Concentration of liquid microvolumes during interaction of gas flow with vapor was studied. The interaction increases the rate of evaporation of liquid. Theoretical, numerical, and experimental aspects of the study of liquid evaporation in a liquid concentrator are discussed.
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References
Karpov Yu.A., Savostin A.P., Methods of Sampling and Preparation of Samples [in Russian], BINOM. Laboratoriya Znanii, Moscow (2003).
Mitsuike A., Methods of Microelements Concentration in Non-organic Analysis [Russian translation], Khimiya, Moscow (1986).
Fuks N.A., Evaporation and Growth of Drops in Gaseous Medium [in Russian], AN SSSR, Moscow (1958).
McBain G.D., Shuercke H., and Harris J.A., Heat Mass Transf., No. 43, 2117-2128 (2000).
Borisov Yu.A., Chernishev A.V., Drutsa V.L., Vestn. MGTU im. N. E. Baumana, No. 4, 45-54 (2012).
Kafarov V.V., Mass Transfer Principles [in Russian], Vysshaya Shkola, Moscow (1972).
Borisov Yu.A., Chernishev A.V., Orlov S.A., Drutsa V.L., “A Microevaporator”, RF Patent No. 149825.
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Translated from Meditsinskaya Tekhnika, Vol. 49, No. 4, Jul.-Aug., 2015, pp. 44-47.
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Borisov, Y.A., Chernishev, A.V. Vacuum Concentrator of Liquid Microvolumes. Biomed Eng 49, 246–250 (2015). https://doi.org/10.1007/s10527-015-9539-1
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DOI: https://doi.org/10.1007/s10527-015-9539-1