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Aerodynamic atomization

Two-fluid atomization, sometimes also termed twin-fluid atomization, two-phase atomization or aerodynamic atomization, is one of the commonly used techniques in many areas. Two-fluid... [Pg.37]

In addition to these physical properties and process variables, the flow, flow direction, and shock wave of ambient air/gas relative to liquid jet may significantly influence the resultant droplet size distribution. In high-speed aerodynamic atomization, different flow arrangements have been used, 244 including (a) injection of liquid... [Pg.256]

J. E. Matta, R. P. Tytus, J. L. Harris Aerodynamic Atomization of Polymeric Solutions, Chem. Engr. Commun. 19, 191-204 (1983). [Pg.156]

As mentioned in the previous section, a major drawback of the simplex atomizer is the poor atomization quality at the lowest flow rate due to too-low pressure differential if swirl ports are sized to allow the maximum flow rate at the maximum injection pressure. This problem may be resolved by using dual-orifice, duplex, or spill-return atomizers. Alternatively, the atomization processes at low injection pressures can be augmented via forced aerodynamic instabilities by using air or gas stream(s) or jet(s). This is based on the beneficial effect of flowing air in assisting the disintegration of a liquid j et or sheet, as recognized in the application of the shroud air in fan spray and pressure-swirl atomization. [Pg.37]

Numerous atomization techniques have evolved for the production of metal/alloy powders or as a step in spray forming processes. Atomization of melts may be achieved by a variety of means such as aerodynamic, hydrodynamic, mechanical, ultrasonic, electrostatic, electromagnetic, or pressure effect, or a combination of some of these effects. Some of the atomization techniques have been extensively developed and applied to commercial productions, including (a) two-fluid atomization using gas, water, or oil (i.e., gas atomization, water atomization, oil atomization), (b) vacuum atomization, and (c) rotating electrode atomization. Two-fluid atomization... [Pg.66]

Atomization Unknown, but Plausibly Aerodynamic Interaction, Turbulence, Cavitation, Bursting Effect We >40.3 or Oh lOORei 092 [220] ... [Pg.131]

In practical fan sheet breakup processes, sheet thickness diminishes as the sheet expands away from the atomizer orifice, and liquid viscosity affects the breakup and the resultant droplet size. Dombrowski and Johns[238] considered these realistic factors and derived an analytical correlation for the mean droplet diameter on the basis of an analysis of the aerodynamic instability and disintegration of viscous sheets with particular reference to those generated by fan spray atomizers ... [Pg.163]

In pressure-swirl atomization, the complex atomization process may be conveniently subdivided into two main stages, as suggested by Lefebvre.12661 In the first stage, surface instabilities are generated as a result of the combined effects of hydrodynamic and aerodynamic forces. In the second stage, surface protuberances are... [Pg.164]

Some quantitative studies1498115011 on droplet size distribution in water atomization of melts showed that the mean droplet size increases with metal flow rate and reduces with water flow rate, water velocity, or water pressure. From detailed experimental studies on the water atomization of steel, Grandzol and Tallmadge15011 observed that water velocity is a fundamental variable influencing the mean droplet size, and further, it is the velocity component normal to the molten metal stream Uw sin , rather than parallel to the metal stream, that governs the mean droplet size. This may be attributed to the hypothesis that water atomization is an impact and shattering process, while gas atomization is predominantly an aerodynamic shear process. [Pg.289]

Presser, C., A.K. Gupta, and H. G. Semerjian. 1993. Aerodynamic characteristics of swirling spray-pressure jet atomizer. Combustion Flame 92 25-44. [Pg.267]

In supersonic missiles where warheads are subjected to aerodynamic heating, conventional explosives cannot be used and thermally stable explosives like TATB, TACOT, HNS and PYX, etc. are necessary for such systems. Some formulations based on these explosives are HNS/Kel-F800 95/5 (developed by Atomic Weapons Research Establishment, Aldermaston, UK) and AFX 521 (PYX/Kel-F800 95/5 — developed by Los Alamos National Laboratory, USA). Their shock sensitivities lie in the region required for boosters. HNS/Teflon explosive charges have also been used for the Apollo 17 seismic experiments [199]. [Pg.120]

Aerodynamic monodisperse atomizer, 114f Aerotex, ecotoxicity, 352-61... [Pg.396]

Factors that influence the destruction efficiency include local temperatures and gas composition, residence time, extent of atomization of liquid wastes and dispersion of solid wastes, fluctuations in the waste stream composition and heating value, combustion aerodynamics, and turbulent... [Pg.286]

See other pages where Aerodynamic atomization is mentioned: [Pg.38]    [Pg.165]    [Pg.67]    [Pg.277]    [Pg.38]    [Pg.165]    [Pg.67]    [Pg.277]    [Pg.198]    [Pg.329]    [Pg.331]    [Pg.525]    [Pg.5]    [Pg.2]    [Pg.20]    [Pg.27]    [Pg.39]    [Pg.61]    [Pg.133]    [Pg.133]    [Pg.134]    [Pg.134]    [Pg.149]    [Pg.151]    [Pg.164]    [Pg.169]    [Pg.173]    [Pg.184]    [Pg.186]    [Pg.256]    [Pg.317]    [Pg.305]    [Pg.106]    [Pg.113]    [Pg.115]    [Pg.291]    [Pg.344]   
See also in sourсe #XX -- [ Pg.37 , Pg.38 , Pg.256 ]



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