RU2019142937A - COMBINED COOLING TOWER - Google Patents

Claims (1)

Combined cooling tower containing a body in the form of an exhaust tower with air inlet windows in the lower part, a water catching device, a catchment basin located under the cooling tower body, a water distribution system with spray nozzles, the outlet openings of which are directed upwards, an irrigation device, spray nozzles, and a recirculating water supply system has separate hydraulic circuits for the preparation and consumption of water, while at least two tanks for collecting water are located in the lower part of the cooling tower body, which are connected to each other by a compensation pipe, ensuring the hydraulic independence of the circuits for the preparation of working water and its consumption, while one tank is connected to pump, which supplies the water cooled in the cooling tower to the consumer, which again flows through the valve through the pipeline to the second tank, from which the heated water is pumped through the filter and the valve through the pipeline to the manifold with nozzles located in the upper part and the cooling tower body, and in the section between the filter and the valve, a filter hydraulic resistance control system is installed, consisting of a pressure gauge and a valve, the exhaust tower is made in the form of a fan body, characterized in that the spray nozzle contains a hollow cylindrical body connected to a nozzle in which throttling openings, the hollow body consists of a cylindrical part with an external thread for connection to the nozzle of the distribution pipeline for supplying liquid, and two hollow cylindrical-conical belts connected in series and coaxial with it, and coaxially to the body, in its lower part, a nozzle is fixed, made in in the form of a glass, in the bottom of which vertical and inclined throttle holes are made at an angle of 45 ° to the axis of the nozzle, and in the cylindrical belt of the body at least one row of radial holes is made, the axes of which lie in a plane perpendicular to the axis of the body, while the number of holes each row equals at least , three, while the body and the nozzle form between themselves several coaxial internal chambers: cylindrical, and a conical chamber located between them, and one of the cylindrical chambers serves to supply the sprayed liquid, and the conical chamber and the cylindrical chamber are expansion chambers, and in the central part of the nozzle, a tube for supplying air (gas) is fixed coaxially to it, to one of the ends of which, in its lower part, a hollow disk with perforations facing the outlet sections of the nozzle throttling holes is fixed, while the perforation in the hollow disk is made facing the side of the outlet sections of the nozzle throttles in the form of a helical groove formed by the Archimedes spiral located inside the hollow disk, and to the end part of the hollow cylindrical-conical belt, axisymmetrically to the air supply tube, to one of the ends of which, in its lower part, a hollow disk with perforation is fixed , in the form of a helical groove formed by the Archimedes spiral and facing to the side the outlet sections of the nozzle throttling holes, a diffuser is attached, and a hollow conical fairing is attached to the solid part of the hollow disk, while its apex lies in the diffuser cutoff plane, with the formation of outlet cavities formed by the inner surface of the diffuser and the outer surface of the fairing, while to the solid part a hollow disk, to which a hollow conical fairing is attached, a resonator sleeve is fixed coaxially to the air supply tube, and a resonator sleeve is fixed perpendicular to its axis, opposite to each other, on the conical surface of the conical fairing two resonator sleeves are fixed, while the total flow area of the resonator sleeves is equal to the equivalent flow area a Helmholtz resonator formed by the volume of a hollow conical fairing and resonator bushings, tuned to the required resonant frequency of the acoustic head of a pneumatic atomizer, to the diffuser, inside which a conical fairing with resonator bushings is located, and A spray gun made in the form of a cylindrical shell with a perforated circular plate on its cut, while inside the shell there is a spherical Helmholtz resonator with resonator bushings, which is fixed on the braces connected to the diffuser, and is located coaxially with the air supply tube.