RU88360U1 - TIDAL POWER PLANT - Google Patents

Abstract

A tidal power plant, including a dam forming a reservoir, divided by enclosing walls into basins, connected to the water area by culverts made in the dam, turbines of hydroelectric units, characterized in that the turbines of the hydroelectric units are installed in culverts, the enclosing walls divide the reservoir into the main basin and the replacement basin, and in the dam of the replacement basin, sluices are additionally installed between the culverts, and the culverts of the replacement basin are equipped with gates installed at the inlet and outlet.

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 via 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, which includes a dam forming a reservoir, separated by enclosing walls into pools connected to the water area by culverts made in the dam, turbines of hydraulic units, the latter are installed in culverts, enclosing walls divide the reservoir into a main pool and a replacement pool, moreover, in the dam of the substitution basin, locks are additionally installed between the culverts and the culverts of the basin are The rooms are equipped with gates installed at the inlet and outlet.

The distinguishing features of the tidal power plant claimed as a utility model are as follows:

- turbines of hydraulic units are installed in culverts,

- enclosing walls divide the reservoir into the main pool and the replacement pool,

- in the dam of the replacement basin between the culverts installed gateways,

- culverts of the substitution pool at the inlet and outlet are equipped with gates.

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

The proposed tidal power is illustrated by the drawings shown in figures 1, 2.

Figure 1 schematically shows the proposed tidal power plant, figure 2 - graphs of the turbines of the main pool (1) and the replacement pool (2) depending on the tides.

The tidal power station contains dam 1 and reservoir 2. The reservoir 2 is divided by the enclosing walls 3 into two pools: the main basin 4 and the replacement basin 5. In dam 1, culverts 6 of basin 4 and culverts 7 of substitution basin 5 are made. Turbines 8 of hydraulic units are installed in the culverts 6, turbines 9 are installed in the culverts 7. The culverts 7 of the replacement pool 5 are provided with gates 10 at the inlet and outlet (not indicated). In addition, locks are installed between the culverts 7 in the dam 1 of the replacement pool 5 eleven.

Tidal power works as follows.

When the tide begins, the water level in the main basin 4 is significantly lower than the water level and the turbines 8 of the main basin 4 are operating. The locks 11 and the gates 10 of the culverts 7 of the replacement pool 5 are closed, the turbines 9 of the replacement pool 5 are not working. In substitution pool 5, the water level corresponds to the water level when the tide begins. After the minimum working head has been established between the levels in the main basin 4 and the water level of the turbine 8 of the main basin 4, they stop working. Shortly before this, the gates of 10 culverts 7 of the replacement basin 5 are opened and the turbine 9 of the basin 5 begins to operate at full capacity, because here the maximum working pressure between the level in the basin of 5 substitution and the level of the water area. In this case, the turbines 9 operate before low tide. After the ebb begins and the working pressure is established between the level in the main basin 4 and the level of the water area, additional locks 11 are opened. The leveling in the replacement pool 5 and the water level is accelerated, then the gates 10 and the locks 11 are closed. When approaching the minimum working pressure between the water area and the level in the main basin 4, the turbines 8 stop generating electricity. But shortly before this, the gates of 10 culverts 7 of the replacement basin 5 are opened and the turbines 9 of the basin 5 begin to generate electricity at full capacity, because the maximum working head was set between the water area and the level in the pool 5. This happens before the tide begins and the turbines 8 of the main pool 4 are turned on. When the turbines 8 of the main pool 4 are turned on, the locks 11 of the pool 5 are opened. At the same time, accelerated leveling occurs water level with a level in the basin of 5 substitution. Then the shutters 10 and the gateways 11 are closed. Next, the cycle repeats.

The proposed tidal power plant has technological ease of maintenance and continuous operation with alternating operation of the turbines of the main basin and the replacement basin. The continuous operation of the tidal power plant is clearly illustrated by the graphs of the turbines of the main basin (1) and the replacement basin (2) depicted in Fig. 2, depending on the tides, while A, A ₁ are the phases of high water, B, B ₁ are the phases low water.

Claims (1)

A tidal power plant, including a dam forming a reservoir, separated by enclosing walls into pools connected to the water area by culverts made in the dam, hydroelectric turbines, characterized in that the hydroelectric turbines are installed in the culverts, the enclosing walls divide the reservoir into a main pool and a replacement pool, in the dam of the substitution basin, locks are additionally installed between the culverts, and the culverts of the substitution basin are provided with tanovlenii inlet and outlet gates.