A Mathematical Description of Heat Transfer and a Procedure for Determining Temperature Characteristics of Electro-Ultrafiltration Process for Separating Industrial Solutions
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A mathematical description of heat transfer is presented and a procedure is developed for calculating the temperature characteristics of electro-ultrafiltration process for separating industrial solutions in flatchamber type of apparatuses. The permeate and retentate temperatures, solution heating temperature, heating power, and amount of heat liberated in the process of separation of industrial solutions and effluents containing anionic surfactants, proteins, and phosphatic and biochemical substances are calculated by the developed procedure.
Keywordselectro-ultrafiltration process heat transfer permeate retentate calculation procedure temperature characteristics
- 1.Lyu Yan’tsin, Development of Membrane Apparatuses Based on Baromembrane Water Purification Methods: Dissert. Cand. Tekhn. Sci., 05.17.08, Moscow (2013).Google Scholar
- 2.M. Mulder, Basic Principles of Membrane Technology [Russian translation], Mir, Moscow (1999).Google Scholar
- 3.S. I. Lazarev, Scientific Principles of Electrochemical and Baromembrane Methods for Purifying, Separating, and Getting Organic Substances from Industrial Effluents: Dissert. Doct. Tekhn. Sci., 05.17.03, Tambov (2001).Google Scholar
- 4.V. Yu. Bogomolov and S. I. Lazarev, “Calculation and designing of membrane unit for waste water cleaning,” Vestn. Tamb. Univ., Ser. Estestv. Tekhn. Nauki, 19, No. 6, 805–812 (2014).Google Scholar