Investigation on characteristics of fuel impinging wall and mixture forming in diesel engine

Xu He; Wei Guo Liu; Xi Yan Gao; Chun Ming Liao; De Sheng Yang; Da Wen Zhao

Investigation on characteristics of fuel impinging wall and mixture forming in diesel engine

Xu He^*, Wei Guo Liu, Xi Yan Gao, Chun Ming Liao, De Sheng Yang, Da Wen Zhao

^*Corresponding author for this work

Dalian University of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Fuel impinging on the wall was calculated by using STAR-CD with 3-D model. The emphases of investigation were the spray angle, environment pressure and swirl ratio affecting on the impinging and mixture forming. The results show that the secondary atomization after impinging is very important to the fuel evaporation. When spray angle increases, the area of film on the wall increases too. The shape changes from long-leaf form to sector. When environment pressure becomes higher, the distribution of fuel reduces obviously, and fuel deposit and rich mixture area decreases. Relative lean mixture is formed. The effect of swirl on the fuel happens after impinging wall. Along with swirl ratio increases, large-scale lean mixture formed. If swirl ratio is too higher, the mixture of adjoining sprays will be in collision with each other, which is disadvantageous for combustion.

Original language	English
Pages (from-to)	11-14
Number of pages	4
Journal	Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering
Volume	27
Issue number	2
Publication status	Published - Apr 2006
Externally published	Yes

Keywords

Diesel engine
I.C. engine
Mixture
Numerical simulation
Spray

Cite this

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title = "Investigation on characteristics of fuel impinging wall and mixture forming in diesel engine",

abstract = "Fuel impinging on the wall was calculated by using STAR-CD with 3-D model. The emphases of investigation were the spray angle, environment pressure and swirl ratio affecting on the impinging and mixture forming. The results show that the secondary atomization after impinging is very important to the fuel evaporation. When spray angle increases, the area of film on the wall increases too. The shape changes from long-leaf form to sector. When environment pressure becomes higher, the distribution of fuel reduces obviously, and fuel deposit and rich mixture area decreases. Relative lean mixture is formed. The effect of swirl on the fuel happens after impinging wall. Along with swirl ratio increases, large-scale lean mixture formed. If swirl ratio is too higher, the mixture of adjoining sprays will be in collision with each other, which is disadvantageous for combustion.",

keywords = "Diesel engine, I.C. engine, Mixture, Numerical simulation, Spray",

author = "Xu He and Liu, {Wei Guo} and Gao, {Xi Yan} and Liao, {Chun Ming} and Yang, {De Sheng} and Zhao, {Da Wen}",

year = "2006",

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language = "English",

volume = "27",

pages = "11--14",

journal = "Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering",

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publisher = "Chinese Society for Internal Combustion Engines",

number = "2",

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TY - JOUR

T1 - Investigation on characteristics of fuel impinging wall and mixture forming in diesel engine

AU - He, Xu

AU - Liu, Wei Guo

AU - Gao, Xi Yan

AU - Liao, Chun Ming

AU - Yang, De Sheng

AU - Zhao, Da Wen

PY - 2006/4

Y1 - 2006/4

N2 - Fuel impinging on the wall was calculated by using STAR-CD with 3-D model. The emphases of investigation were the spray angle, environment pressure and swirl ratio affecting on the impinging and mixture forming. The results show that the secondary atomization after impinging is very important to the fuel evaporation. When spray angle increases, the area of film on the wall increases too. The shape changes from long-leaf form to sector. When environment pressure becomes higher, the distribution of fuel reduces obviously, and fuel deposit and rich mixture area decreases. Relative lean mixture is formed. The effect of swirl on the fuel happens after impinging wall. Along with swirl ratio increases, large-scale lean mixture formed. If swirl ratio is too higher, the mixture of adjoining sprays will be in collision with each other, which is disadvantageous for combustion.

AB - Fuel impinging on the wall was calculated by using STAR-CD with 3-D model. The emphases of investigation were the spray angle, environment pressure and swirl ratio affecting on the impinging and mixture forming. The results show that the secondary atomization after impinging is very important to the fuel evaporation. When spray angle increases, the area of film on the wall increases too. The shape changes from long-leaf form to sector. When environment pressure becomes higher, the distribution of fuel reduces obviously, and fuel deposit and rich mixture area decreases. Relative lean mixture is formed. The effect of swirl on the fuel happens after impinging wall. Along with swirl ratio increases, large-scale lean mixture formed. If swirl ratio is too higher, the mixture of adjoining sprays will be in collision with each other, which is disadvantageous for combustion.

KW - Diesel engine

KW - I.C. engine

KW - Mixture

KW - Numerical simulation

KW - Spray

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SN - 1000-0925

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JF - Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering

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Investigation on characteristics of fuel impinging wall and mixture forming in diesel engine

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Keywords

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