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International Conference on Information Technologies in Business and Industry 2016 IOP Publishing IOP Conf. Series: Journal of Physics: Conf. Series 803 (2017) 012148 doi:10.1088/1742-6596/803/1/012148 3. Conclusion Using the developed simulation and modelling software will help to ensure optimum modes of technological processes, to predict the changing parameters in the event of emergency situations that increase the level of fail-safe operation. In the training and supervising operating modes using simulation and modeling, software can quickly assess the level of training, as well as to carry out its own training on the basis of the included modules of virtual simulation of the process if necessary. Studies have found that an increase in the temperature of the electrolyte decreases the dynamic viscosity, and the diameters of solvated ions are reduced, resulting in increased conductivity and increased electrolytic current at a given value of the voltage between the anode and the cathode. 4. Acknowledgments Research is being conducted with the support of the Foundation for Assistance to Small Innovative Enterprises in Science and Technology (Foundation to promote innovation (UMNIK)). References [1] Shulaeva E A, Kovalenko Y F, Shulaev N S 2014 Using simulation and modeling software of chemical technology in education CSIT 2014 175-179 [2] Shulaeva E A, Kovalenko Y F, Shulaev N S 2014 Simulation and modeling software in chemical technology: polymerization of vinyl chloride. Advanced Materials Research. 2040 581-584 [3] Brusov 2010 Technological equipment: safety and efficiency of industrial production 13 50-51 [4] Syzrantsev V, hammer M, Cherezov K 2006 Computer simulators for training students in oil and gas areas Drilling and oil 10 34-37 [5] Samodurov V M, Kovshova N. O, Klushin V N 2015 To assess the optimal conditions for obtaining caustic and precipitation of carbonate, molybdate and chromate of calcium from waste production of propylene oxide Advances in chemistry and chemical technology 29-8 (167) 105- 107 [6] Meneghini D, Bertin R. Device for the separation of mercury from caustic plants production of chlorine and caustic 12.04.2007 The patent for invention RUS 2426821 [7] An E D, Afanasyev F I, Podtsepnyak S E, Gavrilin I A, Fedorov A M, Kazakov B A, Datsuk G V, Khabibullin R V 12.08.2008 The electrolyzer with a horizontal mercury cathode The patent for invention RUS 2403322 [8] Abdrashitov J M, Gorin V N, Dmitriev Yu K, Izosenkov R I, Lerner A S, Gainetdinov F F, Fedorov A M, Phil M Yu, V I Beril, Yaprintsev V N, Yaroshevskii V V. 13.09.2001 Method of regulating the voltage on the anodes of a mercury electrolytic process of obtaining chlorine and caustic. The patent for invention RUS 2209257 [9] Afanasyeva R A 2006 New directions in the production of chlorine, caustic and construction of electrolytic cells Chemical technology 3 18-26 [10] Yakimenko L M 1989 Production of chlorine, caustic and inorganic floorproducts 600 6PDF Image | electrolysis production of caustic chlorine and hydrogen
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