Effect of nozzle orifice diameter on diesel spray tip penetration according to various spray models for CFD simulation with widely varying back pressure

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• 作者：C. H. Lee
• 关键词：Key WordsDiesel engines ; Nozzle orifice diameter ; Spray tip penetration ; Ambient gas density ; CFD simulation
• 刊名：International Journal of Automotive Technology
• 出版年：2017
• 出版时间：April 2017
• 年：2017
• 卷：18
• 期：2
• 页码：317-325
• 全文大小：
• 刊物类别：Engineering
• 刊物主题：Automotive Engineering;
• 出版者：The Korean Society of Automotive Engineers
• ISSN：1976-3832
• 卷排序：18

文摘

CFD simulations of spray tip penetration with the standard KIVA3V, ‘original gas jet’ and ‘Normal gas jet profile with breakup length formula’ (NGJBL) spray models were performed to investigate the effects of nozzle orifice size and ambient gas density combinations on the spray penetration. The accuracy of the CFD simulation results was estimated by comparing them with available experimental data. The ambient gas density was varied in 12 kg/m3 intervals from 12 to 69 kg/m3 for each nozzle orifice diameter. The nozzle orifice diameters used were 119, 140, 183 and 206 mm. A total of 20 cases in the CFD simulations were considered with combinations of the 4 nozzle orifice diameters and 5 ambient gas densities. CFD simulations with the NGJBL spray model were more accurate than those with either the standard KIVA3V or gas jet spray models as the nozzle orifice diameter and ambient gas density was increased. The NGJBL and original gas jet model is more effective in predicting the spray tip penetration near the nozzle tip region.