RU83076U1 - HYDRO POWER PLANT - Google Patents

Abstract

1. A hydroelectric power plant containing an obliquely located closed channel, in which at least two active hydraulic turbines are sequentially located, each of which serves as a drive for electric generators, characterized in that the channel is a pipeline of constant internal section, each active hydraulic turbine is equipped with two electric generators located in detachable form on both sides of the turbine. ! 2. Installation according to claim 1, characterized in that each active hydraulic turbine is a blade drums, sequentially located along the course of the water flow. ! 3. Installation according to claim 1, characterized in that the slope of the pipeline is performed in accordance with the existing relief or geological features of the area. ! 4. Installation according to claim 1, characterized in that the pipeline is located on land and serves for the free-flow diversion of the river. ! 5. Installation according to claim 1, characterized in that one of its ends is located in the open sea. ! 6. Installation according to claim 1, characterized in that the pipeline is located at both ends in the open sea. ! 7. Installation according to claim 5 or 6, characterized in that the slope of the pipeline is provided due to the uneven shape of the geoid. ! 8. Installation according to claim 5 or 6, characterized in that the pipeline is made with a length of 30-40 km. ! 9. Installation according to claim 1, characterized in that each electric generator is connected to the axis or shaft of the corresponding active hydraulic turbine by means of a splined connection. ! 10. Installation according to claim 1, characterized in that the slope of the pipeline is performed by means of adjustable supports.

Description

The utility model relates to hydraulic engineering and is intended to produce electricity from the seas, oceans, waterfalls and rivers without violating their hydrological characteristics and ecology of the seas themselves, oceans, waterfalls and rivers, and the surrounding area.

The prior art hydroelectric power station, containing generators, couplings, turbines and a receiving pipe mounted on supports at the bottom of the river and having a vertical outlet, the latter located downstream near the shore, or on the shore, or partially on the shore and in the river. The inlet section of the receiving pipeline is equipped with a confuser, while the turbine is located at the upper section of the vertical outlet section of the pipeline (RU 2023904, 11/30/1994).

Closest to the proposed utility model is a hydroelectric power station containing a water intake unit, a water supply pipe and at least one hydraulic turbine with a blade impeller. The impeller is in the form of a reel drum, and each blade is made up of lateral focusing plates forming a central channel and a central reaction plate, and the plates are mounted on the drum disks and form an optically opaque system (RU 2137941, 09/20/1999).

The disadvantage of these solutions is the design complexity and insufficient use of the flow energy.

The problem to which the proposed utility model is directed is to create a design of a hydropower plant that would eliminate the above disadvantages.

The technical result achieved by the implementation of this utility model is to increase the productivity of a hydropower installation (Efficiency) due to a more efficient use of flow energy, since each turbine is equipped with two electric generators, increasing the ease of maintenance due to the detachable and simple connection of the turbine and an electric generator, extension of scope, as claimed

the design of the hydropower plant allows you to receive electricity from the seas, oceans, waterfalls, rivers, etc.

The specified technical result in a hydropower installation containing an inclined closed channel, in which at least two active hydraulic turbines are located, each of which serves as a drive of electric generators, is achieved by the fact that the channel is a pipeline of constant internal section, each active hydraulic turbine is equipped with two electric generators located detachably on both sides of the turbine.

Each active hydroturbine is a blade drums sequentially located along the course of the water.

The slope of the pipeline is carried out in accordance with the existing topography or geological features of the area.

The pipeline is located on land and serves for gravity diversion of the river.

The pipeline is one of the ends located in the open sea.

The pipeline at both ends is located in the open sea.

The slope of the pipeline is provided due to the uneven shape of the geoid.

The pipeline is 30-40 km long.

Each electric generator is connected to the axis or shaft of the corresponding active hydraulic turbine by means of a spline connection.

The slope of the pipeline is carried out by means of adjustable supports.

The essence of the utility model is explained as follows.

The claimed hydropower installation can be located, for example, by the sea or ocean. In this case, the closed channel — a pipeline of constant internal section — is pulled from the shore in an absolute straight line, immersing one end (underwater part) in water and stretching further to the horizon in an absolute straight line, with the other end (above-water part) of the pipeline being brought to shore at least two active hydraulic turbines (two or more) are located in series, each of which serves as a drive for electric generators. Each turbine is equipped with two electric generators located detachably on both sides of the turbine.

The further the pipeline stretches beyond the horizon, the pressure in the pipeline will increase. Thus, the active hydraulic turbine, namely the drum blades, will rotate and, accordingly, electric generators attached to them on both sides. Active hydroturbines - paddle drums are sequentially located along the course of the water flow.

Hydroturbines can be located throughout the pipeline, and current is transmitted to the shore via an underwater cable.

In addition, the pipeline may at both ends be located in the open sea / ocean.

Thus, we get a wave hydroelectric power station, which does not damage or pollute the environment and provides electricity, and also works continuously in almost any weather.

The pipeline can be bent along its entire length, that is, it can be zigzag.

In addition, the inclination of the pipeline can be carried out by means of height-adjustable supports.

The claimed hydropower installation can be used to use the energy of the free flow of the river.

A part, for example, of a mountain river, is introduced into the pipeline (500-1000 meters long of a certain diameter), having previously inserted dozens or more active hydroturbines — vane drums — into the pipeline and put electric generators on them from the outside, from both sides. Under the influence of the water flow, the paddle drums begin to rotate and, accordingly, the electric generators rotate, that is, the water flows through the river into the pipeline, the inlet of which is below the level of the water surface, passes through it and falls onto the blades of the hydraulic turbine.

The proposed design of a hydroelectric power station having working drums of a hydraulic turbine with composite blades allows more efficient use of the flow energy, thereby increasing the productivity of hydraulic turbines.

The claimed hydropower installation does not need strong pressure and works effectively using the kinetic energy of a water stream - a river, ocean current or sea tide.

During the construction of a hydropower installation, the construction of high dams and the creation of large reservoirs, erected in the long term, requiring large expenditures of funds that negatively affect the use of territories, as well as the climate in the places of their construction, are not required.

Claims (10)

1. Hydroelectric installation containing an inclined closed channel, in which at least two active hydraulic turbines are located in series, each of which serves as a drive for electric generators, characterized in that the channel is a pipe of constant internal section, each active hydraulic turbine is equipped with two electric detachable generators on both sides of the turbine. 2. Installation according to claim 1, characterized in that each active hydraulic turbine is a blade drums sequentially located along the flow of water. 3. Installation according to claim 1, characterized in that the slope of the pipeline is performed in accordance with the existing topography or geological features of the area. 4. Installation according to claim 1, characterized in that the pipeline is located on land and serves for pressure-free diversion of the river. 5. Installation according to claim 1, characterized in that the pipeline is one of the ends located in the open sea. 6. Installation according to claim 1, characterized in that the pipeline at both ends is located in the open sea. 7. Installation according to claim 5 or 6, characterized in that the inclination of the pipeline is provided due to the uneven shape of the geoid. 8. Installation according to claim 5 or 6, characterized in that the pipeline is 30-40 km long. 9. Installation according to claim 1, characterized in that each electric generator is connected to the axis or shaft of the corresponding active hydraulic turbine using a spline connection. 10. Installation according to claim 1, characterized in that the inclination of the pipeline is carried out by means of adjustable supports.