CS255024B1 - Device for electrodialyzer's technological solutions distribution - Google Patents

Abstract

The solution and concerns the divorce facility electrodialyser technological solutions, comprising electrode distribution blankets placed between the carrier plates dialyser. To the two mirror-arranged the distribution boards are from the side inlet and reinforcement of the solutions are fixed by collectors. Channels are created in the collectors for entry and exit of process solutions. Channels are always set to at least one hole, which are arranged in the switchboards deskáoh. Between the distribution boards a functional electrodialyser bundle is inserted consisting of at least four dividers and at least three membranes.

Description

The present invention relates to a device for the distribution of electrodialyser process solutions comprising electrode distributor plates disposed between the dial plates of the dialyser support.

An electrodialyser is known which combines the function of distribution and shrink plates made of laminated resin. The disadvantage of this device lies in the low rigidity, which makes it difficult to seal the functional electrodialyser bundle and is a source of functional defects.

The above mentioned drawbacks are eliminated by the device for distribution of technological solutions of the electrodialyser according to the invention, which consists in the fact that collectors are attached to the two mirrored distribution boards. In collectors are created channels for entry and exit of technological solutions. The channels are branched into at least one opening, which are provided in the distribution boards. A functional electrodialiser bundle consisting of at least four distributors and at least three membranes is interposed between the distribution plates.

The device according to the invention eliminates shortcomings in the tightness of the electrodialyser and by using collectors it is possible to make spatial distributions of technological solutions in its functional bundle, which cannot be created in the distribution board itself, whose thickness is limited.

The attached drawing shows an axonometric view of a device for distributing process solutions into a functional electrodialyser beam. Fig. 1 shows the distributor plate as viewed from the electrode side, Fig. 2 schematically shows a functional electrodialyser beam, and Fig. 3 shows the distributor plate from the power supply side.

Between the rigid shrink plates 90 of the dialyser support, two mirror-arranged distribution plates 10 with electrodes 20 are arranged.

2 stages of solutions are connected via a seal 34 to the inlet and outlet collectors 10, which are arranged to allow the inlet and outlet of the solutions from the common side of the electrodialyser. In the collectors 30, the spatial distributions of the diluent channel 11, the concentrate channel 32 and the electrode channel 33 are formed. The electrode openings 13 terminate on two opposite sides of the electrode 20 provided with a DC power supply 21. Between the distribution plates 10 is inserted a functional electrodialyser bundle 40, which is formed of distributors 41 and membranes 42, the technical solution of which varies according to the type of process solution to be supplied. In the functional bundle 40, the assembly of membranes 42 and manifolds 41 is periodically repeated to provide greater desalination performance of the electrodialyser.

By means of an electrodialyser, a change in the content of solutes in the various types of purified water is achieved so that the inlet liquid produces a desalinated or diluate solution and a concentrated or concentrate solution. The electrode solution serves to remove electrolysis gases around the electrode 20. The electrode solution enters the electrode channel 33 of the collector 30 and exits through the electrode holes 13 in the distributor plate 10 into the space around the electrode 20 and exits with gases on the opposite side of the electrode 20 and therefrom plate 10 and collector 30 outside the device. The feed liquid enters through the diluate channel 31 of the collector 30 into the dilute holes 11 in the distributor plate 10 and from there into the functional bundle 40 of the electrodialyser. Passing through the functional bundle 40 removes dissolved substances from the process solution and the desalted solution - diluate - exits on the opposite side of the functional bundle 40 and from there through the diluate holes 11 and the diluate channel 31 of the collector 30 on the outlet side of the distributor plate 10. salt, enters the collector 30 through the concentrate channel 32. from there it enters the concentrate holes 12 in the distributor plate 10 and further into the functional electrodialyser bundle 40. Passing through the functional beam 40 concentrates the salts in this solution. The concentrate acts on the opposite side of the functional

3 255 024 of the beam 40 and hence the concentrate holes 12 and the concentrate channel 32 of the collector 30 on the outlet side of the distributor plate 10.

The device according to the invention enables the removal of the salinity of waste and industrial waters which cannot be carried out by conventional technologies, the extraction of raw materials from secondary sources, the solution of closed water management cycles and the solution of waste-free technologies. They can be used, for example, for the desalination of mine and groundwater, for the regeneration of galvanic baths and rinsing waters, for the treatment of boiler feed water, for the treatment of waste water from the chemical industry and the like.

Claims (1)

A device for distributing electrodialyser process solutions, comprising electrode distributor plates disposed between the dial plates of the dialyser support, characterized in that collectors (30) are fastened to the two mirrored distribution plates (10) from the solution inlet and outlet sides in which they are formed. channels (31, 32, 33) for the entry and exit of process solutions, which are branched into at least one opening (11, 12, 13) provided in the distribution plates (10), wherein a functional bundle (10) is inserted between the distribution plates (10) 40) an electrodialyser comprising at least four distributors (41) and at least three membranes (42).