Micro-hydroelectric power station with a hydraulic unit regulation along a hydrogenerator anchor circuit

Relevance. The article provides a comparative analysis of micro -hydroelectric power stations with a hydraulic unit regulation along a hydrogenerator anchor circuit according to technical and economic efficiency. The authors substantiate the possibility of using intelligent control of the energy balance of inverter micro -hydroelectric power stations for increasing the amount of electricity generated without increase in the installed capacity of the hydraulic unit. This will improve their technical and economic characteristics compared with traditional micro -hydroelectric power plants of the ballast type. This approach allows using intelligent control systems that can regulate power generation depending on the peaks of electricity consumption. For this purpose, inverter micro -hydroelectric power stations are used. They allow more efficient management of energy consumption and accumulation of electricity in batteries. The developed control algorithms make it possible to optimize the operation of micro -hydroelectric power stations, ensuring maximum resource efficiency and reducing the cost of electric energy. Application of these technologies may significantly improve economic indicators of microhydroelectric power stations and make them more competitive in the electricity market. The algorithms control the hydraulic unit operation, ensure supply of electric power to consumers and effective use of energy storage batteries depending on electric needs. Aim. Comparative technical and economic analysis of a micro -hydroelectric power station with regulation of the parameters of the generated voltage along the anchor circuit of the hydrogenerator driven by an unregulated hydraulic turbine. Object. Micro -hydroelectric power stations of diversion type with power converters and electricity storage devices. Methods. Computer modeling. Results. The authors have proposed the classification of diversion micro -hydroelectric power stations with hydraulic unit control via the hydrogenerator anchor circuit. The paper demonstrates the technical and economic possibilities of various methods of their construction. The most promising technical solutions for inverter microhydroelectric power stations are determined, their energy balances and power equipment control algorithms are optimized.