RU2019141500A - ELECTRIC POWER PRODUCTION METHOD - Google Patents

Claims (7)

1. A method of generating electricity, which consists in using a derivative hydroelectric power plant, consisting of one hydroelectric unit, characterized in that the hydroelectric unit is permanently installed under water at the bottom of the river, the inlet pipe of the water guide apparatus of the hydraulic turbine, which has a filler neck with a sealed cover, is mated with a manifold, connected to several inlet one-piece and / or composite pipelines, each of which has a damper with the ability to completely shut off the flow of water through the pipeline, controlled manually or by means of an electric drive, and the outlet pipe of the outlet chamber of the hydraulic turbine is mated with a manifold connected to several outlet one-piece and / or composite pipelines, each of which also has a valve with the ability to completely block the flow of water through the pipeline, manually or by means of an electric drive, while each pipeline is permanently fixed or not fixed, but positioned in this way so that the open end of the beginning of each inlet pipeline is in the water of the river where the hydroelectric unit or another river, or canal, or natural or artificial reservoir, or sea, or ocean is located, and the open end of each outlet pipeline is also in the water of the river where it is located a hydroelectric unit, or another river, or a channel, or a natural or artificial reservoir, or the sea, or the ocean, or on the surface of the land; the derivation hydroelectric power station is equipped with a portable control panel for manual control of the electric drive of the pipeline dampers, which is connected to the derivation hydroelectric power station through a connector and / or via a radio channel, and / or using the Internet, and with the help of which the operation of the corresponding electric drive is controlled via a cable; before starting work manually or by using an electric drive, the valves of all inlet and outlet pipelines are closed, under the pressure of an external water source, the system is filled with water through the filler neck, after which the filler neck is hermetically closed, manually or by using an electric drive, the valve of one or more inlet pipelines is opened and shutter of one or more outlet pipelines, while observing the condition that the level of the water surface at the location of the beginning of any inlet pipeline with an open damper must be higher than the level of the water surface or land surface at the location of the open end of any outlet pipeline with an open damper. 2. The method for generating electricity according to claim 1, characterized in that one or more pipelines are equipped with water pressure sensors that determine the level of the water surface at the location of the ends of the pipeline, and the derivation hydroelectric power station is equipped with an indicator reflecting the readings of these pressure sensors. 3. A method for generating electricity according to claim 1, characterized in that the derivative hydroelectric power plant is equipped with one or more energy storage devices. 4. A method for generating electricity according to claim 1, characterized in that one or more inlet pipelines are equipped with a trash grid. 5. The method of generating electricity according to claim 1, characterized in that the derivative hydroelectric power plant is equipped with one or more hydraulic shock compensators. 6. The method of generating electricity according to claim 1, characterized in that the derivative hydroelectric power station is equipped with diagnostic equipment. 7. A method for generating electricity according to claim 1, characterized in that the derivative hydroelectric power plant is equipped with one or more connectors for connecting diagnostic equipment.