In the water supply system, losses due to hydraulic hammer occur due to
malfunctions in service areas, cracks in pipes, non-hermetic joints, and to prevent them, it is
aimed to research the methods of protection against hydraulic hammer. In this context, proper
organization of the operation process of centrifugal pumps, reverse valve operation process after
water is transferred to the transmission pipe in the pump, pressure pulsation in the pump station,
synchronization of rotation frequency; increasing the pressure in the pipe by synchronizing the
rotation in filling the pipe; activation of closing devices after pressure increase; problems such as
reaching the arithmetic mean at the exit was considered and necessary conclusions were given.
Because of the experiment, 8 formulas were fully studied. Therefore, in high-capacity pumps, the
pressure varies slightly in practice, and is determined using analytical formulas for small pumps.
Calculations of the pressure in the pumps through the graph of the maximum increase and
decrease values give the exact value.
In the water supply system, losses due to hydraulic hammer occur due to
malfunctions in service areas, cracks in pipes, non-hermetic joints, and to prevent them, it is
aimed to research the methods of protection against hydraulic hammer. In this context, proper
organization of the operation process of centrifugal pumps, reverse valve operation process after
water is transferred to the transmission pipe in the pump, pressure pulsation in the pump station,
synchronization of rotation frequency; increasing the pressure in the pipe by synchronizing the
rotation in filling the pipe; activation of closing devices after pressure increase; problems such as
reaching the arithmetic mean at the exit was considered and necessary conclusions were given.
Because of the experiment, 8 formulas were fully studied. Therefore, in high-capacity pumps, the
pressure varies slightly in practice, and is determined using analytical formulas for small pumps.
Calculations of the pressure in the pumps through the graph of the maximum increase and
decrease values give the exact value.
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Baymirzaev B.J. | functionary | TSTU |
| 2 | Salimov A.E. | teacher | TSTU |
| 3 | Saidvalieva S.R. | researcher | TSTU |
| № | Название ссылки |
|---|---|
| 1 | Sh. Otbosarov. "Hydraulic shock and its prevention in the water supply system.”PhD thesis on the topic "Research on methods of obtaining”, 2019 |
| 2 | B.T. Kholbutayevsky. Water piles in the rechambers of pumping stations. Learning outcomes. “Scientific and technical journal of architectural and construction problems, Samarkand State Institute of Architecture and Construction”, 2020. |
| 3 | R.R. Ergashev., B.T. Kholbutayevsky. Changes in the water level in the front chamber of the Kholbutaevskaya pumping station. “Scientific and technical journal Melioration and melioration”, 2020. 35. |
| 4 | B.Y. Kholbutaev., Kh.S. Khusanboeva. Influence of accumulations of water in the chamber of the van on the pumping device. “Bulletin of Agricultural Science of Uzbekistan”, 2019. 290. |
| 5 | A.Kh. Sattorov., M.M. Khadzhimatova. Construction of a working graph of the sequential operation of pumps using the Grunt lab line program. “Problems of architecture and construction”, 2020. |
| 6 | Sh.M. Musaev. “Pumps and pumping stations. Textbook”, 2020. |
| 7 | D.E. Makhmudova., Sh.M. Musaev. The impact of industrial pollutants on the environment. “Academic publication”, 2020. 76. |
| 8 | Sh.R. Ustemirov. Analysis of the circulating water supply system and problems of water quality of industrial enterprises. “European Science”, 2020. |
| 9 | R.U. Shahrukh. Agro clusters as a strategy for the efficient use of water resources. “Science and education”, 2020. |
| 10 | Sh.M. Musaev. “Measures to reduce atmospheric pollution by harmful substances”, 2020. 45. |
| 11 | K.U. Takaboev., Sh.M. Musaev., M.M. Khozhimatova. Pollution of the atmosphere with harmful substances and measures to reduce them. “Ecology: yesterday, today, and tomorrow”, 2019. 450. |
| 12 | Sh.M. Musaev., A. Sattarov. “Softening the composition of water using reagents”, 2019. 23 |
| 13 | A. Sultonov. Water use planning: a functional diagram of a decision-making system and its mathematical model. “International Finance and Accounting”, 2019. |
| 14 | A.O. Sultonov. “The use of modern automated information systems as the most important mechanism for the use of water”, 2020. |
| 15 | Resources in the Region.” Test Engineering and Management 83 (March). Mattingley Publishing: 1897–1901. https://orcid.org/0000-0002-2854-4830 |
| 16 | A.O. Sultonov. Problems of optimal use of water resources for crop irrigation. “Journal of Central Asian Social Studies”, 2020. 26. |