RU90454U1 - TIDAL POWER PLANT - Google Patents

Abstract

1. A tidal power plant, including a dam, forming a reservoir, divided by enclosing walls into pools with a common pipeline, connected to the water area by culverts made in the dam, and the pipeline has outlets to the inside of each pool, turbines of hydraulic units, a generator, characterized in that the turbines of the hydraulic units are installed in culverts, one of the culverts is connected to a common pipeline, which has a common switching gate for the basins, which connects the basins with the pipeline and with each other. ! 2. Tidal power plant according to claim 1, characterized in that the turbines are orthogonal cross-jet. ! 3. A tidal power plant according to claim 1, characterized in that the turbines are multi-tiered. ! 4. A tidal power plant according to claim 1, characterized in that the turbines of the hydraulic units are connected to the generator in series through a multiplier and a ratchet mechanism.

Description

The utility model relates to hydraulic structures and can be used to generate electricity through the use of tidal energy.

Known tidal power station, containing a dam located between the sea and the pool, equipped with a shutter water channel with sea and basin passages, a turbine of a hydraulic unit installed in the water channel, A.S. No. 1199969, publ. 23.12.1985). A tidal power plant is fairly simple, but it has the disadvantage of inconsistent power generation, depending on the tidal regime.

Known tidal power station, containing a tidal section and a tidal section (US Pat. No. 2012714, publ. 05/15/1994). The tidal section contains a turbine. The casting section is a pool, also contains a turbine. The tidal section is connected to the casting section by a channel. The tidal station has the same drawback, which consists in an unstable mode of electricity generation.

The tidal power station closest to the tidal power plant (PES) declared as a utility model is a tidal power plant including a dam forming a reservoir divided by enclosing walls into pools connected to the water area by culverts made in the dam, turbines of hydraulic units (AS No. 1490223, publ. 06/30/1989). The pools are interconnected by a common pipeline with switching gates, the turbines are located in water conduits, which, in turn, are installed in the building of the tidal power station.

Such a tidal power station has significantly expanded the range of regulation of electricity generation, however, it has a one-time shutdown of hydraulic units during the transition from the mode of filling the pools to the mode of their emptying.

The technical result of the proposed utility model is the continuous operation of a tidal power plant.

To achieve the specified technical result in a tidal power plant, including a dam forming a reservoir, divided by enclosing walls into pools having a common pipeline, connected to the water area by culverts made in the dam, and the pipeline has exits into each basin, turbines of hydraulic units, a generator, turbines of hydraulic units are installed in culverts, and one of the culverts is connected to a common pipeline having a switching switch common to the pools a thief connecting pools with the pipeline and among themselves. In addition, the turbines can be made orthogonal transverse-jet or multi-tiered and connected to the generator in series through a multiplier and a ratchet mechanism.

The distinctive features of the tidal power plant claimed to be a utility model from the above, closest to it, are the following:

- turbines of hydraulic units are installed in culverts,

- one of the culverts is connected to a common pipeline,

- the pipeline has a switching shutter common to pools,

- a switching valve connects both pools with a common pipeline and with each other.

Due to the presence of these signs, continuous PES operation is ensured, which will be described below in the section of its work.

The proposed tidal power plant is illustrated by the drawing shown in the figure, which schematically shows the proposed PES.

The tidal power station contains a dam 1 and a reservoir 2. The reservoir 2 is divided by the enclosing walls 3 into two basins 4 and 5. In the dam 1 there are two culverts: channel 6 of the basin 4 and channel 7 of the basin 5. In channels 6 and 7, turbines 8 and 9. The culvert 7 is connected to a common pipe 10. The pipe 10 is equipped with a switching valve 11. The pipe 10 is made with outputs 12 and 13, respectively, into the pool 4 and pool 5. The switching valve 11 connects both pools 4 and 5 to each other. Pools 4 and 5 are also connected to the pipeline 10 by means of a shutter valve 11. Both turbines 8 and 9 are connected to the generator 14 in series through a multiplier 15 and a ratchet mechanism 16. The turbines 8 and 9 can be made orthogonal transverse-jet with horizontal shafts or multi-tiered vertical shafts.

Tidal power works as follows. When the tide begins, the water level in pools 4 and 5 is significantly lower than the water level of the water area 17. Using the shutter 11 open the outlet 12 of the pipeline 10 to pool 4, while pool 5 is closed, both turbines 8 and 9 are working, and electricity is being generated. After the minimum working head is set between the levels in the pool 4 and the level of the water area 17, the switching shutter 11 closes the exit 12 to the pool 4 and opens the exit 13 to the pool 5. Electricity is generated due to the operation of the turbine 9. The turbine 8 stops working, but due to the ratchet mechanism 16, the effect of stopping this turbine 8 on the operation of the generator 14 is eliminated. After the ebb begins and the working pressure is established between the water level in the pool 4 and the water level 17, the closing valve 11 closes the outlet 13 to the pool 5 and opens the outlet 12 to the pool 4. Energy is generated due to the operation of turbines 8 and 9. When In this case, the direction of the flow of water in the culvert channel 7 is reversed.

After establishing the minimum working pressure between the levels in the pool 4 and the water area 17, the switching shutter 11 closes the outlet 12 to the pool 4 and opens the outlet 13 to the pool 5. The turbines 9 work. And the cycle continues.

A tidal power plant, proposed as a utility model, provides continuous power generation.

Claims (4)

1. Tidal power plant, including a dam forming a reservoir, divided by enclosing walls into pools having a common pipeline, connected to the water area by culverts made in the dam, the pipeline having outlets into each basin, turbines of hydraulic units, a generator, characterized in that the turbines of hydraulic units are installed in culverts, one of the culverts is connected to a common pipeline having a switching shutter common to the pools, connecting the pools to the oprovodom between themselves. 2. Tidal power station according to claim 1, characterized in that the turbines are made orthogonal transverse-jet. 3. The tidal power plant according to claim 1, characterized in that the turbines are multi-tiered. 4. The tidal power station according to claim 1, characterized in that the turbines of the hydraulic units are connected to the generator in series through a multiplier and a ratchet mechanism.