Simulating exhaust emissions characteristics and their improvements in a glow-assisted di methanol engine using combustion models combined with detailed kinetics

Jin Kusaka; Yasuhiro Daisho; Ryoji Kihara; Takeshi Saito

doi:10.4271/971598

Simulating exhaust emissions characteristics and their improvements in a glow-assisted di methanol engine using combustion models combined with detailed kinetics

Jin Kusaka^*, Yasuhiro Daisho, Ryoji Kihara, Takeshi Saito

^*Corresponding author for this work

Graduate School of Environment and Energy Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

An experimental and numerical study has been conducted on the emission and reduction of HCHO (formaldehyde) and other pollutants formed in the cylinder of a direct-injection diesel engine fueled by methanol. Engine tests were performed under a variety of intake conditions including throttling, heating, and EGR (exhaust gas recirculation) for the purpose of improving these emissions by changing gas compositions and combustion temperatures in the cylinder. Moreover, a detailed kinetics model was developed and applied to methanol combustion to investigate HCHO formation and the reduction mechanism influenced by associated elementary reactions and in-cylinder mixing.

Original language	English
Journal	SAE Technical Papers
DOIs	https://doi.org/10.4271/971598
Publication status	Published - 1997
Event	International Spring Fuels and Lubricants Meeting - Dearborn, MI, United States Duration: 1997 May 5 → 1997 May 8

ASJC Scopus subject areas

Automotive Engineering
Safety, Risk, Reliability and Quality
Pollution
Industrial and Manufacturing Engineering

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10.4271/971598

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title = "Simulating exhaust emissions characteristics and their improvements in a glow-assisted di methanol engine using combustion models combined with detailed kinetics",

abstract = "An experimental and numerical study has been conducted on the emission and reduction of HCHO (formaldehyde) and other pollutants formed in the cylinder of a direct-injection diesel engine fueled by methanol. Engine tests were performed under a variety of intake conditions including throttling, heating, and EGR (exhaust gas recirculation) for the purpose of improving these emissions by changing gas compositions and combustion temperatures in the cylinder. Moreover, a detailed kinetics model was developed and applied to methanol combustion to investigate HCHO formation and the reduction mechanism influenced by associated elementary reactions and in-cylinder mixing.",

author = "Jin Kusaka and Yasuhiro Daisho and Ryoji Kihara and Takeshi Saito",

year = "1997",

doi = "10.4271/971598",

language = "English",

journal = "SAE Technical Papers",

issn = "0148-7191",

publisher = "SAE International",

note = "International Spring Fuels and Lubricants Meeting ; Conference date: 05-05-1997 Through 08-05-1997",

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T1 - Simulating exhaust emissions characteristics and their improvements in a glow-assisted di methanol engine using combustion models combined with detailed kinetics

AU - Kusaka, Jin

AU - Daisho, Yasuhiro

AU - Kihara, Ryoji

AU - Saito, Takeshi

PY - 1997

Y1 - 1997

N2 - An experimental and numerical study has been conducted on the emission and reduction of HCHO (formaldehyde) and other pollutants formed in the cylinder of a direct-injection diesel engine fueled by methanol. Engine tests were performed under a variety of intake conditions including throttling, heating, and EGR (exhaust gas recirculation) for the purpose of improving these emissions by changing gas compositions and combustion temperatures in the cylinder. Moreover, a detailed kinetics model was developed and applied to methanol combustion to investigate HCHO formation and the reduction mechanism influenced by associated elementary reactions and in-cylinder mixing.

AB - An experimental and numerical study has been conducted on the emission and reduction of HCHO (formaldehyde) and other pollutants formed in the cylinder of a direct-injection diesel engine fueled by methanol. Engine tests were performed under a variety of intake conditions including throttling, heating, and EGR (exhaust gas recirculation) for the purpose of improving these emissions by changing gas compositions and combustion temperatures in the cylinder. Moreover, a detailed kinetics model was developed and applied to methanol combustion to investigate HCHO formation and the reduction mechanism influenced by associated elementary reactions and in-cylinder mixing.

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AN - SCOPUS:85072458719

SN - 0148-7191

JO - SAE Technical Papers

JF - SAE Technical Papers

T2 - International Spring Fuels and Lubricants Meeting

Y2 - 5 May 1997 through 8 May 1997

ER -

Simulating exhaust emissions characteristics and their improvements in a glow-assisted di methanol engine using combustion models combined with detailed kinetics

Abstract

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