atomization

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atomization

[‚ad·ə·mə′zā·shən]
(analytical chemistry)
In flame spectrometry, conversion of a volatilized sample into free atoms.
(chemistry)
A process in which the chemical bonds in a molecule are broken to yield separated (free) atoms.
(mechanical engineering)
The mechanical subdivision of a bulk liquid or meltable solid, such as certain metals, to produce drops, which vary in diameter depending on the process from under 10 to over 1000 micrometers.

Atomization

The process whereby a bulk liquid is transformed into a multiplicity of small drops. This transformation, often called primary atomization, proceeds through the formation of disturbances on the surface of the bulk liquid, followed by their amplification due to energy and momentum transfer from the surrounding gas.

Spray formation processes are critical to the performance of a number of technologies and applications. These include combustion systems (gas turbine engines, internal combustion engines, incinerators, furnaces, rocket motors), agriculture (pesticide and fertilizer treatments), paints and coatings (furniture, automobiles), consumer products (cleaners, personal care products), fire suppression systems, spray cooling (materials processing, computer chip cooling), medicinal (pharmaceutical), and spray drying (foods, drugs, materials processing). Current concerns include how to make smaller drops (especially for internal combustion engines), how to make larger drops (agricultural sprays), how to reduce the number of largest and smallest drops (paints and coatings, consumer products, medicinals, spray drying), how to distribute the liquid mass more uniformly throughout the spray, and how to increase the fraction of liquid that impacts a target (paints and coatings, spray cooling, fire suppression).

Spray devices (that is, atomizers) are often characterized by how disturbances form. The most general distinction is between systems where one or two fluids flow through the atomizer. The most common types of single‐fluid atomizers are pressure (also called plain‐orifice, hydraulic, or pneumatic), pressure‐swirl, rotary, ultrasonic (sometimes termed whistle or acoustic), and electrostatic. Twin‐fluid atomizers include internal‐mix and external‐mix versions, where these terms describe the location where atomizing fluid (almost always a gas) first contacts fluid to be sprayed (almost always a liquid).

While primary atomization is important, because of its role in determining mean drop size and the spectrum of drop sizes, subsequent processes also play key roles in spray behavior. They include further drop breakup (termed secondary atomization), drop transport to and impact on a target, drop evaporation (and perhaps combustion), plus drop collisions and coalescence. In addition, the spray interacts with its surroundings, being modified by the adjacent gas flow and modifying it in turn. See Particulates

atomization

The formation of tiny droplets or a very fine spray, as produced by impinging jets of air on a small stream of paint in spray painting.
References in periodicals archive ?
GreenShift's Tornado Generator(TM) accelerates compressed air to supersonic speeds in a closed cyclonic chamber where the air is powerful enough to almost instantly grind, flash desiccate and atomize solid and liquid wastes and other materials into micron sized powders.
Fourteen nozzles, which atomize fuel for combustion, are used in each APU.
The efficiency of a great many processes that seek to grind, shred, pulverize, atomize, mix, and/or dry solid or liquid media, and not just waste materials, can be improved with our technology.
GreenShift's patented Tornado Generator(TM) accelerates compressed air to supersonic speeds in a closed cyclonic chamber where the air is powerful enough to almost instantly grind, flash desiccate and atomize solid and liquid wastes and other materials into micron sized powders.