SU1707219A1 - Method for pumped storage station outlet control and pumped storage station - Google Patents

Abstract

The invention relates to hydropower construction. The channel dam 1 is located between the upper reach (B B) 2 and the lower reach (3). An additional reservoir (LW) 4 is located above the level of WB 2. Turbopump units 5 are installed in conduits (B) 6 connecting WB 2 and NB 3. In 8 of the diversion hydropower station 7, WL 4 is connected to NB 3. The outputs of the pumps of the turbopump units 5 are connected using pipelines P) 9 to DV 4. Additional T 10 connect NB 3 to V 8. Electric driven pumps (H) 11 are installed in T 10. Additional B 12 connect WB 2 to NB 3. Hydraulic units (D) 13 are located in B 12. Generators D 13 are electrically connected to H 11 electric drives. Water consumption through units 5 in during the year is equal to the interim consumption. Flood flow is passed from WB 2 to NB 3 through G 13. Part of the flood flow is fed from NB 3 to LW 4 with the help of NI. Such an embodiment of the energy-accumulating hydroelectric station allows to increase its efficiency by reducing the required amount of T 9, eliminating the need for deepening the units of the diversion hydroelectric station 7 and making the latter reversible, as well as due to the direct electric connection G 13 and H 11. 2 n.s. , 1 Il.

Description

The invention relates to hydropower construction and can be used to regulate the flow of energy storage hydroelectric power plants.

The aim of the invention is to increase the efficiency of energy-accumulating HPS.

The drawing shows a diagram of energy-accumulating hydroelectric station.

The energy storage hydroelectric station contains a channel dam 1 located between the upper and lower pools 2 and 3, an additional reservoir 4 located above the level of the upper pool 2, turbo-pumping units 5 installed in the conduits 6 connecting the upper pool 2 with the lower 3, and the derivational hydroelectric power station 7, the water lines 8 of which connect the additional reservoir 4 with the downstream 3, while the outlets of the pumps (not indicated in the drawing) of the units 5 are connected by means of pipelines 9 to the additional reservoir 4. The HPPs are equipped with additional pipelines 10 for connecting the downstream 3 with the conduits 8 of the diversion hydroelectric station 7, electrically driven pumps 11 installed in the additional pipelines 10, additional conduits 12 connecting the upstream 2 to the lower 3, and hydroelectric units 13 located in the additional conduits 12, whereby the generators (not shown) of the hydraulic units 13 are electrically connected to electric drives (not shown) of the pumps 11.

The method is carried out as follows. In the low water period, only the turbo pump units 5 are operating, which convert the energy of the low-pressure flow into the energy of the high-pressure flow stored in the additional reservoir4. The derivation hydroelectric power plant is currently operating in pico mode1. Hydroelectric units 13 are turned on in the flood, through which only flood runoff passes (the flow of water through units 5 throughout the year is equal to the interstage flow), and the energy produced is spent on driving pump 11 to supply water from the downstream 3 to the additional reservoir 4. At the same time, during the delivery of peak power, the pumps 11 are stopped, and the electric power generated by the hydraulic units 13 is given to an external consumer.

Claims (2)

Claim 1. Method of regulating the water-flow of an energy-accumulating hydroelectric power station, including the supply of water from the upper pool to the lower and additional reservoir and the exchange of drain between the last and lower pool, characterized in that constant throughout the year and equal to the flow in the low flow period by passing flood flow from the upper pool to the lower one, while part of the flood flow is supplied from the lower pool to the additional water supply or better. 2. Energy storage hydroelectric station containing a channel dam located between the upper and lower pools, an additional reservoir located above the upper pool, turbopump units, which are installed in the water lines connecting the upper pool with the lower pool and the diversion hydroelectric station. downstream additional reservoir, while the outputs of the pumps of the units are connected by means of pipelines to the additional reservoir, characterized in that it is equipped with additional pipelines E for connecting water lines with the downstream hydroelectric derivation, electrically-pumps installed additional ducts, additional conduits, connecting the upper reach to the lower and hydraulic units arranged in more conduits, wherein the hydraulic units of these generators are electrically connected with elektroprivodami1 pumps. 11 3