KR101643264B1 - Gas adsorption concentration device - Google Patents

Abstract

[PROBLEMS] Gas adsorption enrichment capable of sending desorbed air at a temperature close to its boiling point when a high boiling point material is produced by polymerization when the gas to be treated contains a high boiling point material having a boiling point near 250 or is adsorbed Obtain the device. In addition, a gas adsorption concentration apparatus for treating even if an organic solvent that invades the elastic material of the silicone rubber system is contained.
The seal body 5 has a pair of radial seals 6 and 7, an arcuate outer seal 9, and a pair of radially outer seals 6 and 7, And these seals are made of a sheet in which the glass cloth is covered with a fluororesin, and each zone is sealed by contacting with the surface of the honeycomb rotor. The outer circumferential seal 9 and the inner circumferential seal 8 overlap the heat resistant sheet having a plurality of slits 12 and 13 at one end of the sheet so that the positions of the plurality of slits do not coincide with each other, 4).

Description

[0001] GAS ADSORPTION CONCENTRATION DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas adsorption concentration apparatus capable of regenerating at high temperatures by adsorbing and removing a gas such as organic solvent vapor from the exhaust gas of a factory or the like using a honeycomb rotor.

It has already been proposed that a honeycomb rotor carrying an adsorbent such as zeolite is used to adsorb and remove organic solvent vapor from exhaust gas from a factory or the like. With such an apparatus, it is practically sufficient to adsorb organic solvent vapor having a boiling point of 100 deg. C or less such as toluene or xylene to the honeycomb rotor and desorb it by heat. For example, the adsorption rate exceeds 98% and the concentration ratio can be increased to 20 times, thereby exhibiting sufficient ability as an environmental countermeasure device, and spreading is also proceeding.

In such an organic solvent adsorption concentration apparatus, it is necessary to divide the honeycomb rotor into at least the adsorption zone and the desorption zone. Due to this splitting, a sealant is required to contact the honeycomb rotor to provide airtightness. Examples of the sealing material include organic rubber-based rubber such as silicone rubber and fluorine rubber, fluororesin, and inorganic rubber such as graphite.

The conditions required for the sealing material are that the friction with the honeycomb rotor surface is small, the wear due to friction with the honeycomb rotor surface is small, the heat resistance is high, the material is not invaded by the organic solvent vapor, .

As for these conditions, some dehumidifying devices using a honeycomb rotor are also in conformity with some requirements, and disclosed in Patent Document 1. In this patent document 1, the plate-like fluororesin is brought into contact with the surface of the honeycomb rotor to seal it. The present invention is an invention of a dehumidifier, and since the desorption temperature of the honeycomb rotor is as low as about 100 to 120 degrees centigrade, there is no problem in this configuration.

Japanese Patent Application Laid-Open No. 2004-100940 Japanese Patent Laid-Open No. 2007-007536

The problem to be solved is that a high boiling point material is produced by the polymerization reaction when the gas to be treated contains a high boiling point substance having a boiling point of 200 to 250 degrees Celsius or adsorbed to the zeolite, You need to send air. Therefore, in the case where the fluorine resin plate is pressed against the honeycomb rotor by the elastic force of the rubber plate as disclosed in Patent Document 1, the rubber elasticity is not sufficient at a temperature of about 250 degrees Celsius and the sealing effect can not be sufficiently exhibited There was a problem. That is, what is disclosed in Patent Document 1 relates to a dehumidifier and is not suitable for an apparatus for concentrating an organic solvent.

In Patent Document 2, it has been disclosed that an organic solvent contained in a gas to be treated is polymerized to produce a high-boiling substance, or desorbed air having a temperature close to its boiling point is sent to the organic solvent attached to the honeycomb rotor have. This ensures that the rubber seals made of silicone rubber or fluorine rubber are brought into close contact with the honeycomb rotor and the rubber seals are not exposed to the high temperature gas. However, depending on the kind of the organic solvent vapor, there is a case in which the silicone rubber or the fluorine rubber is invaded, and in such a case, there is a problem that it is difficult to use.

The present invention relates to a sheet made of a glass cloth (a woven fabric made of glass fiber) covered with a fluororesin, that is, a sheet made of a fluororesin glass cloth made by impregnating a glass cloth with a fluororesin or by fusing a fluororesin sheet on both sides of the glass cloth Heat-resistant sheets having a plurality of slits formed at one end of the honeycomb rotor are overlapped so that the slits do not coincide with each other, and one end of the heat-resistant sheet is brought into contact with the surface of the honeycomb rotor.

EFFECTS OF THE INVENTION [

The gas adsorption concentration apparatus of the present invention has an advantage that the elasticity of the sheet is not greatly reduced even at a temperature of about 250 degrees Celsius and the airtight effect is maintained because the sheet is covered with the fluorocarbon resin. However, since the sheet is not stretchable, it is not bent three-dimensionally, and it is difficult to secure the airtightness by using it in the arc portion of the inner and outer circumference. However, in the case of the present invention, since a plurality of slits are formed at one end of the sheet, airtightness can be ensured by following the inner and outer curved portions.

Further, in order to prevent gas from leaking from the slit, a plurality of sheets are overlapped so that the positions of the slits do not coincide with each other. As described above, even if there is irregularity on the surface of the honeycomb rotor while using a sheet having a certain degree of thickness, a structure capable of following and maintaining the airtightness is provided. The slit is obliquely formed in the forward direction with respect to the rotating direction of the honeycomb rotor.

The portion for sealing the outer circumferential portion of the honeycomb rotor is configured to project the sheet to the inside of each zone and the portion for sealing the inner circumferential portion to protrude outward. That is, the outer circumferential portion which is pressed under a large area of the sheet is projected inward, and the front end of the sheet is pressed against the honeycomb rotor by the pressure of each zone. Since the inner circumferential portion of the honeycomb rotor and the portion providing airtightness have a small area and the influence of pressure is small, the protruding direction has a degree of freedom and is structurally projected outward.

1 is a perspective view of a decomposition state of an organic solvent adsorption concentration apparatus.
2 is a perspective view of a seal constituting a desorption zone of the organic solvent adsorption concentration apparatus
3 is a perspective view of the reverse of the seal constituting the desorption zone of the organic solvent adsorption concentration apparatus.
4 is an enlarged perspective view of a seal constituting a desorption zone of the organic solvent adsorption concentration apparatus.
Fig. 5 is a plan view of a state where two sheets of the seal of the organic solvent adsorption concentration apparatus are overlapped.
Fig. 6 is a perspective view of the sheet of the seal of the organic solvent adsorption concentration apparatus shifted by two sheets. Fig.
7 is a plan view of a state in which two sheets of the seal of the organic solvent adsorption concentration apparatus are overlapped.
8 is a sectional view of the radial seal of the organic solvent adsorption concentration apparatus.

Shaped seal body constituting each zone of a honeycomb rotor having at least an adsorption zone and a desorption zone, the seal body having a pair of radial seals and an arcuate outer circumferential seal and an inner circumferential seal, Heat-resistant sheet having a plurality of slits formed at one end of the sheet, wherein the plurality of slits are arranged at positions where the positions of the slits are different from each other, Since the outer circumferential seal is bent so as to protrude toward the inner side of each zone, the seal has a high heat resistance and can be bent three-dimensionally even if the glass cloth containing the low- can do.

[Example 1]

Embodiments of the present invention will be described below with reference to the drawings. 1 is a perspective view of a decomposition state of an organic solvent adsorption concentration apparatus. Reference numeral 1 denotes a honeycomb rotor, which is made of a ceramic and supports an adsorbent for organic solvent such as hydrophobic zeolite on a nonflammable paper. 2 is the seal of the desorption zone 4, whereby the honeycomb rotor 1 is divided into the adsorption zone 3 and the desorption zone 4.

The seal 2 has a substantially fan-like shape, and 5 is a seal body, which is made of a combination of an angular pipe such as stainless steel and a plate material. Specifically, the seal body 5 is composed of a pair of radial seals 6 and 7, an inner seal 8, and an outer seal 9 made of a plate material formed in an arcuate shape by angular pipes.

Two outer seal sheets 10 and 11 are attached to the outer circumferential seal 9 in a superposed state. This state is shown in Figs. 3 to 5. Each of the outer seal sheets 10 and 11 is coated with a glass cloth (knitted into a cloth by glass fiber) with a fluororesin such as DuPont, Nitto Denko Corporation, Asahi Glass Co., Ltd., Fluorine glass cloth is used. This material has a heat resistance of about 300 degrees Celsius, but it can not flex in three dimensions without stretching itself.

The outer seal sheets 10 and 11 each have slits 12 and 13 and the positions of the slits 12 and 13 are shifted from each other as shown in Figs. 5, the slits 12 and 13 form an acute angle? With respect to the advancing direction of the honeycomb rotor 1, that is, with respect to the advancing direction of the honeycomb rotor 1, , And an obtuse angle (?) With the downstream side.

As shown in Figs. 2 and 3, the outer sheet seals 10, 11 attached to the outer periphery seal 9 of the arcuate shape are curved toward the inside of the desorption zone 4 in both of them.

The pair of radial seals 6, 7 is a member for sealing the honeycomb rotor 1 in the radial direction. The radial seals 14, 15 made of a fluororesin glass cloth are each bent and attached to the U-shape in the radial seals 6, 7.

2, inner sheet seats 17, 18 attached to the inner circumferential seal 16 of the arcuate shape are curved toward the outside of the desorption zone 4, as shown in Fig. As shown in Figs. 5 and 6, the inner seal sheets 17 and 18 are also in such a state that their slits 12 and 13 are displaced from each other. 5, the slits 12 and 13 form an acute angle? With respect to the advancing direction of the honeycomb rotor 1, that is, with respect to the advancing direction of the honeycomb rotor 1, , And an obtuse angle (?) With the downstream side.

The outer peripheral seal sheet 10 and the inner peripheral seal sheet 18 are in contact with the surface of the honeycomb rotor 1 and the diameter of the seal sheets 14 and 15 And is in contact with the surface of the honeycomb rotor 1.

Since the outer peripheral seal sheets 10 and 11 and the inner peripheral seal sheets 17 and 18 have the slits 12 and 13 respectively, even if the respective sheets are curved along the outer and inner peripheries of the honeycomb rotor 1, It can be bent three-dimensionally in contact with the comb rotor 1. In particular, the fluorine resin is not a strong material against abrasion although it has a high lubricity with respect to friction, so that the fluorine on the surface of the fluorine glass cloth is worn and the glass cloth inside is exposed. In this state, since the glass cloth contacts with the honeycomb rotor 1 and the abrasion resistance of the glass cloth is high, further progress of abrasion is suppressed.

However, the glass cloth has low elasticity and is difficult to bend in three dimensions. However, since the outer seal sheets 10 and 11 and the inner seal sheets 17 and 18 have the slits 12 and 13, respectively, even if the sheets are curved along the outer periphery and the inner periphery of the honeycomb rotor 1, Can be bent and brought into contact with the honeycomb rotor (1).

Gas leakage from the slits 12 and 13 is conceivable. Therefore, the outer peripheral seal sheets 10, 11 and the inner peripheral seal sheets 17, 18 are each formed to be double, and the positions of the slits 12, 13 are shifted from each other. The amount of gas leaking from the slits 12 and 13 is small due to the displacement of the positions of the slits 12 and 13. [ Further, the slit may have a somewhat narrow width as shown in Figs. 5 and 6, and may be a widthless cut as shown in Fig.

Further, as described above, the slits 12 and 13 have an angle in the direction along the rotational direction of the honeycomb rotor 1. 5, when the honeycomb rotor 1 rotates in the direction of the arrow, the angle? Between the plane on the upstream side of the rotation of the honeycomb rotor 1 and the slit 12 is an acute angle, The angle? Between the plane on the downstream side of rotation and the slit 12 is an obtuse angle. Thus, even when the outer peripheral seal sheets 10, 11 and the inner peripheral seal sheets 17, 18 touch with the honeycomb rotor 1, the occurrence of joints is reduced and the durability is improved.

As shown in Figs. 2 and 3, the outer seal sheets 10, 11 are curved toward the inside of each zone 4. Accordingly, the tips of the outer seal sheets 10, 11 are pressed against the outer periphery of the honeycomb rotor 1 by the pressure of the gas passing through each zone 4, so that leakage of gas is reduced. The inner peripheral seal sheets 17, 18 are curved to the outside of each zone 4 as shown in Fig. This is the opposite direction to the leakage of the gas, but the length of the inner seal sheets 17, 18 is short because the inner seal sheets 17, 18 are located near the tip of each fan-shaped zone 4, that is, near the center of the honeycomb rotor 1, There is no problem in the direction of curvature.

In the above embodiment, a sheet of glass cloth covered with a fluorine resin is used as the material of the seal sheet, but when a sheet having a stainless steel foil is used, the abrasion resistance is improved. Also, when a phosphor bronze foil is used instead of stainless steel, the elasticity is higher than that of stainless steel, and the frictional resistance is small. Or, if brass foil is used, there is less frictional resistance than phosphor bronze. When the organic solvent is an acidic substance, the phosphor bronze or the brass may be oxidized. In such a case, stainless steel is suitable.

Further, in the above embodiment, as a material of the seal sheet, a sheet in which glass cloth is covered with a fluorine resin is used, but a sheet in which an aramid fiber cloth is covered with a fluorine resin may also be used. In this case, the meta-based aramid fiber is more suitable as the aramid fiber than the para-based aramid fiber. As the sealing sheet, other materials can be used as long as heat resistance and solvent resistance are high, and it is preferable that the sealing sheet is made of a heat-resistant cloth and an inner layer material covering the heat-resistant cloth.

When the organic solvent to be treated with this organic solvent adsorption concentration apparatus is an organic solvent which strongly invades the elastic material of the silicone rubber system, the adsorption zone 3 together with the desorption zone 4 is a sheet covered with a glass cloth It is good to use. In the case of an organic solvent which invades the elastic material of the silicone rubber system only when the temperature rises, it is sufficient to use a sheet in which the glass cloth is covered with the inner material only in the desorption zone 4.

As described above, since the gas adsorption concentration apparatus of the present invention uses a sheet in which a heat-resistant cloth such as glass cloth is covered with an inner material such as fluorine resin as a material of the seal, the elasticity of the sheet is greatly reduced even at a temperature near 250 deg. There is an advantage that the airtight effect is maintained, and it is suitable for the concentration of the adsorption of the gas requiring a high desorption temperature. Further, the organic solvent vapor that invades the elastic material of the silicone rubber system can also be treated.

1: Honeycomb rotor 2: Seal
3: adsorption zone 4: desorption zone
5: seal body 6, 7: radial seal
8: inner circumferential seal 9: outer circumferential seal
10, 11: outer seal sheet 12, 13: slit
14, 15: diameter seal sheet 16: inner circumferential seal
17, 18: inner circumferential seal sheet

Claims (5)

Shaped seal body constituting each zone of a honeycomb rotor having an adsorption zone and a desorption zone, wherein the seal body has a pair of radial seals and an arcuate outer circumferential seal and an inner circumferential seal, Wherein the outer circumferential seal and the inner circumferential seal are formed to have a plurality of openings at one end of the sheet so as to seal at least the desorption zone by contacting the surface of the honeycomb rotor with a heat resistant cloth and a seal sheet made of a material Wherein the plurality of heat-resistant sheets on which the slits are formed are overlapped so that the positions of the slits do not coincide with each other, and the outer seal is bent so as to protrude at least toward the inside of the desorption zone. The method according to claim 1,
Wherein the slit of the outer seal is formed in a forward direction with respect to a rotation direction of the honeycomb rotor. The method according to claim 1,
Wherein the glass cloth is used as the heat resistant cloth. The method according to claim 1,
Characterized in that an aramid fiber cloth is used as the heat resistant cloth. The method according to claim 1,
Wherein a fluororesin is used as the solvent-resistant material.

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