Pressurized-type hollow fiber membrane module and filtration system comprising the same

Abstract

Disclosed are a pressurized-type hollow fiber membrane module having a pressure resistance higher than 3 kgf/cm.sup.2 and a filtration system comprising the same. The pressurized-type hollow fiber membrane module comprises: a body case having an open end; a fixing member disposed in the body case at the open end; a hollow fiber membrane potted in the fixing member; and a cap on the open end of the body case, the cap and fixing member forming a filtrate-collecting space, wherein a lumen of the hollow fiber membrane is in fluid communication with the filtrate-collecting space, the fixing member has a step so that an upper side surface of the fixing member is not in contact with an inner surface of the body case, and a portion of the cap is inserted in a groove defined by the step of the fixing member and the inner surface of the body case.

Claims

1. A pressurized-type hollow fiber membrane module comprising: a body case having an open end; a fixing member disposed in the body case at the open end so that the open end is closed by the fixing member, the fixing member being formed of an elastic material; a hollow fiber membrane potted in the fixing member; and a cap on the open end of the body case, the cap and the fixing member forming a filtrate-collecting space, wherein a lumen of the hollow fiber membrane is in fluid communication with the filtrate-collecting space, the fixing member has a step so that an upper side surface of the fixing member is not in contact with an inner surface of the body case, thereby forming a first groove defined by the step of the fixing member and the inner suface of the body case, and a portion of the cap is inserted in the first groove, wherein an inner dimension of the first groove is smaller than the portion of the cap so that the portion of the cap can be tightly inserted into the first groove.

2. The pressurized-type hollow fiber membrane module of claim 1, further comprising a sealing member interposed between the open end of the body case and the cap.

3. The pressurized-type hollow fiber membrane module of claim 2, wherein a second groove is formed on a bottom surface of the cap, the bottom surface being in contact with the open end of the body case, the body case comprises a protrusion at the open end, the protrusion being inserted in the second groove of the cap, and the sealing member is within the second groove of the cap and between the cap and the protrusion.

4. The pressurized-type hollow fiber membrane module of claim 1, further comprising: a supporting member on an outer surface of the open end of the body case, the supporting member being combined with the body case; and a fastener penetrating both the supporting member and the cap to maintain the cap and the body case in a close relationship with each other.

5. The pressurized-type hollow fiber membrane module of claim 4, wherein the fastener comprises a bolt and a nut.

6. The pressurized-type hollow fiber membrane module of claim 1, further comprising a first and second sealing members interposed between the open end of the body case and the cap, wherein a second groove is formed on a bottom surface of the cap, the bottom surface being in contact with the open end of the body case, the body case comprises a protrusion at the open end, the protrusion being inserted in the second groove of the cap, the first sealing member is within the second groove of the cap and between the cap and the protrusion, the first sealing member has a shape of a looped curve, and the second sealing member is disposed radially outside the first sealing member.

7. The pressurized-type hollow fiber membrane module of claim 1, further comprising a fastening ring for tightly connecting the body case and cap together, the fastening ring pushing the cap toward the body case when coupled to the body case through a screw-type coupling manner.

8. A filtration system comprising: a pressurized-type the pressurized-type hollow fiber membrane module of claim 1 for producing and discharging filtrate, the pressurized-type hollow fiber membrane module having a pressure resistance higher than 3 kgf/cm.sup.2; a reverse osmosis membrane module; and a pump for directly receiving the filtrate from the pressurized-type hollow fiber membrane module, pressurizing the filtrate with a pressure high enough to operate the reverse osmosis membrane module, and providing the reverse osmosis membrane module with the pressurized filtrate.

9. The filtration system of claim 8, wherein the filtrate is discharged from an outlet of the cap via the filtrate-collecting space.

10. The filtration system of claim 8, wherein the pressurized-type hollow fiber membrane module further comprises a sealing member interposed between the open end of the body case and the cap.

11. The filtration system of claim 10, wherein a second groove is formed on a bottom surface of the cap, the bottom surface being in contact with the open end of the body case, the body case comprises a protrusion at the open end, the protrusion being inserted in the second groove of the cap, and the sealing member is within the second groove of the cap and between the cap and the protrusion.

12. The filtration system of claim 8, wherein the pressurized-type hollow fiber membrane module further comprises: a supporting member on an outer surface of the open end of the body case, the supporting member being combined with the body case; and a fastener penetrating both the supporting member and the cap to maintain the cap and the body case in a close relationship with each other.

13. The filtration system of claim 12, wherein the fastener comprises a bolt and a nut.

14. The filtration system of claim 8, wherein the pressurized-type hollow fiber membrane module further comprises a first and second sealing members interposed between the open end of the body case and the cap, a second groove is formed on a bottom surface of the cap, the bottom surface being in contact with the open end of the body case, the body case comprises a protrusion at the open end, the protrusion being inserted in the second groove of the cap, the first sealing member is within the second groove of the cap and between the cap and the protrusion, the first sealing member has a shape of a looped curve, and the second sealing member is disposed radially outside the first sealing member.

15. The filtration system of claim 8, wherein the pressurized-type hollow fiber membrane module further comprises a fastening ring for tightly connecting the body case and the cap together, the fastening ring pushing the cap toward the body case when coupled to the body case through a screw-type coupling manner.

Description

DESCRIPTION OF DRAWINGS

(1) The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention. In the drawings:

(2) FIG. 1 is a block diagram illustrating a conventional filtration system;

(3) FIG. 2 is a perspective view of a conventional pressurized-type hollow fiber membrane module;

(4) FIG. 3 is a cross-sectional view of the pressurized-type hollow fiber membrane module of FIG. 2 along the I-I′ line;

(5) FIG. 4 is a block diagram illustrating a filtration system according to one embodiment of the present invention;

(6) FIG. 5 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the first embodiment of the present invention;

(7) FIG. 6 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the second embodiment of the present invention; and

(8) FIG. 7 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the third embodiment of the present invention.

MODE FOR INVENTION

(9) Hereinafter, the filtration system of the present invention will be described in detail with reference to the FIG. 4.

(10) As illustrated in FIG. 4, the filtration system according to one embodiment of the present invention comprises a pressurized-type hollow fiber membrane module 100 for producing and discharging filtrate, the pressurized-type hollow fiber membrane module 100 having a pressure resistance higher than 3 kgf/cm.sup.2, a reverse osmosis membrane module 30, and a pump P2 for directly receiving the filtrate from the pressurized-type hollow fiber membrane module 100, pressurizing the filtrate with a pressure high enough to operate the reverse osmosis membrane module 30, and providing the reverse osmosis membrane module 30 with the pressurized filtrate.

(11) Since the pressurized-type hollow fiber membrane module 100 of the present invention has a pressure resistance higher than 3 kgf/cm.sup.2, it can operate stably even under the operation pressure higher than 3 kgf/cm.sup.2 without being damaged and without causing any leakage of the filtrate.

(12) Further, since the filtrate produced by and discharged from the pressurized-type hollow fiber membrane module 100 operated with the pressure higher than 3 kgf/cm.sup.2 is a sufficiently pressurized one, it can be directly supplied to the pump P2 without being temporarily stored in a filtrate bath and then further pressurized by an additional pump as required by the conventional filtration system.

(13) The pump P2 receives the filtrate directly from the pressurized-type hollow fiber membrane module 100 and further pressurizes it with a pressure high enough to operate the reverse osmosis membrane module 30.

(14) Consequently, according to the present invention, the first filtration by means of a pressurized-type hollow fiber membrane module 100 and the second filtration by means of a reverse osmosis membrane module 30 can be performed without any intermediate processes between the first and second filtration for storing the first filtrate produced by the pressurized-type hollow fiber membrane module 100 in a certain storage means and then feeding it toward the osmosis membrane module 30, and thus a filtration system of relatively simple structure can be provided and operated at lower cost.

(15) Hereinafter, the embodiments of the pressurized-type hollow fiber membrane module 100 of the present invention having a pressure resistance higher than 3 kgf/cm.sup.2 will be described in detail with reference to the FIGS. 5 to 7.

(16) FIG. 5 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the first embodiment of the present invention.

(17) As shown in FIG. 5, the pressurized-type hollow fiber membrane module 100 according to the first embodiment of the present invention comprises a body case 110 having an open end, a fixing member 120 disposed in the body case 110 at the open end so that the open end is closed by the fixing member 120, a hollow fiber membrane 130 potted in the fixing member 120, and a cap 140 on the open end of the body case 110, the cap 140 and fixing member 120 forming a filtrate-collecting space S.

(18) One end of the hollow fiber membrane 130 potted in the fixing member 120 is open so that the lumen of the hollow fiber membrane 130 is in fluid communication with the filtrate-collecting space S.

(19) Although now shown, the lower portion of the pressurized-type hollow fiber membrane module 100 has same structure as that of the upper portion described above except that a plurality of holes are formed in the lower fixing member for the passage of the fluid to be treated and the other end of the hollow fiber membrane 130 potted in the lower fixing member is closed.

(20) It is only pure water among the feed water introduced in the pressurized-type hollow fiber membrane module 100 through the inlet at the lower portion of the body case 110 that penetrates the hollow fiber membrane 130. The filtrate flows along the lumen of the hollow fiber membrane 130, gets together in the filtrate-collecting space S, and then comes out of the pressurized-type hollow fiber membrane module 100 through the outlet OH of the cap 140.

(21) Meanwhile, as the filtration is performed, the impurity concentration of the feed water in the body case 110 increases. The condensed water produced as such is discharged from the pressurized-type hollow fiber membrane module 100 through the outlet OH of the body case 110.

(22) Once the filtration is completed, the feed water in the body case 110 passes through the holes of the lower fixing member and then comes out of the pressurized-type hollow fiber membrane module 100 through the outlet of a lower cap (not shown) coupled to the other open end of the body case 110.

(23) As illustrated in FIG. 5, although the fixing member 120 of the present invention is disposed in the body case 110 at the open end and fixed thereto, it is not the whole side surface of the fixing member 120 that is in contact with the inner surface of the body case 110. In detail, the fixing member 120 of the present invention has a step so that only the side surface other than the upper side surface of the fixing member 120 is in contact with the inner surface of the body case 110, i.e., the upper side surface of the fixing member 120 is not in contact with the inner surface of the body case 110. Thus, when the fixing member 120 of the present invention is formed in and fixed to the body case 110 at the open end, a groove defined by the step of the fixing member and the inner surface of the body case is formed.

(24) When the cap 140 is coupled to the open end of the body case 110 thereby forming the filtrate-collecting space S surrounded by the cap 140 and fixing member 120, a portion 141 of the cap 140 is inserted in the groove defined by the step of the fixing member 120 and the inner surface of the body case 110. The fixing member may be formed of an elastic material such as polyurethane, and it is desirable in terms of leakage protection to make the groove a little bit smaller than the portion 141 of the cap 140 so that the portion 141 of the cap 140 can be tightly inserted into the groove.

(25) According to the present invention as described above, only the gap between the portion 141 of the cap 140 and the fixing member 120 which are in tight contact with each other is exposed to the filtrate-collecting space S, and the gap between the body case 110 and cap 140 is not exposed directly to the filtrate-collecting space S. Accordingly, even when the pressurized-type hollow fiber membrane module 100 is operated with a pressure higher than 3 kgf/cm.sup.2 and thus the pressure of the filtrate in the filtrate-collecting space S increases, it can perform the filtration process with high permeation flux without being damaged and without causing any leakage of the filtrate as well.

(26) Optionally, the pressurized-type hollow fiber membrane module 100 may further comprise a sealing member 160, e.g., O-ring, interposed between the open end of the body case 110 and the cap 140 so that the filtrate leakage, if any, through the gap between the portion 141 of the cap 140 and the fixing member 120 which are in tight contact with each other and the gap between the body case 110 and cap 140 can be completely prevented.

(27) A groove may be formed on the bottom surface of the cap 140 which is in contact with the open end of the body case 110, and the body case 110 may comprise a protrusion 111 at the open end. When the body case 110 and the cap 140 are coupled to each other, the protrusion 111 of the body case 110 is inserted in the groove of the cap 140. The sealing member 160 is within the groove of the cap 140 and between the cap 140 and the protrusion 111.

(28) To couple the body case 110 and cap 140 together tightly, the pressurized-type hollow fiber membrane module 100 of the present invention may further comprise a supporting member 150 on the outer surface of the open end of the body case 110, the supporting member 150 being combined with the body case 110, and a fastener 170 penetrating both the supporting member 150 and the portion 142 of the cap 140 to maintain the cap 140 and body case 110 in a close relationship with each other.

(29) The fastener 170 may comprise a bolt 171 and a nut 172.

(30) Hereinafter, the pressurized-type hollow fiber membrane module according to the second embodiment of the present invention will be described in detail with reference to the FIG. 6. FIG. 6 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the second embodiment of the present invention.

(31) Since the pressurized-type hollow fiber membrane module according to the second embodiment of the present invention is almost same as the aforementioned pressurized-type hollow fiber membrane module according to the first embodiment, the features of the second embodiment different from those of the first embodiment will be mainly described.

(32) As illustrated in FIG. 6, the pressurized-type hollow fiber membrane module 100 according to the second embodiment of the present invention comprises the first and second sealing members 160 and 180 interposed between the open end of the body case 110 and the cap 140 so that the filtrate leakage, if any, through the gap between the portion 141 of the cap 140 and the fixing member 120 which are in tight contact with each other and the gap between the body case 110 and cap 140 can be completely prevented.

(33) A groove is formed on the bottom surface of the cap 140 which is in contact with the open end of the body case 110, and the body case 110 comprises a protrusion 111 at the open end. When the body case 110 and the cap 140 are coupled to each other, the protrusion 111 of the body case 110 is inserted in the groove of the cap 140. The first sealing member 160 is disposed within the groove of the cap 140 and between the cap 140 and the protrusion 111. The first sealing member 160 may have a shape of a looped curve.

(34) The second sealing member 180 is disposed radially outside the first sealing member 160 and between the open end of the body case 110 and cap 140. The second sealing member 160 can guarantee the filtrate leakage protection fore more sure.

(35) Hereinafter, the pressurized-type hollow fiber membrane module according to the third embodiment of the present invention will be described in detail with reference to the FIG. 7. FIG. 7 illustrates an upper cross section of the pressurized-type hollow fiber membrane module according to the third embodiment of the present invention.

(36) Since the pressurized-type hollow fiber membrane module according to the third embodiment of the present invention is also almost same as the aforementioned pressurized-type hollow fiber membrane module according to the first embodiment, the features of the third embodiment different from those of the first embodiment will be mainly described.

(37) As illustrated in FIG. 7, the pressurized-type hollow fiber membrane module 100 according to the third embodiment of the present invention comprises a fastening ring 190 as an element for tightly connecting the body case 110 and cap 140 together, instead of the supporting member 150 of the first embodiment. When coupled to the body case 110 through a screw-type coupling manner, the fastening ring 190 pushes the cap 140 toward the body case 110 thereby tightly connecting the body case 110 and cap 140 together.

(38) Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention. Accordingly, the present invention includes all alternations and modifications that fall within the scope of inventions described in claims and equivalents thereto.