCENCE;REFRACTIVE-INDEXES;PREMIXED FLAMES;RICH FLAMES;TEMPERATURE;SCATTERING;PARTICLES;LIGHT