Spray Characteristics of Air-Assisted Injector Under Different Ambient Pressures

Hao Wu, Fujun Zhang, Zhenyu Zhang
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Abstract

Spray atomization of liquid fuel plays an important role in droplet evaporation, combustible mixture formation and subsequent combustion process. Well-atomized liquid spray contributes to high fuel efficiency and low pollutant emissions. Gasoline direct injection(GDI) has been recognized as one of the most effective ways to improve fuel atomization. As a special direct injection method, the air-assisted direct injection utilizes high-speed flow of high-pressure air at the injector exit to assist liquid fuel injection and promote spray atomization at a low injection pressure. This injection method has excellent application potential and advantages for high performance and lightweight engines. In this study, the hollow cone spray emerging from an air-assisted injector was studied in a constant volume chamber with the ambient pressures ranging from 5 kPa to 300 kPa. External macro characteristics of spray were obtained using high speed backlit imaging. Phase Doppler particle analyzer(PDPA) was utilized to study the microcosmic spray characteristics. The results show that under the flash boiling condition, the spray will generate a strong flash boiling point which causes the cone shape spray to expand both inwards and outwards. The axisymmetric inward expansion would converge together and form a lathy aggregation area below the nozzle and the axisymmetric outward expansion greatly increases the spray width. The sauter mean diameter (SMD) of flash boiling condition can be reduced to 5 μm compared to the level close to 10 μm in the non-flash boiling condition.
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空气辅助喷射器在不同环境压力下的喷雾特性
液体燃料的喷雾雾化在液滴蒸发、可燃混合物形成和随后的燃烧过程中起着重要作用。雾化良好的液体喷雾有助于提高燃油效率和减少污染物排放。汽油直喷(GDI)已被公认为改善燃料雾化的最有效方法之一。作为一种特殊的直接喷射方法,空气辅助直接喷射利用喷射器出口处的高压空气的高速流动来辅助液体燃料喷射,并在低喷射压力下促进喷雾雾化。这种喷射方法在高性能、轻量化发动机方面具有良好的应用潜力和优势。在本研究中,在环境压力为5kPa至300kPa的定容室中研究了空气辅助喷射器产生的空心锥形喷雾。使用高速背光成像获得喷雾的外部宏观特征。利用相位多普勒粒子分析仪(PDPA)对喷雾的微观特性进行了研究。结果表明,在闪蒸条件下,喷雾会产生较强的闪蒸沸点,使锥形喷雾内外膨胀。轴对称向内膨胀会汇聚在一起,并在喷嘴下方形成板条聚集区,轴对称向外膨胀会大大增加喷雾宽度。与非闪蒸条件下接近10μm的水平相比,闪蒸条件下的sauter平均直径(SMD)可以降低到5μm。
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CiteScore
1.10
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0.00%
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2437
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