KR101176402B1 - Separation apparatus of fresh water having porous member - Google Patents

Abstract

Desalination apparatus equipped with a porous member according to the present invention is a steam transfer pipe for introducing vaporized vapor from the reaction chamber, a fresh water separation tank in which the steam transfer pipe is connected to one side, and disposed in the fresh water separation tank, steam transfer pipe A plurality of porous members absorbing moisture from the steam transferred from the water, a driving unit installed at one side of the freshwater separation tank, and controlling the operation of the porous member to separate the water absorbed by the porous member, and installed and separated from the lower portion of the freshwater separation tank. It consists of a fresh water transfer pipe for transferring the fresh water to the fresh water storage tank.

Desalination apparatus equipped with a porous member in the present invention by installing a porous member in the reaction chamber to absorb the moisture of the desalted steam and to be separated from the porous member, desalination can be obtained without using a condenser There is an effect to reduce the energy consumed in the process.

Desalination tank, desalination tank, desalination, desalination, porous member

Description

Freshwater separator with porous member {SEPARATION APPARATUS OF FRESH WATER HAVING POROUS MEMBER}

The present invention relates to the seawater desalination apparatus. Specifically, the present invention relates to a desalination apparatus used for desalination by evaporating seawater.

Among the methods of desalination of seawater, the evaporation method directly applies heat to seawater to evaporate the seawater, or atomizes the seawater and then evaporates by applying heat to condense the evaporated seawater to generate fresh water.

Since the condensation of the evaporated seawater is generally performed using a heat exchanger, there is a problem in that a lot of energy is consumed in the desalination process.

Desalination apparatus equipped with a porous member according to the present invention aims to solve the following problems.

First, it is intended to reduce the energy consumed in the desalination process by desalination by absorbing desalted steam using a porous member.

Second, it is intended to increase the efficiency of the entire desalination apparatus by increasing the area where the porous member and the desalted steam can contact.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

Desalination apparatus equipped with a porous member according to the present invention is a steam transfer pipe for introducing vaporized vapor from the reaction chamber, a fresh water separation tank in which the steam transfer pipe is connected to one side, and disposed in the fresh water separation tank, steam transfer pipe A plurality of porous members absorbing moisture from the steam transferred from the water, a driving unit installed at one side of the freshwater separation tank, and controlling the operation of the porous member to separate the water absorbed by the porous member, and installed and separated from the lower portion of the freshwater separation tank. It consists of a fresh water transfer pipe for transferring the fresh water to the fresh water storage tank.

Here, the porous member is integrally connected with the freshwater separation tank, and when the driving unit rotates the freshwater separation tank, the porous member is also preferably rotated together.

In addition, the porous member is integrally connected with the freshwater separation tank, and if the driving unit vibrates the freshwater separation tank, the porous member is also vibrated together.

In addition, the end of the porous member is coupled to the support plate, the support plate and the drive unit is integrally connected, when the drive unit rotates the support plate, it is preferable that the porous member coupled to the support plate is rotated.

In addition, the end of the porous member is coupled to the support plate, the support plate and the drive unit are integrally connected, and when the drive unit vibrates the support plate, it is preferable that the porous member coupled to the support plate is vibrated.

In addition, it is preferable that the porous member is provided with recesses and convex portions continuously, and are arranged to be spaced apart from each other in the transverse direction or the longitudinal direction.

In the porous member, recesses and convex portions are continuously formed, and the porous members are preferably arranged to cross each other at different angles.

Desalination apparatus equipped with a porous member in the present invention by installing a porous member in the reaction chamber to absorb the moisture of the desalted steam and to be separated from the porous member, desalination can be obtained without using a condenser There is an effect to reduce the energy consumed in the process.

In addition, by placing the porous members in contact with the evaporated seawater spaced apart from each other, it is possible to absorb more moisture from the evaporated seawater has the effect of increasing the efficiency of the desalination process.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

Hereinafter, with reference to the drawings will be described in detail with respect to the desalination apparatus equipped with a porous member according to the present invention.

1 is a conceptual diagram of a desalination device (hereinafter, referred to as a "desalination device") equipped with a porous member according to an embodiment of the present invention.

Desalination apparatus according to the present invention is installed between the reaction chamber 10 for evaporating the atomized sea water, and a fresh water storage tank 20 for storing the desalted sea water between the vaporized vapor in the reaction chamber 10 as fresh water It is a device to change.

The reaction chamber 10 evaporates the seawater supplied from the seawater supply pump 11 and changes it into de-heated steam, and evaporates the seawater using hot air of 80 to 90 degrees supplied through the hot air supply 13. . In this process, sea water and salt are separated.

The vaporized vapor is transferred to the fresh water separation tank 30 through the steam transport pipe (12).

In the fresh water separation tank 30 according to the present invention, it is preferable that a steam transfer pipe 12 for introducing vaporized vapor from the reaction chamber 10 to one side is in communication.

The steam transported through the steam transport pipe 12 has a property of rising in the air. Therefore, when the steam transport pipe 12 is installed in the lower portion of the fresh water separation tank 30, the steam is raised in the fresh water separation tank 30 and may be in contact with the porous member 40 to be described later more frequently. Therefore, the steam transfer pipe 12 is more preferably installed in the lower portion of the fresh water separation tank (30).

A plurality of porous members 40 are installed in the freshwater separation tank 30 according to the present invention.

As shown in FIG. 2, in which a perspective view of the porous member is shown, the porous member 40 refers to a member having fine holes formed on the surface thereof so as to smoothly absorb moisture.

The porous member may be a synthetic material such as rayon, polyester, or the like, a natural material such as cotton, or an ultrafine fiber made of a synthetic material and a natural material.

As shown in FIG. 2, the porous member 40 is preferably provided with a recessed portion 41 and an iron portion 42 continuously.

The recessed portions 41 and the convex portions 42 formed in the porous member 40 increase the surface area of the porous member 40 to facilitate contact with steam, thereby absorbing more moisture from the steam. Make sure

The recessed portion 41 and the convex portion 42 form a frame (not shown) in which the porous member 40 is installed in an uneven shape, and the porous member 40 is formed in the frame having the uneven shape. It may be formed by fixing, the shape of the porous member 40 itself may be formed so that the recess portion 41 and the convex portion 42 is formed.

According to the present invention, the porous member 40 in which the recessed part 41 and the iron part 42 are formed is mutually transversely or longitudinally in the freshwater separation tank 30. It is desirable to be spaced apart or to cross each of the porous members 40 at different angles to allow more contact with the desalted steam.

The driving unit 50 according to the present invention is installed on one side of the fresh water separation tank 30 to control the operation of the porous member 40 so that the water absorbed in the porous member 40 is separated.

According to the present invention, the porous member 40 is integrally connected with the fresh water separation tank 30, the porous portion connected to the fresh water separation tank 30 as the drive unit 50 rotates the fresh water separation tank 30 It is preferable that the member 40 is rotated so that the centrifugal force can be applied to the moisture absorbed by the porous member 40.

As shown in FIG. 3, which is a conceptual diagram according to an embodiment of the freshwater separation tank of the present invention, the freshwater separation device integrally connects the porous member 40 to the freshwater separation tank 30, and has a freshwater separation tank 30 lower. By installing the driving unit 50 in the fresh water separation tank 30 by rotating the moisture absorbed by the porous member 40 can be separated from the porous member (40).

In addition, according to the present invention, the desalination device may be configured to connect the porous member 40 and the desalination tank 30 integrally, and the driving unit 50 may vibrate the desalination tank 30.

When the driving unit 50 vibrates the freshwater separation tank 30, the porous member 40 integrally connected to the freshwater separation tank 30 vibrates at the same time by the vibration of the freshwater separation tank 30. Moisture absorbed by the porous member 40 is separated from the porous member.

In addition, as shown in FIG. 4, which is a conceptual view according to another embodiment of the freshwater separation tank, the end of the porous member 40 is coupled to the support plate 52, and the combined support plate 52 and the driving unit 50 are integrally formed. By connecting to the support plate 52 to rotate or vibrate may separate the moisture absorbed by the porous member 40.

Moisture separated from the porous member 40 by the driving unit 50 is moved downward in the fresh water separation tank (30). 1 and 3 to 4, the moved water is moved to the fresh water storage tank 20 through the fresh water transfer pipe 31 installed on the lower surface of the fresh water separation tank 30.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Accordingly, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and it is apparent that the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a conceptual diagram of a freshwater separation apparatus equipped with a porous member according to an embodiment of the present invention.

2 is a perspective view of a porous member according to an embodiment of the present invention.

3 is a conceptual diagram of a freshwater separation apparatus equipped with a porous member according to another embodiment of the present invention.

Figure 4 is a conceptual diagram of a desalination apparatus equipped with a porous member according to another embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: reaction chamber 11: sea water supply pump

12: steam transfer pipe 13: hot air feeder

20: freshwater storage tank 30: freshwater separation tank

31: fresh water transfer pipe 40: porous member

41: main part 42: iron part

43: frame 50: drive unit

51: support plate

Claims (7)

delete In the seawater desalination apparatus comprising a reaction chamber for evaporating the atomized sea water, and a fresh water storage tank for storing fresh water, A vapor transfer pipe for introducing vaporized vapor from the reaction chamber; Fresh water separation tank in which the steam transfer pipe is communicated to one side; A plurality of porous members disposed in the freshwater separation tank to absorb moisture from steam transferred from the steam transfer pipe; A driving unit installed at one side of the freshwater separation tank to control an operation of the porous member so that water absorbed in the porous member is separated; And installed in the lower portion of the fresh water separation tank includes a fresh water transfer pipe for transferring the separated fresh water to the fresh water storage tank, The porous member is integrally connected with the freshwater separation tank, and when the driving unit rotates the freshwater separation tank, the porous member is also rotated together to separate moisture absorbed into the porous member by centrifugal force from the porous member. Freshwater separator with a porous member. In the seawater desalination apparatus comprising a reaction chamber for evaporating the atomized sea water, and a fresh water storage tank for storing fresh water, A vapor transfer pipe for introducing vaporized vapor from the reaction chamber; Fresh water separation tank in which the steam transfer pipe is communicated to one side; A plurality of porous members disposed in the freshwater separation tank to absorb moisture from steam transferred from the steam transfer pipe; A driving unit installed at one side of the freshwater separation tank to control an operation of the porous member so that water absorbed in the porous member is separated; And installed in the lower portion of the fresh water separation tank includes a fresh water transfer pipe for transferring the separated fresh water to the fresh water storage tank, The porous member is integrally connected with the freshwater separation tank, and when the driving unit vibrates the freshwater separation tank, the porous member is also vibrated so that the moisture absorbed by the porous member is separated from the porous member. Desalination device provided. 3. The method of claim 2, An end of the porous member is coupled to the support plate, the support plate and the drive unit are integrally connected, When the driving unit rotates the support plate, the porous member is provided with a porous member, characterized in that the porous member coupled to the support plate is rotated. The method of claim 3, An end of the porous member is coupled to the support plate, the support plate and the drive unit are integrally connected, When the driving unit vibrates the support plate, the freshwater separation device having a porous member, characterized in that the porous member coupled to the support plate vibrates. The method according to claim 2 or 3, The porous member is provided with a concave portion and a convex portion continuously, and separated from each other in a transverse direction or a longitudinal direction, and the freshwater separation with a porous member. Device. The method according to claim 2 or 3, The porous member is a desalination device having a porous member, characterized in that the recessed portion and the iron portion (continuity) is formed continuously, each porous member is arranged to cross at different angles.

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