Multi-Component Model of Diesel Sprays Under High Injection Pressure

doi:10.1007/s12204-017-1898-1

Journal of Shanghai Jiao Tong University (Science) ›› 2018, Vol. 23 ›› Issue (2): 264-268.doi: 10.1007/s12204-017-1898-1

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Multi-Component Model of Diesel Sprays Under High Injection Pressure

WANG Xiaorong (王筱蓉), WANG Jigang (王继刚), JIN Zhangliang (金张良),REN Guilong (任贵龙), MA Hu (马虎)

(1. School of Mechanical Engineering, Jiangsu University of Science and Technology, Zhenjiang 212003, Jiangsu, China; 2. School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China)
(1. School of Mechanical Engineering, Jiangsu University of Science and Technology, Zhenjiang 212003, Jiangsu, China; 2. School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China)

Online:2018-04-01 Published:2018-06-19
Contact: WANG Jigang (王继刚) E-mail:wjg_sun@126.com

Abstract

Abstract: The combustion efficiency of a diesel engine depends not only on spray characteristics but also on fuel-air mixing characteristics. Based on the original spray model, a new spray model is established in this paper to accurately predict the diesel spray, and then a multi-component evaporation model is added into it. The model takes the influence of component concentration gradient and species on its evaporation rate in the liquid phase into account. This paper studies the spray characteristics (spray penetration, spray angle and spray morphology) and fuel-air mixing characteristics (spray area, spray volume and air entrainment mass) using the spray model, and the results are compared with the experimental results. The comparison shows that the simulated spray penetration and spray angle are close to the experimental results with the average deviations less than 3%. Moreover, this paper studies the spray area, spray volume and air entrainment using empirical formula under different conditions. And the maximum deviations of the spray volume, spray area and air entrainment mass are less than 5% as compared with the test values. Overall, this spray model can predict the diesel spray characteristics and fuel-air mixing characteristics under high injection pressure accurately.

Key words: fuel-air mixing characteristics| multi-component evaporation model| diesel spray| equivalence ratio

摘要： The combustion efficiency of a diesel engine depends not only on spray characteristics but also on fuel-air mixing characteristics. Based on the original spray model, a new spray model is established in this paper to accurately predict the diesel spray, and then a multi-component evaporation model is added into it. The model takes the influence of component concentration gradient and species on its evaporation rate in the liquid phase into account. This paper studies the spray characteristics (spray penetration, spray angle and spray morphology) and fuel-air mixing characteristics (spray area, spray volume and air entrainment mass) using the spray model, and the results are compared with the experimental results. The comparison shows that the simulated spray penetration and spray angle are close to the experimental results with the average deviations less than 3%. Moreover, this paper studies the spray area, spray volume and air entrainment using empirical formula under different conditions. And the maximum deviations of the spray volume, spray area and air entrainment mass are less than 5% as compared with the test values. Overall, this spray model can predict the diesel spray characteristics and fuel-air mixing characteristics under high injection pressure accurately.

关键词: fuel-air mixing characteristics| multi-component evaporation model| diesel spray| equivalence ratio

CLC Number:

TK 16

WANG Xiaorong (王筱蓉), WANG Jigang (王继刚), JIN Zhangliang (金张良),REN Guilong (任贵龙), MA Hu (马虎). Multi-Component Model of Diesel Sprays Under High Injection Pressure[J]. Journal of Shanghai Jiao Tong University (Science), 2018, 23(2): 264-268.

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Multi-Component Model of Diesel Sprays Under High Injection Pressure

Multi-Component Model of Diesel Sprays Under High Injection Pressure

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