SU1699559A1 - Filter-press-type membrane apparatus - Google Patents

Abstract

The invention relates to devices for carrying out membrane processes such as micro and ultrafiltration and reverse osmosis, and can be used to concentrate or clarify liquid solutions in the chemical, food and other industries. The purpose of the invention is to increase the efficiency of the membrane separation process by improving the hydrodynamic conditions of the fluid flow. The essence of the invention is that in an apparatus for membrane separation, including, tension plates, membranes, sealing silver washers and oval-shaped support plates with curved channels recessed into them and two circular drip holes, the axes of drip holes are offset from the longitudinal axis of the plate The channel width is constant, and the channels themselves are S-shaped. 3 il. $

Description

The invention relates to devices for carrying out such membrane processes as micro- and ultra-filtration and reverse osmosis and can be used to concentrate or clarify liquid solutions in the chemical, food and other industries.

The aim of the invention is to increase the efficiency of the membrane separation process by improving hydrodynamic fluid flow conditions.

FIG. 1 shows the apparatus, a longitudinal section; in fig. 2 - apparatus, showing the shape of the support plate and the type of channel, the section; on yig. 3 - apparatus, a cut through the flow ports.

The apparatus consists of compression plates 1 and 2, between which a set of support plates 3 is clamped. On the plates there are nozzles 4 and 5 for the inlet and outlet of liquid. The whole apparatus can be mounted either by external pins (not shown) or by means of collector pipes 6 for collecting permeate.

The support plate 3 has an oval shape (FIG. 2). The overflow holes

I7 round shapes are displaced with respect to the longitudinal axis by one diameter, have a tapered exit to the surface of the plate and pass into the S-shaped channels 8 embedded in the plate material, which are separated by projections 9.1.

One plate may also have openings 10 for permeate discharge.

SE

with so

SP

sd

with

The support plate is made of two parts 11, 12 in such a way that a drainage zone 13 is formed inside the plate, which is connected to the surface by perforations, through which penetrating fluid passes through the membrane. This liquid (permeate) is removed from the apparatus either through the collector 6 or through the outer fittings 14 on the plates.

Membranes 15 are laid on each surface of each support-plate and sealed in the zone of perforations with the help of silver washers 16.

The device works as follows.

Separated liquid enters through the pipe 4, the overflow holes 7 and passes between the ribs of the washers 16, enters the channel 8 and flows along the surfaces of the membranes to the second overflow hole, which also enters the passage V. between the edges of the sealing washer which is discharged from the apparatus through pipe 5.

Penetration through the membranes liquid through the perforations and the drainage zone is output either through the collector 6 or through individual fittings 14

This construction is compact, the speeds along the membrane surface over the entire area of the channels are the same due to the constant cross-section of the channels. In addition, the channel is made in the form of two sections with opposite cree

five

Q 5

five

0

Visnoe. In the first section, any particle with a density different from that of the solvent is displaced by centrifugal force to one side of the channel, and in the second section due to a change in curvature to the other side of the channel. Such a change in the direction of the force acting on the particles intensifies the process and reduces clogging of the membrane surface. The absence of stagnant zones is guaranteed by smooth transitions.

Claims (1)

Thus, the implementation of support plates with a channel of this shape allows to improve the hydrodynamic flow conditions and intensify the process of membrane separation. Invention Formula A membrane filter-type apparatus containing compressive plates, support plates with two flow-through holes and curved channels formed on their surface connecting these holes, semipermeable membranes and sealing washers placed around the flow-holes, so that, in order to increase the efficiency of the membrane separation process due to the improvement of the hydrodynamic conditions of fluid flow, the curvilinear channels on the surface of the support plates are made S-shaped ormy and with equal width along their entire length. h K f2 Fig.Z