KR19980014068A - Multi-Pass Separation Apparatus using Plate Type Member - Google Patents

Abstract

The present invention relates to a water purification apparatus, and more particularly, to a multi-stage passage separating apparatus capable of effectively separating floating substances contained in a fluid, particles, ion components, salts, dissolved gases and the like using a plate- Module. The separating device module according to the invention comprises a first lid plate (10) with one supply fluid inlet (11) and two treatment fluid outlets (13), one concentrate fluid outlet (12) A concentrated portion spacer 2 for concentrating the fluid supplied from the supply fluid inlet 11 and a membrane 3 for separating the fluid are provided between the second cover plate 10 provided with the outlet 13, A processing portion spacer 4 for collecting the fluid separated and processed in the membrane 3 and discharging the fluid to the processing fluid outlet 13 and a membrane 3 for separating the fluid are alternately stacked, A plurality of cell pairs 100 formed by laying a support plate 1 for supporting the concentrated portion spacer 2, the film 3 and the processing portion spacer 4 are laminated and the cell pair 100 ), An inlet fluid passage, a processing fluid passage, and a condensed fluid passage are formed, and the plurality of cell pairs (110) It is fixed between the support means (14, 15) above the first cover plate 10 and the second cover plate 10 by means of the features that are configured.

Description

Multistage Pass-Through Separation Device Module Using Plate Membrane

1 is an external view showing an assembled state of a separating device module using a plate membrane according to a preferred embodiment of the present invention.

FIG. 2 is an exploded perspective view of the cell pair portion of the separating device module of the present invention shown in FIG. 1

3 is a plan view of a spacer which is a component of the separating device module of the present invention

4 is a schematic diagram illustrating the process fluid flow in the separation device module of the present invention

Explanation of symbols for important parts of the drawings

1: Support plate 2: Concentration space

3: membrane 4: processing part spacer

10: cover plate 11: feed fluid inlet

12: concentrated fluid outlet 13: treated fluid outlet

21: spacer gasket 22: fluid passage

23: mesh 34: bump

100: cell pair 200: module body

The present invention relates to a water purifier, and more particularly, to a multi-stage passage separator module capable of effectively separating floating substances contained in a fluid, particles, ion components, salt dissolved gases, etc. using a plate- .

Conventionally, various types of separation apparatuses have been developed and widely used in industry for separating suspended particles, ion components, salt dissolved gases, etc. contained in various fluids.

Among the conventional separating apparatuses for separating foreign substances in a fluid by using a membrane, there are a conventional module having a cylindrical shape formed by rolling a flat membrane and a hollow fiber membrane (hollow fiber membrane) having a shape similar to a hollowed- And a module formed into a cylindrical shape bundled with a bundle of dogs. Also, in the case of a filtration apparatus for separating the substance from a gas, a plate-shaped separator module is mostly used.

However, the above-described conventional separating device module is difficult to disassemble and maintain, and when the service life of the separating device module is short, it is not economical to separate and replace only the membrane, The present invention has a limitation in that it is applicable only to a part of separation in the separation of the floating matters, particles, ion components, salts, dissolved gas, etc. contained in the separation membrane module using the flat membrane, The processing time is short, and when the inflow amount of the fluid is large or the impurity is contained in the fluid in a large amount, the separation efficiency is greatly deteriorated.

In addition, the conventional separator module has a disadvantage in that it is difficult to perform a membrane cleaning operation. Particularly, in the case of a device module using a flat membrane, when the inflow pressure or the processing pressure of the fluid is high, And the problem occurred frequently.

SUMMARY OF THE INVENTION It is, therefore, an object of the present invention to provide a method and an apparatus for disassembling and assembling a battery, It is possible to economically and effectively separate the floating matters contained in the fluid, the particles, the ion components, the salt dissolved gas, etc. using a plate membrane suitable for each treatment, The present invention provides a single-pass separator module using a plate-like membrane that can easily perform a cleaning operation of a membrane and effectively prevent leakage of a fluid.

According to an aspect of the present invention, there is provided a multi-stage passage separator module comprising a first cover plate having one feed fluid inlet and two treatment fluid outlets, and a second cover plate having one concentrated fluid outlet and two treatment fluid outlets Between the second cover plate, a thickening spacer for concentrating the fluid supplied from the supply fluid inlet and a membrane for separating the fluid, and a membrane for separating the fluid separated from the membrane and discharging it to the processing fluid outlet A plurality of cell pairs are formed by stacking a plurality of cells for separating the processing part spacers and the fluids alternately on both sides thereof and a supporting plate for supporting the concentrating part spacers, Wherein the cell pair is formed with an influent fluid passage, a treatment fluid passage, and a dense fluid passage, Is held fixed between the first cover plate and a second cover plate is characterized in that configured.

In the separator device module of the present invention, a filtration membrane is used to separate suspended matter or particles in the fluid, a filtration membrane is used to separate the ion component and the salt, and a reverse osmosis membrane is used to separate the ion component and the salt. In order to separate carbon dioxide (CO ₂ ) or dissolved oxygen, which is a gas dissolved in a fluid, each component can be separated by using a gas permeable membrane that allows only gas in the fluid to pass through.

Meanwhile, the one-pass separator module using the plate membrane disclosed in the Korean Patent Application No. 96-00 filed by the same applicant as the present applicant is suitable for the treatment of a fluid containing a large amount of floating matters. However, Is suitable for the treatment of fluids with low oil content and small particle size.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a multi-stage passage separating apparatus module of the present invention will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a multi-stage passage separating apparatus module of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an outline view showing an assembled state of a separating device module using a plate-like membrane according to a preferred embodiment of the present invention. FIG. 2 is an exploded view of a separating device module according to the present invention, It is a perspective view.

1 and 2, the separating device module body 200 according to the present invention comprises a first lid plate with one supply fluid inlet 11 and two treatment fluid outlets 13, (Not shown) for concentrating the fluid supplied from the supply fluid inlet 11 between the first cover plate 10 and the second cover plate 10 provided with one concentrated fluid outlet 12 and two treatment fluid outlets 13, A processing section spacer 4 for collecting the fluid separated and processed in the membrane 3 and discharging the fluid to the processing fluid outlet 13 and a fluid separator A plurality of membranes 3 for separation are alternately stacked on both sides and a supporting plate 1 for supporting the concentrating part spacer 2, the membrane 3 and the treating part spacer 4 is attached to both sides thereof, The cell pair 100 is laminated, and an inlet fluid passage, a processing fluid passage, and a concentrated fluid passage are formed in the cell pair 100 The plurality of cell pairs 100 are secured between the first cover plate 10 and the second cover plate 10 by a plurality of support bolts 14 and nuts 15 which are fixing means. .

At this time, as described above, the support plate 1 is laid on both sides of the cell pair 100 in a single or a number of sets, thereby effectively preventing leakage due to the inflow pressure of the fluid when the fluid is separated.

3 is a plan view of a spacer which is a component of the separating device module of the present invention. As shown in FIG. 3, in the separating device module of the present invention, the concentrating portion spacer 2 and the treating portion spacer 4, An outer spacer gasket 21 made of a synthetic resin material such as rubber or the like so as to prevent leakage of the fluid and a mesh 23 made of synthetic resin formed inside the fluid so that the fluid can flow, (21) is formed with a fluid passage (22).

At this time, the inner mesh 23 may be bonded to the outer spacer gasket 21 or may be assembled separately. However, in the separation apparatus according to the present invention, since the netting 23 and the gasket 21 are mostly made of different materials, they are difficult to be bonded to each other.

Since the mesh 23 inside the spacers 2 and 4 can be pushed by the flow of the fluid during the separation and assembly of the spacers 2 and 4, (24), and an angular portion in which the fluid does not flow in the mesh (23) is curved to smooth the fluid flow.

Hereinafter, the operation and effect of the separation device module of the present invention having the above-described configuration will be described in more detail with reference to the accompanying drawings.

FIG. 4 is a schematic diagram showing the process fluid flow in the separation device module of the present invention. FIG.

4, after flowing through the supply fluid inlet 11, the fluid passes through the fluid passage formed in the support plate 1 and then flows into the concentrated portion spacer 2 of the cell pair 100 located at the upper end ≪ / RTI >

The fluid introduced into the concentrate spacer 2 is collected in the treatment spacer 4 by the separated fluid which has passed through the concentrate spacer 2 and the fluid collected in the treatment spacer 4 passes through the membrane 3 and the concentrate spacer 4, And the fluid collected in the treatment section spacer 4 is discharged to the treatment fluid outlet 13 formed in the support plate 1 through the passage formed by the film 3 and the concentrate portion spacer 2 respectively .

At this time, the fluid concentrated in the upper concentrated portion spacer 2 is supplied to the lower concentrated portion spacer 2, and the fluid remaining in the lower concentrated portion spacer 2 is supplied to the next concentrated portion spacer 2 The remaining fluid is passed through the fluid passage formed in the membrane 3 and the treatment section spacer 4 through the support plate 1 (Not shown).

The thus discharged concentrated fluid can be supplied to the supply fluid side for reprocessing in order to increase the recovery rate of the fluid, and if not, it is discarded.

In the case of the conventional filtration apparatus using a flat membrane, since the whole amount of fluid is treated through the membrane by direct filtration, the time available for the membrane is short, and when the amount of the introduced fluid is large or the impurities contained in the fluid are large And it was very difficult to treat it.

However, in the case of the separation apparatus of the present invention, since the fluid is treated through various stages, the treatment efficiency is high. When the fluid contains a large amount of impurities, the concentrated fluid can be discharged and recycled, Of course, since the surface of the membrane is cleaned by the flow rate at which the dense fluid is discharged, it becomes possible to use the membrane for a long period of time. In addition, since the passage time of the fluid in the concentrated portion spacer 2 is short, the degree of contamination of the membrane is reduced.

In the device module using most plate membranes, leakage of the fluid frequently occurs when the inflow pressure or the processing pressure of the fluid is high. However, in the separation apparatus of the present invention, the support plate 1 is introduced, It is possible to effectively prevent leakage of the fluid by adjusting the number of the support plates 1 between the pairs 100.

In the present invention, when only a plurality of the spacers 2, 4 and the membrane 3 are connected and assembled, even if they are firmly assembled by using the cover plate 10, the support bolts 14 and the nuts 15, Leakage of fluid occurs without recruitment. However, when the support plate 1 is laid on both sides of the spacers 2, 4 and the membrane 3 as in the separator of the present invention, the support plates 1, 2 are provided on both sides of the spacers 2, The support plate 1 made of a material in which deformation does not occur is deformed by deformation of the spacer 2 or 4 due to the pressure of the support plate 1, It is possible to effectively prevent leakage of the fluid by pressing the spacers 2, 4 and the membrane 3 without the need to press.

In the separating device module 200 of the present invention, since the flow path position of the fluid is formed in both lateral directions, the flow path of the fluid that is not used is not restricted by the direction at the time of installation of the device, And then it is possible to use a cap or the like by opening it if necessary, so that the installation and operation of the separation device provides convenience to the user.

Further, in the configuration of the apparatus, since the concentrated portion spacer 2 and the processing portion spacer 4 have the same shape, they can be exchanged by rotating in the direction of 180 DEG, and the fluid passage is formed in the same way in the film 3 , It is very easy to assemble and manufacture the apparatus.

The separating apparatus of the present invention repeats the process of supplying the chemical through the supply fluid inlet 11 and discharging the chemical through the concentrated fluid outlet 12 at the time of contamination of the portion of the concentrated portion spacer 2 The chemical agent is supplied to the upper portion of the processing fluid outlet 13 and then discharged to the lower portion at the time of contamination of the portion of the processing portion spacer 4, The membrane 3 can be cleaned.

In addition, although the membrane module itself has to be discarded when most of the conventional membrane modules have reached the end of their service life, the separating device of the present invention is a separating device in which the membrane 3 and the spacers 2, As a module, it is easy to disassemble and assemble, and if necessary, only the membrane (3) can be removed and replaced, so that fluid separation can be performed economically.

The separating device module of the present invention having the above-mentioned constitution and operation effect is a separating device module using a plate membrane which complements the disadvantages of existing devices and is convenient for operation and maintenance, Such as suspended solids, particles, ionic components, salts and dissolved gases in the fluid, and particularly, it is very effective in the application of a process for treating fluids containing slightly less floating matters or particle components.

As described above in detail, the multi-stage passage separating device module using the plate membrane according to the present invention is easy to disassemble and assemble and maintain, and when the service life of the separating device module is short, only the membrane can be replaced and replaced, It is possible to effectively separate floating matters, particles, ion components, salts, dissolved gases, etc. contained in the membrane by using a plate membrane in accordance with the respective treatments. In addition, It was confirmed that the cleaning operation of the membrane can be performed easily and the leakage of the fluid can be effectively prevented.

Claims (6)

A first cover plate 10 with one feed fluid inlet 11 and two treatment fluid outlets 13 and a second cover plate 10 with one concentrate fluid outlet 12 and two treatment fluid outlets 13, A concentrate part spacer 2 for concentrating the fluid supplied from the supply fluid inlet 11 and a membrane 3 for separating the fluid are provided between the cover plate 10 and the membrane 3 for separating the fluid, A plurality of cell closed ends 100 are formed by collecting the fluid and provided with a support plate 1 for supporting the concentrated portion spacer 2, the membrane 3 and the process portion spacer 4, 100 are formed with an inlet fluid passage, a processing fluid passage and a condensed fluid passage. The plurality of cell closeders 110 are fixed to the first cover plate 10 and the second cover plate 10 by the fixing means 14, (10). The separating device module according to any one of claims 1 to 3, 2. A method according to claim 1, characterized in that the fluid supplied from the supply fluid inlet (11) is supplied separately to the respective concentrate part spacers (2) to form a diagonal flow path, The fluid including the impurities that have not been passed through the membrane 3 are discharged to the next concentrated portion spacer 2 and are discharged through the concentrated portion spacers 2 having two or more stages, And then discharged through a concentrating fluid outlet (12). The process according to claim 1, characterized in that the fluid which has passed through the membrane (3) is collected in the treatment section spacer (4) and is discharged to the upper part or the lower part of the treatment part spacer (4) Separation device module used. 4. The process according to claim 3, characterized in that the fluid passed through the membrane (3) is discharged to the upper or lower part of the processing part spacer (4) and discharged to the outside through the fluid passage of the membrane (3) Membrane Separation Device Module. 4. The method according to claim 2 or 3, wherein the concentrated portion spacer (2) and the processing portion spacer (4) are formed so that the mesh (23) and the gasket (21) (24) is formed on the spaces (2, 4) to prevent the plate (23) from being pushed. 2. The method according to claim 1, wherein the support plate (1) is formed between the closed closures (100) provided between the cover plates (10) and rigidly assembled to prevent leakage of the fluid due to the pressure of the used fluid And a separating device using a plate-like membrane.