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In previous studies on a single-cylinder IDI diesel engine and a V-8 DI turbo diesel engine, significant reductions in particulate matter emissions were observed with the blends of glycol ethers in diesel fuel. In this study, experiments on the effects of oxygenated fuels on emissions and combustion were performed in a 4-cylinder TDI diesel engine. A blend of 20 wt % monoglyme and 80 wt % diglyme, referred to as CETANER, has been examined as a diesel reformulating agent. Blend ratios were considered to provide approximately 2, 4, and 6 wt % oxygen to lowsulfur diesel fuel. Gaseous and particulate emission measurements, as well as heat release rate analysis, have been used to address how emissions and combustion scale with increasing weight percent oxygen in the fuel. The results demonstrate that the oxygenated fuel provides significant reduction in particulate matter with a small penalty on NO x emission, especially at high load. This oxygenated fuel effect may result from an enhanced concentration of oxygen atoms in the over-rich mixture thereby contributing to soot suppression and thermal NO x formation through a shift to a leaner mixture. Low load results imply that the combined effect of relatively high exhaust gas recirculation (EGR) ratio and oxygen addition contributes to both NO x and soot reduction through a combination of flame temperature decrease and suppression of soot precursors. The combined effects on thermal NO x reduction at low load appear to be confirmed by heat release analysis, which indicates a small reduction in premixed burn peak and in-cylinder pressure. The slight reduction in HC and CO emissions under most conditions indicates an improvement of combustion efficiency with the use of oxygen addition. This result also represents the potential of diesel reformulation coupled with high EGR ratio for a better particulate/NO x tradeoff. Particulate morphology, as seen in transmission electron microscopy (TEM) micrographs, shows that enhanced oxidation of unburned hydrocarbon due to oxygen addition leaves a less agglomerated particulate structure especially at low mode, leading to a higher number density of smaller particles and a lower particulate mass.

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Performance and emissions of a heavy-duty diesel engine fuelled with diesel and LNG (liquid natural gas)

Cheenkachorn

Poompipatpong

2013

Energy

149

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Enhancing enzymatic hydrolysis and biogas production from rice straw by pretreatment with organic acids

Amnuaycheewa

Hengaroonprasan

Rattanaporn

et al. 2016

Industrial Crops and Products

156

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Production, purification and characterization of an ionic liquid tolerant cellulase from Bacillus sp. isolated from rice paddy field soil

Sriariyanun

Tantayotai

Yasurin

et al. 2016

Electronic Journal of Biotechnology

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Biodiesel as an Additive for Diesohol

Cheenkachorn

Fungtammasan

2009

International Journal of Green Energy

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Kraipat Cheenkachorn

Effect of Oxygenated Fuel on Combustion and Emissions in a Light-Duty Turbo Diesel Engine

Performance and emissions of a heavy-duty diesel engine fuelled with diesel and LNG (liquid natural gas)

Enhancing enzymatic hydrolysis and biogas production from rice straw by pretreatment with organic acids

Production, purification and characterization of an ionic liquid tolerant cellulase from Bacillus sp. isolated from rice paddy field soil

Biodiesel as an Additive for Diesohol

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