KR101480056B1 - Closed capturing device for carbon dioxide - Google Patents

Abstract

The present invention relates to a closed carbon dioxide capturing device which can stably capture carbon dioxide without loss of a carbon dioxide absorbent by exchanging types of gas supplied to the carbon dioxide absorbent in closed space. The device comprises a casing having space inside where carbon dioxide absorbent is inserted; a gas supply unit connected to the bottom of the casing; and a gas discharge unit connected to the top of the casing, wherein the gas supply unit sequentially supplies recovery gas including carbon dioxide, regenerative gas heating the carbon dioxide absorbent to the temperature which can be regenerated, and cooling gas cooling the carbon dioxide absorbent to the temperature which can be absorbed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a closed capturing device for carbon dioxide

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a closed type carbon dioxide collecting apparatus, more specifically, to a closed type carbon dioxide collecting apparatus which stably captures carbon dioxide without loss of carbon dioxide absorbent by replacing only a kind of gas supplied to the carbon dioxide absorbing agent in a closed space .

Conventionally, a wet process was used for the carbon dioxide recovery process. That is, a method of allowing a gas containing carbon dioxide to pass through a solution of an amine series to absorb carbon dioxide, and regenerating the solution in a regenerating tower. The wet method has a disadvantage in that wastewater is additionally generated in the process.

Therefore, a method of recovering carbon dioxide by a dry method has been proposed as an alternative to solve the disadvantage of the wet method. The system using the dry method recovers carbon dioxide using two reactors. The carbon dioxide supplied to the recovery reactor is adsorbed and removed on a solid carbon dioxide absorbent. The carbon dioxide absorbent is introduced into the regeneration reactor to remove the adsorbed carbon dioxide, And a step of supplying moisture to the solid absorbent in the pre-treatment reactor and supplying the absorbent to the recovery reactor.

However, such a dry method has a problem in that carbon dioxide absorbent particles are broken due to collision between carbon dioxide or carbon dioxide and other components, because the carbon dioxide absorbent circulates in the two reactors. Therefore, in the prior art, such troublesome and replacement cost of periodically replacing the broken carbon dioxide absorbent occurs.

Patent No. 10-0527420

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and provide a closed carbon dioxide collecting apparatus for stably collecting carbon dioxide without losing a carbon dioxide absorbent by replacing only a kind of gas supplied to the carbon dioxide absorbent in a closed space There is.

The present invention relates to a carbon dioxide absorbent, comprising: a casing having a space therein and charged with a carbon dioxide absorbent; A gas supply unit connected to a lower portion of the casing; And a gas discharging portion connected to an upper portion of the casing, wherein the gas supplying portion includes a recovery gas containing carbon dioxide, a regenerating gas for heating the carbon dioxide absorbent to a temperature at which the carbon dioxide absorbent can be regenerated, And a cooling gas which is cooled at a predetermined temperature are sequentially supplied to the carbon dioxide capture device.

And the gas discharging portion has an absorbent liquefier suppressing device for suppressing the loss of the carbon dioxide absorbent.

In addition, the absorbent liquefier suppressor is a cyclone, the cyclone discharges the separated gas, and the separated carbon dioxide absorbent is returned to the casing.

The absorber loss suppressor may be a screen or an obstruction plate provided on the inner side of the casing or inside the gas discharge pipe through which the gas is discharged.

Further, the recovered gas, the regenerated gas, and the cooled gas are characterized by containing at least one of nitrogen and water vapor.

delete

A heat exchanger for controlling the reaction temperature is disposed in the casing.

According to the present invention, it is possible to provide a closed carbon dioxide collecting apparatus that stably captures carbon dioxide without loss of carbon dioxide absorbent by replacing only the kind of gas supplied to the carbon dioxide absorbent in the closed space.

1 is a schematic view of a closed carbon dioxide collecting apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing the arrangement of three closed carbon dioxide collecting apparatuses of FIG. 1; FIG.
3 is a schematic graph of pressure, temperature, and concentration of each closed carbon dioxide capture device of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 shows a closed carbon dioxide capture apparatus 100 according to an embodiment of the present invention.

The closed type carbon dioxide collecting apparatus 100 includes a casing 102 having a space therein and charged with a carbon dioxide absorbent, a gas supply unit connected to a lower portion of the casing 102, And a gas discharging portion.

A gas supply chamber (not shown) may be formed in the lower portion of the casing 102 to supply additional gas. The upper side of the gas supply chamber is made of a porous plate to help disperse the gas.

The gas supply unit includes a plurality of recovery gas supply sources, a regeneration gas supply source, a cooling gas supply source, control valves (108, 110, 112) connected to the three gas supply sources, (Not shown).

A recovered gas containing carbon dioxide is supplied from the recovered gas supply source. An exhaust gas may be used as the recovered gas, or a mixed gas of carbon dioxide and nitrogen may be used. From the regenerated gas supply source, a regenerated gas for heating the carbon dioxide absorbent to a regenerable temperature is supplied. As the regenerator, nitrogen, steam or a mixture thereof may be used, and other regenerated gases known in the art may be used . Also, a cooling gas for cooling the carbon dioxide absorbent to a temperature at which carbon dioxide can be absorbed is supplied from the cooling gas supply source, and nitrogen, steam, or a mixture thereof can be used as the cooling system, and other known cooling gases can be used It is also possible.

The recovered gas, the regenerated gas and the cooled gas are sequentially supplied to the inside of the casing 102 by the control valves 108, 110 and 112. The partial pressure of the carbon dioxide in the recovered gas, the size of the casing 100, The supply time of each gas can be determined.

As the carbon dioxide absorbing agent, K ₂ CO ₂ or Na ₂ CO ₃ having good adsorption ability of carbon dioxide can be used in the form of particles and other known carbon dioxide absorbing agents can be used.

Preferably, the gas discharging portion has an absorbent liquefier suppressing unit for suppressing the loss of the carbon dioxide absorbent. As the absorbent agent loss-inhibiting group, a cyclone, a screen, an interference plate, or the like can be used.

When the cyclone is used, the cyclone may be installed inside the casing 102 or installed in the gas discharge pipe 116 of the casing 102. The cyclone discharges the separated gas and the separated carbon dioxide absorbent returns to the casing 102 again.

The screen 114 or the obstruction plate may be installed inside the casing 102 or inside the gas discharge pipe 116. In FIG. 1, the screen 114 is illustrated by way of example.

Particularly, the gas discharge portion is provided with a pressure control valve 118. As shown in FIG. 3, when the recovering gas is supplied, it is kept constant at P1, and when the regenerating gas is supplied, And controls to rise from P2 to P1 at the time of supplying the cooling gas.

In addition, a heat exchanger 104 for controlling the reaction temperature may be additionally installed in the casing. The heat exchanger 104 may use a known technique.

The closed carbon dioxide capture apparatus 100 according to the embodiment of the present invention basically has the above-described configuration. Hereinafter, the operation of the closed carbon dioxide collecting apparatus 100 will be described.

FIG. 2 shows a plurality of closed carbon dioxide capture apparatuses 100, 120, and 122. FIG. 2, three closed-type carbon dioxide collecting apparatuses 100, 120 and 122 are arranged. In each of the closed-type carbon dioxide collecting apparatuses 100, 120 and 122, a collecting process, a regenerating process and a cooling process are sequentially performed. Therefore, in the industrial field, it is possible to increase the production capacity of carbon dioxide by installing a plurality of such closed carbon dioxide collecting apparatuses (100, 120, 122).

2, in the case of the closed type carbon dioxide capture device 100 on the left side, a recovery gas in which nitrogen and carbon dioxide are mixed is supplied to the outside through the carbon dioxide absorbent. At this time, as shown in the graph of the left column shown in Fig. 3, the pressure is kept constant at P1, and the temperature is kept constant at T2. Therefore, the concentration of carbon dioxide at the discharge side of the casing 102 is maintained at the lowest concentration (C2) by the carbon dioxide absorbent, and suddenly becomes the highest concentration (C1) at the point when the carbon dioxide absorbent is saturated ). Here, the concentration is defined as the volume of carbon dioxide relative to the total volume of nitrogen and carbon dioxide.

In the case of the closed carbon dioxide collecting device 120 in FIG. 2, a regeneration gas composed of nitrogen is supplied to the outside through the carbon dioxide absorbent. At this time, as shown in the graph of the middle column shown in Fig. 3, the pressure drops from P1 to P2, and the temperature rises from T2 to T1 by the regeneration gas. At this time, the concentration of carbon dioxide at the discharge side of the casing 102 drops from the highest concentration (C1) to the lowest concentration (C2) because the carbon dioxide absorbent discharges the carbon dioxide by the regeneration gas.

Next, in the case of the closed type carbon dioxide collecting device 122 on the right side in Fig. 2, a cooling gas composed of nitrogen is supplied and discharged to the outside through the carbon dioxide absorbent. Therefore, as shown in the right column of Fig. 3, the pressure rises from P2 to P1 and the temperature falls from T1 to T2 by the cooling gas. At this time, the concentration of carbon dioxide at the discharge side of the casing 102 does not absorb or release carbon dioxide by the carbon dioxide absorbent, so that the lowest concentration C2 is maintained.

Therefore, when a plurality of closed-type carbon dioxide capture devices 100, 120, and 122 are provided, it is possible to continuously produce carbon dioxide by passing the collection process, the regeneration process, and the cooling process to each of the closed-type carbon dioxide capture devices 100, 120, Do. Particularly, since the carbon dioxide absorbent in the closed carbon dioxide collecting apparatuses 100, 120, and 122 does not move, there is little fear of damaging the particles, and when the same carbon dioxide is used, the operation time is longer than in the prior art.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

100, 120, 122: Closed carbon dioxide collecting device
102: casing
104: heat exchanger
106: gas supply pipe
108, 110, 112:
114: Screen
116: gas discharge pipe
118: Pressure control valve

Claims (7)

A casing in which a carbon dioxide absorbent is loaded with a space therein;
A gas supply unit connected to a lower portion of the casing; And
And a gas discharging portion connected to an upper portion of the casing,
The gas supply unit includes a recovery gas containing carbon dioxide,
A regenerating gas which heats the carbon dioxide absorbent to a regenerable temperature,
And a cooling gas for cooling the carbon dioxide absorbent to a temperature at which carbon dioxide is absorbed are sequentially supplied to the closed carbon dioxide collecting device.
The closed type carbon dioxide capture device according to claim 1, wherein the gas exhaust part has an absorber loss suppressor that suppresses the loss of the carbon dioxide absorbent.
3. The closed carbon dioxide capture device of claim 2, wherein the sorbent loss suppressor is a cyclone, the cyclone discharges the separated gas, and the separated carbon dioxide sorbent returns to the casing.
The closed type carbon dioxide capture device according to claim 2, wherein the absorber loss suppressor is a screen or an obstruction plate installed on the inside of the casing or inside a gas discharge pipe through which gas is discharged.
The closed type carbon dioxide capture device according to claim 1, wherein the recovery gas, the regeneration gas, and the cooling gas include at least one of nitrogen and water vapor.
delete The closed type carbon dioxide capture device according to claim 1, wherein a heat exchanger for controlling a reaction temperature is disposed in the casing.

Images