Abstract
The article presents research results on the rates of dissolving oxygen of the air in water during its treatment in an aerator–oxidizer. Relationships between the oxygen dissolution rates and parameters of treatment and design of the aerator–oxidizer are esteblished.
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Zolotova, E.F. and Acc, G.Yu., Ochistka vody ot zheleza, margantsa, ftora i serovodoroda (Water Purification of Iron, Manganese, Fluorite and Hydrogen Sulfide), Moscow: Stroiizdat, 1975.
Kuznetsov, A.E., Gradova, N.E., Lushnikov, S.V., et al., Prikladnaya ekobiotekhnologia. A textbook (Applied Ecobiotekhnology), Moscow: BINOM, Laboratoria Znaniy, 2012.
Dolinskii, A.A. and Ivanitskii, G.K., Teplomassoobmen i hidrodinamika v parozhidkosnykh dispersnykh sredakh. Teplofizicheskie osnovy diskretno-impulsnoo vvoda energii (Heat-Mass exchange and hydrodynamics in steam–liquid Dispersion Media. Heat-Physical Basis of Dispersion Media), Kyiv, Naukova Dumka, 2008.
Micro- and nanolevel processes in technologies of DPIE: Them. Collection of Articles, Kyiv: Academperiodika, 2015.
Grabova, T.L., Dispergirovanie geterogennykh system v rotorno-pulsatsionnykh aparatakh diskovo-cilindricheskogo tipa (Dispertion of Heterogenous Systems in Rotor–Pulsation Appratus of the Disc-Cylndrcal Type), Dissertation of Cand. Tekhn. Nauk, Kyiv, 2007.
Lymar, A.Yu., Osobenosti diskretno-impulsnogo vvoda energii pri dispergirovanii krakhmalosoderzhachego Syria (Features of Discreme-Pulse Input of Energy at Dispersion of Starchcontaining Feedstock), Kyiv, 2014.
Pirozhenko, I.A., Gidrodinamika ta teplovi efekty v tsylindrychnomu rotorno-pulsasinomu aparati (Hydrodynamics and Heat Effects in Cylindrical Rotor-Pulsating Apparatus), Dissertation of Cand. Techn. Science, Kyiv, 2005.
Dolinskii, A.A., Pavenko, A.M., and Basok, B.I., Teplofizicheskie protsessy v emulsiyakh (Heat-Physical Processes in Emulsions), Kyiv: Naukova Dumka, 2005.
Promtov, M.A., Pulsatsionye apparaty rotornogo tipa: twooriya i praktika (Pulsating Apparatuses of the Rotor Type: Theory and Practice), Moscow: Mashinostroenie-I, 2001.
Dolinskii, A.A., Basok, B.I., Shetankov, O.K., and Chaika, A.I., Prom. Teplotekhnika (Industrial Heat Engineering), 2001, vol. 23, no. 4/5, pp. 137–140.
Nasorchevskii, A.I., Basok, B.I., and Ryzhkova, T.S., Inzh.-Fiz. Zhurn., 2002, vol. 75, no. 2, pp. 58–68.
Dolinskii, A.A., Obodovich, A.H., and Borkhalenko, Yu.A., Metod diskretno-impulsnogo vvoda energii i ego realizasia (Method of Discrete–Pulse Input of Energy and Its Realization), Kharkiv: Virovanets, A.P., Apostroph, 2012.
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Original Russian Text © A.A. Dolinskyi, O.M. Obodovych, V.V. Sydorenko, 2018, published in Khimiya i Tekhnologiya Vody, 2018, Vol. 40, No. 6, pp. 655–662.
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Dolinskyi, A.A., Obodovych, O.M. & Sydorenko, V.V. Influence of Discrete Pulse Energy Input at Absorption of Oxygen in the Liquid Medium. J. Water Chem. Technol. 40, 354–358 (2018). https://doi.org/10.3103/S1063455X18060073
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DOI: https://doi.org/10.3103/S1063455X18060073