In modern conditions, to maintain a favorable hydraulic regime on mechanical water
lifting systems, it is rational to use protective structures on watercourses that use the energy of the
water flow in the form of a floating tank. Based on the obtained theoretical principles, fundamentally
new self-controlled floating structures were created and the hydrodynamic characteristics of the
movement of an unsteady three-dimensional flow for the parameters of the wing profile were refined.
The theory of unsteady three-dimensional movement of a multiphase flow with its artificial
stratification and protection from selected phases in depth is used by floating guide systems at water
intakes of large cascades of pumping stations.
In modern conditions, to maintain a favorable hydraulic regime on mechanical water
lifting systems, it is rational to use protective structures on watercourses that use the energy of the
water flow in the form of a floating tank. Based on the obtained theoretical principles, fundamentally
new self-controlled floating structures were created and the hydrodynamic characteristics of the
movement of an unsteady three-dimensional flow for the parameters of the wing profile were refined.
The theory of unsteady three-dimensional movement of a multiphase flow with its artificial
stratification and protection from selected phases in depth is used by floating guide systems at water
intakes of large cascades of pumping stations.
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Islamov I.. | Base Doctarant, | Karshi Institute of Irrigation and Agricultural Technologies, Karshi city |
| 2 | Glovatsky O.Y. | DSc, Professor | Institute of Irrigation and Water Problems, Tashkent city; |
| 3 | Khujakulov .. | Professor, | Karshi Institute of Irrigation and Agricultural Technologies, Karshi city |
| 4 | Nasirov F.J. | DSc, Professor, | Tashkent State Technical University, Tashkent city, Republic of Uzbekistan |
| 5 | Uralov J.A. | teacher | Tashkent State Technical University, Tashkent city, Republic of Uzbekistan |
| 6 | Amirov S.. | student | Tashkent State Technical University, Tashkent city, Republic of Uzbekistan |
| № | Название ссылки |
|---|---|
| 1 | 1. Glovatsky O.Ya., Nosirov F.Zh., Khamdamov B., Nasyrova N.R., Reconstruction of water intake structures of hydroelectric power plants and pumping stations // III International Scientific and Technical Conference “Actual Problems of the Power Supply System” collection of scientific papers // Tashkent, 2023, pp. 335-338. 2. Nasyrova N. et al. Use of Combined Floating Structures at Water Inlets of Pumping Stations //Proceedings of EECE 2020: Energy, Environmental and Construction Engineering 3. – Springer International Publishing, 2021. – С. 258-268. 3. Glovatskii O., Yangiev A., Nasyrova N., Gazaryan A., Adjimuratov D. and Azizov Sh. Results of field tests of the pumping station of the Karshi main canal (2023) https://doi.org/10.1063/5.0113299 |
| 2 | 4. Sattar, A. M., Ghazal, A. N., Elhakeem, M., Elansary, A. S., & Gharabaghi, B. Application of Machine Learning Coupled with Stochastic Numerical Analyses for Sizing Hybrid Surge Vessels on Low-Head Pumping Mains //Water. – 2023. – Т. 15. – №. 19. – С. 3525. 5. Glovatsky O.Ya. Invention No. 487979. Patent. Bulletin of Inventions No. 38, 1975. 6. Wahid W. M. A Novel Microcontroller-Based Pressurized Flushing System for Water Conservation in Smart Homes and Public Spaces: дис. – King Fahd University of Petroleum and Minerals (Saudi Arabia), 2016. |
| 3 | 7. Kopp J. G., Lipták B. G. Variable-Area, Gap, and Vane Flowmeters //Flow Measurement. – CRC Press, 2020. – С. 162-169. 8. Monsen L. Emission Free North Sea: A Study of Alternative Solutions for Power Generation on Offshore Installations: дис. – University of Stavanger, Norway, 2020. 9. Glovatsky O.Ya., Ochilov R.A., Jiu Zapan S.I. Water intake structure of an open watercourse. Inventions Bulletin No. 26, 1989. 10. Nosirov F.Zh. Technological bases of energy saving during operation of machine water lifting systems // Scientific-technical journal / STJ FerPI, 2020, Vol. 24, No. 6, pp. 239-242. |