РАСЧЕТ ЭНЕРГЕТИЧЕСКОГО БАЛАНСА МНОГОАГРЕГАТНОЙ ВЕТРОЭНЕРГЕТИЧЕСКОЙ УСТАНОВКИ В УСЛОВИЯХ НИЗКИХ СРЕДНЕПЕРИОДИЧЕСКИХ СКОРОСТЕЙ ВЕТРА

Abstract

Energy supply of small facilities of the agro-industrial complex of Russia in remote rural areas using wind energy is an urgent task. Classical wind power plants operate efficiently at a wind speed of more than 7 meters per second, but in most of Russia such a wind speed is rare. Therefore, the utilization rate of the installed capacity of a wind farm is only 0.2. (Research Purpose) The research purpose is developing a method of increasing the utilization rate of the installed capacity of a wind farm and calculating its energy balance at average periodic wind speeds from 4 to 6 meters per second. (Materials and methods) To implement the proposed method, a multi-unit wind power plant consisting of wind receiving devices of various types driven by hydraulic pumps was used. As a result, the working fluid is feed into the hydraulic accumulating unit, from where the working fluid is fed to the hydraulic motor, which provides rotation of the generator shaft. (Results and discussion) At a wind speed of 4-11 meters per second, the total supply of the working fluid of all hydraulic pumps is greater than the required flow rate of the hydraulic pump. It was found out that in a typical period with an average periodic wind speed of 4-6 meters per second, the total volume of fluid supply by hydraulic pumps is 605.2; 758.0; 844.6 liters per hour, respectively. At the end of the period, 5.2 and 158.0 to 254.6 liters of liquid remain in the storage unit, which can compensate for calm periods up to 15-20 minutes. (Conclusions) The proposed method for increasing the utilization rate of the installed capacity of a wind power plant provides the required supply of hydraulic fluid at an average periodic wind speed of 4-6 meters per second, the annual utilization rate of the installed capacity of a wind power plant is 40-50 percent.