Atomizing, spraying and aerosols

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AF3622 V1 Article

Atomizing, spraying and aerosols

Author : Luis LE MOYNE

Publication date: January 10, 2010 | Lire en français

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Overview

ABSTRACT

Ubiquitous in natural phenomena as well as in the industry, atomizing consists in transforming matter in an extremely specific way. Although certain cases can be deduced precisely from theory, most techniques only provide trends and qualitative aspects. However, modern supercalculators allow for conducting a large number of numerical simulations in order to characterize dispersed phases and thus for studying at best empirically the detailled distributions and drop sizes obtained.

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AUTHOR

  • Luis LE MOYNE : Doctorate in mechanics, qualified to direct research - Engineer from the École nationale supérieure d'arts et métiers (ENSAM) - University Professor, Institut Supérieur de l'Automobile et des Transports, University of Burgundy, Nevers

 INTRODUCTION

The omnipresence of dispersed phases (liquids in the case of droplets, solids in the case of particles) in nature and industry, whose formation process is commonly referred to as atomization or spraying, is beyond dispute. Describing the physical processes and mechanisms involved in the transition from a continuous liquid phase to a dispersed phase is a complex task. While droplet characteristics (size and velocity) can be precisely deduced from theory for a few textbook cases of atomization, only qualitative aspects and trends can be obtained in most cases. We shall see in this article that, nonetheless, numerous simulations are being carried out to characterize dispersed phases, aided, it is true, by the emergence of modern computers. Here, we'll look at measurement techniques specific to atomization, as well as detailed droplet size distributions obtained empirically to overcome the difficulty of obtaining theoretical predictions.

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