SU958329A1 - Apparatus for aeration water - Google Patents

Description

(5) DEVICE FOR AERATING WATER

one

The invention relates to ship devices, in particular to devices for aerating the surface layer of water bodies.

A device for aerating water is known, which contains a nozzle with a propeller located in it and a source of gaseous medium for aeration 1.

The disadvantages of the known device c. The low efficiency and cost-effectiveness of the aeration process are due to the fact that compressed air is used as an aerating agent and a source is needed for its production.

The purpose of the invention is to increase the efficiency and cost-effectiveness of the aeration process by using gaseous products of water electrolysis.

This goal is achieved by the fact that in the device for aeration, the water source of the gaseous medium for aeration is provided with electrodes 8 in the form of external and internal truncated mesh cones, and the nozzle is made hollow, and the aforementioned electrodes are installed in its cavity.

In addition, the taper of the outer electrode is greater than the taper of the inner electrode.

FIG. 1 shows a device for aerating water, a vertical longitudinal section; in fig. 2 is a view A of FIG. one; in fig. 3 section bb in fig. one; in fig. - the process of aeration of water in the cavity of the nozzle.

Claims (2)

The device for aerating the water contains a nozzle 1 with a propeller 2 positioned in it. In the nozzle housing 1, a cavity 3 is made. In the nose edge and feeding edge 3 of the nozzle t, cuts 6 and 7 are made extending from cavity 3 to the outer surface of the nozzle 1 and intended for the entry of water into the cavity 3 and the exit of the gas-water mixture 39 from it. Electrodes 8 and 9 in the cavity 3 are made in the form of concentrically located grid truncated cones and connected to a current source. The electrodes 8 and 9 are fixed to the insulating supports 10 so that annular gaps 11 and 12 are formed between each of the electrodes and the inner surface of the cavity 3. The taper angle of the outer electrode 8 is made larger than the taper angle of the inner electrode 9 due to which a diffuser cavity is formed between the electrodes 13 with a smaller cross section at the aft edge 5.. The device works as follows. When the vessel is moving, the incoming, non-aerated stream of water 1 enters through through notches 6 into the internal cavity 3 of nozzle 1 and through through notches 7 is withdrawn from strip 3 When moving the surface layer of contaminated, non-aerated water through an electric field created by the system of electrodes 8 and 9. its complex processing takes place. This is primarily the electrolysis of water entering the cavity 3 with the release at the electrodes 8 and 9 of the gaseous electrolysis products 15, mainly oxygen (at the anode) and hydrogen (at the cathode), which are aerating and floating agents. The dimensions of the bubbles of the gaseous electrolysis products (20-30 microns) are considerably smaller than those of air (80-100 microns), and, consequently, the rate of their rise is also smaller. In connection with this, aeration with gaseous electrolysis products provides a greater contact time (exposure) to the elementary volume of water with aerating agents, which increases the efficiency of aeration as a whole. Simultaneously with the processes of gassing in the diffuser cavity 13, such processes as electrophoresis (movement of the charged parts of the contaminants to the electrodes), dipolarphoresis (movement of the polarized particles in the electric field gradient zones - in the slots of the grid electrodes), subsequent coagulation (coarsening ) frequency of contamination (as a result of electric forces). The intensity of these processes depends on the chemical composition of water, metal electrodes, which can be soluble or insoluble, on the parameters of the electric current: voltage and density on the electrodes. In the case of the use of soluble electrodes (usually iron or aluminum) at the anode (+) anodic dissolution of the metal occurs, as a result of which iron or aluminum cations are transferred into water, which form coagulants common in water treatment practice, which contribute to additional coarsening of particles contamination. The design of the internal cavity 3, in which annular gaps 11 and 12 are provided, and the perforation (grid) of the electrodes 8 and 9 contribute to the reliable mixing of the electrolysis products with the treated liquid. At the same time, a diffuser cavity 13 formed between electrodes 8 and 9 contributes to intensive removal (ejection) of the treated water from cavity 3 by increasing the speed of water movement from the inlet notch 6 to the outlet notch. Due to the expansion of the through cuts 7 from the cavity 3 to the feeding edge 5, the flow of water treated in the cavity 3 is disrupted (with formation of a dilution zone 1b) and its additional turbulization behind the nozzle 1 with the flow of water 17 caused by the rotation of the screw 2. Simultaneously under the action of water flow from screw 2 leads to active involvement and distribution of electrolysis products throughout the entire cross section of nozzle 1. Next, some of the enlarged particles of contaminants settle to the bottom of the reservoir under the action of gravity, and the remaining part is oxidized by products of electrical olisa The invention allows to intensify the process of water aeration due to electrolysis of the treated water and rapid mixing of gaseous products with a mass of water before the mixture enters the active zone of the device directly behind the propeller, reduce the cost of water treatment and increase the cost efficiency of the aeration process by eliminating the costly production system and dosing compressed air into the water. Apparatus of the invention 1. A device for aerating water containing a nozzle with a propeller located in it and a source of gaseous aeration medium, which is so necessary in order to increase the efficiency and economy of the aeration process by using gaseous water electrolysis products The source of gas, 9 9 "aeration medium is provided with electrodes in the form of external and internal truncated sieve cones, and the nozzle is made straight and above-mentioned electrodes are mounted in its cavity. 2. A device according to claim 1, characterized in that the taper of the outer electrode is larger than the taper of the inner electrode. Sources of information taken into account in the examination 1, Heuser N. Sauerstoffanreicherung, Bi nngegewsern durch. L.Z. Binnenschiffahrt und wasserstr 1973, 100, No. 3, 122-126 (it) (prototype). 1 SudA / 5 9 8. FIG. ftl