DE2537389A1 - Filter for aqueous solutions or dispersions - made by rendering hydrophobic thermoplastic film hydrophilic with surface active agent - Google Patents

Abstract

A filter membrane of thermoplastic film is used for filtering aqs. solns. and dispersions. It is produced by rendering hydrophilic, a finely porous hydrophobic polymer film using surface-active agents. The filter is cheap to produce. The filter comprises middle layer of 400 mu polypropylene mat, two intermediate layers of 25 mu perforated biaxially stretched polypropylene film which is sealed both sides, and two outer layers of 25 mu finely porous polypropylene film. This filtration structure is immersed in a satd. aq. soln. of sodium lauryl thiosulphate at room temp. washed with water, dipped in 0.5% aq. potassium permanganate soln. washed and dried. The outer layers are thus rendered hydrophilic.

Description

Method of manufacturing a plastic filtration membrane, Filtration membrane, filtration mat, made using a filtration membrane and filtration system for the filtration of aqueous solutions and dispersions The present The invention relates to a method for producing a filtration membrane from fine-pored Plastic film for filtering aqueous solutions and dispersions.

For material separation or concentration, e.g. B. in processing of wastewater or dilute solutions in the extraction of ingredients Fine filtration methods have so far been little used for economic reasons. That is due on the one hand to the fact that the membranes are very high, conditionally due to high manufacturing costs and a limited lifespan of those currently used Membranes, on the other hand, that most filtration systems per unit filter area have a very large construction volume. The membrane materials currently in use based on cellulose acetate are hydrophilic and swell on constant contact with water. In the process, they become soft, crawl under pressure and thereby gradually diminish the flow rate of the water during continuous filtration, d. H. they own only a limited lifespan. Therefore, membrane materials are inherent in are hydrophilic, for the filtration of large quantities of aqueous solutions in continuous operation not very suitable.

Membranes made of hydrophobic materials, e.g. B. pore membranes made of polypropylene, on the other hand do not reduce the flow in permanent contact with water, but only are permeable to relaxed aqueous solutions. Such pore membranes can be used though with surface-active substances, e.g. B.

Surfactants, make hydrophilic, but become with continuous flow of the water during the filtration these hydrophilicizing agents are gradually washed out. The continuous addition of surfactants to the liquid stream is from economic and, depending on the area of application, also from food law Reasons not possible.

So it would be of great benefit to make hydrophobic plastics permanent to hydrophilize. Such a possibility is given in a publication by Kennen, Townsend and Emerson in the Journal of Colloid and Interface Science, Vol.42, No.3, March 1973, page 589. There are metal oxide hydrosols on the Surface of the hydrophobic plastic applied. The hydrosol particles, which have a diameter of approx. 0.5 to 1 lzú, but cannot enter the channels penetrate by narrow-pore ribbons and hyc½ophilize them, since the canals of these Diaphragms only have a diameter of, for example, about 0.1 leu. thats why the described possibility of making hydrophobic plastics hydrophilic for fine-pored plastics Filtration membranes not usable.

The object of the invention was for the fine filtration of aqueous solutions a method for making the filtration membranes and a filtration system to create that enable economical application and production. Included the described disadvantages of the known films and systems are to be avoided.

The object is achieved according to the invention in that a fine-pored hydrophobic plastic film with the help of surface-active substances permanently is hydrophilized.

A preferred embodiment of the invention provides that by wetting a thermoplastically processable, hydrophobic and fine-pored plastic film with the solution a surface-active, reducing substance and subsequent oxidation of this substance by aqueous permanganate or bichromate solution a hydrophilic coating of finely divided manganese dioxide or chromium trioxide on the generated over the entire plastic surface and thereby a hydrophilization of the film is achieved.

It is extremely advantageous that the starting material for filtration membranes, which are produced by the process according to the invention, hydrophobic, thermoplastic Plastics can be used that do not swell in permanent contact with water and therefore, the flow rate of the water in the filtration is not to decrease. In addition, the use of such plastics yields in the case of the invention Process a long service life of these membranes, because the hydrophilization is permanent and the surfactants are not used during the filtration washed out. Another addition of surface-active substances directly into the This eliminates the need for the liquid to be filtered.

The object on which the invention is based can also be achieved in this way be that one fair pore films made of mixtures of partially crystalline polyolefins and acetalized polyvinyl alcohol with a solution of surface-active substances wetted in dilute mineral acid.

The entire surface of the plastic film is covered with a uniform Layer educated, which causes a hydrophilization of the men-nbran.

This type of hydrophilization of filtration membranes is then special advantageous when in certain-uses the filtration membrane, for. B. in batteries, SchPzermetallionen have a disruptive effect.

According to a preferred embodiment of the invention, the filtration membrane with further layers that serve to strengthen them and to drain off the filtrate serve to connected to a sheet-shaped, flexible filtration mat.

The connection is preferably made by sealing on the Eahnrancl. On the other hand, punctiform seals can be provided in the area. It is In the context of the invention, it is particularly favorable if the filtration mat has J-five layers is constructed. The middle layer can be made from a fleece that is not very compressible made of polyester, polyamide, polypropylene or glass fibers that on its both sides with a layer of a perforated, mechanically stable material, z. B. biaxially stretched polypropylene film is connected. The two outer layers the filtration mat consist of those produced by the method according to the invention Filtration membranes, for example hydrophilized polypropylene pore membranes.

The filtration mat enables economical use of the Fine filtration for aqueous solutions, e.g. B.

in dairy and wastewater treatment. She corresponds the requirements for mass production, because in their production of known, commonly used and therefore inexpensive plastics and easily feasible Processing method is assumed. Another advantage of the invention Matte is the large filter area per unit volume and, for this reason, very high filtration performance.

An extremely advantageous development of the invention consists in to use the filtration mat in a new type of filtration system. The web-shaped The mat is folded in a meandering shape to form a filtration package, with between Filtration channels are formed in the individual mat layers. The one to be filtered Liquid flows through between two adjacent surfaces of the filtration mat. The filtrate penetrates through the pore membrane and further through holes in the middle layer into the inner layer. The filtration mat, which on its side web edges is sealed by a sealing seam, has holes on top of each other in the package on, through the a pipe runs through which the filtrate is collected and is derived. This drainage pipe is on its surface with axial channels provided, which are connected by bores to an axial channel in the center of the pipe are. This collects from the fleece in the axial surface channels of the pipe incoming filtrate and runs through the holes in the drainage pipe.

According to the invention are between the folds of the filtration mat in the filtration package Arranged holding rods, which hold the filtration package and the limitation of the Form filtration chambers. These holding rods are angular and protrude with their one key between the individual mat layers. You prevent in that the sealing edges fold over at the edges of the filtration mat, if there is a flow against the filter package and thus an uneven flow in the filtration system arises. A relatively small cross section of the chambers is a largely laminar flow generated by the excessive concentration at the Filter surfaces are avoided.

As a further embodiment of the invention, the filter package is in a Suspended frame, which consists of two frames that are connected to each other by guide rods are connected. The holding rods are attached to these guide rods. That The frame consisting of the two frames with the filter pack is placed in a pressure pipe housed and the distance between the two frames increased until the frames are tight against the inside of the pressure tube.

Since the frames are provided with sealing material on their edges, the cross-section of the pressure pipe is divided into two chambers. These two chambers serve for the inflow and outflow of the liquid to be filtered. By swapping The inflow and outflow can be controlled by the filtration system clean by itself. The two remaining side chambers are filled with sealing compound, to ensure that the liquid to be filtered only enters the filtration chambers flows through.

When the distance between the two frames is increased, it will simultaneously the meandering folded filtration mat tightened. Also through this measure filtration chambers with a uniform cross-section are achieved. At high mechanical For this reason, a certain amount of elasticity is required for the filtration mat to be stable.

It is particularly advantageous in the context of the invention if the hydrophilization the filtration membrane is only carried out on the fully assembled filtration system. This makes it possible to contribute to the thermoplastic properties of the plastics to take full advantage of the production of the filter system.

A filtration merabran according to the invention was made according to the following Example made: A porous membrane made of polypropylene (Celgard 2400 from Celanese Corp.) at room temperature first in a saturated aqueous solution of sodium lauryl thiosulfate and then immersed in a 0.5% aqueous potassium permanganate solution. To rinsing the membrane with water and drying it exhibited a hydrophilic traction from manganese dioxide on; this inorganic coating was about 90% of the total weight of the membrane. This was determined by determining the ash content. The following were found on the membrane Water flow rates determined: pressure drop, flow rate bar liters / m2. Day 5 120 50 860 100 1380 In the drawings are exemplary embodiments shown for the filtration mat and a filtration system.

1 shows a section through a 5-layer filtration mat FIG. 2 shows a package of a meandering filtration mat, and FIG. 3 shows one Section through a pressure pipe into which the filtration package according to FIG. 2 is inserted is.

The mat shown in FIG. 1 was heat-sealed on the edge of the web and punctiform seals in the area at 130 ° C and a contact pressure of 7 joined together. It consists of a middle layer 1 made of 4001u thick polypropylene fleece #, two intermediate layers 2 each made of 25 F thick perforated, sealable on both sides, biaxially stretched polypropylene film and two outer layers 3 each made of 25Xu thick, fine-pored polypropylene film. The filtration film constructed in this way will be used after completion of the structure shown in a saturated aqueous solution at room temperature dipped in sodium lauryl thiosulphate, rinsed briefly with water, in a 0.5% dipped in aqueous potassium permanganate solution, rinsed and then dried. The outer layers 3 are thereby rendered hydrophilic.

At a filtration mat prepared in this way with a separation limit Molecular weights of approx. 20,000 were the following water flow rates at 20 ° C determined: pressure drop through flow (bar) (liter / m2. day) 5 240 50 1700 100 2700 Figure 2 shows a filtration mat according to FIG. 1, which meanders to form a filtration package is folded.

The filtration chambers 11 are located between the mat layers. The filtration mat has one on top of the other in the package Holes 4 through which a tube 5 extends. This discharge pipe 5 is on its surface provided with axial Txanäle 6, which through holes 7 with an axial channel 8 connected in the middle of the pipe. Between the folds of the filtration mat holding rods 10 are arranged. The filtration chambers 11 are against the axial Channels 6 on the surface of the discharge pipe 5 sealed with sealing rings 9.

In Figure 3 is a cross section through a pressure pipe 14 is shown, in which a filter package according to FIG. 2 is used. The filter package is in a Suspended frame, which consists of two frames 12, which are supported by guide rods 13 are connected to each other. The holding rods 10 are placed on the guide rods 13 aufgestec} ct. The frame with the filter package is housed in a pressure pipe as per. By increasing the distance between the two frames 12 to the point of contact on the inside of the pressure pipe 14, there are two chambers 15 and 16 for the supply or drainage of the liquid to be filtered. The two side chambers 17 are with Sealant, e.g. B. PE foam, filled.

The following calculation gives an example of the high filtration performance of the filtration system according to the invention: With a thickness of the filtration mat of 1 mm and filter chamber dimensions of 350 x 350 x 1 mm can be made in a 1 m long Tube with a radius of 25 cm can accommodate approximately 100 m2 of filter surface. With a pipe volume of approx. 0.2 m3, the daily output is approx. 24 m3 of filtrate with a pressure gradient of 5 bar, of 160 m3 at 50 bar and 276 m3 at 100 bar.

Claims (17)

Expectations 1. A method of manufacturing a thermoplastic filtration membrane Processable plastic film for filtering aqueous solutions and dispersions, characterized in that a fine-pored hydrophobic plastic film with the assistance is permanently hydrophilized by surface-active substances. 2. A method for producing a filtration membrane according to claim 1, characterized in that by wetting a fine-pored hydrophobic plastic film with the solution of a surface-active, reducing substance and the subsequent oxidation of this substance with the help of aqueous permanganate or Bichromate solution a hydrophilic coating made of finely divided manganese dioxide or chromium trioxide generated on the entire plastic surface and thereby a hydrophilization of the Slide is achieved. 3. A method for producing a filtration membrane according to claim 1, characterized in that hydrophobic, stretched pore films by wetting from mixtures of partially crystalline polyolefins and acetalized polyvinyl alcohol with a solution of surface-active substances in dilute mineral acid a The entire membrane surface is made hydrophilic. 4. Filtration membrane made according to the method of claim 1, 2 or 3, characterized in that with a porous carrier film made of hydrophobic Plastic the entire plastic surface is provided with a hydrophilic coating is. 5. Filtration mat made using the filtration membrane according to claim 4, characterized in that the filtration membrane with further Layers are connected for their reinforcement and for the discharge of the filtrate. 6. Filtration mat according to claim 5, characterized in that The filtration membrane is provided as the outer layer (3) of the mat, that the middle layer (1) a little compressible Vlicsy and that as an intermediate layer (2) between the filtration membrane and the Llittelschic'llt (l) a mechanically stable, perforated Material, preferably plastic film, is provided. 7. Filtration mat according to claim 6, characterized in that the individual layers of the filter mat connected by sealing on the mat edge are. 8. Filtration mat according to claim 6 or 7, characterized in that that the individual layers of the mat by punctiform seals in the surface are connected. 9. Filtration system with a filtration mat according to claim 5, 6, 7 or 8, characterized in that the web-shaped filtration mat forms a meander-shaped Filter package is geSitet, with filtration chambers between the individual mat layers (11) are formed in which the liquid to be filtered between adjacent Areas of the filtration mat flows through and the filtrate flows within the filtration mat in whose middle class (1) is derived. 10. Filtration system according to claim 9, characterized in that the meandering folded filtration mat has holes (4) lying one on top of the other, through which a pipe (5) runs in the filter pack, in which the filtrate is collected and is derived. 11. Filtration system according to one of the preceding claims, characterized characterized in that the discharge pipe (5) - for the -Filtrat on its surface with axial channels (6) is provided in which the filtrate collects and through Bores (7) are connected to an axial channel (8) in the middle of the pipe, in which the filtrate is drained. 12. Filtration system according to one of the preceding claims, characterized characterized in that the axial channels (6) on the surface of the discharge pipe (5) for the filtrate sealed against the filtration chambers (11) by sealing rings (9) which are provided with pressure-sensitive adhesion promoters on the surface and preferably consist of a material which is weakly swellable in water. 13. Filtration system according to one of the preceding claims, characterized characterized in that between the folds of the meandering filtration mat Holding rods (10) are provided which hold the filter package and further filtration chambers (11) form. 14. Filtration system according to one of the preceding claims, characterized characterized in that the filter pack is hung in a frame that consists of two Frame (12) is made, the distance between which is variable and the guide rods (13) are connected to one another, onto which the holding rods (10) are attached. 15. Filtration system according to one of the preceding claims, characterized characterized in that the frame consisting of the two frames (12) with the filter package is housed in a pressure tube (14) and that the distance between the two Frame (12), at the edges of which sealing materials are attached, as far as it is enlarged is that they rest on the inside of the pressure pipe (-14) and thereby its Cross-section in two chambers (15, 16), for the inlet and outlet of the to be filtered Liquid, share. 16. Filtration system according to one of the preceding claims, characterized characterized in that by increasing the distance between the two frames (12) until it rests against the inside of the pressure pipe, two further chambers (17) arise, which can be filled with sealing compound. 17. Filtration system according to one of the preceding claims, characterized characterized in that the hydrophilization of the filtration membranes only after assembly of the filtration system succeeds.