Experimental and Calculation Studies of Main Line Oil Pumps Efficiency Change Due to Smooth Coatings

S. V. Akimov

doi:10.1051/e3sconf/202132004012

All issues

Volume 320 (2021)

E3S Web Conf., 320 (2021) 04012

References

Open Access

Issue		E3S Web Conf. Volume 320, 2021 Energy Systems Environmental Impacts (ESEI 2021)


Article Number		04012
Number of page(s)		14
Section		Power Engineering
DOI		https://doi.org/10.1051/e3sconf/202132004012
Published online		09 November 2021

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[1] P. A. Revel-Muroz, Development of methods for improvement of oil transportation energy efficiency with introduction of a complex of energy saving technologies. Thesis in support of candidature for a technical degree (Ufa) P. 11-12, 2018 [Google Scholar]

[2] S. A. Chernyshev, Improvement of centrifugal pumps performance through change of work flow hydrodynamic interaction with flow part elements. Thesis in support of candidature for a technical degree (Moscow) P. 38-44, 2008 [Google Scholar]

[3] V. I. Voronov, Kazantsev M. N., Flegentov I. A., Starshinov D. M., Ivanov A. G. Testing of hydrophobic coatings applied on pumps’ flow parts aimed at improvement of main line oil pumps efficiency. Summary scientific and technical report (Moscow: Transneft R&D, LLC) p 43 [Google Scholar]

[4] Oil and Oil Products Main Pipeline Transportation. Advanced Main Line and Booster Pumps. Special Technical Requirements. СТТ-23.080.00-KТH-240-14 (with Amendment 1). (Moscow: Transneft R&D, LLC) P. 17-18 [Google Scholar]

[5] S. V. Akimov and Shoter P. I. A new approach for calculating hydraulic losses in centrifugal pump’s volute J. Pumps. Turbines. Systems 26 56–65, 2018 [Google Scholar]

[6] J. F. Gülich, Centrifugal pumps (Villeneuve, Switzerland: Springer International Publishing), 2020 [Google Scholar]