CN105311971A - Antibacterial multi-component composite hollow fiber filtering membrane - Google Patents

Abstract

The invention discloses an antibacterial multi-component composite hollow fiber filtering membrane. The antibacterial multi-component composite hollow fiber filtering membrane comprises the following components in parts by weight: 40-60 parts of PVDF, 10-30 parts of PVC, 20-40 parts of TPU, 30-50 parts of regenerated cellulose fibers, 5-15 parts of a film forming agent, 3-10 parts of an anti-oxidant and 1-3 parts of an anti-blocking agent, wherein the regenerated cellulose fibers are antibacterial regenerated cellulose fibers. By virtue of reasonable raw material selection and formula design, the nanofiltration-level antibacterial multi-component composite hollow fiber filtering membrane has excellent structural strength and favorable antibacterial property, is easy to degrade, reaches the nanofiltration level, can accurately filter sewage and has a good filtering effect.

Description

A kind of antimicrobial form multiple elements design hollow fiber filtering membrane

Technical field

The present invention relates to fiber filter film field, particularly relate to a kind of antimicrobial form multiple elements design hollow filtration membrane.

Background technology

Membrane separation technique has efficient, energy-conservation, equipment and simple operation and other advantages, becomes the separation process that the aspects such as chemical industry, food processing, wastewater treatment, medical science are important gradually.Existing diffusion barrier comprises organic film, inoranic membrane and composite membrane.Wherein, the advantage of organic film is that description of materials is many, easy modification, and pliability is good, low price, can be made into various forms of membrane module; Shortcoming is non-refractory, pH value narrow application range, and pore-size distribution is wide, and mechanical strength is low, and permeability is low, is soluble in the shortcomings such as organic solvent; The advantage of inoranic membrane is high temperature resistant, strong acid, highly basic, organic solvent and resistance to microbial attack, mechanical strength is high, pore-size distribution is narrow; Shortcoming is filming technology complexity (roasting), the poor reproducibility of film, preparation small-bore film difficulty, pliability is poor, cost is high, the component assembling difficulty made; Composite membrane has pliability, good chemical stability, and its mechanical strength, between organic film and inoranic membrane, is prepared fairly simple, and it compensate for the deficiency of organic film and inoranic membrane, applies more extensive.

But existing filtration film strength is not high, easy breakage, service life is short, and there is not anti-microbial property in film, after repeatedly using, secondary pollution may be produced, and it is antibacterial modified to carry out enhancing by conventional inorganic raw material, affect filter membrane on the one hand and use the degradation property after discarding, increase the difficulty of manufacturing process on the other hand.

Summary of the invention

The technical problem that the present invention mainly solves is to provide a kind of antimicrobial form multiple elements design hollow filtration membrane, can solve existing filter membrane above shortcomings part.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: provide a kind of antibiotic property multiple elements design hollow filtration membrane, it is characterized in that, comprise following parts by weight of component: PVDF40 ~ 60 part, PVC10 ~ 30 part, TPU20 ~ 40 part, regenerated celulose fibre 30 ~ 50 parts, film forming agent 5 ~ 15 parts, 3 ~ 10 parts, antioxidant, antiblocking agent 1 ~ 3 part; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre.

In a preferred embodiment of the present invention, described antibiotic property multiple elements design hollow filtration membrane comprises following parts by weight of component: PVDF50 part, PVC20 part, TPU30 part, regenerated celulose fibre 40 parts, film forming agent 10 parts, 8 parts, antioxidant, antiblocking agent 1 ~ 3 part; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre.

In a preferred embodiment of the present invention, described antibiotic property regenerated celulose fibre is the mixture of viscose chitin fibre and bamboo fibre.

In a preferred embodiment of the present invention, the mixed weight ratio of described viscose chitin fibre and bamboo fibre is 2 ~ 3:1.

In a preferred embodiment of the present invention, described hollow filtration membrane is NF membrane.

The invention has the beneficial effects as follows: a kind of nanofiltration level of the present invention antibiotic property multiple elements design hollow filtration membrane, selected and formula Design by rational raw material, it is made to possess excellent structural strength and good anti-microbial property, be easy to degraded, and this doughnut reaches nanofiltration level, accurately can filter sewage, good filtration effect.

Detailed description of the invention

Below preferred embodiment of the present invention is described in detail, can be easier to make advantages and features of the invention be readily appreciated by one skilled in the art, thus more explicit defining is made to protection scope of the present invention.

The embodiment of the present invention comprises:

Embodiment 1

Present invention is disclosed a kind of nanofiltration level antibiotic property multiple elements design hollow filtration membrane, comprise following parts by weight of component: PVDF40 part, PVC10 part, TPU20 part, regenerated celulose fibre 30 parts, film forming agent PVP5 part, 3 parts, antioxidant; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre, specifically comprises viscose chitin fibre and bamboo fibre that weight ratio is 2:1.

The preparation method of above-mentioned antibiotic property multiple elements design hollow filtration membrane, step is as follows:

(1) matrix dissolution: the antiblocking agent of the PVC of the PVDF of 40 weight portions, 10 weight portions, the TPU of 20 parts, the coalescents of 5 parts and 1 part is dissolved in dimethyl formamide, at 85 DEG C, stir under the stir speed (S.S.) of 30r/min, obtain homogeneous Matrix Solution, standing and defoaming;

(2) regenerated cellulose slurries are prepared: dissolved by the regenerated celulose fibre of 30 parts in the mixed liquor that dimethyl formamide and LiCl mix with the volume ratio of 1:1, obtain homogeneous solution, standing and defoaming through stirring;

(3) casting solution is prepared: joined in the Matrix Solution in step (1) by the antioxidant of the regenerated cellulose slurries of preparation in step (2) together with 3 parts, stir and evenly mix, and ultrasonic disperse, obtain casting solution;

(4) spinning: adopt inversion of phases spin processes that the casting solution in step (3) is spun to hollow fiber filtering membrane at 70 DEG C;

(5) finished product: the hollow filtration membrane obtained in step (4) is placed in deionized water and soaks, removes the first solvent and the second solvent, dries and obtains described antibiotic property multiple elements design hollow filtration membrane.

Embodiment 2

Present invention is disclosed a kind of nanofiltration level antibiotic property multiple elements design hollow filtration membrane, comprise following parts by weight of component: PVDF60 part, PVC30 part, TPU40 part, regenerated celulose fibre 50 parts, film forming agent 15 parts, 10 parts, antioxidant; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre, specifically comprises viscose chitin fibre and bamboo fibre that weight ratio is 3:1.

The preparation method of above-mentioned antibiotic property multiple elements design hollow filtration membrane, step is as follows:

(1) matrix dissolution: the antiblocking agent of the PVC of the PVDF of 60 weight portions, 30 weight portions, the TPU of 40 parts, the coalescents of 15 parts and 3 parts is dissolved in dimethyl formamide, at 90 DEG C, stir under the stir speed (S.S.) of 50r/min, obtain homogeneous Matrix Solution, standing and defoaming;

(2) regenerated cellulose slurries are prepared: dissolved by the regenerated celulose fibre of 50 parts in the mixed liquor that dimethyl formamide and LiCl mix with the volume ratio of 1:1, obtain homogeneous solution, standing and defoaming through stirring;

(3) casting solution is prepared: joined in the Matrix Solution in step (1) by the antioxidant of the regenerated cellulose slurries of preparation in step (2) together with 10 parts, stir and evenly mix, and ultrasonic disperse, obtain casting solution;

(4) spinning: adopt inversion of phases spin processes that the casting solution in step (3) is spun to hollow fiber filtering membrane at 80 DEG C;

(5) finished product: the hollow filtration membrane obtained in step (4) is placed in deionized water and soaks, removes the first solvent and the second solvent, dries and obtains described antibiotic property multiple elements design hollow filtration membrane.

Embodiment 3

Be with the difference of embodiment 1, described antibiotic property multiple elements design hollow filtration membrane comprises following parts by weight of component: PVDF50 part, PVC20 part, TPU30 part, regenerated celulose fibre 40 parts, film forming agent 10 parts, 8 parts, antioxidant.

The foregoing is only embodiments of the invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (5)

1. an antibiotic property multiple elements design hollow filtration membrane, it is characterized in that, comprise following parts by weight of component: PVDF40 ~ 60 part, PVC10 ~ 30 part, TPU20 ~ 40 part, regenerated celulose fibre 30 ~ 50 parts, film forming agent 5 ~ 15 parts, 3 ~ 10 parts, antioxidant, antiblocking agent 1 ~ 3 part; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre.

2. antimicrobial form multiple elements design hollow filtration membrane according to claim 1, it is characterized in that, described antibiotic property multiple elements design hollow filtration membrane comprises following parts by weight of component: PVDF50 part, PVC20 part, TPU30 part, regenerated celulose fibre 40 parts, film forming agent 10 parts, 8 parts, antioxidant, antiblocking agent 2 parts; Described regenerated celulose fibre is antibiotic property regenerated celulose fibre.

3. antimicrobial form multiple elements design hollow filtration membrane according to claim 1 and 2, is characterized in that, described antibiotic property regenerated celulose fibre is the mixture of viscose chitin fibre and bamboo fibre.

4. antimicrobial form multiple elements design hollow filtration membrane according to claim 3, is characterized in that, the mixed weight ratio of described viscose chitin fibre and bamboo fibre is 2 ~ 3:1.

5. antimicrobial form multiple elements design hollow filtration membrane according to claim 1 and 2, is characterized in that, described hollow filtration membrane is NF membrane.