RU2015105455A - LIQUID DISPERSION DEVICE WITH INCREASED KINEMATIC VISCOSITY - Google Patents

Abstract

1. A device for dispersing a fluid with increased kinematic viscosity, containing a flange, a confuser, passing into the nozzle, an annular rarefaction zone, a cylindrical nozzle, on the outer surface of which there is a mounting unit for a cavitation rod, made in the form of a solid stud with an end plate facing towards the fluid flow and located along the axis of the device with the possibility of its movement in the longitudinal direction in the area of the nozzle edge, an annular manifold with a nozzle placed on the outside the surface of the cylindrical nozzle, the annular rarefaction zone is formed by the outer surface of the confuser and nozzle, as well as the inner surface of the cylindrical nozzle, along which a perforation is made connecting the annular rarefaction zone with the space of the annular collector, while the rarefaction is created by an external remote device connected by means of a pipe to the annular collector, and the upper cut of the cylindrical nozzle has an excess over the upper cut of the nozzle, which provides the boundary of the conditional contact of the fluid and a rarefaction zone, characterized in that it is additionally equipped with a tubular element, a dynamic gas-hydraulic chamber, made in the form of a cylindrical structure, consisting of a diffuser and a straight section that passes into the confuser, while between the inner surface of the diffuser, the lower zone of the straight section and the outer part of the pipe element of the chamber is formed of excess gas pressure, which is equipped with a pipe for supplying compressed gas from an external device, while the exit of the chamber of excess gas marketing

Claims (5)

1. A device for dispersing a fluid with increased kinematic viscosity, containing a flange, a confuser, passing into the nozzle, an annular rarefaction zone, a cylindrical nozzle, on the outer surface of which there is a mounting unit for a cavitation rod, made in the form of a solid stud with an end plate facing towards the fluid flow and located along the axis of the device with the possibility of its movement in the longitudinal direction in the area of the nozzle edge, an annular manifold with a nozzle placed on the outside the surface of the cylindrical nozzle, the annular rarefaction zone is formed by the outer surface of the confuser and nozzle, as well as the inner surface of the cylindrical nozzle, along which a perforation is made connecting the annular rarefaction zone with the space of the annular collector, while the rarefaction is created by an external remote device connected by means of a pipe to the annular collector, and the upper cut of the cylindrical nozzle has an excess over the upper cut of the nozzle, which provides the boundary of the conditional contact of the fluid and a rarefaction zone, characterized in that it is additionally equipped with a tubular element, a dynamic gas-hydraulic chamber, made in the form of a cylindrical structure, consisting of a diffuser and a straight section that passes into the confuser, while between the inner surface of the diffuser, the lower zone of the straight section and the outer part of the pipe element of the chamber is formed of excess gas pressure, which is equipped with a pipe for supplying compressed gas from an external device, while the exit of the chamber of excess gas The new pressure is blocked by a perforated ring, the inner diameter of which does not exceed the inner diameter of the tube element, and at least one horizontal grid is installed in the cylindrical part of the gas-hydraulic chamber before entering the confuser. 2. The device according to p. 1, characterized in that the rods forming the cells of the horizontal grid are made with sharp edges. 3. The device according to claim 1, characterized in that the cells of two or more grids are placed with an offset relative to each other. 4. The device according to claim 1, characterized in that a flange connector is installed in the interface between the confuser, the lower end of the cylindrical nozzle and the upper end cylindrical part of the dynamic gas-hydraulic chamber, which allows the dynamic gas-hydraulic chamber block and the dispersing part of the device to be separated to different horizons. 5. The device according to p. 4, characterized in that the block of the dynamic gas-hydraulic chamber and the dispersing part of the device can be oriented in any spatial position.