SU576685A1 - Working chamber package of electrodialyzer - Google Patents

Description

one

The invention relates to apparatus for treating a liquid by an electrochemical method, in particular to electrodialyzers.

A package of working chambers of a multi-chamber electrodiaeator is known, assembled from alternating anionic and cationite membranes. Between them, sealing frames are placed in the brine and desalting cells, which seal the membranes along the edges when the bag is compressed. To prevent contact between the membranes, labyrinth or mesh type separators are placed in the working chambers. In separator gaskets and membranes there are coincident holes that, when assembling the package, form paths for inlet and outlet solutions from the chambers. The chambers are connected by channels in the separator gaskets, respectively, with brine and dialysate tracts. To prevent flow between the dialysate and the brine, the channels are narrow with a small cross section. However, in this package design of a multi-chamber electrodialyzer, the path of movement of the solutions and the small cross-section of the channels connecting the working chambers with the tractor are complicated, which causes a high hydraulic resistance of the electrodialyzer 1.

Another design of the package of working chambers of an electrodialyzer, formed by ion-exchange membranes and the frames and turbulators placed between them, is also known. In the membranes and the framework, holes are made, which form the paths for assembling the package for the input and output of solutions from the chambers. Moreover, each frame is made of two symmetrical sheets, each of which has an even number of distribution channels, which are evenly distributed in one row over the entire width of the chamber. The frames have slotted channels connecting the distribution channels to the chambers 2.

The last device is the closest to the invention according to the technical essence and the achieved result. However, it has low throughput and high hydraulic resistance due to the imperfection of the distribution-modular system.

Claims (2)

The purpose of the invention is to reduce the hydraulic resistance of the electrodialysis apparatus. This is achieved by the fact that the holes in the adjacent frames that form the channel are made (carefully sized, the holes in the membranes are made equal in size and configuration to the large holes in the frames, and the gaps are filled in the frames of the smaller holes and do not connect with them, the adjacent frames are located relative to each other in such a way that the large holes of one are aligned with the small holes of the other, the cross section C with the ends of the slits. In Fig. 1 shows the package of working chambers of the electrodialysis machine Fig. 2 is a view along arrow A in Fig. 1. The package xxz consists of alternating anion exchangers 1 and cation exchangers 2 membranes with frames 3 between them, forming diluate () 1e 4 and brine 5 working chambers. frame 3 are placed turbulators 6. For supplying fluid to the working chambers in the package there are longitudinal channels 7 formed by combining when assembling the package of holes in frames 3 and membranes 1 and 2. The holes in frames are of two sizes — small and large 9 — and are located , into one . The holes in the membranes have the same configuration and the same dimensions as the large holes 9 in frame 3. To connect the longitudinal channels 7 with working chambers within 3, there are non-through holes 10, which are from the hole of small dimensions 8 and connected to internal cavity frames. Impermeable slots 10 are made so that jumpers 11 remain between them and holes 8. When assembling a package, adjacent frames are installed one on one side so that the large holes 9 of one frame coincide with small holes 8 on the other. the large openings overlap the non-through slits 10 so that the flashers 11 are inside the longitudinal channels 7, the channels thereby connecting with the working chambers. The solution from the longitudinal channels 7 through the windows formed as a result of closing the blind gaps by 10 large openings passes through these gaps into the working chambers. Such a distribution system reduces the hydraulic resistance to fluid flow and increases the throughput of an electrodiacal package. Claims of the Invention Package of electrodialysis working chambers surrounded by ion-exchange membranes with frames and turbulators placed between them, with holes in the membranes and frames that create internal channels and through gaps in the channels connecting the channels with a hollow frame, characterized in In order to reduce the hydraulic resistance of the electrodialyzer, the holes in the adjacent frames, forming a channel, are made alternating in size, the holes in the membranes are equal in size and configurations and with large holes in the frames, and the slots are made in the frames of the smaller holes and do not connect with them, the frames being located one relative to another in such a way that the large holes of one are aligned with the small holes of the other, thus blocking the ends of the slots . Sources of information taken into account during the examination 1. USSR author's certificate No. 317249, cl. On 01 D 13/02, 1972. 2. USSR author's certificate number 291721, cl. B 01 D 13/02, 1971.