Abstract
The experimental evaluation of the method, based on the analysis of particles of saline residue formed from evaporation of droplets when atomizing model aqueous NaCl solutions, is presented. The method was used for the study of the distribution of droplet size during pulsed and ultrasonic atomization of liquids.
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References
N. A. Fuks, Droplet Evaporation and Growth in a Gaseous Medium (Mir, Moscow, 1986) [in Russian].
Xu Renliang, Particle Characterization: Light Scattering Methods (Kluwer Academic Publishers, N.Y., 2002).
H. G. Merkus, Particle Size Measurements: Fundamentals, Practice, Quality (Springer, N.Y., 2009).
S. Boyaval and C. Dumouchel, “Investigation on the Drop Size Distribution of Sprays Produced by a High-Pressure Swirl Injector. Measurements and Application of the Maximum Entropy Formalism,” Particle & Particle Systems Characterization 18(1), 33–49 (2001).
A. N. Ishmatov, I. R. Akhmadeev, B. I. Vorozhtsov, S. S. Titov, and O. B. Kudryashova, “Measurement Laser Setup for the Study of Highly Concentrated Liquid-Drop Aerosol,” Datchiki i Sistemy, No. 11, 61–63 (2011).
B. I. Vorozhtsov, O. B. Kudryashova, A. N. Ishmatov, I. R. Akhmadeev, and G. V. Sakovich, “Explosion Generation of Microatomized Liquid-Drop Aerosols and Their Evolution,” J. Engin. Phys. Thermophys. 83(6), 1084–1104 (2010).
M. S. Volynskii, The Extraordinary Life of an Ordinary Droplet (Znanie, Moscow, 1986) [in Russian].
A. N. Ishmatov, “Technique for the Study of Liquid-Drop Aerosol Media by Salt Residual Formed during Atomization of NaCl Solutions,” in Interuniversity Collected Works “Measurements, Automation, and Modeling in Industry and Scientific Researches,” No. 1, 58–60 (2011).
S. K. Aslanov and A. V. Kolpakov, “Effect of Electric Field on the Dispersion Process of a Liquid Surface,” Physics of Aerodisperse Systems, No. 39, 7–13 (2002).
M. I. Vedernikova, L. G. Startseva, Yu. L. Yur’ev, and V. P. Orlov, “Examples and Tasks on Mass Exchange Processes,” in Chemical Engineering: Handbook. Pt. IV. Main Physical, Chemical, and Thermophysical Properties of a Substance (Ural. gos. lesotekhn. un-t, Yekaterinburg, 2009) [in Russian].
V. N. Khmelev and O. V. Popova, Multifunctional Ultrasonic Devices and Their Use at Small Enterprises, in Agriculture and Household (AltGTU, Barnaul, 1997).
A. N. Ishmatov and B. I. Vorozhtsov, “Study of the Development of Fine Liquid Aerosol with Accounting for Low-Evaporable Admixtures,” Kratkie Soobshcheniya po Fizike, No. 1, 22–27 (2010).
S. V. Stebnovskii, “Pulsed Dispersion as the Critical Regime of Destruction of a Liquid Volume,” Combustion, Explosion, and Shock Waves 44(2), 228–238 (2008).
D. D. Vasil’ev, “Mathematical Modelling of Crystallization from the Aerosol of Water Solution,” Thermophys. Aeromech. 12(3), 433–438 (2005).
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Original Russian Text © A.N. Ishmatov, B.I. Vorozhtsov, 2013, published in Optica Atmosfery i Okeana.
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Ishmatov, A.N., Vorozhtsov, B.I. A method for the study of fine liquid atomization. Atmos Ocean Opt 26, 74–77 (2013). https://doi.org/10.1134/S1024856013010107
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DOI: https://doi.org/10.1134/S1024856013010107