KR20160048239A - Compressed air energy storage electric power generator - Google Patents

Abstract

The present invention relates to a compressed air energy storage (CAES) electric power generator. The CAES electric power generator creates a steam by recovering a heat generated from a compressed air, and preloading an ambient air entering a reciprocating device for compression using the steam. According to the present invention, the CAES electric power generator comprises: a reciprocating device driven by a motor to compress an air, and driven by the compressed air; a heat recovery unit to recover the heat energy generated by a high pressure compressed air; a storage tank to store the compressed air which lost heat to the heat recovery unit; a power generator rotated by the reciprocating device driven by the compressed air supplied from the storage tank; and a compressor to preload and supply the air by the heat energy recovered in the heat recovery unit. The present invention has effects in saving energy consumption by recovering and using the heat generated from the compressed air, and in compressing the air with relatively small capacity of the reciprocating device to compress a desired air volume under a desired pressure. As such, the whole size of the CAES electric power generator can be reduced. By storing the compressed air after cooling in a cooler, the volume of the compressed air is reduced, allowing to use relatively smaller sized storage tank and to store relatively much compressed air in the same storage tank.

Description

[0001] COMPRESSED AIR ENERGY STORAGE ELECTRIC POWER GENERATOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compressed air energy storage and power generation system that pre-pressurizes air using waste heat generated when air is compressed at a high pressure in a reciprocating engine, and then introduces the compressed air into a reciprocating engine.

The Compressed Air Energy Storage (CAES) power generation system compresses and stores the air by using electric energy in the nighttime when the electricity consumption is low. And the generator is rotated to generate electric power.

FIG. 1 illustrates a schematic configuration of a conventional compressed air energy storage power generation system.

As shown in the figure, the conventional compressed air energy storage power generation system 10 includes a reciprocating engine 11 for compressing air while being driven by a motor 13, and a high-pressure compressed air Is stored in the storage tank (15).

Thus, when the compressed air stored in the storage tank 15 is injected into the reciprocating engine 11 at a time required by the user, the reciprocating engine 11 is rotated, and the generator 17 is driven by the reciprocating engine 11 And develop. The air injected into the reciprocating engine 11 and used for driving the generator 17 is discharged to the outside of the reciprocating engine 11. [

In the conventional compressed air energy storage power generation system 10 as described above, heat energy generated from the compressed air compressed by the reciprocating engine 11 is not utilized and is lost to the atmosphere, which is disadvantageous in that energy is wasted.

Since the air in the atmosphere is directly compressed in the reciprocating engine 11 without pre-pressurizing air, a large-capacity reciprocating engine 11 is required in order to compress the desired amount of air to a desired pressure. This has the disadvantage that the total volume of the compressed air energy storage power generation system 10 becomes large and the installation space is limited due to the increase in volume.

It is an object of the present invention to provide a compressed air energy storage power generation system capable of solving all the problems of the prior art as described above.

Another object of the present invention is to provide a compressed air energy storage power generation system that can save energy as well as reduce the volume.

According to an aspect of the present invention, there is provided a compressed air energy storage power generation system including: a reciprocating engine that compresses air while being driven by a motor and is driven by compressed air; A heat recovery unit for recovering heat energy generated in the high-pressure compressed air compressed by the reciprocating engine; A storage tank for storing compressed air from which heat is removed from the heat recovery apparatus; A generator that generates electric power by being rotated by the reciprocating engine when the reciprocating engine is driven by compressed air supplied from the storage tank to the reciprocating engine; And a compressor for pre-pressurizing the air while being driven by the heat energy recovered in the heat recovery apparatus to introduce the air into the reciprocating engine.

In addition, the heat recovery unit may be a waste heat recovery boiler for generating steam.

Also, the compressor is provided with a turbine type compressor, and can compress air while rotating by the steam generated in the heat recovery apparatus.

In addition, the steam used to rotate the compressor may be reintroduced into the heat recovery apparatus.

A cooler for cooling the compressed air supplied to the storage tank may be installed between the heat recovery unit and the storage tank.

A compressed air energy storage power generation system according to an embodiment of the present invention recovers heat generated from compressed air to generate steam and uses the steam to preheat air in the atmosphere flowing into the reciprocating engine for compression. )do. That is, since the heat generated from the compressed air to be lost is recovered and used, energy can be saved.

Since the air in the atmosphere is preliminarily pressurized by the steam in the compressor and then introduced into the reciprocating engine to compress the desired amount of air to a desired pressure, a relatively small capacity reciprocating engine is used to compress air Can be compressed. This has the effect of reducing the overall volume of the compressed air energy storage power generation system.

The compressed air compressed by the reciprocating engine is cooled in the cooler and stored in the storage tank. Then, since the volume of the compressed air stored in the storage tank is reduced, it is possible to use a relatively small capacity storage tank or to store a larger amount of compressed air in the storage tank.

1 shows a schematic configuration of a conventional compressed air energy storage power generation system.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a compressed air energy storage power generation system.
3 is a schematic view showing a compressed air energy storage power generation system according to another embodiment of the present invention.

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations from one or more related items. For example, the meaning of "at least one of the first item, the second item and the third item" means not only the first item, the second item or the third item, but also the second item and the second item among the first item, Means any combination of items that can be presented from more than one.

The term "above" means not only when a configuration is formed directly on top of another configuration, but also when a third configuration is interposed between these configurations.

Hereinafter, a compressed air energy storage power generation system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view of a compressed air energy storage power generation system according to an embodiment of the present invention.

As shown, a compressed air energy storage (CAES) power generation system 100 according to an embodiment of the present invention includes a reciprocating engine 110, a motor 120, a storage tank 130, a generator 140 and a heat recovery unit 150.

The reciprocating engine 110 can be installed on the ground or underground to compress the atmospheric air, and the air can be compressed using the surplus electric energy generated in the nighttime when the amount of electricity used is small. The reciprocating engine 110 may be provided as a cylinder, a piston, and an intake and exhaust device, and air in the atmosphere may be introduced into the reciprocating engine 110 through a separate air supply device (not shown).

The motor 120 may drive the reciprocating engine 110 so that the reciprocating engine 110 compresses the air and the storage tank 130 compresses the compressed air compressed by the reciprocating engine 110 into a heat recovery unit 150, respectively. When storing high-pressure compressed air, the storage tank 130 may be installed underground.

The compressed air stored in the storage tank 130 can be supplied to the reciprocating engine 110 at a time when electricity is used in a large amount of time or when electricity is required. The piston of the reciprocating engine 110 can be moved by the compressed air and the rotating shaft (not shown) of the reciprocating engine 110 can rotate the generator 140 while rotating as the piston moves. That is, when the rotary shaft of the reciprocating engine 110 rotates, the generator 140 generates power while rotating.

The air that is injected into the reciprocating engine 110 and used to drive the generator 140 may be discharged to the outside of the reciprocating engine 110.

The compressed air compressed in the reciprocating engine 110 is at a high temperature. The compressed air energy storage power generation system according to the present embodiment is configured to recover heat energy of compressed air and use it.

In detail, a heat recovery apparatus 150 may be installed on one side of the reciprocating engine 110. The heat recovery apparatus 150 can absorb steam generated by compressed air compressed by the reciprocating engine 110 to generate steam. For this purpose, the heat recovery apparatus 150 may be provided with a waste heat recovery boiler.

A compressor 160 may be installed in a line for introducing the atmospheric air into the reciprocating engine 110. The compressor 160 can pre-pressurize the atmospheric air and supply the air to the reciprocating engine 110 while being driven by the steam generated in the heat recovery machine 150. At this time, the compressor 160 may be a turbine type compressor.

The steam used to rotate the compressor 160 is phase-changed to water, and water can be re-introduced into the heat recovery apparatus 150 and used.

Compressed air, which has been heated by the heat recovery apparatus 150, may be introduced into the storage tank 130 and stored therein.

The compressed air energy storage power generation system according to the present embodiment recovers heat generated from the compressed air compressed by the reciprocating engine 110 to generate steam and supplies the generated steam to the reciprocating engine 110, Pre-pressurizes the air. That is, since the heat generated from the compressed air to be lost is recovered and used, energy can be saved.

Since the atmospheric air is compressed to a predetermined pressure by the compressor 160 and then flows into the reciprocating engine 110, it is preferable to use a relatively small capacity reciprocating engine 110 Air can be compressed. This can reduce the overall volume of the compressed air energy storage power generation system.

3 is a schematic view of a compressed air energy storage power generation system according to another embodiment of the present invention.

As shown, the compressed air energy storage power generation system 200 according to another embodiment of the present invention includes a reciprocating engine 210, a motor 220, a storage tank 230, a generator 240, a heat recovery apparatus 250, And a compressor 260. The structure of the compressed air energy storage power generation system 100 may be the same as that of the compressed air energy storage power generation system 100 according to an embodiment of the present invention shown in FIG.

A cooler 270 may be provided between the heat recovery apparatus 250 and the storage tank 230 and the cooler 270 may cool the compressed air supplied from the heat recovery apparatus 250 to the storage tank 220. have.

Then, assuming that the pressure of the compressed air is constant, since the temperature of the compressed air cooled in the cooler 270 is relatively low, the volume of the compressed air cooled in the cooler 270 is reduced. Therefore, a relatively small capacity storage tank 230 can be used, or a larger amount of compressed air can be stored in the storage tank 230. [

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be clear to those who have knowledge of. Therefore, the scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention.

110: reciprocating engine
120: Storage tank
130: Turbine
140: generator
150: Heat recovery machine
160: Compressor

Claims (5)

A reciprocating engine that compresses air while being driven by a motor and is driven by compressed air;
A heat recovery unit for recovering heat energy generated in the high-pressure compressed air compressed by the reciprocating engine;
A storage tank for storing compressed air that has lost heat in the heat recovery apparatus;
A generator that generates electric power by being rotated by the reciprocating engine when the reciprocating engine is driven by compressed air supplied from the storage tank to the reciprocating engine;
And a compressor for pre-pressurizing the air while being driven by the heat energy recovered in the heat recovery apparatus to introduce the air into the reciprocating engine. The method according to claim 1,
Wherein the heat recovery unit is a waste heat recovery boiler for generating steam. 3. The method of claim 2,
Wherein the compressor is provided with a turbine type compressor and compresses air while rotating by steam generated in the heat recovery apparatus. The method of claim 3,
Wherein the steam used to rotate the compressor is re-introduced into the heat recovery apparatus. The method according to claim 1,
Wherein a cooler for cooling the compressed air supplied to the storage tank is installed between the heat recovery unit and the storage tank.

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