The paper analyzes designs of tubular electrochemical membrane apparatuses. A design for an electric membrane apparatus with an increased solution separation area and reduced concentration polarization was developed. Analytical expressions for determining the total surface area of semi-permeable membranes for the separation of solutions and the area of anode and cathode membranes are presented.
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Yu. I. Dytnerskii, Reverse Osmosis and Ultrafiltration [In Russian], Khimiya, Moscow (1978).
N. V. Loza, S. A. Loza, and N. A. Kononenko, Patent 2566415 RF, IPC B 01 D 61/00, B 01 D 71/06, B 01 D 61/46, Method of Varying the Characteristics of the Electrodializer with Alternating Cation- and Anion-Exchanging Membranes [in Russian], Byul. No. 30, (2015).
P.I . Kulintsov, P. P. Kulintsov, O. V. Vorobyova, et al., Patent for Utility Model 187332 RF, IPC B 01 D 61/42. Electrodializer Electrode Chamber [in Russian], Byul. No. 7, (2019).
A. P. Vergun, I. A. Tikhomirov, and V. T. Doronin, “Extraction of ions in solutions using a tubular electrodialyzer,” Izv. Tomsk. Politekhn. Inst. im. S. M. Kirova, 167, 80–83 (1967).
S. I. Lazarev, S. V. Kovalev, P. A. Khokhlov, and M. I. Mikhailin, “Developing the design of a tubular electrochemical membrane apparatus with effective mixing of the separated solution and methods of its calculating,” Khim. Neftegaz. Mashinost., No. 11, 7‒9 (2020).
D. N. Konovalov, S. V. Kovalev, P. Lua, et al., “Development of an algorithm for calculating the structural and technological characteristics of an electric membrane apparatus and its software implementation,” Vestn. Tekhnolog. Univ., 24, No. 12, 118–123 (2021).
S. V. Kovalev and O. A. Kovaleva, “Improved design of a tubular electrochemical membrane apparatus and a method for calculating the apparatus parameters,” Chemical and Petroleum Engineering, 58, No. 3‒4, 179‒184 (2022).
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Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, Vol. 59, No. 4, pp. 25−27, April, 2023
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Kovalev, S.V., Kovaleva, O.A. & Sedoplatov, I.S. Design and Calculation of an Effective Tubular Electric Membrane Apparatus with an Increased Membrane Area for Separating Process Solutions. Chem Petrol Eng 59, 311–316 (2023). https://doi.org/10.1007/s10556-023-01243-z
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DOI: https://doi.org/10.1007/s10556-023-01243-z