SU1701645A1 - Water aeration device - Google Patents

Abstract

The invention relates to industrial fish farming, in particular, to devices for aerating water in fish farming. The purpose of the invention is to reduce energy consumption when the maximum degree of water saturation with oxygen is reached. The device includes a deflector 2 with a propeller 1. located in it. It is connected to a drive, as well as a gaseous medium generator with inert electrodes, connected to a current source, the electrodes being made as a block of flat plates located along the axis of the propeller, chickpeas dielectric fine mesh. A collector 10 is installed between the electrodes in the form of tubular gas-permeable sections fixed by means of grooves in the holders. The sections are located parallel to the axis of the water siOTOKa with distances between sections of 4-5 cross section sizes and a distance between the electrode surface and sections surface of the order of one section cross section size. During operation of the device, water enters the electrode chamber 3, where it is slightly decomposed into hydrogen and oxygen. Through the collector 10 in the oxygen enters the water, which diffuses from an external source. The invention makes it possible to increase the saturation of water with oxygen and reduce energy consumption by 4–5 times. 1 hp f-ly, 3 ill. with "

Description

The invention relates to devices for aerating water for aquaculture purposes.

The purpose of the invention is to reduce the energy intensity of aeration of water when it reaches the maximum degree of saturation with oxygen.

In FIG. 1 shows a device with a conditionally removed cover; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG.

1.

The device contains a propeller 1 with a drive and a nozzle with a deflector 2. In the body of the electrode chamber 3 are mounted 4 electrode holders made of electrical insulation material with dovetail grooves and spring-loaded with porous rubber with copper current conductors in them. Anodes 5, inserted into the grooves of the holders of the 4 electrodes, are attached to the anode bus 6, the cathodes 7 are attached to the cathode bus 8. The electrodes are protected by a fine-mesh mesh 9. Between the electrodes 5 and 7, a collector is installed in the form of tubular gas-permeable sections 10, fixed by grooves in holders 4, and the sections are parallel to the axis of the propeller 1 with distances between sections of the order of 4-5 sizes of the cross sections of the sections and the distances between the surface of the electrode and the surface of the section of the order of one cross-sectional size of the sections and.

The device operates as follows.

The water pumped by the propeller 1 is rectified by the deflector and enters the electrode chamber 3, where it is decomposed to hydrogen and oxygen to a small extent under the influence of a constant electric current. In the installation zone of the tubular membrane collector in the form of sections 10, diffusing oxygen from an external source, the maximum gradient of the electric field is reached, due to which water is freed from soluble salts and saturated with oxygen on the entire surface of the gas-permeable sections of the tubular collector. Collector oxygen performance is controlled by inlet pressure. Insoluble gases float to the surface of the water, in particular hydrogen, due to its lightness, collects near the lid in the stream and escapes into the atmosphere. The intensity of the aeration of water depends on the chemical composition of mineral impurities, the voltage gradient and current density at the electrodes, as well as the pressure drop of oxygen on the membranes. The invention improves the degree of saturation of water with dissolved oxygen, reduces by 45 times the energy intensity and cost of aerated water. In addition to aeration, the device can be used to dissolve any other gases in water,

Claims (2)

Claim 1. A device for aerating water, containing a nozzle with a deflector with a propeller with a drive located in it, an electrode chamber with inert electrodes in the form of a block of flat plates located along the axis of the propeller, each electrode is covered with a fine-mesh mesh, characterized in that, with In order to reduce the energy intensity of aeration of water when reaching the maximum degree of oxygen saturation, the device is equipped with a dielectric collector installed between inert electrodes. 2. The device according to π. 1, from the fact that the dielectric collector is made in the form of tubular gas permeable sections located parallel to the electrodes. . fig.Z