An inter-impingement spray model considering binary droplet collision based on an open-source platform

IF 1 4区工程技术 Q4 ENGINEERING, CHEMICAL

Atomization and Sprays Pub Date : 2024-05-01 DOI:10.1615/atomizspr.2024051300

Jingqi Bu, Longfei Li, Fan Zhang, Shenghui Zhong, Zhuoxin Liu, Xifeng Liao, Linhao Fan, Kui Jiao, Qing Du

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引用次数: 0

Abstract

Collision and breakup are the two main processes of the inter-impingement spray within internal combustion engines. However, previous models have not comprehensively considered five collision regimes representing collision dynamics under high-pressure conditions, leading to deviations of Sauter mean diameter (SMD) and frequency of bouncing regime. Hence, this paper integrates an improved composite collision model for high-pressure conditions, incorporating all collision regimes and the generation of satellite droplets. Due to the significant dependence of collision regimes on the geometric relationships between collision pairs, this paper advocates the combined utilization of the composite collision model with the absolutely deterministic trajectory model. Furthermore, the calculation method of the breakup length Bl that separates the primary and secondary breakup is adapted to apply the hybrid KH-RT breakup model to inter-impingement sprays. Extensive validation of binary droplet collisions and inter-impingement sprays are conducted. The comparative analysis reveals that the conventional Bl overestimates the penetration, the simplified collision model overestimates the SMD, while the present model agrees well with experimental results. Results show that a slight increase in global SMD and a significant reduction in velocity after the impingement point. Downstream of the impingement point, SMD at the ends exceeds that in the middle when the impinging distance Sz > Bl, contrasting with the situation when Sz < Bl and closer to the impingement point. Moreover, the occurrence of the coalescence regime is more frequent during secondary break before the impingement point.

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基于开源平台的考虑到二元液滴碰撞的阻碍间喷雾模型

碰撞和破裂是内燃机内相互撞击喷雾的两个主要过程。然而，以前的模型没有全面考虑高压条件下代表碰撞动力学的五种碰撞状态，导致萨特平均直径（SMD）和弹跳状态频率出现偏差。因此，本文整合了高压条件下的改进型复合碰撞模型，纳入了所有碰撞机制和卫星液滴的生成。由于碰撞机制与碰撞对之间的几何关系有很大关系，本文主张将复合碰撞模型与绝对确定轨迹模型结合使用。此外，本文还调整了分离一次分裂和二次分裂的分裂长度 Bl 的计算方法，以便将混合 KH-RT 分裂模型应用于阻碍间喷雾。对二元液滴碰撞和撞击间喷雾进行了广泛的验证。对比分析表明，传统的 Bl 高估了穿透力，简化的碰撞模型高估了 SMD，而本模型与实验结果非常吻合。结果表明，在撞击点之后，全局 SMD 略有增加，速度显著降低。在撞击点下游，当撞击距离 Sz > Bl 时，两端的 SMD 超过中间的 SMD，这与 Sz < Bl 和更靠近撞击点时的情况形成鲜明对比。此外，在撞击点之前的二次断裂期间，凝聚机制的出现更为频繁。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Atomization and Sprays 工程技术-材料科学：综合

CiteScore

2.10

自引率

16.70%

发文量

审稿时长

1.7 months

期刊介绍： The application and utilization of sprays is not new, and in modern society, it is extensive enough that almost every industry and household uses some form of sprays. What is new is an increasing scientific interest in atomization - the need to understand the physical structure of liquids under conditions of higher shear rates and interaction with gaseous flow. This need is being met with the publication of Atomization and Sprays, an authoritative, international journal presenting high quality research, applications, and review papers.