CN111535270B - Water pumping energy storage power station built by utilizing abandoned mine pit - Google Patents

Abstract

The invention relates to a water pumping energy storage power station built by utilizing waste pits, which comprises a lower reservoir and an upper reservoir, wherein the lower reservoir is the waste pits, the lower reservoir is connected with the upper reservoir through a water conduit, the water conduit is connected with an electromechanical chamber and a pressure regulating chamber, the height of the pressure regulating chamber is higher than that of the electromechanical chamber, the upper reservoir is arranged outside the pits where the lower reservoir is located, and the upper reservoir is formed by excavating pits on a ground plane. The invention has the effect that the upper reservoir is arranged on the plane of the ground, and compared with the background technology that the upper reservoir is arranged on the side slope of the mine pit where the lower reservoir is arranged, the position of the upper reservoir in the scheme is more stable.

Description

Water pumping energy storage power station built by utilizing abandoned mine pit

Technical Field

The invention relates to the technical field of water pumping energy storage power stations, in particular to a water pumping energy storage power station built by utilizing waste pits.

Background

The time difference of the current power load causes huge time difference of power consumption, and in order to avoid energy waste, the power grid is subjected to peak shaving in different modes to keep the power grid balanced, such as compressed air energy storage, pumped storage, thermal power adjustment and the like.

At present, a system and a method for carrying out water pumping and energy storage by utilizing waste strip mines are disclosed in Chinese patent document with application publication number CN108643140A, wherein the system comprises an upper reservoir, a lower reservoir, a dam, an electromechanical chamber and the like; the method comprises the following steps: storing water in a lower water reservoir for later use; when the supply of wind power or solar energy or a power station is greater than the demand, and the residual electric quantity of an electric power system is caused, part of electric energy is input into the underground chamber of the machine tool, and a reversible water pumping energy storage unit in the underground chamber of the machine tool is driven to pump water in a lower water reservoir into an upper water reservoir, so that the electric energy is converted into the gravitational potential energy of the water, and the water pumping energy storage is completed; when the supply of the generated energy of wind power or solar energy or a power station is not in demand and the power system is in a power utilization peak, the diversion tunnel of the upper reservoir which finishes pumping and storing energy is opened, water in the upper reservoir drives the reversible pumped storage unit in the electromechanical chamber to generate electricity by utilizing gravitational potential energy, and simultaneously enters the lower reservoir along the diversion tunnel and the tailwater tunnel to convert the gravitational potential energy of the water into electric energy to be sent back to the power grid; the fourth step: and repeating the steps to realize pumped storage circulation.

However, in the prior art, the dam is built on the mine pit side slope, and the upper reservoir is an area enclosed by the dam and the side slope, so that the loads of the upper reservoir and the dam are directly borne by the mine pit side slope, and instability of the mine pit side slope is easily caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a water pumping energy storage power station built by utilizing waste pits, which has the advantage of improving the stability of the power station.

The technical purpose of the invention is realized by the following technical scheme: the water pumping energy storage power station built by utilizing the abandoned mine pit comprises a lower reservoir and an upper reservoir, wherein the lower reservoir is the abandoned mine pit, the lower reservoir is connected with the upper reservoir through a water conduit, the water conduit is connected with an electromechanical chamber and a pressure regulating chamber, the pressure regulating chamber is higher than the electromechanical chamber, the upper reservoir is arranged outside the mine pit where the lower reservoir is located, and the upper reservoir is a pit hole formed by excavation on a ground plane.

Through adopting above-mentioned technical scheme, because the upper reservoir sets up on the plane on ground, compare in the background art, set up the upper reservoir on the side slope of lower reservoir place pit, the position that the upper reservoir was located in this scheme is more stable.

The present invention in a preferred example may be further configured to: and a circle of dikes are arranged on the periphery of the upper reservoir.

By adopting the technical scheme, the dike is arranged on the upper reservoir, so that the phenomenon that foreign matters on the ground fall into the upper reservoir accidentally can be reduced to a certain extent. Meanwhile, personnel can be prevented from entering the upper reservoir, and accidents of the personnel are reduced.

The present invention in a preferred example may be further configured to: a communicating well is arranged between the upper reservoir and the lower reservoir, an annular water collecting ditch surrounding the lower reservoir is arranged on the periphery of the lower reservoir, and is connected with a water guiding ditch which is connected with the communicating well.

Through adopting above-mentioned technical scheme, set up annular catch basin and can collect subaerial water in the environment, for example the rainwater flows into in the lower reservoir. If water on the ground directly flows into the lower water reservoir, impurities flowing through the ground are easily washed into the lower water reservoir. If the water in the lower reservoir contains excessive impurities, the pumping system in the power generation chamber is easily damaged too quickly.

Through setting up annular catch basin, carry out further processing behind introducing the subaerial water of lower reservoir opening part into the intercommunication well to let the water that enters into in the lower reservoir more clean, the in-process that draws water is less to pumping system's harm.

The present invention in a preferred example may be further configured to: the water guide ditch is obliquely arranged towards the communication well.

By adopting the technical scheme, the water guide channel is obliquely arranged towards the communicating well, so that water collected in the annular water collecting channel can be more easily guided towards the communicating well.

The present invention in a preferred example may be further configured to: the communicating well is communicated with the water conduit.

Through adopting above-mentioned technical scheme, the leading water pipeline is connected with intercommunication well and upper reservoir simultaneously to make and just can be simultaneously leading-in to the lower reservoir with the drainage in intercommunication well and the upper reservoir through a pipeline of leading water pipeline.

The present invention in a preferred example may be further configured to: an end cover assembly is arranged on a wellhead of the communication well, the end cover assembly comprises a protective cover positioned at a higher position and a filter layer positioned at a lower position, the filter layer is rigid, and the protective cover is connected with the filter layer through a connecting rod;

the protective cover is abutted to an opening of the wellhead, the height of the filter layer is lower than the position where the water guide ditch is connected with the communication well, and the filter layer separates the communication well from top to bottom.

Through adopting above-mentioned technical scheme, behind rivers in the gutter flowed into the intercommunication well, can pass through the filtration of filter layer at the in-process of whereabouts to make the more clean of entering intercommunication well water.

The present invention in a preferred example may be further configured to: a lifting frame is arranged outside the communicating well, a winch is arranged on the lifting frame, and a rope on the winch is connected with the middle part of the protective cover;

the connecting device comprises a connecting well, a water guide channel, a connecting well, a cover plate, a rubber ring, a manual valve, a water pump and a water outlet pipe, wherein the connecting well is internally provided with a water guide channel, the connecting well is internally provided with a sliding groove from top to bottom on the inner walls of two sides of the connecting position of the water guide channel and the connecting well, the sliding groove is internally connected with a sliding block, the sliding block is connected with the cover plate, a communicating opening is formed in the cover plate, the cover plate is provided with the rubber ring surrounding the communicating opening towards one side of the well wall, the rubber ring is attached to the inner wall of the connecting well, the communicating opening is connected with the water guide.

Through adopting above-mentioned technical scheme, after the filter layer filters for a long time, then need wash the filter layer, rise through drive hoist engine rolling rope drive end cover subassembly this moment.

Because the aqueduct can dismantle with the end cover subassembly and be connected, so can drive the aqueduct and rise when the hoist rolling rope drives the in-process that the end cover subassembly rises, at the ascending in-process of end cover subassembly, the aqueduct has also acted as the effect of cotton rope and has driven the apron to rise, just can shield the opening of aqueduct after the apron rises to the highest position to make the water in the aqueduct flow in the aqueduct through the intercommunication mouth. Meanwhile, the end cover plate shields the opening of the water guide channel, and the manual valve is in a closed state at the moment, so that water in the water guide channel is prevented from entering the communicating well without being filtered.

And when the filter layer rises above the wellhead, one end of the water guide pipe can be detached from the end cover assembly and connected with the water pump, then the manual valve is opened, water in the water guide ditch is pumped out to the water outlet pipe through the water pump, and the water guide pipe can be used for flushing and cleaning the filter layer.

The present invention in a preferred example may be further configured to: the filter layer comprises a metal plate with filter holes uniformly distributed on the surface, a screw hole is formed in the middle of the filter layer, external threads are formed at the lower end of the connecting rod, and the lower end of the connecting rod is connected with the screw hole in a threaded mode.

Through adopting above-mentioned technical scheme, rotatory filter layer can be with its dismouting in the lower extreme of connecting rod to the convenience is washd the filter layer.

The present invention in a preferred example may be further configured to: the lower end of the connecting rod penetrates through the lower end of the filter layer, the inner diameter of the water guide pipe is larger than the outer diameter of the connecting rod, when the connecting rod is connected with the water guide pipe, the water guide pipe is sleeved outside the connecting rod, and a clamp is arranged outside the water guide pipe to fix the water guide pipe on the connecting rod.

Through adopting above-mentioned technical scheme, utilize the clamp to cramp the aqueduct at the lower extreme of connecting rod to make the aqueduct can realize dismantling even with the connecting rod and be connected. And then when making to be located the intercommunication well at end cover assembly, the aqueduct can be connected with the connecting rod to in-process that end cover assembly rises can drive the apron and rise, and when the apron rises to hiding the port of aqueduct, can be convenient with the lower extreme dismantlement of aqueduct from the connecting rod.

In conclusion, the invention has the following beneficial effects:

1. compared with the background technology that the upper reservoir is arranged on the side slope of the pit where the lower reservoir is arranged, the position of the upper reservoir is more stable in the scheme;

2. the in-process that drives the end cover subassembly when hoist engine rolling rope rises also can drive the aqueduct and rise, in addition, at the ascending in-process of end cover subassembly, the aqueduct has also acted as the effect of cotton rope and has driven the apron to rise, just can shield the opening of aqueduct after the apron rises to the highest position to make the water in the aqueduct pass through in the intercommunication mouth inflow aqueduct. When the filter layer rises above the wellhead, one end of the water guide pipe can be detached from the end cover assembly and connected with the water pump, and water in the water guide ditch is pumped out to the water outlet pipe through the water pump, so that the water guide pipe can be used for flushing and cleaning the filter layer;

3. utilize the clamp to cramp the aqueduct at the lower extreme of connecting rod to make the aqueduct realize dismantling even with the connecting rod and be connected, and then make when end cover assembly is located the intercommunication well, the aqueduct can be connected with the connecting rod, and can drive the apron at the in-process that end cover assembly rises and rise, and when the apron rises to hiding the port of aqueduct, can be convenient dismantle the aqueduct from the lower extreme of connecting rod down.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a communication well and end cap assembly of the present invention.

Reference numerals: 1. a lower reservoir; 2. an upper reservoir; 3. a water conduit; 4. an electromechanical chamber; 5. a pressure regulating chamber; 6. a communicating well; 7. a water collecting ditch; 8. a water guiding ditch; 9. an end cap assembly; 10. a protective cover; 11. a filter layer; 12. a connecting rod; 13. a screw hole; 14. a hoisting frame; 15. a winch; 16. a rope; 17. a chute; 18. a cover plate; 19. a communication port; 20. a water conduit; 21. a manual valve; 22. a water pump; 23. an input tube; 24. a water outlet pipe; 25. and (4) enclosing the dike.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the water pumping energy storage power station built by using the waste pits disclosed by the invention comprises a lower reservoir 1 and an upper reservoir 2, wherein the lower reservoir 1 is the waste pit, the lower reservoir 1 is connected with the upper reservoir 2 through a water conduit 3, the water conduit 3 is connected with an electromechanical chamber 4 and a pressure regulating chamber 5, the height of the pressure regulating chamber 5 is higher than that of the electromechanical chamber 4, and the upper reservoir 2 is a pit formed by excavating on a ground plane outside the pit where the lower reservoir 1 is located.

Because the upper reservoir 2 is arranged on the plane of the ground, it is more stable than arranging the upper reservoir 2 on the side slope of the pit where the lower reservoir 1 is located. The circumference of the upper reservoir 2 is provided with a circle of dikes 25, and the dikes 25 arranged on the upper reservoir 2 can reduce the accidental falling of foreign matters on the ground into the upper reservoir 2 to a certain extent. Meanwhile, personnel can be prevented from entering the upper reservoir 2, and accidents of the personnel are reduced.

As shown in fig. 1, a communication well 6 is arranged between the upper reservoir 2 and the lower reservoir 1, an annular water collecting channel 7 surrounding the lower reservoir 1 is arranged on the periphery of the lower reservoir 1, a water guiding channel 8 is connected to the annular water collecting channel 7, and the water guiding channel 8 is connected to the communication well 6. The annular water collecting channel 7 is open, the water guiding channel 8 is arranged below the ground, and the water guiding channel 8 is inclined towards the communication well 6, so that water collected in the annular water collecting channel 7 can be more easily guided towards the communication well 6 through the water guiding channel 8.

The annular water collection channel 7 is arranged to collect water, for example rain, on the ground in the environment. If the water on the ground directly flows into the lower reservoir 1, the impurities flowing through the ground and the side slope of the lower reservoir 1 are easily washed into the lower reservoir 1. If the water in the lower reservoir 1 contains excessive impurities, the pumping system in the power generation chamber is easily damaged too quickly. In addition, because water in the upper reservoir 2 and the lower reservoir 1 is evaporated and consumed due to water evaporation in the water pumping and energy storing process of the power station, the water evaporation speed is particularly high in dry weather at high temperature, the annular water collecting channel 7 is also connected to a water source in the environment, such as a stream, a lake branch and the like, so as to supplement the water in the upper reservoir 2 and the lower reservoir 1.

Specifically, control valves (not shown in the figure) are arranged at the positions where the environmental water source is connected with the annular water collecting ditch 7, so that the amount of water flowing into the annular water collecting ditch 7 is controlled, and the control valves are opened only when the amounts of water in the upper reservoir 2 and the lower reservoir 1 need to be supplemented.

In addition, the lower extreme of intercommunication well 6 communicates with leading water pipe 3, and leading water pipe 3 is connected with intercommunication well 6 and upper reservoir 2 simultaneously to make only need just can be simultaneously with leading-in to lower reservoir 1 with the drainage in intercommunication well 6 and the upper reservoir 2 through leading water pipe 3 a pipeline.

As shown in fig. 1 and 2, an end cover assembly 9 is arranged on a wellhead of the communication well 6, the end cover assembly 9 comprises a protective cover 10 located at a higher position and a filter layer 11 located at a lower position, the circular filter layer 11 is a metal plate with uniformly distributed filter holes, and the middle part of the circular protective cover 10 is connected with the middle part of the filter layer 11 through a connecting rod 12; the size of the protective cover 10 is larger than the opening size of the wellhead, so the protective cover 10 abuts against the opening of the wellhead, the height of the filter layer 11 is lower than the position where the water guiding ditch 8 is connected with the communication well 6, and the filter layer 11 divides the communication well 6 up and down.

When water in the water guiding ditch 8 flows into the communication well 6, the water is filtered by the filter layer 11 in the falling process, so that the water entering the communication well 6 is cleaner. The edge of the filter layer 11 is further wrapped with a layer of rubber strip (not shown in the figure), so that the edge of the filter layer 11 can be better attached to the inner wall of the communicating well 6, and a better filtering effect on entering the communicating well 6 is achieved.

A screw hole 13 is formed in the middle of the filter layer 11, and an external thread is formed at the lower end of a round bar-shaped connecting rod 12, and the lower end of the connecting rod 12 is screwed in the screw hole 13 and penetrates to the lower end of the filter layer 11.

More specifically, a door-shaped lifting frame 14 is arranged outside the communication well 6, a winch 15 is arranged on the lifting frame 14, and a rope 16 on the winch 15 is connected with the middle part of the protective cover 10;

the inside of the communicating well 6 is provided with dovetail-shaped sliding grooves 17 on the inner walls of two sides of the connecting position of the water guide channel 8 and the communicating well 6, each sliding groove 17 is connected with a sliding block (not shown in the figure), each sliding block is connected with a covering plate 18, a communicating port 19 is formed in the middle of each covering plate 18, the covering plates 18 are further provided with rubber rings surrounding the communicating ports 19 towards one side of the inner wall of the communicating well 6, the rubber rings are attached to the inner wall of the communicating well 6, and the size of each rubber ring is enough to surround the opening of the water guide channel 8. The communicating opening 19 is connected with a water conduit 20, and the other end of the water conduit 20 is connected with the connecting rod 12. Specifically, the inner diameter of the water pipe is larger than the outer diameter of the connecting rod 12, when the connecting rod 12 is connected with the water conduit 20, the water conduit 20 is sleeved outside the connecting rod 12, and a clamp is arranged outside the water conduit 20 to fix the water conduit 20 on the connecting rod 12. One end of the water guide pipe 20 connected with the connecting rod 12 is provided with a manual valve 21, a water pump 22 is arranged on the wellhead, the water pump 22 is connected with a water outlet pipe 24, and the water pump 22 is also connected with an input pipe 23. Wherein the manual valve 21 is in a closed state when the end cap assembly 9 is in the communication well 6.

The implementation principle of the embodiment is as follows: when the end cover assembly 9 is located in the communicating well 6, the filter layer 11 can be used for filtering water entering the communicating well 6, and the protective cover can also prevent external foreign matters from falling into the communicating well 6, so that water entering the circulation of the lower reservoir 1 and the upper reservoir 2 from the communicating well 6 can be relatively clean, and the loss of a water pumping system is reduced.

After the filtering layer 11 is filtered for a long time, the filtering layer 11 needs to be cleaned, and the end cover assembly 9 is driven to ascend by driving the winch 15 to wind the rope 16.

Because aqueduct 20 and end cover subassembly 9 are detachable connection, so can drive aqueduct 20 to rise when hoist 15 rolling rope 16 drives end cover subassembly 9 and rises, in the process of rising of end cover subassembly 9, aqueduct 20 has also acted as the effect of cotton rope and has driven apron 18 to rise, just can shield the opening of guiding gutter 8 after apron 18 rises to the highest position, and the rubber circle encloses including the opening of guiding gutter 8, thereby make the water in the guiding gutter 8 flow into in the aqueduct 20 through intercommunication mouth 19. Meanwhile, since the end cover plate shields the opening of the water guiding gutter 8, and also since the manual valve 21 is not yet opened, the water in the water guiding gutter 8 is prevented from entering the communication well 6 without being filtered.

And, after the filter layer 11 rises above the well head, the clamp on the water conduit 20 can be unfastened, and then detached from the connecting rod 12, and then sleeved on the input pipe 23 of the water pump 22 and fixed by the clamp, and the manual valve 21 is opened. At this time, the water in the water guiding ditch 8 is pumped out to the water outlet pipe 24 by the water pump 22, and the water can be used for flushing and cleaning the filtering layer 11. For cleaning, the filter layer 11 can also be rotated to be detached from the connecting rod 12. During cleaning of the filter layer 11, if the amount in the water guiding gutter 8 is insufficient, more water is introduced into the water guiding gutter 8 by opening the control valve at the connection of the ambient water source and the annular water collecting gutter 7.

After the filtering layer 11 is cleaned, the manual valve 21 is closed, the manual valve is reinstalled on the connecting rod 12, the water guide pipe 20 is connected to the lower end of the connecting rod 12, the end cover assembly 9 is reinstalled in the communication well 6, and water in the water guide ditch 8 can flow into the communication well 6 after being filtered by the filtering layer 11.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (3)

1. The utility model provides an utilize energy storage power station that draws water that abandonment pit was built, includes lower reservoir (1) and last reservoir (2), lower reservoir (1) is abandonment pit, lower reservoir (1) is connected through leading water pipeline (3) with last reservoir (2) to leading water pipeline (3) are connected with electromechanical chamber (4) and surge-chamber (5), and the place height in surge-chamber (5) is higher than electromechanical chamber (4), characterized by: the upper reservoir (2) is arranged outside a mine pit where the lower reservoir (1) is located, and the upper reservoir (2) is a pit hole formed by excavating on a ground plane; a circle of dikes (25) are arranged on the periphery of the upper reservoir (2); a communicating well (6) is arranged between the upper reservoir (2) and the lower reservoir (1), an annular water collecting ditch (7) which surrounds the lower reservoir (1) is arranged on the periphery of the lower reservoir (1), the annular water collecting ditch (7) is connected with a water guiding ditch (8), and the water guiding ditch (8) is connected with the communicating well (6); the water guide ditch (8) is obliquely arranged towards the communication well (6); the communication well (6) is communicated with the water conduit (3); an end cover assembly (9) is arranged on a wellhead of the communication well (6), the end cover assembly (9) comprises a protective cover (10) positioned at a higher position and a filter layer (11) positioned at a lower position, the filter layer (11) is rigid, and the protective cover (10) is connected with the filter layer (11) through a connecting rod (12);

the protective cover (10) is abutted to the opening of the wellhead, the height of the filter layer (11) is lower than the position where the water guide ditch (8) is connected with the communication well (6), and the filter layer (11) separates the communication well (6) vertically; a lifting frame (14) is arranged outside the communication well (6), a winch (15) is arranged on the lifting frame (14), and a rope (16) on the winch (15) is connected with the middle part of the protective cover (10);

the connecting device is characterized in that sliding grooves (17) are formed in the connecting well (6) on the inner walls of two sides of the connecting position of the water guide channel (8) and the connecting well (6) from top to bottom, sliding blocks are connected to the sliding blocks in the sliding grooves (17) and connected with covering plates (18), communicating ports (19) are formed in the covering plates (18), rubber rings surrounding the communicating ports (19) are arranged on one sides of the covering plates (18) facing the well wall, the rubber rings are attached to the inner wall of the connecting well (6), water guide pipes (20) are connected to the communicating ports (19), one ends, far away from the covering plates (18), of the water guide pipes (20) are detachably connected with the end cover assembly (9) on the lower surface of the filter layer (11), manual valves (21) are arranged on the water guide pipes (20), water pumps (22) are arranged on the well openings, and the water pumps (22).

2. The pumped storage power plant constructed with abandoned mine pits of claim 1, characterized in that: the filter layer (11) comprises a metal plate with filter holes uniformly distributed on the surface, a screw hole (13) is formed in the middle of the filter layer (11), external threads are formed at the lower end of the connecting rod (12), and the lower end of the connecting rod (12) is connected with the screw hole (13) in a threaded mode.

3. The pumped storage power plant constructed with abandoned mine pits according to claim 2, characterized in that: the lower extreme of connecting rod (12) is worn to the lower extreme of filter layer (11), the internal diameter of aqueduct (20) is greater than the external diameter of connecting rod (12), when connecting rod (12) are connected with aqueduct (20), aqueduct (20) cup joint outside connecting rod (12) to be provided with the clamp outside aqueduct (20) and fix aqueduct (20) on connecting rod (12).

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