Oil desalting processes in electric desalting plants are analyzed and the conditions affecting these processes are indicated. The structure of interrelationships of the system is disclosed by systems analysis method. The control parameters are combined into integral criteria, which can be used not only to compare options of electric desalting process implementation in various types of plants and to select efficient designs of electrohydrodynamic mixers, electric dehydrators, and electric coalescing devices, but also to evaluate the principal indicators of the electric desalting plant performance. A generalized criterion is proposed for determining the energy and resource consumption efficiency of electric oil desalting plants.
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References
GOST 9965−76, Crude Oil for Refineries. Technical Specifications [in Russian], Standartinform, Мoscow (2010).
GOST 31378−2009, Crude Oil. General Technical Specifications [in Russian], Standartinform, Мoscow (2012).
N. M. Zhavoronkov, V. V. Kаfarov, V. L. Perov, et al., “New principles of analysis and synthesis of chemical engineering systems,” Теоr. Oсн. Khim. Tekhnol., No. 4, 152–167 (1970).
V. V. Kаfarov, Cybernetics Methods in Chemistry and Chemical Engineering [in Russian], Khimiya, Мoscow (1985).
K. V. Tarantsev and K. R. Tarantseva, “Influence of electric field frequency on the process of destruction of water-oil emulsions in electric dehydrators,” Chemical and Petroleum Engineering, 53, 515–518 (2017).
K. V. Tarantsev and K. R. Tarantseva, “Influence of turbulence on the processes of creation and destruction of water-oil emulsions during crude oil desalting,” Chemical and Petroleum Engineering, 53, 699–702 (2017).
K. V. Tarantsev and K. R. Tarantseva, “Influence of electric field strength on the processes of destruction and creation of water-oil emulsions during crude oil desalting,” Chemical and Petroleum Engineering, 53, 703–706 (2017).
K. V. Tarantsev and K. R. Tarantseva, “Effect of electric field nonuniformity on the processes of creation and destruction of water-oil emulsions during crude oil desalting,” Chemical and Petroleum Engineering, 53, 707–710 (2017).
K. V. Tarantsev and I. A. Proshin, “Enhancement of chemical-technological processes for creation and destruction of water-oil emulsions based on a systems analysis,” Chemical and Petroleum Engineering, 52, 815–823 (2016).
D. A. Baranov, Principles of Calculation and Designing of Hydrocyclones for Separating Emulsions [in Russian], Doctoral dissertation, Moscow (1996).
L. A. Barskii and I. N. Plaksin, Criteria of Optimization of Separating Processes [in Russian], Nauka, Moscow (1967).
A. N. Bormotov, I. A. Proshin, and E. V. Korolev, Mathematical Modeling and Multicriterial Synthesis of Composite Materials [in Russian], PGTA, Penza (2011).
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Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, Vol. 57, No. 6, pp. 8–12, June, 2021.
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Tarantsev, K.V., Ponikarov, S.I. & Tarantseva, K.R. Oil Desalting Processes in Electric Desalting Plants as Object of Systems Analysis. Chem Petrol Eng 57, 457–464 (2021). https://doi.org/10.1007/s10556-021-00959-0
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DOI: https://doi.org/10.1007/s10556-021-00959-0