2018
DOI: 10.1016/j.fuel.2018.01.065
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Effect of propylene glycol ether fuelling on the different physico-chemical properties of the emitted particulate matters: Implications of the soot reactivity

Abstract: The research work presented here focuses on the particulate matter (PM) number concentration and its physico-chemical properties from the combustion of di and tri-propylene glycol methyl ether/diesel blends (D20 and T20 respectively). Exhaust PM were characterised using a Scanning Transmission electron microscopy equipped with energy dispersive X-ray spectroscopy (S/TEM-EDX) to quantify the nanostructure, morphology and elemental composition of the agglomerates, Raman spectroscopy (RS) to further examine the p… Show more

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Cited by 36 publications
(22 citation statements)
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“…Consequently, formation of bond with chemisorbed oxygen is much easier compared to basal plane atom with greater accessibility of oxygen [61,62]. Thus, in this study D8 shows to possess higher number of carbons located on the edge site, it is believed be another contributing factor to enhance soot reactivity [50].…”
Section: Particle Nano-structurementioning
confidence: 71%
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“…Consequently, formation of bond with chemisorbed oxygen is much easier compared to basal plane atom with greater accessibility of oxygen [61,62]. Thus, in this study D8 shows to possess higher number of carbons located on the edge site, it is believed be another contributing factor to enhance soot reactivity [50].…”
Section: Particle Nano-structurementioning
confidence: 71%
“…Higher soot reactivity was reported to be linked to the smaller primary particles as it increases the specific surface area, SSA (surface area/volume) ratio. Higher SSA means more surface area available for oxygen contact during oxygen [49,50]. Thus, the improvement of soot oxidation explained in previous section is thought that is partially due to the influence of smaller primary particles formation by D8.…”
Section: Particle Reactivitymentioning
confidence: 80%
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