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W2793599647 endingPage "598" @default.
W2793599647 startingPage "586" @default.
W2793599647 abstract "This study is devoted to the evaluation of the impact of both esters’ carbon chain length and concentration on sooting propensities of Diesel and Biodiesel surrogates. Soot particles were produced using a steady atmospheric axis-symmetric co-flow diffusion flame burner. Concentrations ranging from 3 to 30% (on molar basis) of methylbutanoate (MB), methyloctanoate (MO) or methyldecanoate (MD) were added to a surrogate Diesel made up of a binary mixture of 70% n-decane and 30% α-methylnaphthalene (α-MN). For every considered mixture, the sooting propensity was measured in terms of Yield Sooting Index (YSI) in a methane diffusion flame doped with 3.5% vapor of the mixture. Maps of soot volume fraction in the flame were extracted using a light extinction method (LEM). Soot samples produced along the combustion of surrogate Diesel and Biodiesel fuels were then collected and characterized using physico-chemical techniques, i.e. elemental analysis (CHONS), Thermogravimetric Analysis (TGA), Raman spectroscopy, and Temperature Programmed Oxidation (TPO). Results evidenced that ester functions contained in Biodiesel surrogates reduce soot production. This decrease was more pronounced when the concentration of the oxygenated additive investigated was higher. However, it has been surprisingly determined that YSI decreases when the aliphatic carbon chain of the ester additive is longer. On the other hand, physico-chemical characterizations of the generated model soot revealed that oxygen and soluble organic fraction (SOF) content decreases when the amount of biodiesel surrogate in the fuel increases. Nevertheless, no important dissimilarities have been registered in the graphitic structures of the different soot. Finally, the behavior towards oxidation reactivity indicated that the Biodiesel-derived soot were less reactive than the Diesel-derived one." @default.
W2793599647 created "2018-03-29" @default.
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W2793599647 date "2018-06-01" @default.
W2793599647 modified "2023-10-03" @default.
W2793599647 title "Impacts of ester’s carbon chain length and concentration on sooting propensities and soot oxidative reactivity: Application to Diesel and Biodiesel surrogates" @default.
W2793599647 cites W1166488477 @default.
W2793599647 cites W1495760743 @default.
W2793599647 cites W1960465926 @default.
W2793599647 cites W1964262563 @default.
W2793599647 cites W1964299006 @default.
W2793599647 cites W1967014998 @default.
W2793599647 cites W1969254768 @default.
W2793599647 cites W1970014476 @default.
W2793599647 cites W1970772333 @default.
W2793599647 cites W1970939607 @default.
W2793599647 cites W1974293688 @default.
W2793599647 cites W1975483125 @default.
W2793599647 cites W1977134531 @default.
W2793599647 cites W1978188882 @default.
W2793599647 cites W1983930768 @default.
W2793599647 cites W1993088443 @default.
W2793599647 cites W1996839889 @default.
W2793599647 cites W2001709631 @default.
W2793599647 cites W2002764288 @default.
W2793599647 cites W2002822984 @default.
W2793599647 cites W2004663383 @default.
W2793599647 cites W2004826230 @default.
W2793599647 cites W2006247397 @default.
W2793599647 cites W2011875833 @default.
W2793599647 cites W2013090429 @default.
W2793599647 cites W2015257502 @default.
W2793599647 cites W2016510553 @default.
W2793599647 cites W2016870827 @default.
W2793599647 cites W2028068879 @default.
W2793599647 cites W2029850555 @default.
W2793599647 cites W2032027336 @default.
W2793599647 cites W2033281923 @default.
W2793599647 cites W2035931618 @default.
W2793599647 cites W2037036039 @default.
W2793599647 cites W2037138722 @default.
W2793599647 cites W2038520023 @default.
W2793599647 cites W2046958326 @default.
W2793599647 cites W2047989828 @default.
W2793599647 cites W2048690601 @default.
W2793599647 cites W2048800477 @default.
W2793599647 cites W2050201536 @default.
W2793599647 cites W2051294849 @default.
W2793599647 cites W2054242150 @default.
W2793599647 cites W2056049232 @default.
W2793599647 cites W2056466990 @default.
W2793599647 cites W2060459199 @default.
W2793599647 cites W2061323631 @default.
W2793599647 cites W2063271742 @default.
W2793599647 cites W2064319190 @default.
W2793599647 cites W2064469675 @default.
W2793599647 cites W2066931959 @default.
W2793599647 cites W2067041650 @default.
W2793599647 cites W2072462437 @default.
W2793599647 cites W2072746532 @default.
W2793599647 cites W2072892476 @default.
W2793599647 cites W2076504740 @default.
W2793599647 cites W2077439201 @default.
W2793599647 cites W2080423620 @default.
W2793599647 cites W2081414341 @default.
W2793599647 cites W2084843168 @default.
W2793599647 cites W2087020791 @default.
W2793599647 cites W2092995337 @default.
W2793599647 cites W2096530864 @default.
W2793599647 cites W2112597263 @default.
W2793599647 cites W2116821045 @default.
W2793599647 cites W2136839140 @default.
W2793599647 cites W2140137657 @default.
W2793599647 cites W2155246168 @default.
W2793599647 cites W2163642090 @default.
W2793599647 cites W2181935133 @default.
W2793599647 cites W2204095168 @default.
W2793599647 cites W2235679284 @default.
W2793599647 cites W2311883331 @default.
W2793599647 cites W2331789322 @default.
W2793599647 cites W2345097674 @default.
W2793599647 cites W2495405838 @default.
W2793599647 cites W2565109781 @default.
W2793599647 cites W2599190616 @default.
W2793599647 cites W613934202 @default.
W2793599647 doi "https://doi.org/10.1016/j.fuel.2018.02.103" @default.
W2793599647 hasPublicationYear "2018" @default.
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