CN209637966U - A kind of compressed air energy storage station - Google Patents

Abstract

The utility model discloses a kind of compressed air energy storage station, including the cavity group constituted in multiple caverns of underground excavation, the compressed air storage heater and turbo-expander, the compressor set and generating set that are set to earth's surface that are set to underground；It is connected between each cavern；The input terminal of compressor set is connect with energy device, and the output end of generating set is connect with electrical equipment；The output end of compressor set is connect by pipeline with compressed air storage heater, and compressed air storage heater is connected to by pipeline with any cavern in cavity group；Turbo-expander is connected to any cavern in cavity group by pipeline, is connected between turbo-expander and generating set by pipeline；Regenerator is connected between compressed air storage heater and turbo-expander.The utility model uses underground hole group storing compressed air, and reserves are huge, and gas storage is safer, and sealing effect is more preferable, and at low cost, durability is more preferable, and easy to maintenance.

Description

A kind of compressed air energy storage station

Technical field

The utility model belongs to hydroelectric project, and in particular to a kind of compressed air energy storage station.

Background technique

Compressed air energy storage station predominantly cooperates the energy such as wind energy, tide energy and water power, and electric load in power grid is low Extra electric energy when paddy is converted to the potential energy of compressed air there are in gas storage, discharges in electricity peak period and is sent out by compressed air Electricity, plays the role of " battery ", there is peak load shifting, optimization power grid and emergency use in the power system.

Current several compressed air energy storage stations only in the world build rock salt area in, utilize distinctive landforms, Using chemical method using rock salt cavern formed high-pressure gas library, but its higher cost and promote the use of limited by geological conditions.

Therefore, in order not to be limited by geological conditions, the prior art is generally using ground cylinder of steel building storage station Compressed-air energy-storage system, but cylinder of steel seal gas is used, it has the following problems:

1) major diameter, the cylinder of steel manufacture difficulty of long range are big, and in ground high throughput gas storage, construction cylinder of steel quantity is too many, peace It is complete very risky.

2) compressed air needs pressure often to reach 10MPa or more, according to pressure vessel design code, gas storage cylinder of steel thickness It needs to reach 5cm or more, if factory's production is difficult one-pass molding, it is necessary to which site welding, cost is very using major diameter cylinder of steel It is high.

3) heat and water that each pressure cylinder of steel internal overhaul has to generate there are hermatic door, compressed air have cylinder of steel Corrosiveness to a certain degree needs often to repair, once the hermatic door seal failure of some cylinder of steel, will lead to entire energy storage system System failure is arranged multiple hermatic doors and also results in the increase of seal failure probability.

Utility model content

In view of the above-mentioned problems, the compressed air that the utility model is intended to provide a kind of safety, reserves are big, gas storage is at low cost stores It can power station.

The technical solution that the utility model solves the problems, such as is: a kind of compressed air energy storage station, including in underground excavation The cavity group of multiple caverns' compositions, the compressed air storage heater and turbo-expander, the compression for being set to earth's surface for being set to underground Unit and generating set；It is connected between each cavern；

The input terminal of the compressor set is connect with energy device, and the output end of generating set is connect with electrical equipment；

The output end of the compressor set is connect by pipeline with compressed air storage heater, and compressed air storage heater passes through pipe Road is connected to any cavern in cavity group；

The turbo-expander is connected to any cavern in cavity group by pipeline, turbo-expander and generating set it Between pass through pipeline be connected to；

Regenerator is connected between the compressed air storage heater and turbo-expander.

Above scheme does not use a large amount of cylinder of steels in ground, and uses underground hole group storing compressed air, in underground hole group Portion communicates with one another, and compressed air is pressurizeed in each cavern's internal synchronization, and reserves are huge.Moreover, it is safer using underground chamber gas storage, Sealing effect is more preferable, and durability is more preferable.

Further, any cavern in cavity group is connected with the auxiliary cavern being in communication with the outside, the cavern with It assists being equipped with seal plug between cavern, the channel for being connected to the cavern with auxiliary cavern is equipped in the seal plug；

Channel one end and be located at the junction of seal plug and the cavern and be equipped with hermatic door.

Cavity group is sealed with the external world only with a seal plug, and the probability of single hermatic door seal failure is small.It is auxiliary Helping cavern is access path.

Preferably, the seal plug is formed using concreting.

Further, each cavern's inner wall of the cavity group is equipped with sealant.

The remarkable result of the utility model is:

1. using underground hole group storing compressed air, communicate with one another inside underground hole group, compressed air is in each cavern Internal synchronization pressurization forms high-pressure gas library and does not need as rock salt area by specially treated, and cost is relatively low and promotes Using not limited by geological conditions.For the gas storage mode of a large amount of cylinder of steels in ground, reserves are huge, safer, sealing effect Fruit is more preferable, and durability is more preferable.

2., due to more hermatic doors, being easy for occurring for the case where hermatic door is arranged in each pressure cylinder of steel To more failures, the probability for bringing energy-storage system failure is just bigger.The structure cavity group of the application and the external world are only with one Seal plug is sealed, and the opposite probability for leading to entire energy-storage system failure is small, durability is more preferable and easy to maintenance.

Detailed description of the invention

The utility model is described in further detail with reference to the accompanying drawing.

Fig. 1 is the utility model compressed air energy storage station structural schematic diagram.

In figure: 1- energy device, 2- compressor set, 3- pipeline, 4- compressed air storage heater, 5- regenerator, 6- electricity consumption are set It is standby, 7- generating set, 8- turbo-expander, 9- cavity group, 10- seal plug, 11- auxiliary cavern.

Specific embodiment

As shown in Figure 1, a kind of compressed air energy storage station, including constituted in multiple caverns of underground excavation cavity group 9, It is set to the compressed air storage heater 4 and turbo-expander 8, the compressor set 2 and generating set 7 that are set to earth's surface of underground.Institute The each cavern's inner wall for stating cavity group 9 is equipped with sealant.It is connected between each cavern.

The input terminal of the compressor set 2 is connect with energy device 1.The output end of compressor set 2 passes through pipeline 3 and compression Air storage heater 4 connects.Compressed air storage heater 4 is connected to by pipeline 3 with any cavern in cavity group 9.

The turbo-expander 8 is connected to any cavern in cavity group 9 by pipeline 3.Turbo-expander 8 and generator It is connected between group 7 by pipeline 3.The output end of generating set 7 is connect with electrical equipment 6.

Regenerator 5 is connected between the compressed air storage heater 4 and turbo-expander 8.

Any cavern in cavity group 9 is connected with the auxiliary cavern 11 being in communication with the outside, in the cavern and auxiliary tunnel Seal plug 10 is equipped between room 11.The channel for being connected to the cavern with auxiliary cavern 11 is equipped in the seal plug 10.In The one end in the channel and junction for being located at seal plug 10 and the cavern is equipped with hermatic door.

The seal plug 10 is formed using concreting.

By taking wind-power electricity generation as an example, energy device 1 is blower, and air is compressed by compressed air storage heater 4, passed through by blower Pipeline enters cavity group 9, this stage is inflation energy storage stage, and compressed air storage heater 4 stores thermal energy, and storage is high in cavity group 9 Press air.When needing to generate electricity, compressed air storage heater 4 transfers heat to turbo-expander 8, while hole by regenerator 5 High pressure gas in room group 9 enters turbo-expander 8, and turbo-expander 8 is combined with generating set 7 to generate electricity, and supplies electricity to use Electric equipment 6, this stage are deflation power generating stage.

Claims (4)

1. a kind of compressed air energy storage station, it is characterised in that: including the cavity group constituted in multiple caverns of underground excavation (9), the compressed air storage heater (4) and turbo-expander (8), the compressor set (2) and hair that are set to earth's surface of underground are set to Motor group (7)；It is connected between each cavern；

The input terminal of the compressor set (2) is connect with energy device (1), the output end of generating set (7) and electrical equipment (6) Connection；

The output end of the compressor set (2) is connect by pipeline (3) with compressed air storage heater (4), compressed air storage heater (4) it is connected to by pipeline (3) with any cavern in cavity group (9)；

The turbo-expander (8) is connected to any cavern in cavity group (9) by pipeline (3), turbo-expander (8) and hair It is connected between motor group (7) by pipeline (3)；

Regenerator (5) are connected between the compressed air storage heater (4) and turbo-expander (8).

2. compressed air energy storage station according to claim 1, it is characterised in that: any hole in cavity group (9) Room is connected with the auxiliary cavern (11) being in communication with the outside, and is equipped with seal plug (10) between the cavern and auxiliary cavern (11), The channel for being connected to the cavern with auxiliary cavern (11) is equipped in the seal plug (10)；

Channel one end and be located at the junction of seal plug (10) and the cavern and be equipped with hermatic door.

3. compressed air energy storage station according to claim 2, it is characterised in that: the seal plug (10) uses coagulation Native pouring molding.

4. compressed air energy storage station according to claim 1-3, it is characterised in that: the cavity group (9) Each cavern's inner wall is equipped with sealant.