SU1715950A1 - Run-of-river hydroelectric power plant - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydropower, in particular to riverbed hydropower plants. The purpose of the invention is to increase work efficiency. The channel of the hydroelectric power station consists of the main floating floating pontoons 1 with the above-deck ventilation opening 2. The pontoons 1 are connected by hinges 3 on the side of the upper reach, and on the side of the downstream are hydraulic cylinders 5. A flexible waterproof screen 6 is installed in the opening between the pontoons 6. The pontoons are also provided with a water line 8 with a spiral chamber 9 and water turbine 10, as well as bulk compartments. Regulation of electric power flows occurs as a result of immersion (lifting) of the pontoons during filling (emptying) of the filling compartments, as well as by changing the angle of opening of the pontoons with the help of 5.4 cylinders hydraulic cylinders. .

Description

tgttp

X

sh

The invention relates to hydropower, in particular to riverbed hydropower plants.

The purpose of the invention is to increase work efficiency.

FIG. 1 shows the hydroelectric power station, general view; in fig. 2 - view from the upstream; in fig. 3 is a section A-A in FIG. 1; on f, ig. 4 shows a section BB in FIG. one.

The channel hydroelectric station switches on the main floating floating pontoons 1 with the above-deck vent neck 2, connected to the downstream side by hinges 3 and installed along the length of the channel stream 4; hydraulic cylinders 5 connecting the pontoons 1 from the side of the incoming flow; flexible waterproof screen 6 installed in the opening of the connection of the pontoon 1 from the side of the incident flow; cable-core system 7, mounted on the pontoons 1 from the side of the incident flow and at the bottom of the channel flow 4; conduit 8 with a spiral chamber 9, a water turbine 10 and an electric generator 11; ballast navy compartments 12 arranged inside the pits. 1; pumps 13 for filling the compartments 12 with water from the channel stream 4 and pumping water into it installed inside the pontoons 1; oil pumps 14 hydraulic cylinders 5.

When water moves in the direction of the channel flow 4, due to the dynamic head Hi. hydraulic resistance when the flow around the pontoons 1, the water level B upstream before the pontoons will increase. Resulting from this

the differential of the upper and lower reaches is triggered on the hydro turbine 10.

When the flow rates of the channel flow 4 or the energy consumption mode change, the pontoons 1 are immersed or raised by filling (pumping out water) the filling compartments 12 with water using pumps 13, as a result of which the hydraulic resistance of the pontoons 1 and the dynamic head pressure change, which leads to a change in the power output of the turbine 10 .

In order to pass large-tonnage vessels along the length of the stream flow 4 by means of hydraulic cylinders 5, the opening angle of the pontoons 1 in the stream flow 4 is reduced, after which the ship passes.

Claims (1)

Claims of the invention of the Ruslov hydroelectric power station, including floating pontoons with a hydro-power installation located on them, characterized in that, in order to increase the efficiency of operation, the pontoons are provided with an above-deck vent neck, a ballast bulk tank, hydraulic cylinders and a flexible watertight screen, while the pontoons have a flexible watertight compartment downstream are connected to each other by hinges, and from the upstream side by means of hydraulic cylinders and a flexible waterproof screen installed in the opening between the ports. And tankers, compartments formed inside the pontoons and in its upper part connected with the ADE vent orifice. FIG L