SU975096A1 - Electric flotator - Google Patents

Description

(54) ELECTROFLOTATOR

 The invention relates to the separation of suspensions, sewage treatment by flotation and can be used for dewatering industrial and domestic wastewater.

It is known the use of settling in wastewater treatment, various suspensions from impurities. Septic tanks of various structures, settling ponds, light-emitters are used for this purpose.

Disadvantages of the upholding process duration, low lightening effect, significant overall dimensions of the settling devices

In the flotation of fine and thin particles, the most favorable conditions are created when using electro-flotation, which provides for the generation of a significant amount of gas bubbles with a size of 0.04-gO, 2 mm. The dispersion and particle size distribution of the bubbles can be easily and smoothly changed in a wide range by changing the parameters of the electrolysis current, which is very important in practical terms and is not achievable in any other method.

The closest to the proposed technical essence and the achieved result is an electrofloater, which includes a housing and a base, pipes for supplying slurry and discharging a clarified liquid, electrodes. stable

10 The effect of purification of the liquid phase of suspension G23.

However, the resulting flotation product is a thickened slurry.

15 In this case, the problem arises of further dehydration of such a suspension. Besides, in. With this device, the process of purification of suspensions from mechanical impurities is insufficient and requires special measures.

The aim of the invention is to intensify the process of cleaning suspensions from mechanical impurities and reducing the moisture content of the flotation product.

25

This goal is achieved by the fact that the electrofloater, which includes the housing and the base, is supply pipes. suspension and removal of the clarified liquid, electrodes, equipped with a mechanism

30 of the clamping of the base and the housing, with a filtrating partition and a pipe for supplying compressed air, the upper ejector being made in the form of a grid and fixed on the flexible element, and the lower electrode is perforated .§

It is possible to perform an electric flotation machine in many ways by combining a single and more single electroflotation;

The drawing shows an electro-fQ flotator, a general view.

The electroflotter consists of two main parts: the base 1 and the body 2, made of a dielectric material. Mezedu ground. 1 and a housing 2 on the lower perforated electrode 3, there is a filter partition 4, for example a filter cloth. Inside the housing 2 on the flexible element 5, the upper electrode b is reinforced, made in the form of a grid.20 The lower electrode 3 has a terminal 7, and the upper electrode b has a terminal 8. The electroflotter is equipped with a clamping mechanism 9 for raising and lowering the base and has a mechanism 10 for moving - 25 the filtration of a septum, e.g. a filter cloth, to discharge the precipitate formed after filtration. On the body 2 there is a nozzle 11 for supplying the initial sus-30 foam and a nozzle 12 for supplying compressed air or pressurized water. The pipe 13 serves to drain the clarified liquid.

The electroflotter works as follows.

When closing by means of the clamping mechanism 9 of the base 1 and the housing 2, a sealed chamber is formed, inside which the feed slurry is fed by a feed pump (not shown) Q. After filling up the electroflotator, a voltage is applied to electrodes 3 and 6, as a result of which gas bubbles are released due to electrolysis of water. The rising gas bubbles carry the particles of the solid phase to the upper part of the electrofloater. At the same time, compressed air 55 or pressurized water is supplied to the flexible element i through the pipe 12. Upper ROD electrode 6 together with flexible element 5 of type Aperture moves downwards, the upper level of the flotation product gradually decreases, 60 product dehydrates, clarified liquid passes through. Filter partition 4 and is removed. In this case, the process of dehydration of the flotation product occurs in an electric field with a decreasing distance between electrodes 3 and 6.

The dense precipitate formed during the movement of the filter partition by the mechanism 10 is removed from the electroflotter.

The application of the proposed electrofloter allows the moisture of the flotation product to values that ensure its transportation and utilization, and the process of purification of suspensions from mechanical impurities is significantly intensified.

The arrangement of two or more single electroflotters combined by a clamping mechanism, common collectors for supplying slurry and discharging the clarified liquid will increase the volume of electroflotation and throughput of the device without increasing the production area and with minimal cost of materials and electric power.

Thus, the proposed electrofloater allows reducing the moisture content in the flotation product and obtaining a dense sediment suitable for transportation and disposal and to intensify the process of purification of the suspension from mechanical impurities.

Claims (2)

1. The electroflotter, which includes the housing and the base, the supply pipes for the suspension and removal of the clarified liquid, the electrodes, is required so that, in order to intensify the process of cleaning suspensions from mechanical impurities and reducing the humidity of the flotation product, a flexible element, a clamping mechanism for the base and the housing, a filter septum and a compressed air supply nozzle; the upper electrode is made in the form of a grid, and the lower electrode is perforated. 2. The electroflotter according to claim 1, differing in that it is made in many ways by combining two or more single electroflotters. Sources of information taken into account in the examination. , 1. Baymahanov MG and others. Modern methods of wastewater treatment non-ferrous metallurgy. M., 1980, p. 3 2. Rubinstein Yu. B. and others. Flotation wastewater treatment. M., 1980, e. 17, fig. 2 Gprototype). Is bad