INFLUENCE OF HYDROABRASIVE WEAR OF IMPELLER BLADES ON THE HEAD OF A CENTRIFUGAL PUMP

Authors

  • Uralov Baxtiyor Raxmatullaevich
  • Mutalov Shuxrat Axmadjanovich
  • Sirojov Burxon Shodievich
  • Voxidov Oybek Farxodjon ugli
  • Arzieva Dilovar Baxtiyorovna

Keywords:

hydraulic processes, centrifugal pumps, hydroabrasive flow, hydroabrasive wear, solid particles, impellers

Abstract

The results of experiments on studying the nature of changes in the concentration and dispersion of solid suspended particles showed that the highest average monthly sediment concentration is 2.5..3.8 kg/m3, and sometimes in rainy weather the maximum water turbidity reaches 7 kg/m3. In the composition of solid mechanical impurities, a significant amount consists of particles with a grain size of 0.1-0.05 mm. Observations have established that particles larger than 0.01 mm at a low flow velocity in the supply channel and the water intake chamber of the pumping station were easily deposited in them. Siltation volumes at various stations ranged from 20 to 60%. As a result, the hydraulic resistance increased, which led to a decrease in the pump head. The wear of parts of centrifugal pumps under natural conditions was also studied, taking into account the dependence of wear on the characteristic dimensions and duration of their operation. The results of micrometer measurements of the working parts of the pumps showed that the blades of the impellers along the length and width wear out unevenly both in size and in shape. This is explained by the fact that when the hydroabrasive flow moves in the interblade space, the kinetic energy of solid particles and their local concentration increase due to an increase in the values of centrifugal and Coriolis forces along the radius of the impeller.

References

Базаров Д.Р., Уралов Б.Р., Хидиров С. Влияние шероховатости и формы живого сечения машинных и деривационных каналов на потери напора при безнапорном движении жидкости. Монография, НИУ «ТИИИМСХ», Ташкент, 2022г., стр.187.

Мамажонов М., Уралов Б., Турсунов Х. Изменение водоподачи насосов . // Сельское хозяй¬ство Узбекистана. 2005. № 1. стр. 28-29.

Улугходжаев К.Х. Изнашивание осевых насосов. – Ташкент: Мехнат. 1989. – стр.136

Karelin V.Y., Novoderezkin R.A., Coj V., Mamajonov M. Cavita¬tion Erosion in Centrifugal Pumps. //Conference Hуdro-Turbo -76. Brno 1976, p. 1-12.

Животовский Л.С.,Самойловская Л.А. Техническая механика гидросмесей и грунтовые насосы. – М.: Машиностроение. 1986. – 283 с.

Леонидов Л.Д. Предварительные результаты промышленных испытаний грунтовых насосов в абразивном исполнении. // Цветные металлы. 1987. № 6. с.26-28.

Богачев И.Н. и др. Гидроабразивная стойкость хромомарганцевых сталей. // Энергомашиностроение. -1987. -№ 7. с.75-79.

Стрелец И. В. Исследование пульсации гидродинамического давления в блоках насосной станции с вертикальными агрегатами: Автореферат диссертации канд. техн. наук. – Л.:ЛПИ. 1982.- 23 с.

Цой В.А. Режимы работы центробежных насосов гидроэнерге¬тических установок при кавитационно-абразивном износе: Автореферат диссертации канд. техн. наук. - М.: МИСИ. 1977. – 18 с.

Shaazizov F., Uralov B., Shukurov E., Nasrulin A. Development of the computerized decision-making support system for the prevention and revealing of dangerous zones of flooding. E3S Web of Conferences 97, 05040 (2019), FORM-2019, doi.org/10.1051/e3sconf/20199705038

M.Mamajonov, D.R.Bazarov, B.R.Uralov, G.U.Djumabaeva, N.Rahmatov. The impact of hydro-wear parts of pumps for operational efficiency of the pumping station. Journal of Physics: Conference Sereis. J.Phys.:Conf.ser. 1425 (2020) 012123. doi:10.1088/1742-6596/1425/1/012123

M.Mamajanov, B.Uralov, Marina Li, E.Qalqonov, P.Nurmatov, and A.Gayur. Irrigation pumping stations according to the hydraulic and operational indicators of pumping units. E3S Web of Conferences, open access proceedings in environment, energy and earth sciences 264, 03074 (2021) doi.org/10.1051/e3sconf/202126403074

Published

2022-12-01