JPH08206468A - Hollow yarn type membrane module - Google Patents

Abstract

PURPOSE: To prevent the direct application of fluid pressure to the hollow yarn membrane modules inserted in a protective net by providing a hollow yarn membrane protecting plate in the protective net covering the hollow yarn membrane bundles sealed at least at one end parts thereof with a resin at the fluid entrance and exit part of at least one place. CONSTITUTION: A raw soln. to be treated is filtered from the hollow yarn membrane bundles 6 sealed and fixed with a resin at the upper end of the casing 2 of a hollow yarn membrane module to the outside thereof and the treated filtrate is allowed to flow out of an entrance and exit port. The hollow yarn membrane bundles 6 are covered with outside and inside protective nets 4, 6 but, in this case, a hollow yarn membrane protecting plate 7 is interposed between both protective nets 4, 5 at the part corresponding to the entrance and exit port and sealed to a resin adhesive part 8 along with the hollow yarn membrane bundles 6. By providing the inside protective net 5 and providing the hollow yarn membrane protecting plate 7 outside the net 5, the damage of hollow yarn membranes by the edge of the hollow yarn membrane protecting plate is prevented even when the protecting plate 7 is vibrated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hollow fiber type membrane module provided with a hollow fiber membrane protective plate so that the hollow fiber membrane bundle inserted into a protective net is not directly subjected to fluid pressure.

[0002]

2. Description of the Related Art In recent years, separation membrane modules have been used in various fields. For example, the application to a water purification system as a new technology replacing the conventional method of going through a coagulation-precipitation-sand filtration-chlorine sterilization step has been In the food sector, coffee,
Used in various fields such as concentration of black tea and juice or clarification of juice, production of sterile pyrogen-free purified water in the fields of biotechnology, enzymes, and pharmaceuticals, and reuse of wafer polishing wastewater in the field of electronics industry. Has been done.

There are various types of these separation membrane modules depending on the application. For example, a hollow fiber type membrane module,
There are spiral modules, pleated modules, tubular modules, plate and frame modules, etc. Among these, the hollow fiber type membrane module has a high compactness and has an advantage that a large membrane area can be stored in a case.

The hollow fiber membrane module is generally a casing having a fluid inlet / outlet, a cap, a hollow fiber membrane bundle, a net for protecting the hollow fiber membrane bundle, and a resin encapsulation in which the ends of the hollow fiber membrane bundle are resin-sealed and fixed. Many are composed of a stop. The inflow and outflow of the treated stock solution or the permeated water is, for example, filtered from the hollow fiber membrane bundle, in which the treated stock solution is resin-sealed and fixed at the upper end or the lower end of the casing, to the outside of the hollow fiber membrane, and this filtered solution is less on the side surface of the casing. And it flows in and out through the fluid inlet and outlet provided in one place. Further, in recent years, as the size of the separation membrane module has increased, a cartridge type module has also been used. The cartridge type module is generally composed of a hollow fiber membrane bundle, a net for protecting the hollow fiber membrane bundle, and a resin-sealed portion of the hollow fiber membrane bundle.

[0005]

The inlet / outlet of the fluid provided on the side surface of the casing causes the force of the flow of the fluid to hit the hollow fiber membrane bundle when the fluid flows through the casing, so that the hollow fiber membrane is applied with a strong force. I have to move. In such a case, even if there is a net for protecting the bundle of hollow fiber membranes, this pressure may damage the hollow fiber membranes especially when the force of the fluid is strong. Further, when the inlet / outlet of the fluid is near the resin sealing portion at the end of the hollow fiber membrane, the hollow fiber membrane may be damaged from the boundary surface with the sealing portion. When the hollow fiber membrane is damaged in this way, the treatment liquid leaks to the permeate side, which is disadvantageous.

To solve these problems, some modules have been proposed so far. For example, JP-A-62-144709 and JP-A-63-15810.
No. 3 gazette proposes an annular body or an annular body projection for protection of the hollow fiber membrane, but since the annular body surrounds the hollow fiber membrane bundle, the space inside the case increases, and the hollow fiber membrane is formed. The compactness of the module is compromised. Further, since the protruding portion directly contacts the hollow fiber membrane, there is concern that the hollow fiber membrane may be damaged. Further, in JP-A-62-204804, a water flow direct movement barrier which is a protective structure of a hollow fiber membrane is incorporated in a module casing, but the casing structure becomes complicated, which causes a cost disadvantage. . Also,
In Japanese Patent Laid-Open No. 2-187132, a heat-shrinkable sheath that functions as a shield against a fluid that flows in to protect the hollow fiber membrane is provided outside the protective sleeve of the bundle of hollow fiber membranes. If it does not have strength, the hollow fiber membrane is insufficiently protected.

[0007]

In view of such a situation, the present inventors have made earnest studies on a highly reliable hollow fiber membrane module, and as a result, a hollow fiber membrane protective plate specific to the hollow fiber membrane module is provided. It was found that the above-mentioned various objects can be achieved by installing the above, and the present invention has been completed.

That is, according to the present invention, a hollow fiber membrane bundle having at least one end inserted in a protective net and sealed with a resin is provided in a cylindrical case having a fluid inlet / outlet at least at one side surface of the cylindrical case. A hollow fiber membrane module, which is housed, having a hollow fiber membrane protection plate inside the protection net and at the at least one fluid inlet / outlet portion. Is provided. Further, both ends of the hollow fiber membrane bundle inserted into the protective net are resin-sealed, and both ends of the hollow fiber membrane protective plate are sealed and fixed together with the hollow fiber membrane in the resin sealing portions at both ends of the hollow fiber membrane bundle. The hollow fiber membrane module is provided. In addition, the hollow fiber membrane bundle is inserted into at least a double or more protective net, and at least 1 is provided between the hollow fiber membrane protective plate and the hollow fiber membrane bundle.
The hollow fiber type membrane module is characterized by having a protective net having a weight equal to or more than one. Further, the present invention provides the hollow fiber membrane membrane module, wherein the hollow fiber membrane protective plate has a hole through which a fluid can flow in and out. In addition, the present invention provides the above hollow fiber type membrane module, which has a protrusion on the casing side of the hollow fiber membrane protective plate. Further, the present invention provides the hollow fiber membrane module, wherein when the cylindrical case is cut so that the cut surface of the cylindrical case becomes circular, the cut shape of the protective net on the outermost periphery is a fan shape. .
Hereinafter, the present invention will be described in detail.

The hollow fiber type membrane module according to the present invention is illustrated in FIGS. 1 and 2, and the present invention will be specifically described with reference to the drawings. However, the present invention is not limited to these.

In FIG. 1 and FIG. 2, the casing (2) and the cap (1) may have any shape, but a cylindrical shape is particularly preferable because the internal pressure is evenly applied to each part of the cylinder. In this example, a cylindrical case and a dish cap are shown. FIG. 1-A is a vertical cross-section of a hollow fiber type membrane module of the present invention. The hollow fiber membrane module of the present invention is characterized in that the hollow fiber membrane bundle is housed in a protective net in order to prevent damage to the hollow fiber membrane. The protective net is not limited to a single layer or multiple layers.

The protective net used in the present invention needs to have permeability to liquid such as raw water or permeated water, and the permeability is such that it does not affect the filtration of the hollow fiber membrane bundle to be used. Is preferred. This is because raw water or permeated water can freely move in the case housing after the hollow fiber membrane bundle is housed in the casing together with the protective net. Therefore, for example, in addition to the net-shaped one, a porous body having pores on the surface can be used. Regarding the material, polyolefin resin such as polyethylene and polypropylene, polysulfone resin, polyethylene terephthalate resin, polyamide resin,
Examples include fluorine-containing resins, AS resins, ABS resins, metals such as stainless steel, ceramics, and the like. Generally, polyolefin resin is cheap and has good workability, and the thickness is 0.5.
A net-shaped material having a size of about 8 mm is preferable because it has an appropriate strength as a protective cylinder.

The hollow fiber membrane protection plate (7) is sealed in the resin adhesive portion (8) together with the hollow fiber membrane bundle (6). This makes it possible to firmly fix the hollow fiber membrane protective plate. The hollow fiber membrane protection plate may have one end fixed to the resin sealing portion, but it is preferable that both ends are fixed. By fixing both ends, vibration of the hollow fiber membrane protection plate is mitigated and damage to the hollow fiber membrane bundle can be mitigated.

The hollow fiber type membrane module of the present invention is characterized in that the hollow fiber membrane protective plate is located at least inside the outermost peripheral protective net regardless of the number of laminated protective nets. When the hollow fiber membranes are inserted in the double protective net, the hollow fiber membrane protective plate (7) has an outer protective net (4) and an inner protective net (5) as shown in FIG. 1-A. It is preferable to locate it in between. This is because the presence of the inner protective net can prevent the hollow fiber membrane bundle from being damaged at the edge of the hollow fiber membrane protective plate even when the hollow fiber membrane protective plate vibrates. Further, by providing the hollow fiber membrane protective plate on the side of the hollow fiber membrane bundle, it is not necessary to form the hollow fiber membrane protective structure in the casing itself, so that the structure of the casing can be simplified. As a result, the compatibility between the casings is good and the casing can be used easily. Particularly, in the cartridge type membrane module, if the hollow fiber membrane protection structure is provided in the casing itself, the casing becomes unnecessarily large because the casing becomes complicated, and the compactness which is an advantage of the hollow fiber membrane module is impaired. Therefore, the introduction of the present invention is extremely effective.

FIG. 1-B shows a cross section of the hollow fiber type membrane module of the present invention cut into a circular cut surface. The hollow fiber membrane protective plate (7) of the present invention is located between the liquid inlet / outlet (3) of the casing (2) and the hollow fiber membrane bundle (6). With this arrangement, the pressure of the fluid flowing in from the inlet / outlet (3) does not directly contact the hollow fiber membrane bundle, so that damage to the hollow fiber membrane can be prevented.

The hollow fiber membrane protective plate (7) of the present invention is shown in FIG.
As shown in C, it is preferable to have a protrusion (9) that faces the casing when inserted into the case. This protrusion (9) contacts the outermost protection net (4) and controls the movement of the hollow fiber membrane protection plate (7) with the force of flow.
In addition, the outermost protection net (4) and the hollow fiber membrane protection plate (7)
Since a space is created between them, it also serves as a flow path for the fluid and creates a uniform flow. Therefore, the hollow fiber membrane protection plate can sufficiently fulfill the role of stopping the violent momentum when the fluid enters and leaves. There is no particular limitation on the shape and size of the protrusion.

The hollow fiber membrane protective plate may have any shape. In Fig. 2-A, a flat hollow fiber membrane protection plate is
FIG. 2-B illustrates an arc-shaped hollow fiber membrane protection plate. The size is not particularly limited, but is preferably larger than the fluid inlet / outlet hole. In addition, the hollow fiber membrane protection plate (7) is shown in FIG.
As shown in A, it is preferable to have a through hole (10) that allows movement of the permeated liquid and the like. This is because the fluid can be uniformly introduced into the hollow fiber membrane module from the through hole through which the fluid flows. The shape and size of the through hole are not particularly limited.

The hollow fiber membrane protective plate may be made of any material. For example, stainless steel, ceramic, F
RP, polysulfone, PVC, polycarbonate, nylon, acrylic, fluorine-containing resin, polyimide, A
Examples include S, ABS, polypropylene, polyethylene and the like.

The shape of the outermost protective net may be any shape. For example, it may be cylindrical or fan-shaped.
It may also have a polygonal tubular shape. In particular, a module (hollow fiber membrane element) having a fan-shaped outermost protection net is preferable. This is because the fan shape has corners, so that the effect when the hollow fiber membrane protection plate is inserted is large. In FIG. 1-C, the outer protective net (4) has a fan shape, and four fan-shaped hollow fiber membrane bundles are inserted. In such a case,
A hollow fiber membrane protection plate (7) is installed on the fan-shaped outer protection net (4) so as to be located between the liquid inlet / outlet (3) of the casing (2) and the hollow fiber (6).

When the present invention is applied to a cartridge type module, any number of hollow fiber membrane elements may be mounted. For example, the number is about 1 to 30, preferably about 3 to 7. Of these elements, the hollow fiber membrane protective plate may be installed only on the hollow fiber membrane element installed near the inlet and outlet of the casing.

[0020]

In the module of the present invention, by installing a specific hollow fiber membrane protective plate in the hollow fiber type membrane module, it is possible to prevent the hollow fiber membrane from being damaged by violent vibration that occurs when a fluid comes in and out. Also, the module can be adapted to any type of module. In particular, the effect is great for a large module that requires a large amount of processing. Further, the module of the present invention can be applied to a module for any purpose. For example, it can be applied to a water purification system as a new technique replacing the conventional method of passing through a coagulation-precipitation-sand filtration-chlorine sterilization process. Furthermore, in the food sector,
For concentration of coffee, tea, juice or clarification of juice,
In the fields of biotechnology, enzymes and pharmaceuticals, production of aseptic pyrogen-free purified water, etc., and in the field of electronics industry, reuse of wafer polishing wastewater, etc. can be mentioned.

[Brief description of drawings]

FIG. 1 shows an example of a hollow fiber type membrane module of the present invention.
FIG. 1-A is a vertical cross-section of a hollow fiber type membrane module of the present invention. FIG. 1-B shows a cross section of the hollow fiber membrane module of the present invention. FIG. 1-C shows a hollow fiber membrane module in which four outer protective nets are fan-shaped.

FIG. 2 shows an example of a hollow fiber membrane protection plate of the present invention. Figure 2-
A shows a flat hollow fiber membrane protection plate. FIG. 2-B shows an arc-shaped hollow fiber membrane protection plate.

[Explanation of symbols]

 1 Cap 2 Casing 3 Liquid Inlet / Outlet 4 Outer Protective Net (Outermost Protective Net) 5 Inner Protective Net 6 Hollow Fiber Membrane Bundle 7 Hollow Fiber Membrane Protective Plate 8 Resin Sealing Part 9 Projection 10 Through Hole

Claims (6)

[Claims] 1. A hollow fiber membrane bundle having at least one end inserted into a protective net and sealed with a resin is housed in a cylindrical case having a fluid inlet / outlet at least at one side surface of the cylindrical case. In the hollow fiber membrane module
A hollow fiber membrane module, characterized in that it has a hollow fiber membrane protective plate inside the protective net and at the at least one fluid inlet / outlet portion of the fluid. 2. The hollow fiber membrane bundle inserted into the protective net is resin-sealed at both ends, and both ends of the hollow fiber membrane protective plate are sealed together with the hollow fiber membrane in the resin-sealed portions at both ends of the hollow fiber membrane bundle. The hollow fiber type membrane module according to claim 1, which is fixedly fixed. 3. The hollow fiber membrane bundle is inserted into at least a double or more protective net, and the hollow fiber membrane bundle has at least a single or more protective net between the hollow fiber membrane protective plate and the hollow fiber membrane bundle. The hollow fiber type membrane module according to claim 1 or 2. 4. The hollow fiber membrane module according to any one of claims 1 to 3, wherein the hollow fiber membrane protective plate has a hole through which a fluid can flow in and out. 5. The hollow fiber type membrane module according to claim 1, wherein the hollow fiber membrane protection plate has a protrusion on the casing side. 6. The hollow fiber mold according to claim 5, wherein when the cylindrical case is cut so that the cut surface of the cylindrical case becomes circular, the cut shape of the outermost protection net is a fan shape. Membrane module.