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Physical and Mathematical Models of Micro-Explosions: Achievements and Directions of Improvement

机译:微爆炸的物理和数学模型:成就和改进方向

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The environmental, economic, and energy problems of the modern world motivate the development of alternative fuel technologies. Multifuel technology can help reduce the carbon footprint and waste from the raw materials sector as well as slow down the depletion of energy resources. However, there are limitations to the active use of multifuel mixtures in real power plants and engines because they are difficult to spray in combustion chambers and require secondary atomization. Droplet micro-explosion seems the most promising secondary atomization technology in terms of its integral characteristics. This review paper outlines the most interesting approaches to modeling micro-explosions using in-house computer codes and commercial software packages. A physical model of a droplet micro-explosion based on experimental data was analyzed to highlight the schemes and mathematical expressions describing the critical conditions of parent droplet atomization. Approaches are presented that can predict the number, sizes, velocities, and trajectories of emerging child droplets. We also list the empirical data necessary for developing advanced fragmentation models. Finally, we outline the main growth areas for micro-explosion models catering for the needs of spray technology.
机译:现代世界的环境、经济和能源问题推动了替代燃料技术的发展。多燃料技术可以帮助减少原材料行业的碳足迹和浪费,并减缓能源资源的消耗。然而,在实际发电厂和发动机中积极使用多燃料混合物存在局限性,因为它们难以在燃烧室中喷涂并且需要二次雾化。就其整体特性而言,液滴微爆炸似乎是最有前途的二次雾化技术。这篇综述论文概述了使用内部计算机代码和商业软件包对微爆炸进行建模的最有趣的方法。基于实验数据分析了液滴微爆炸的物理模型,突出了描述母液液滴雾化临界条件的方案和数学表达式。提出了可以预测新出现的子液滴的数量、大小、速度和轨迹的方法。我们还列出了开发高级碎片模型所需的经验数据。最后,我们概述了满足喷涂技术需求的微爆炸模型的主要增长领域。

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