EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 264 (2021) E3S Web Conf., 264 (2021) 03016 References
Open Access
Issue
E3S Web Conf.
Volume 264, 2021
International Scientific Conference “Construction Mechanics, Hydraulics and Water Resources Engineering” (CONMECHYDRO - 2021)
Article Number 03016
Number of page(s) 9
Section Hydraulics of Structures, Hydraulic Engineering and Land Reclamation Construction
DOI https://doi.org/10.1051/e3sconf/202126403016
Published online 02 June 2021
  1. Glovatskiy O.Y., Nasyrova N.R., Bekchanov F.A. Improving the efficiency of operation of pumping stations of irrigation systems // Scientific and practical journal “Ways to improve the efficiency of irrigated agriculture” - Novocherkassk, No. 4 (68), -pp.54–58, (2017) [Google Scholar]
  2. A.I. Dzhurabekov, S.R. Rustamov, O.Y. Glovatsky, Mechanism of cavitation and hydroabrasive wear of centrifugal pumps of irrigation pumping stations // Collection of scientific works, SIC ICWC of Central Asia, - pp.153–159, Tashkent, (2017) [Google Scholar]
  3. Rustamov S.R., Nasirova N.R. Constructive peculiarities of modernized centrifugal pump // European science review, No. 3-4, Vienna. pp-278–280, (2018) [Google Scholar]
  4. Saparov A.B., Glovatsky O.Y., Nasyrova N.R. Study of modification of the impeller of reversible units in the presence of cavitation // Collection of scientific articles of the XVI scientific-practical conference of young scientists and masters “Modern problems in agriculture and water management”, - pp.343–347, - Tashkent, (2017) [Google Scholar]
  5. O.Y. Glovatsky, Ergashev R.R., Rustamov S.R. Improvement to usages and studies large pumping station / Monograph LAP LAMBERT Academic Publishing. P.170, Saarbruken-(2013) [Google Scholar]
  6. O. Glovatskiy, T. Djavburiyev, Z. Urazmukhamedova, A. Gazaryan, F. Akhmadov Interconnection of influent channel and pumping station units // XXII International Scientific Conference on Advanced in Civil Engineering / construction the formation of living environment, pp.18–21, April (2019) [Google Scholar]
  7. F. Bekchanov, R. Ergashev, T. Mavlanov, O. Glovatskiy Mathematical model of vibrating air pump unit // XXII International Scientific Conference on Advanced in Civil Engineering / construction the formation of living environment, pp.18–21, April (2019) [Google Scholar]
  8. Zhao H.K., Yabuki A., Matsumura M., Takahashi, T. and Yamamoto M., “Slurry erosion properties of ceramic coating”, Wear, Vol. 233-235, pp 608–614, (1999) [Google Scholar]
  9. Anders Sellgren, Addie Graeme and Yu Wi-Chung, “Effects of nonnewtonian mineral suspensions on the performance of centrifugal pumps”, Mineral Processing and Extractive Metallurgy Review, Vol20:1, pp 239–249, (1999) [Google Scholar]
  10. Lee S. Y., Dimenna R. A., and Duignan M. R. 2001, “Designing a scaled erosion test with CFD methods”, U.S. Department of Energy WSRC-MS-2001-00500. [Google Scholar]
  11. Gandhi B.K., Singh S. N., Seshadri V., “Performance characteristics of centrifugal slurry pumps”, Journal of Fluids Engineering, Vol. 123, pp 271–280, (2001) [Google Scholar]
  12. Hawthorne H.M., “Some Coriolis slurry erosion test developments”, Tribology International, Vol. 35, pp.625–630, (2002) [Google Scholar]
  13. O. Glovatskiy, T. Djavburiyev, Z. Urazmukhamedova, A. Gazaryan, F. Akhmadov Interconnection of influent channel and pumping station units XXII International Scientific Conference on Advanced in Civil Engineering April 18-21 2019 Construction the formation of living environment, Tashkent, (2019) [Google Scholar]
  14. Svoboda, D.G., Ivanov, E.A., Zharkovskii A.A. Influence of the Geometric Parameters of the Impeller of a Free-Vortex Pump on the Energy and Cavitation Characteristics of the Pump Chemical and Petroleum Engineering, Springer US, Vol. 54, Nos. 9-10, January, 2019, pp. 673–680 DOI: 10.1007/s10556-019-00532-w. [Google Scholar]
  15. Nasrulin A.B., Zhuraev S.R., Saidov F.S. Study of the influence of hydrological and hydraulic parameters on the operating mode of pumping stations. Republican collection of scientific papers, pp.302–306, Tashkent (2018) [Google Scholar]
  16. E. Kan, M. Mukhammadiev, N. Ikramov. Methods of regulating the work of units at irrigation pumping stations. IOP Conference Series: Materials Science and Engineering, Volume 869, (2020) 042009. [Google Scholar]
  17. Borshev, I., Ivanov, E., Zharkovskii A.A., Donskoy, A., Klyuyev, A. Assessment of acoustic and pulsation characteristics of centrifugal pumps (2019) E3S Web of Conferences, 91, article No. 07006 DOI: 10.1051/e3sconf/20199107006. [Google Scholar]
  18. D. Bazarov, B. Norkulov, B. Obidov, B. Nazarov Experience of employment of computational models for water quality modeling E3S Web Conf., 97 (2019) 05030. DOI: https://doi.org/10.1051/e3sconf/20199705030/. [Google Scholar]
  19. M. Mukhammadiev, A. Nasrulin, A. Mukolyants, D. Ergasheva A complexly method of GIS technologies and optimization models used in the development of environmentally acceptable modes of operation of hydraulic and hydropower facilities in Uzbekistan International Scientific Conference Mathematical Modelling and Methods of Structural Analysis 2019 13th -15th November 2019 Moscow State University of Civil Engineering (MGSU). Moscow, Russia http://www.mmsa2019.org/ IOP Conf. Series: Journal of Physics: Conf. Series 1425 (2020) 012132 DOI: 10.1088./1742-6596/1/0121132. [Google Scholar]
  20. Mukhammadiev M., Klichev Sh Use of Pumped Storage Hydroelectric Power Plants in Uzbekistan Applied Solar Energy (ISSN 0003-701X, Vol. 54, No. 6) pp.68–71. (2018) [Google Scholar]
  21. Glovatsky, O., Ergashev, R., Nasirova, N., Kholbutaev, B., Khusanbayeva, K. Estimation of the forecast of pump ready rate for reclamation systems, IOP Conference Series: Materials Science and Engineering, 1030(1), 012115, (2021) [CrossRef] [Google Scholar]
  22. Ergashev, R., Ismoilov, N., Nasirova, N., Khusanbayeva, K., Nazarov, O. Technology of water supply to water inlets of pumping stations, IOP Conference Series: Materials Science and Engineering, 1030(1), 012156, (2021) [CrossRef] [Google Scholar]
  23. Ergashev, R., Azizov, O., Dehkanova, N., Bozorov, A. Development of energy-saving modes of irrigation pump stations, IOP Conference Series: Materials Science and Engineering, 883(1), 012017, (2020) [Google Scholar]
  24. Ergashev, R., Bekchanov, F., Akmalov, S., Shodiev, B., Kholbutaev, B. New methods for geoinformation systems of tests and analysis of causes of failure elements of pumping stations, IOP Conference Series: Materials Science and Engineering, 883(1), 012015, (2020) [Google Scholar]
  25. Bekchanov, F., Ergashev, R., Mavlanov, T., Glovatskiy, O. Mathematical model of vibrating air pump unit, E3S Web of Conferences, 97, 05045, (2019) [EDP Sciences] [Google Scholar]
  26. Glovatskii, O.Y., Ergashev, R.R., Bekchanov, F.A., Sharipov, S.M. Hybrid installations in pumping stations based on the use of renewable energy sources, Applied Solar Energy (English translation of Geliotekhnika), 48 (4), pp. 266–268, (2012) [Google Scholar]
  27. Bazarov D., Vatin N., Obidov B., and Vokhidov O. Hydrodynamic effects of the flow on the slab of the stand in the presence of cavitation. IOP Conf. Ser. Mater. Sci. Eng. 1030, 012110 (2021). [Google Scholar]
  28. Bazarov D., Markova I., Norkulov B. and Vokhidov O. Hydraulic aspects of the layout of head structures during water intake from lowland rivers. IOP Conf. Ser. Mater. Sci. Eng. 1015, 012041 (2021). [CrossRef] [Google Scholar]
  29. Bazarov D., Markova I., Sultanov S. and Kattakulov F. Dynamics of the hydraulic and alluvial regime of the lower reaches of the Amudarya after the commissioning of the Takhiatash and Tuyamuyun hydrosystems. IOP Conf. Ser. Mater. Sci. Eng. 1030, 012110 (2021). [Google Scholar]
  30. Bazarov D. and Vokhidov O. Extinguishing Excess Flow Energy in Spillway Structures. In book: Proceedings of EECE 2020, LNCE 150, pp. 535–545, (2021) DOI: 10.1007/978-3-030-72404-7_52 [Google Scholar]
  31. Bazarov D., Markova I., Norkulov B., Isabaev K., Sapaeva M. Operational efficiency of water damless intake. IOP Conf. Ser. Mater. Sci. Eng. 869(7), 072051, (2020) [CrossRef] [Google Scholar]
  32. Krutov A., Choriev R., Norkulov B., Mavlyanova D. and Shomurodov A. Mathematical modelling of bottom deformations in the kinematic wave approximation. IOP Conf. Ser. Mater. Sci. Eng. 1030, 012147 (2021). [CrossRef] [Google Scholar]
  33. Krutov A., Norkulov B., Uljaev F., and Jamalov F. Results of a numerical study of currents in the vicinity of a damless water intake. IOP Conf. Ser. Mater. Sci. Eng. 1030, 012121 (2021). [CrossRef] [Google Scholar]
  34. Krutov A., Norkulov B., Mavlyanova D. Simulation of spreading of non-conservative passive substances in water bodies. IOP Conf. Ser. Mater. Sci. Eng. 883(1), 012028 (2020) [Google Scholar]
  35. Krutov A., Norkulov B., Nurmatov P., Mirzaev M. Applicability of zero-dimensional equations to forecast nonconservative components concentration in water bodies. IOP Conf. Ser. Mater. Sci. Eng. 883(1), 012028 (2020) [Google Scholar]
  36. Krutov A., Norkulov B., Artikbekova F., Nurmatov P. Optimal location of an intake at a reservoir prone to salt diffusion. IOP Conf. Ser. Mater. Sci. Eng. 869(7), 072020, (2020) [Google Scholar]
  37. Shokirov B., Norkulov B., Nishanbaev, K., Khurazbaev, M., Nazarov, B. Computer simulation of channel processes. E3S Web of Conferences, 97, 05012, (2019) [CrossRef] [EDP Sciences] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.