RU103368U1 - CASCADE OF DERIVATIVE HYDRO POWER PLANTS - Google Patents

Abstract

1. A cascade of diversion hydroelectric power plants, including a spillway dam forming a reservoir and having a spillway and a water intake part connected to a pressure water conduit equipped with a gate, hydraulic units located in series, a drainage water pipe, a reserve water pipe with gates, characterized in that an emergency device is additionally installed in front of each hydraulic unit , each of which is connected by means of an additionally installed pipeline to a reserve water conduit, and the latter is connected to a drainage conduit, the hydraulic units are located on the pressure water conduit. ! 2. The cascade according to claim 1, characterized in that the water intake part is equipped with a trash filter. ! 3. A cascade according to claim 1, characterized in that each emergency device is equipped with a shutter and an emergency operation sensor. ! 4. A cascade according to claim 1, characterized in that the drainage water conduit is connected to the reservoir. ! 5. A cascade according to claim 5, characterized in that a river, sea, lake or an artificially created reservoir can be used as a reservoir.

Description

The utility model relates to hydraulic structures, and more specifically to cascading derivational hydroelectric power plants and can be used to generate electricity at low water flow rates and sufficiently large slopes of the free surface.

There is a known cascade of derivative hydroelectric power plants (HPPs), including the upper and lower HPPs located on opposite banks of the river, the upper hydropower plant is equipped with a water inlet and outlet pipelines, the lower hydropower station is also equipped with a supply and outlet pipelines, a spillway dam with water inlet and outlet port of the Russian Federation (Pat. 1430455, publ. 10/15/1988). The invention is aimed at increasing the efficiency of the cascade and very conveniently provides for the successive repair of each hydroelectric power station. However, in general, the cascade is rather complicated.

A known cascade of derivative hydroelectric power plants, including a water intake located in a pond, connected to a sealed water supply pipe, on which the hydraulic units are arranged in series, the pressure pipe in the location of each hydraulic unit has a backup pressure pipe with a backup hydraulic unit, cascade HPP turbines are installed with increasing efficiency in the direction stream (Pat. RF №2050434, publ. 20.12.1995). The cascade of derivational hydropower plants is aimed at increasing capacity, reducing construction and operating costs. The cascade is original, provides continuous operation, but still complicated.

A well-known cascade of derivative hydroelectric power plants, including a spillway dam forming a reservoir and having a spillway, a water intake part connected to a sealed pressure water pipe equipped with a valve, turbine water pipes and reserve water pipes with installed hydraulic units and having gates, drainage system No. 22996 (Pat. publ. May 20, 2004). The use of the invention allows to increase the throughput and the range of pumping water of the main conduit, as well as to prevent flooding, pollution of flood waters, increase efficiency. The cascade of derivational hydropower plants is rather cumbersome and complex. This cascade of derivational hydropower plants is the closest and adopted as a prototype.

The technical result, which is achieved by the claimed utility model, is to simplify the cascade while maintaining continuous and reliable operation.

In order to achieve the indicated technical result, a cascade of derivational hydroelectric power plants, including a spillway dam, forming a reservoir and having a spillway and a water intake part connected to a pressure water supply pipe equipped with a shutter, sequentially located hydraulic units, a water drainage system, a reserve water pipe with gates, an emergency device is additionally installed in front of each hydraulic unit , each of which is connected by means of an additionally installed pipeline to the backup conduit, and the last one is connected inen to the drainage conduit, hydraulic units are located on the pressure conduit. The intake part is equipped with a trash filter. Each emergency device is equipped with a shutter and an emergency sensor. The drainage conduit is in communication with the pond. As a reservoir, a river, sea, lake or artificially created reservoir can be used.

The proposed cascade of derivational hydropower plants is quite simple: hydraulic units are sequentially placed on the pressure water conduit. And due to the fact that an emergency device is installed in front of each hydraulic unit, each of which is communicated using an additionally installed pipeline with a backup conduit, continuous and reliable operation of the entire cascade is ensured. This is due to the fact that in the event of an emergency on the hydraulic unit, the emergency device alarm sensor is triggered, as a result of which the emergency device shutter opens and the water flow, bypassing the failed hydraulic unit, is routed through the pipeline to the backup conduit, to which all are connected hydraulic units. Thus, if one hydraulic unit fails, then the rest continue to work.

The utility model is illustrated by the drawing shown in the figure.

The figure schematically shows a General view of the cascade of derivational hydroelectric power plants (HES).

The cascade of derivational hydropower plants contains a small but sufficient spillway dam 1. Dam 1 forms a reservoir 2. Dam 1 has a spillway with a gate (not shown in Fig.). The intake part 3 is located in the dam 1. The intake part 3 is equipped with a filter-trap 4 and is hermetically connected to the pressure conduit 5. The pressure conduit 5 is equipped with a shutter 6 to shut off the conduit 5 if necessary. Hydraulic units 7, 8, 9 are sequentially installed on the pressure water conduit 5. Before each hydraulic unit 7, 8, 9, one emergency device 10, 11, 12 is installed. The last hydraulic unit 9 is hermetically connected to the water discharge conduit 13 connected to the reservoir 14. As reservoir 14 can be used river, lake, sea or artificially created reservoir. The devices 10, 11, 12 are hermetically connected to the backup conduit 15 using additionally installed pipelines, respectively 16, 17, 18. Moreover, the devices 11, 12 are connected to the backup conduit 15 through the gates, respectively 19, 20. Each of the devices 10, 11, 12 is equipped with a shutter (not shown in FIG.) and an emergency sensor (not shown in FIG.). All hydraulic units 7, 8, 9 are of the same type and are connected into a single hermetically connected system.

The cascade of derivational hydroelectric power stations works as follows.

Water from the reservoir 2, formed by a small dam 1, through the intake part 3 through the filter trap 4 with the open gate 6 enters the discharge pipe 5. Moreover, the presence of the filter collector 4 prevents debris from entering the discharge pipe 5, which ensures reliable operation of hydraulic turbines. Next, the water flows first to the first hydraulic unit 7, and then to the following hydraulic units 8 and 9. The water stream rotates the turbines of all hydraulic units 7, 8, 9 and electricity is generated. Water from the last hydraulic unit 9 enters the drainage conduit 13, and then into the reservoir 14 (river, sea, lake or artificially created). In the event of an emergency at any hydraulic unit, for example at hydraulic unit 7, the emergency operation sensor of the emergency device 10 is triggered, as a result of which the shutter (not shown) in the device 10 blocks the access of water to the hydraulic unit 7, and the water flow goes through the pipeline 16 into the backup conduit 15 and, with the shutter 19 open, enters through the device 11 to the hydraulic unit 8, then to the hydraulic unit 9 and into the outlet conduit 13 in communication with the reservoir 14. The proposed utility model is quite simple and provides reliable and continuous operation. the work of the cascade of derivational hydroelectric power stations.

Claims (5)

1. A cascade of derivative hydroelectric power plants, including a spillway dam, forming a reservoir and having a spillway and a water intake part connected to a pressure water supply pipe equipped with a shutter, sequentially located hydraulic units, a water drainage system, a backup water supply pipe with gates, characterized in that an emergency device is additionally installed in front of each hydraulic unit each of which is connected by means of an additionally installed pipeline to the backup conduit, and the latter is connected to the drain odyaschemu conduits, hydraulic units are located on the penstocks. 2. The cascade according to claim 1, characterized in that the intake part is equipped with a filter-trap. 3. The cascade according to claim 1, characterized in that each emergency device is equipped with a shutter and an emergency response sensor. 4. The cascade according to claim 1, characterized in that the drainage conduit is in communication with the reservoir. 5. The cascade according to claim 5, characterized in that a river, sea, lake or artificial reservoir can be used as a reservoir.