Effect of Ethanol on Knock in Spark Ignition Gasoline Engines

Kenjiro Nakama; Jin Kusaka; Yasuhiro Daisho

doi:10.4271/2008-32-0020

Effect of Ethanol on Knock in Spark Ignition Gasoline Engines

Kenjiro Nakama, Jin Kusaka, Yasuhiro Daisho

Graduate School of Environment and Energy Engineering

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

2 Citations (Scopus)

Abstract

This study examines the effects of ethanol content on engine performances and the knock characteristics in spark ignition gasoline engine under various compression ratio conditions by cylinder pressure analysis, visualization and numerical simulation. The results confirm that increasing the ethanol content provides for greater engine torque and thermal efficiency as a result of the improvement of knock tolerance. It was also confirmed that increasing the compression ratio together with increasing ethanol content is effective to overcome the shortcomings of poor fuel economy caused by the low calorific value of ethanol. Further, the results of one dimensional flame propagation simulation show that ethanol content increase laminar burning velocity. Moreover, the results of visualization by using a bore scope demonstrate that ethanol affects the increase of initial flame propagation speed and thus helps suppress knock.

Original language	English
Journal	SAE Technical Papers
Volume	2008-September
DOIs	https://doi.org/10.4271/2008-32-0020
Publication status	Published - 2008 Jan 1
Event	SAE Small Engine Technology Conference and Exposition, SETC 2008 - Milwaukee, United States Duration: 2008 Sept 9 → 2008 Sept 11

ASJC Scopus subject areas

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

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10.4271/2008-32-0020

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title = "Effect of Ethanol on Knock in Spark Ignition Gasoline Engines",

abstract = "This study examines the effects of ethanol content on engine performances and the knock characteristics in spark ignition gasoline engine under various compression ratio conditions by cylinder pressure analysis, visualization and numerical simulation. The results confirm that increasing the ethanol content provides for greater engine torque and thermal efficiency as a result of the improvement of knock tolerance. It was also confirmed that increasing the compression ratio together with increasing ethanol content is effective to overcome the shortcomings of poor fuel economy caused by the low calorific value of ethanol. Further, the results of one dimensional flame propagation simulation show that ethanol content increase laminar burning velocity. Moreover, the results of visualization by using a bore scope demonstrate that ethanol affects the increase of initial flame propagation speed and thus helps suppress knock.",

author = "Kenjiro Nakama and Jin Kusaka and Yasuhiro Daisho",

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doi = "10.4271/2008-32-0020",

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T1 - Effect of Ethanol on Knock in Spark Ignition Gasoline Engines

AU - Nakama, Kenjiro

AU - Kusaka, Jin

AU - Daisho, Yasuhiro

PY - 2008/1/1

Y1 - 2008/1/1

N2 - This study examines the effects of ethanol content on engine performances and the knock characteristics in spark ignition gasoline engine under various compression ratio conditions by cylinder pressure analysis, visualization and numerical simulation. The results confirm that increasing the ethanol content provides for greater engine torque and thermal efficiency as a result of the improvement of knock tolerance. It was also confirmed that increasing the compression ratio together with increasing ethanol content is effective to overcome the shortcomings of poor fuel economy caused by the low calorific value of ethanol. Further, the results of one dimensional flame propagation simulation show that ethanol content increase laminar burning velocity. Moreover, the results of visualization by using a bore scope demonstrate that ethanol affects the increase of initial flame propagation speed and thus helps suppress knock.

AB - This study examines the effects of ethanol content on engine performances and the knock characteristics in spark ignition gasoline engine under various compression ratio conditions by cylinder pressure analysis, visualization and numerical simulation. The results confirm that increasing the ethanol content provides for greater engine torque and thermal efficiency as a result of the improvement of knock tolerance. It was also confirmed that increasing the compression ratio together with increasing ethanol content is effective to overcome the shortcomings of poor fuel economy caused by the low calorific value of ethanol. Further, the results of one dimensional flame propagation simulation show that ethanol content increase laminar burning velocity. Moreover, the results of visualization by using a bore scope demonstrate that ethanol affects the increase of initial flame propagation speed and thus helps suppress knock.

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VL - 2008-September

JO - SAE Technical Papers

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T2 - SAE Small Engine Technology Conference and Exposition, SETC 2008

Y2 - 9 September 2008 through 11 September 2008

ER -

Effect of Ethanol on Knock in Spark Ignition Gasoline Engines

Abstract

ASJC Scopus subject areas

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