Fluid separation element
First Claim
1. A fluid separation element, comprising:
- a casing;
a bundle of selectively permeable hollow fibers accommodated therein, said fibers having been dried with hot air having a temperature of 90°
to 100°
C. and an amount of 2.5 to 10 m3 /m2 of the outer surface of the hollow fiber; and
a resinous potting agent for potting the end portions of the fibers and blocking the gaps among the fibers, wherein;
the ratio of the porosity of the membrane of the hollow fiber at the effective permeation portion (HA) and the porosity of the membrane of the hollow fiber at the potting portion (HB) satisfies the following condition;
space="preserve" listing-type="equation">0.9≧
HB/HA≧
0.4;
andthe outer diameter of the hollow fiber at the effective permeated portion (ODA) and the outer diameter of the hollow fiber at the potting portion (ODB) satisfies the following condition;
space="preserve" listing-type="equation">0.95≧
OD.sub.B /OD.sub.A ≧
0.7.
1 Assignment
0 Petitions
Accused Products
Abstract
A fluid separation element comprising a casing and a bundle of selectively permeable hollow fibers accommodated therein, the bundle being potted with a resinous potting agent at the end portions and the gaps among the hollow fibers being blocked with the resinous potting agent, characterized in that (1) the ratio of the porosity of the membrane of the hollow fiber at the effective permeation portion (HA) and the porosity of the membrance of the hollow fiber at the potting portion (HB) satisfies the following condition: 0.9≧HB/HA≧0.4 and (2) the outer diameter of the hollow fiber at the effective permeation portion (ODA) and the outer diameter of the follow fiber at the potting portion (ODB) satisfies the following condition: 0.95≧ODB /ODA ≧0.7, whereby the firm potting between the hollow fibers and the resinous potting agent is achieved, and a good separation efficiency without the increase of a pressure loss can be maintained for a long period of time.
55 Citations
3 Claims
-
1. A fluid separation element, comprising:
-
a casing; a bundle of selectively permeable hollow fibers accommodated therein, said fibers having been dried with hot air having a temperature of 90°
to 100°
C. and an amount of 2.5 to 10 m3 /m2 of the outer surface of the hollow fiber; anda resinous potting agent for potting the end portions of the fibers and blocking the gaps among the fibers, wherein; the ratio of the porosity of the membrane of the hollow fiber at the effective permeation portion (HA) and the porosity of the membrane of the hollow fiber at the potting portion (HB) satisfies the following condition;
space="preserve" listing-type="equation">0.9≧
HB/HA≧
0.4;and the outer diameter of the hollow fiber at the effective permeated portion (ODA) and the outer diameter of the hollow fiber at the potting portion (ODB) satisfies the following condition;
space="preserve" listing-type="equation">0.95≧
OD.sub.B /OD.sub.A ≧
0.7.
-
-
2. A method for forming a fluid separation element, comprising the steps of:
-
drying the end portions of a bundle of selectively permeable hollow fibers with hot air having a temperature of 90° and
100°
C. and with an amount of hot air of 2.5 to 10 m3 /m2 of the otuer surface area of the hollow fiber; andpotting said dried end portion in a resinous potting agent to enhance the potting characteristics;
wherein;the fibers and drying conditions are selected such that at the completion of drying the ratio of the porosity of the membrane of the hollow fiber at the effective permeation portion (HA) and the porosity of the membrane of the hollow fiber at the potting portion (HB) satisfies the following condition;
-
-
3. 9≧
- HB/HA≧
0.4;and the outer diameter of the hollow fiber at the effective permeation portion (ODA) and the outer diameter of the hollow fiber at the potting portion (ODB) satisfies the following condition;
space="preserve" listing-type="equation">0.95≧
OD.sub.B /OD.sub.A ≧
0.7.
- HB/HA≧
Specification