Examination of wavelength dependent soot optical properties of diesel and diesel/rapeseed methyl ester mixture by extinction spectra analysis and LII measurements

摘要

The refractive index of soot is an essential para meter for its optical diagnostics. It is necessary for quan titative interpretation of LII (Laser Induced Incandescence) signals, light scattering or extinction measurements as well as for emissivity calculations. The most cited values have been determined by intrusive methods or without taking into account the soot size distribution and its specific morphol ogy. In the present study, soot generated by the combustion of diesel and diesel/rapeseed methyl ester (RME) mixture (70% diesel and 30% RME) are extensively characterized by taking into account the morphology, the aggregate size distribution, the mass fraction and the spectral dispersion of light. The refractive index m for wavelengths X between 300 and 1000 nm is determined for diesel and diester fu els by both in-situ and ex-situ methods. The ex-situ method is based on the interpretation of extinction spectra by tak ing into account soot sizes and fractal morphology with the RDG-FA (Rayleigh-Debye-Gans for Fractal Aggregate) theory. The in-situ approach is based on the comparison of the LII signals obtained with two different excitation wave lengths. The absorption function E(m) and the scattering function F(m) are examined. This study reveals similar op tical properties of soot particles generated by both studied fuels even at ambient and flame temperatures. The function E(m) is shown to reach a maximum for λ = 250 nm and to tend toward a plateau-like behavior close to E(m) = 0.3 for higher wavelength (600 < λ (nm) < 1000). The function F(m) is found to be quite constant for 400 < λ (nm) < 1000 and equal to 0.31.