Chapter 1: Introduction

Iconic Places in Central Asia Pub Date : 2016-12-31 DOI:10.9783/9780812204940.1

Background

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Abstract

1.1 Motivation 1.1.1 Droplet collision dynamics The droplet dynamics plays an important role in industrial applications such as a raindrop splashing on the ground, the impact of a fuel droplet on the walls of a combustion chamber, pesticide sprays, ink-jet printing, even more a comet impacts a planet, etc. The collision dynamics can be divided into two categories, including the droplet collision and the droplet collision on a liquid or solid surface. In the collision process, it is found that qualitatively different behaviors and phenomena can occur under different condition: the drop coalescence with the liquid surface, splashing by creating a crown, a so-called Worthington jet or a vortex, droplet rebound, etc. 1.1.2 Continuum scale The normal impact of a single drop onto a liquid film is a complicated fluid mechanics phenomenon. The major physical processes include mass, momentum and energy conservation due to spray drop impingement, splashing effects, various shear forces, piston acceleration, dynamic pressure effects, gravity driven flow, conduction, and convective heat and mass transfer. In process of collisions, the droplet will lose kinetic energy as the droplet strains and deforms. The strains will lead to viscous

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第一章:引言

液滴动力学在工业应用中起着重要的作用，例如雨滴溅落在地面上，燃料液滴对燃烧室壁的影响，农药喷洒，喷墨打印，甚至彗星撞击行星等。碰撞动力学可分为两类，包括液滴碰撞和液滴在液体或固体表面上的碰撞。在碰撞过程中，发现在不同的条件下会发生定性不同的行为和现象:液滴与液体表面合并、形成冠状飞溅、所谓的沃辛顿射流或涡旋、液滴反弹等。1.1.2连续尺度单个液滴正常撞击液膜是一种复杂的流体力学现象。主要的物理过程包括由于喷雾滴撞击、飞溅效应、各种剪切力、活塞加速度、动压效应、重力驱动的流动、传导和对流传热传质而产生的质量、动量和能量守恒。在碰撞过程中，液滴会因变形而失去动能。应变会导致粘稠

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