TY - JOUR AU - Ibragimova, M. PY - 2016/06/23 Y2 - 2024/03/28 TI - Energy aspect of capacity control of small hydropower plant by a water flow in accordance to various hydrological parameters JF - Vidnovluvana energetika JA - VE VL - 0 IS - 2 (45) SE - Hydropower DO - UR - https://ve.org.ua/index.php/journal/article/view/122 SP - 50-56 AB - Current issues of effective power systems management, the determination of the best ways to use equipment as part of the system and its energy-efficient modes are becoming increasingly important. Rising interest in a mode of capacity control of small hydropower plant by a water flow is caused primarily by energy efficiency and environmental friendliness of this mode. Numerous theoretical and applied researches are implemented nowadays.It’s necessary to identify the importance of exploring the energy aspect of capacity control of small hydropower plant by a water flow that hadn’t previously been considered in detail. It has been used probabilistic methods to take account of water availability of the river and environmental limitations on water use for power production, determining energy parameters and evaluating the effectiveness of small hydropower plants. The Krytskyy-Menkel three-parameter probability distribution of water flow is widely applied to hydropower calculations and recommended by state standards. The distribution requires a statistics on coefficients ofvariation and skewness values, as well as discharge rate. Due to the paucity or even lack of hydrometeorological data, it was proposed to use the weighted average coefficients ofvariation and skewness, defined by spatial averaging of probability distribution parameters based on the existing hydrometeorological information. The averages have been made for territories defined in accordance with the hydrographic river basin type scheme.It has been estimated the influence of distribution parameters of annual streamflows for small rivers of Ukraine on the evaluation of hydropower characteristics of small hydropower plants. It was observed a slight loss of productivity of the station due to the difference between the actual hydrological conditions of the investigated water balance station and weighted average parameters. The ranges of productivity change in small hydropower plant have been determined. The probable loss of productivity can amount to 6% – the basins of the Vistula, theThe Dniester, the Desna; 7% – the basin of the Lower Dnieper; 9% – the basin of the Middle Dnieper; 10% – the basin of the Tisa and Azov area; 12% – the basin of the Prypyat; 14% – the basin of the Seversky Donets; 15% – the basin of the Prut and Crimea area; 17% – the basin of the Southern Bug. ER -