KR20220036809A - Supercritical drying apparatus and method - Google Patents

Abstract

The present invention relates to a supercritical drying device and a supercritical drying method. The supercritical drying device for manufacturing aerogel according to the present invention comprises: a basket having an accommodating space in which a wet gel blanket is accommodated therein; and a bobbin rod passing through the basket and having a side surface made of a mesh material, wherein a supercritical fluid passes through the bobbin rod and supercritically dries the wet gel blanket to manufacture an aerogel blanket.

Description

Supercritical drying apparatus and supercritical drying method {SUPERCRITICAL DRYING APPARATUS AND METHOD}

The present invention relates to a supercritical drying apparatus and a supercritical drying method.

Airgel is a highly porous material composed of nanoparticles, and has a high porosity, a specific surface area, and low thermal conductivity, and thus attracts attention as a high-efficiency insulator and sound insulation material. Since these airgels have very low mechanical strength due to their porous structure, airgel composites in which airgel is impregnated and bonded to fibrous blankets such as inorganic or organic fibers, which are conventional insulating fibers, are being developed. For example, in the case of a silica airgel-containing blanket using silica airgel, it is manufactured through a silica sol manufacturing process, a gelation process, an aging process, a surface modification process, and a drying process.

In the drying process, in addition to the atmospheric process, a supercritical drying process using CO ₂ in a supercritical state to maintain porosity in the airgel and prevent shrinkage during drying may be used _. The ethanol in the blanket product in which gelation has been completed is extracted and dried.

Since the supercritical drying process does not destroy the airgel pore structure, it is most advantageous for securing physical properties. However, there are barriers to entry on a commercial scale due to high investment and operating costs.

In a general supercritical drying process, CO ₂ flows in one direction to a wet gel blanket enclosing the bobbin in a roll shape.

However, in this case, since CO ₂ first moves to an empty space where it is easy to flow instead of passing through the wet gel, the solvent extraction efficiency is reduced, the process time is prolonged, and the amount of CO ₂ used is also increased.

Korean Patent Publication No. 10-2011-0125773

One aspect of the present invention is to provide a supercritical drying apparatus and a supercritical drying method capable of efficiently flowing a supercritical fluid during supercritical drying.

A supercritical drying device according to an embodiment of the present invention is a supercritical drying device for manufacturing airgel, comprising: a basket having an accommodation space in which a wet gel blanket is accommodated; and a bobbin rod penetrating through the basket and having a side surface formed of a mesh material, supercritical fluid passing through the bobbin rod and supercritical drying of the wet gel blanket to manufacture an airgel blanket.

In addition, the supercritical drying method according to an embodiment of the present invention is a supercritical drying method for manufacturing an airgel, comprising the steps of: (a) positioning a wet gel blanket in a receiving space formed inside the basket; and (b) supercritical drying the wet gel blanket by passing a supercritical fluid through a bobbin rod having a side surface formed of a mesh material and penetrating the basket to prepare an airgel blanket.

According to the present invention, the supercritical fluid is supplied through a bobbin rod whose side passing through the basket is made of a mesh material, so that the supercritical fluid passes through the wet gel blanket vertically instead of in an empty space and then exits the basket. By doing so, the supercritical drying efficiency can be increased, the process time can be shortened, and the amount of supercritical fluid and energy consumption can be reduced.

1 is a perspective view exemplarily showing a supercritical drying apparatus according to an embodiment of the present invention.
2 is an exploded perspective view illustrating a supercritical drying apparatus according to an embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings and preferred embodiments. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

Supercritical drying apparatus according to the embodiment

1 is a perspective view exemplarily showing a supercritical drying apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view exemplarily showing a supercritical drying apparatus according to an embodiment of the present invention.

1 and 2, the supercritical drying apparatus 100 according to an embodiment of the present invention is a supercritical drying apparatus for manufacturing airgel, and a tubular basket 110 in which a receiving space 111 is formed therein ( basket) and a bobbin rod 120 penetrating the basket 110 .

In addition, the supercritical drying apparatus 100 according to the embodiment of the present invention may further include an upper blocking part 130 and a lower blocking part 140 provided to prevent the supercritical fluid from passing through the basket 110 .

In more detail, in the supercritical drying apparatus 100 according to the embodiment of the present invention, the supercritical fluid passes through the bobbin rod 120 and supercritically drying the wet gel blanket to manufacture the airgel blanket.

The basket 110 (basket) may have an accommodation space 111 in which the wet gel blanket is accommodated therein.

Here, the wet gel blanket wraps the bobbin rod 120 in a roll shape and may be accommodated in the receiving space 111 of the basket 110 .

In addition, the basket 110 may be formed in a cylindrical shape, for example. In this case, the basket 110 may be specifically formed, for example, in a cylindrical shape.

On the other hand, the basket 110 may be provided so that the supercritical fluid can pass through the side. In this case, for example, the side surface of the basket 110 may be formed of a material through which the supercritical fluid can pass. Also, as another example, a plurality of holes may be formed on the side surface of the basket 110 to allow the supercritical fluid to pass therethrough. And, as another example, the side of the basket 110 may be formed with a plurality of supports to allow the supercritical fluid to pass therethrough.

The bobbin rod 120 may pass through the basket 110 , and the side surface 121 may be formed of a mesh material. Accordingly, the supercritical fluid flowing into the bobbin rod 120 may pass through the side surface 121 formed of the mesh material.

Here, the bobbin rod 120 may be formed in a circular tube shape. That is, it is formed in a cylindrical shape formed of a mesh material and the supercritical fluid flowing in from the inside may be discharged to the side surface 121 of the bobbin rod 120 .

In addition, the bobbin rod 120 may penetrate the center of the basket 110 . That is, the bobbin rod 120 may pass through the central axis of the basket 110 in a straight line. As a result, the supercritical fluid flowing into the bobbin rod 120 may vertically penetrate the inside of the basket 110 .

The upper blocking portion 130 and the lower blocking portion 140 may be provided at upper and lower portions of the basket 110 to prevent the supercritical fluid from permeating through the blocking portion.

Here, the bobbin rod 120 may be provided to pass through the upper blocking part 130 . Accordingly, the supercritical fluid may be moved into the basket 110 through the bobbin rod 120 .

The upper blocking part 130 positioned on the upper part of the basket 110 may be formed in a disk shape, and a through hole 131 through which the bobbin rod 120 passes may be formed in the central part. Accordingly, the supercritical fluid may be introduced into the basket 110 only through the bobbin rod 120 .

The lower blocking part 140 located at the lower part of the basket 110 may be formed in a disk shape to seal the lower end of the bobbin rod 120 and the lower end of the basket 110 .

The upper blocking part 130 and the lower blocking part 140 may be made of a material through which the supercritical fluid does not permeate. Here, the upper blocking part 130 and the lower blocking part 140 may be made of a material through which carbon dioxide (CO ₂ ) does not pass. In this case, the upper blocking part 130 and the lower blocking part 140 may be formed of, for example, stainless (SUS) material.

Therefore, the supercritical fluid flows into the bobbin rod 120, passes through the mesh portion of the side 121 of the bobbin rod 120, and then the wet gel blanket accommodated in the receiving space 111 of the basket 110 is applied to the blanket. An airgel blanket can be manufactured by drying the wet gel blanket while penetrating in a direction perpendicular to the inner circumferential surface.

As a result, the supercritical fluid is configured to exit the basket 110 after penetrating the wet gel blanket vertically rather than an empty space, so that the supercritical drying efficiency is increased, the process time is shortened, and the supercritical fluid and energy consumption This can be reduced.

Supercritical drying method according to an embodiment

Hereinafter, a supercritical drying method according to an embodiment of the present invention will be described.

1 and 2, the supercritical drying method according to an embodiment of the present invention is a supercritical drying method for manufacturing airgel, (a) positioning a wet gel blanket inside the basket 110 (basket) and (b) supercritical drying the wet gel blanket by passing the supercritical fluid through the bobbin rod 120 penetrating the basket 110 .

In addition, the supercritical drying method according to an embodiment of the present invention may further include (c) installing the upper blocking portion 130 and the lower blocking portion 140 on the upper and lower portions of the basket 110 .

The supercritical drying method according to an embodiment of the present invention relates to a supercritical drying method using the supercritical drying apparatus according to the above-described embodiment. Accordingly, the present embodiment will omit or briefly describe the content overlapping with the above-described embodiment, and will focus on the differences.

More specifically, in step (a), the wet gel blanket may be positioned in the receiving space 111 formed inside the basket 110 (basket).

Here, the wet gel blanket wraps the bobbin rod 120 in a roll shape and may be accommodated in the receiving space 111 of the basket 110 .

In step (b), the side 121 is formed of a mesh material and the supercritical fluid is passed through the bobbin rod 120 penetrating the basket 110 to supercritically dry the wet gel blanket to manufacture an airgel blanket. can do.

Here, the bobbin rod 120 may be formed in a circular tube shape. That is, it is formed in a cylindrical shape formed of a mesh material and the supercritical fluid flowing in from the inside may be discharged to the side surface 121 of the bobbin rod 120 .

At this time, the bobbin rod 120 may penetrate the center of the basket 110 . That is, the bobbin rod 120 may pass through the central axis of the basket 110 in a straight line.

The wet gel may be composed of silica wet gel, and the supercritical fluid may be composed of CO ₂ .

In step (c), an upper blocking part 130 and a lower blocking part 140 may be installed in the upper and lower portions of the basket 110 to prevent the supercritical fluid from permeating before the (a) step.

At this time, the supercritical fluid may move into the basket 110 through the bobbin rod 120 penetrating the upper blocking part 130 .

The upper blocking part 130 may be formed in the shape of a disk, and a through hole 131 through which the bobbin rod 120 passes may be formed in the central part. Accordingly, the supercritical fluid may be introduced into the basket 110 only through the bobbin rod 120 .

The lower blocking part 140 may be formed in a disk shape to seal the lower end of the bobbin rod 120 and the lower end of the basket 110 .

The upper blocking part 130 and the lower blocking part 140 may be made of a material through which the supercritical fluid does not permeate. Here, the upper blocking part 130 and the lower blocking part 140 may be made of a material through which carbon dioxide (CO ₂ ) does not pass. In this case, the upper blocking part 130 and the lower blocking part 140 may be formed of, for example, stainless (SUS) material.

Therefore, the supercritical fluid flows into the bobbin rod 120, passes through the mesh portion of the side 121 of the bobbin rod 120, and then the wet gel blanket accommodated in the receiving space 111 of the basket 110 is applied to the blanket. An airgel blanket can be manufactured by drying the wet gel blanket while penetrating in a direction perpendicular to the inner circumferential surface.

Although the present invention has been described in detail through specific examples, it is intended to describe the present invention in detail, and the present invention is not limited thereto. It will be said that various implementations are possible by those of ordinary skill in the art within the technical spirit of the present invention.

In addition, the specific protection scope of the invention will become clear by the appended claims.

100: supercritical drying device
110: basket
111: accommodation space
120: bobbin rod
121: side
130: upper blocking part
131: through hole
140: lower blocking part

Claims (13)

As a supercritical drying device for manufacturing airgel,
a basket having an accommodating space in which the wet gel blanket is accommodated; and
It passes through the basket and includes a bobbin rod whose side surface is formed of a mesh material,
A supercritical drying apparatus for producing an airgel blanket by supercritically drying the wet gel blanket while supercritical fluid passes through the bobbin rod. The method according to claim 1,
The upper and lower portions of the basket are provided with an upper blocking portion and a lower blocking portion to prevent the supercritical fluid from permeating,
The bobbin rod passes through the upper blocking part,
A supercritical drying device in which the supercritical fluid is moved into the basket through the bobbin rod. 3. The method according to claim 2,
The basket is formed in a cylindrical shape, and the bobbin rod is a supercritical drying device formed in a circular tube shape. 4. The method according to claim 3,
The bobbin rod is a supercritical drying device passing through the center of the basket. 3. The method according to claim 2,
The supercritical fluid flows into the bobbin rod, passes through the side mesh, and passes through the wet gel blanket accommodated in the receiving space of the basket in a direction perpendicular to the inner circumferential surface of the blanket while drying the wet gel blanket. drying device. 4. The method according to claim 3,
The upper blocking part is formed in the shape of a disk, and a through hole through which the bobbin rod penetrates is formed in the central part of the supercritical drying apparatus. 3. The method according to claim 2,
The wet gel is made of a silica wet gel, and the supercritical fluid is a supercritical drying device made of CO ₂ . 3. The method according to claim 2,
The upper blocking part and the lower blocking part are made of a material that does not allow CO ₂ to pass through. As a supercritical drying method for manufacturing airgel,
(a) positioning the wet gel blanket in the receiving space formed inside the basket; and
(b) supercritical drying of the wet gel blanket by passing a supercritical fluid through a bobbin rod having a side surface formed of a mesh material and penetrating the basket, supercritical drying method comprising the step of manufacturing an airgel blanket. 10. The method of claim 9,
Before step (a),
(c) further comprising the step of installing upper and lower blocking parts in the upper and lower portions of the basket to prevent the supercritical fluid from permeating,
A supercritical drying method in which the supercritical fluid is moved into the basket through the bobbin rod passing through the upper blocking part. 11. The method of claim 10,
The wet gel is made of silica wet gel,
The supercritical fluid is a supercritical drying method consisting of CO ₂ . 12. The method of claim 11,
Step (c) is
A supercritical drying method for installing the upper blocking part and the lower blocking part made of a material that CO ₂ does not pass through. 11. The method of claim 10,
The supercritical fluid flows into the bobbin rod, passes through the side mesh, and passes through the wet gel blanket accommodated in the receiving space of the basket in a direction perpendicular to the inner circumferential surface of the blanket while drying the wet gel blanket. drying method.

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