Impact of EGR Rate on Soot Nanostructure from a Diesel Engine Fueled with Biodiesel

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作者
WANG Zhong
YANG Fang-ling
ZHANG Jian
ZHAO Yang
QU Lei
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Keywords Diesel engine; Biodiesel; EGR; Soot; Raman;
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A specific nanostructure analysis was performed on the soot derived from diesel engine fueled with biodiesel under different rate of exhaust gas.The experimental instruments used in this study included an186FA engine bench,a full-flow dilution constant volume sampling system,and a laser Raman spectrometer.In the engine bench test,biodiesel soot under several EGR rates were collected from the exhaust gas with the Micro-Orifice Uniform Deposit Impactor(MOUDI).Then,a laser Raman spectrometer was utilized in order to explore the nanostructure of biodiesel soot.The first-order Raman spectra have been analyzed by curve fit with five band combination and the obtained spectral parameters were discussed.The results revealed that30%EGR rate had the widest FWHM representing strongest chemical heterogeneity and most material types in biodiesel soot,next was 15%EGR rate,and no EGR was the last.While EGR rate climbed from 0to 30%,ID/IG gradually increased,which suggested that ordered graphitic structure reduce and the degree of graphitization decreased.In addition,ID1/ID2were located about from 8of 0%EGR to 4of 15%and 30%EGR,suggesting ageneral transformation from vacancy defect to defect at graphene layer edges.Furthermore,crystallite dimension reduced when EGR rate raised.However,C—C bond length seemed no fluctuation.Besides,there was no obvious difference of C—C bond length between biodiesel soot and typical carbon graphite.In summary,the nanostructure of biodiesel soot under high EGR rate tended to have low degree of graphitization and high oxidative reactivity.
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页码:1973 / 1979
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