RU2018101093A - METHOD OF ROUTINE WATER SUPPLY WITH APPLICATION OF GRADIREN - Google Patents

Claims (1)

 The method of circulating water supply with the use of cooling towers, which consists in interconnecting the hydraulic circuits of the preparation and consumption of water to several cooling towers, the cooling towers are connected so that the hydraulic circuits of the preparation and consumption of water function separately, while at the bottom of the cooling tower have at least , two water collection tanks, which connect the compensation pipe to each other, ensuring the hydraulic independence of the working water preparation circuits and its consumption i, while one tank is connected to the pump, which supplies cooled water in the cooling tower to the consumer, which again flows through the valve through the pipeline into the second tank, from which the heated water is pumped through the filter and valve through the pipeline into the collector with the nozzles located in the upper part cooling tower bodies, and in the area between the filter and the valve, a hydraulic resistance control system consisting of a pressure gauge and a valve is installed; the fan cooling tower is designed as a housing, a spray device, the tank for collecting the liquid and the fan, while the body consists of two parts - the upper part, including the sprinkler and the droplet separator, between which is located the collector of the spraying device with solid-nozzle nozzles and the lower part, in which is located the collection tank for collecting cooled water a fan, the casing being made of thin-sheet stainless steel, and in the reservoir tank there is a diffuser, which is a part of the casing and connected to a fan made of plastic impeller and multi-speed electric motor, which allows, in the course of work, depending on weather conditions, change the performance of the cooling tower by changing the air flow, while the collector of the spraying device is located in the upper part of the body and is a system of parallel-connected pipes on which are staggered by means of collars with locks, solid-nozzle nozzles, and cooling tower sprinkler are made as a module of layers of polymer cellular pipes, the pipes are cylindrical they are parallel to each other and welded along the ends of the module to each other at the contact points, with the cavities of each pipe and the annular space filled with hollow polymer balls, and the diameter of the balls is 5 ÷ 10% larger than the maximum cell size of the pipes cooling tower sprinkler is made as a module of layers of polymeric cellular pipes assembled from corrugated sheets, which are welded along the edges of the corrugations, and the channel structure is made of the following combinations: straight-curved, straight-inclined, curved - inclined, characterized in that the nozzle of the collector, located in the upper part of the cooling tower body, is made in the form of a body with a turbulence chamber and a nozzle, the body is made in the form of an inlet fitting with a central hole, and a coaxial cylindrical cylindrical sleeve with an internal thread and an expansion chamber coaxial to the body, while coaxially to the body, in its lower part is connected to the sleeve by means of a thread a nozzle made in the form of an inverted glass, in the bottom of which a turbulent flow swirler is made liquids with at least two cylindrical bore openings inclined to the nozzle axis; they are located in the nozzle end surface, where the central cylindrical throttle opening is also made, connected to the nozzle mixing chamber connected in series with the diffuser outlet chamber, and in the lower part the chamber of the nozzle is fixed hollow conical swirl, the conical shell of which is fixed by means of at least three spokes secured at one end on the conical shell swirl of Tell, in its upper part, and the other end - in an annular groove formed on the inner surface of the mixing chamber and on the outer surface of the hollow conical swirler operate screw thread.