JP2006239656A - Hollow fiber membrane module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hollow fiber membrane module constituted in such a manner that stable filtration operation can be continuously performed for a long period of time by preventing damage of hollow fiber membranes by reducing the liquid pressure associated with the ingress or egress of liquid near a liquid inlet and outlet of the hollow fiber membranes. <P>SOLUTION: A housing body section 12 is provided with the liquid inlet and outlet 20 projecting from the side face thereof and a pipe serving as a liquid feed line is connected to the liquid inlet and outlet 20. The liquid inlet and outlet 20 has a first opening 22 facing the housing body section 12 and a second opening 26 facing the pipe side. The diameter of the first opening 22 is so set as to be made greater than the diameter of the second opening 26. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a hollow fiber membrane module suitable for purification treatment of various waste water, natural water, and the like.

  There is a type of hollow fiber membrane module in which a required number of hollow fiber membrane bundles are accommodated in a case housing having a liquid inlet / outlet, and liquid (raw water, permeated water, etc.) enters and exits into the case housing only by the liquid inlet / outlet, Such types are often applied to relatively large modules.

  When filtration operation is performed using such a type of hollow fiber membrane module, backwash water or the like may enter or exit from the liquid inlet / outlet, but if the diameter of the liquid inlet / outlet is small, the pressure of the backwash water will be excessive. This may damage the hollow fiber membrane bundle.

In addition, since a pipe serving as a liquid feeding line is connected to the liquid inlet / outlet, it may be necessary to set the opening diameter according to the pipe diameter, and it is not necessary to simply increase the opening diameter of the liquid inlet / outlet. .
JP-A-8-206468 JP 2004-174336 A

  In Patent Document 1, since the opening diameter of the liquid inlet / outlet provided on the side surface of the case housing is a single diameter, the problem in the liquid inlet / outlet when the backwash water is injected from the liquid inlet / outlet cannot be solved. Can be considered. In the liquid inlet / outlet disclosed in the figure of Patent Document 2, the buffer pressure is relieved by the buffer cap, but the diameter of the liquid inlet / outlet is not described.

  In the vicinity of the liquid inlet / outlet of the hollow fiber membrane module, the present invention relaxes the liquid pressure accompanying the liquid in / out, thereby preventing damage to the hollow fiber membrane and enabling a stable filtration operation continuously for a long period of time. It is an object to provide a hollow fiber membrane module.

As a means for solving the problems, the present invention
A hollow fiber membrane module in which a required number of hollow fiber membrane bundles are accommodated in the case housing, and a liquid inlet / outlet is provided protruding from the side surface of the case housing,
The liquid inlet / outlet has a first opening facing the case housing side and a second opening facing the pipe side serving as the liquid feeding line,
Provided is a hollow fiber membrane module in which the diameter of the first opening is set to be larger than the diameter of the second opening.

  By making the diameter of the first opening larger than the diameter of the second opening in this way, the pressure of the cleaning water can be relaxed even when the counter pressure cleaning water is injected from the pipe serving as the liquid feeding line. . For this reason, damage to the hollow fiber membrane bundle during back pressure washing can be prevented.

  In another aspect of the present invention, the diameter of the first opening and the second opening is changed stepwise, or the diameter of the first opening and the second opening is continuously changed. The hollow fiber membrane module according to claim 1 is provided.

  In another aspect of the present invention, the linear velocity of the fluid in the first opening during the operation of the hollow fiber membrane module is 1 m / sec or less (more preferably 0.8 m / sec or less). Item 4. A hollow fiber membrane module according to any one of Items 1 to 3.

The ratio between the diameter (D ₁ ) of the first opening and the diameter (D ₂ ) of the second opening is set to an appropriate range, and preferably the length (L) of the liquid inlet / outlet and the diameter of the first opening ( By setting the ratio to D ₁ ) within an appropriate range so that the linear velocity of the fluid is 1 m / sec or less, the above-described damage prevention effect of the hollow fiber membrane can be obtained.

  The hollow fiber membrane module of the present invention relaxes the pressure of the backwash water without reducing the cleaning power when the backwash water is press-fitted from the liquid inlet / outlet provided on the side of the case housing. It is possible to prevent damage to the hollow fiber membrane at the position facing the surface.

  Hereinafter, embodiments of the hollow fiber membrane module of the present invention will be described with reference to the drawings. FIG. 1 is a longitudinal sectional view of the hollow fiber membrane module 10 (however, the inside is not shown). FIG. 2 is a view (including a partial cross-sectional view) of the case housing removed from the hollow fiber membrane module. 3 to 5 are cross-sectional views of different forms of the liquid inlet / outlet of the hollow fiber membrane module.

  In the hollow fiber membrane module 10, an outer shell (case housing) is formed from a cylindrical housing body 12, an upper cap 14, and a lower cap 15. Note that the bottom portion may be provided by closing the lower portion of the housing body 12 without providing the lower cap 15. The housing main body 12, the upper cap 14, and the lower cap 15 are preferably made of fiber reinforced resin or stainless steel.

  The upper cap 14 is provided with an upper inlet / outlet (raw water supply port, permeated water inlet / outlet or counter pressure washing water inlet / outlet) 14a, and the lower cap 15 is provided with a lower liquid inlet / outlet (raw water supply port, permeated water inlet / outlet or counter pressure washing water). An entrance / exit 15a is provided.

  For example, a pipe forming a concentrate line is connected to the upper entrance 14a. At this time, it is desirable that a sealing material is interposed between the upper entrance 14a and the pipe.

  For example, a pipe forming a raw water supply line is connected to the lower entrance / exit 15a. At this time, it is desirable to interpose a sealing material between the lower entrance / exit 15a and the pipe.

  A liquid inlet / outlet 20 (which can be a permeated water inlet / outlet, a raw water supply inlet or a concentrated liquid outlet) is provided at the center of the side surface of the housing main body 12 in a state of protruding outward from the side surface.

The liquid inlet / outlet 20 has a large-diameter portion 21 on the housing body 12 side and a small-diameter portion 25 on the side connected to a pipe serving as a permeate line or the like. The large diameter portion 21 has a first opening 22, and the small diameter portion 25 has a second opening 26. The diameter (D ₁ ) of the first opening 22 is set to be larger than the diameter (D ₂ ) of the second opening 26.

Change of diameter (D ₂₎ of the diameter of the first opening 22 and (D ₁₎ the second opening 26, FIG. 3, it may be continuous, as shown in FIG. 4, step by step as shown in FIG. 5 But you can.

In FIG. 3, the change (diameter change) from the small diameter portion 25 to the large diameter portion 21 is formed by a curved surface 23 with a radius (for example, R = 150). The angle θ ₁ (showing the degree of change of D ₁ and D ₂ ) shown in FIG. 3 is preferably 50 to 80 °. θ ₁ is an angle formed by a line a 1 extending from the small diameter portion 25 and a line b 1 connecting the peripheral edge of the second opening portion 26 and the peripheral edge of one end of the peripheral surface of the large diameter portion 21 as illustrated. .

In FIG. 4, a change from the small diameter portion 25 to the large diameter portion 21 (change in diameter) is formed by the slope 23. The angle θ ₂ (showing the degree of change of D ₁ and D ₂ ) shown in FIG. 4 is preferably 25 to 45 °. The angle θ ₂ is an angle formed by the line a 2 extending from the small diameter portion 25 and the slope 23.

In FIG. 5, the change (diameter change) from the small diameter part 25 to the large diameter part 21 is formed by the step surface. The angle θ ₃ (showing the degree of change of D ₁ and D ₂ ) shown in FIG. 5 is preferably 15 to 35 °. The angle θ ₃ is an angle formed by a line a 3 extending from the small diameter portion 25 and a line b 3 connecting the periphery of the first opening 22 and the periphery of the second opening 26.

During the operation of the hollow fiber membrane module, the linear velocity of the fluid at the liquid inlet / outlet 20 is preferably 1 m / sec or less, and more preferably 0.8 m / sec or less. The linear velocity in the present invention means the velocity of the fluid in the first opening 22. Such a range of the linear velocity includes the ratio of the diameter (D ₁ ) of the first opening to the diameter (D ₂ ) of the second opening (that is, the range of θ ₁ , θ ₂ , θ ₃ ), the liquid This can be achieved by adjusting the ratio of the length (L) of the entrance / exit to the diameter (D ₁ ) of the first opening, particularly D ₁ / D ₂ (range of θ ₁ , θ ₂ , θ ₃ ).

  By setting such a linear velocity range, the pressure of the washing water is relieved when the counter pressure washing water is injected from the pipe into the liquid inlet / outlet 20, so that the hollow fiber located at the position facing the second opening 22 is used. Since the pressure on the membrane bundle is relieved, the hollow fiber membrane is prevented from being damaged.

The ratio of the diameter of the first opening 22 diameter of _{(D 1)} and the second opening _{26 (D 2) (D 1} / D 2) is preferably from 1.2 to 2.5, 1.3 to 1. 6 is more preferable.

The ratio (L / D ₁ ) between the length of the liquid inlet / outlet (L) and the diameter (D ₁ ) of the first opening 21 is preferably 1 to 1.5, and more preferably 1.2 to 1.4.

  The hollow fiber membrane bundle 16 shown in FIG. 2 is an aggregate of small bundles in which one or both ends of a plurality of hollow fiber membranes are integrated with an adhesive 18, and the small bundles are in contact with each other at their both ends. And integrated with an adhesive 18. The outermost hollow fiber membrane bundle 16 is fixed to the inner wall surface of the end portion of the housing main body 12 by an adhesive 18.

  By sealing the hollow fiber membrane bundles 16 with the resin in this way, the hollow fiber membrane bundles 16 sway and collide repeatedly due to the flow accompanying the flow of liquid (for example, supply of back pressure washing water), and are damaged. It is prevented. The lower cap 15 side does not need to be resin-sealed, but from the viewpoint of making the hollow fiber membrane bundle 16 less likely to be shaken by the hydraulic pressure, it is preferable to carry out resin sealing similarly to the upper cap 14 side.

  The filling rate of the hollow fiber membrane bundle 16 is not particularly limited, but the interval between the surface of the outer hollow fiber membrane bundle 16 and the inner peripheral surface 12a of the housing body 12 is preferably 5 mm or more. More preferably, it is 5-10 mm.

  In FIG. 2, a plurality of hollow fiber membrane bundles 16 are covered with a net 26. The net 26 is water permeable. Moreover, you may have a stretching property. The net 26 is integrated with the hollow fiber membrane bundle 16 at both ends in the length direction at the portion of the adhesive 18.

  The operation of the liquid inlet / outlet 20 when the hollow fiber membrane module 10 shown in FIG. 1 is filtered will be described.

When back-pressure washing is performed during the filtration operation, the water stored in the permeate tank is sent from the pipe and is pressed into the liquid inlet / outlet 20. At this time, the magnitude relationship or magnitude ratio of the diameter of the diameter of the second opening 26 and (D ₂₎ first openings 22 (D _1), the length of the preferably further liquid inlet and outlet (L) and the first opening 22 Since the magnitude ratio of the diameter (D ₁ ) is related (preferably so as to obtain a predetermined linear velocity), the pressure of the backwash water is relieved.

  As a result, the pressure applied to the hollow fiber membrane bundle 16 located at the position facing the liquid inlet / outlet 20 (first opening 22) is also relieved. However, a high detergency can be exhibited without damaging the hollow fiber membrane.

Example 1
The hollow fiber membrane module shown in FIGS. 1 and 2 was produced.

In a cylindrical case housing having a length of 1066 mm, 22320 cellulose acetate-based hollow fiber membranes having a separation performance of an inner diameter of 0.8 mm and an outer diameter of 1.3 mm were accommodated. The hollow fiber membrane ends and the membrane bundle and the inner surface of the case housing were bonded by a known centrifugal bonding method using a urethane-based adhesive (effective membrane area 50 m ² ).

The liquid inlet / outlet port 20 has the shape shown in FIG. 4 and is located at the center in the longitudinal direction of the cylindrical case housing. The diameter (D ₁ ) of the first opening 22 is 125A (140 mm) and the second opening. The aperture diameter (D ₂ ) of 26 was 80 A (89.1 mm), and θ ₂ was 35 °.

  Using the hollow fiber membrane module, a turbidity test was conducted under the following conditions using river surface water as feed water.

Water flow direction: Membrane module lower cap 15 side as raw water inlet Filtration method: Cross flow filtration Processing capacity: 5 m / day Recovery rate: 95%
Back pressure washing flow rate: 4 times the filtration operation permeate flow rate Filtration time / back pressure washing time: 59 minutes / 1 minute The flow rate linear velocity at the liquid inlet / outlet 20 during back pressure washing was determined from the following equation.

T = H / Si
T: Linear flow rate T (cm / sec)
H: Flow rate during back pressure cleaning (ml / sec)
S ₁ : Cross-sectional area of the first opening 22 (cm ² )
H = 5 m / day × 50 m ² × 4 = 11574.1 ml / sec
Si has a diameter of 125 A (140 mm) to 153.86 cm ²
Therefore, T (cm / sec) = 11574.1 / 153.86 = 75.3.

  When the operation was continued for 6 months under the above operating conditions, no damage such as breakage was found in the hollow fibers of the hollow fiber membrane module.

Comparative Example 1
A hollow fiber membrane module (effective membrane area 50 m ² ) was produced in the same manner as in Example 1 except that the housing main body having a single diameter of the liquid inlet / outlet port 20A (89.1 mm) was used. Using this hollow fiber membrane module, a turbidity test was conducted under the same conditions as in Example 1 using river surface water as feed water.

However, H is 11583.3 ml / sec, 4 times 5 m / day = 10.42 m ³ / Hr, and Si is from 80A (89.1 mmφ) to 62.32 cm ² , and the linear flow rate T (cm /Sec)=H/Si=11583.3/62.32=185.9.
When the operation was continued for 6 months under the above conditions, several hollow fiber membranes immediately below the liquid inlet / outlet 20 were broken.

Sectional drawing of the length direction of a hollow fiber membrane module. The front view including the partial cross section figure of what removed the case housing from the hollow fiber membrane module of FIG. Sectional drawing of a liquid inlet / outlet. Sectional drawing of the liquid inlet / outlet of another embodiment. Sectional drawing of the liquid inlet / outlet of another embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Hollow fiber membrane module 12 Housing main body 16 Hollow fiber membrane bundle 20 Liquid inlet / outlet 21 Large diameter part 22 1st opening part 25 Small diameter part 26 2nd opening part

Claims (4)

A hollow fiber membrane module in which a required number of hollow fiber membrane bundles are accommodated in the case housing, and a liquid inlet / outlet is provided protruding from the side surface of the case housing,
The liquid inlet / outlet has a first opening facing the case housing side and a second opening facing the pipe side serving as the liquid feeding line,
A hollow fiber membrane module, wherein the diameter of the first opening is set to be larger than the diameter of the second opening.   The hollow fiber membrane module according to claim 1, wherein a change in diameter between the first opening and the second opening is stepwise.   The hollow fiber membrane module according to claim 1, wherein the change in diameter between the first opening and the second opening is continuous. The hollow fiber membrane module in any one of Claims 1-3 whose linear velocity of the fluid in a 1st opening part at the time of a hollow fiber membrane module driving | operation is 1 m / sec or less.