RU2039154C1 - Hydroelectric power station building - Google Patents

Abstract

FIELD: electric engineering; building construction. SUBSTANCE: hydroelectric power station building is positioned in the river bed along the stream direction in narrow gorges of mountain rivers. The building has engine room 4, hydraulic turbine-driven generator units 5 with spiral cases 6 and draught tubes 7, feeding and discharging water lines 8 and 9, respectively, spillway 11. The hydroelectric power station building is build in thrusting both of the gorge slopes making the river bank. Spiral case and draught tube of each next in the series of hydraulic turbine-driven generators are connected with one of two feeding or discharging water lines aligned in parallel to the longitudinal axis of the station. The last water lines are constructed in the form of a tunnel in the bank slopes of the gorge. EFFECT: suitable arrangement of the station in mountain rivers; lower construction costs. 2 dwg

Description

 The invention relates to hydraulic engineering, in particular, to buildings of hydroelectric power plants (HPPs), erected in cramped conditions of mountain rivers.

The building of a hydroelectric power station is known, constructed in cramped conditions of narrow gorges of mountain rivers, including water conduits and hydraulic units with spiral chambers and suction pipes connected to a single outlet conduit located under the hydraulic units [1]
This technical solution is intended for small hydropower plants and cannot be used for units of high power and high water flow through the turbine due to the significant lengths of the suction pipes that cannot be made straight-line, which would entail a significant deepening of the hydropower building and a sharp increase in volumes work and cost.

Also known is the building of a hydroelectric station located along the stream and including a turbine hall, hydraulic units with spiral chambers and suction pipes, water inlet and outlet ducts and spillways located above the turbine hall [2]
The known design is intended for the location of the building of the station in the body of the earthen dam, when due to the loading of the soil its stability from the pressure of the water created by the earthen dam is ensured.

 The proposed hydroelectric building, erected in narrow gorges of mountain rivers, with coastal slopes, allows us to ensure the reliability of the hydroelectric station building under the influence of seismic loads, reduce the cost of construction by reducing the volume of expensive excavations on steep slopes that require fastening and bear the potential risk of creeping, as well as the proposed design allows to reduce the length of the hydroelectric building.

 This is achieved by the fact that the building of the hydroelectric power station is made in opposition to the coastal slopes of the gorge, and the spiral chamber and the suction pipe of each subsequent hydraulic unit are connected to one of two inlet and outlet conduits parallel to the longitudinal axis of the station, while the outlet conduits made in the form of tunnels are placed in the coastal slopes of the gorge.

 In FIG. 1 shows a building of a hydroelectric power station, a cross-section (AA in FIG. 2); in FIG. 2 plan of the building of the hydroelectric power station, section BB in FIG. 1.

 Building 1 of the hydroelectric power station is located in the gorge along the stream and consists of a concrete mass laid back to back with the coastal slopes of gorge 2 and adjacent to the dam 3. In the building of the hydroelectric station, there are a machine room 4, hydraulic units 5 with spiral chambers 6 and suction pipes 7, leading water conduits 8 . In the coastal slopes of the gorge there are discharge ducts 9, made in the form of a tunnel, which during the construction period are designed to skip construction costs, and during operation at the entrance sections are blocked with concrete plugs 10 and are used as outlet conduits for hydroelectric power plants.

 The spiral chamber 6 and the suction pipe 7 of each subsequent hydraulic unit are connected to one of two inlet 8 and outlet 9 conduits parallel to the longitudinal axis of the station.

 Above the machine room 4, or on its sides, is located the operational spillway tray 11.

 The location of the longitudinal axis of the hydroelectric building along the stream allows you to place any number of hydraulic units in it, regardless of the width of the gorge.

 During operation, the flow of water comes from the upper pool through the supply conduits 8 (from the intake located in the dam) to the spiral chambers of the hydraulic units 5 and then through the hydraulic units and suction pipes it enters the discharge conduits 9 and then into the lower pool of the structure.

Claims (1)

 HYDRO POWER PLANT BUILDING, located in a channel along the stream, including a turbine room, hydraulic units with spiral chambers and suction pipes, water inlets and outlets, spillways, characterized in that it is installed opposite to the coastal slopes in a narrow mountain gorge, and each spiral chamber and a suction pipe of the subsequent unit in the direction of flow of the hydraulic unit is connected to one of two inlet and outlet conduits parallel to the longitudinal axis of the station, the last of which you filled in the form of tunnels and placed on the coastal slopes of the gorge.

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