RU2018107771A - METHOD OF ROTARY WATER SUPPLY WITH APPLICATION OF COOLERS - Google Patents

Claims (2)

1. A method of recycled water supply using cooling towers, which consists in connecting several cooling towers with the hydraulic circuits for preparing and consuming water, cooling towers so that the hydraulic circuits for preparing and consuming water function separately, with the cooling towers located at the bottom of the casing at least two water collection tanks that are interconnected by a compensation pipe, ensuring hydraulic independence of the circuits for the preparation of working water and its consumption in this case, one tank is connected to the 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 heated water is pumped through the filter and valve to the manifold with nozzles located in the upper part the cooling tower housing, and in the area between the filter and the valve, a filter hydraulic resistance control system is installed, consisting of a manometer and a valve, each of the nozzles containing a housing that is hollow, axially the axis of which is perpendicular to the axis of the hole of the manifold pipe, and the shape of the body is made in the form of a body of revolution formed by a second-order curve, for example spherical, in the form of a truncated ellipsoid or paraboloid of revolution, and a straightening element is installed in the nozzle from the side of the flow hole of the manifold pipe in the form of a ring having a central sleeve with which rigidly connected at least three blades are radially arranged connected to the nozzle body, the body being made with two the steps, which are located perpendicular to the nozzle axis, by means of which steps are used to fix the nozzle through the clamps with locks on the manifold, while in the lower part of the nozzle body there is a conical throttle hole connected to the mixing chamber, which is located between the throttle hole and the straightening element, and on the inner surface mixing chambers have helical grooves, the fan cooling tower is made in the form of a housing, a spray device, a liquid collection tank and a fan, while c consists of two parts - the upper part, including the sprinkler and the droplet separator, between which there is a collector of the spraying device with solid nozzles and a lower part, in which there is a water tank for collecting cooled water with a fan installed on it, and the casing is made of stainless steel sheet and in the water tank there is a diffuser, which is a part of the housing and is connected to a fan made with a plastic impeller and a multi-speed electric motor m, allowing in the process of work, depending on weather conditions, to change the performance of the tower due to changes in air flow, and the droplet separator is made with triple corrugation, where the air flow changes direction three times and due to this a significant reduction in droplet drop is achieved, and at air speed in the live section of the droplet separator from 4 to 4.5 m / s, the degree of separation of droplet moisture is 99.9%, while the amount of droplet entrainment is 0.1% of the amount of water passing through the tower at nominal mode, and a decrease in the flow rate of water through the cooling tower reduces the amount of droplet entrainment to 0.05%, while the collector of the spraying device is located in the upper part of the casing and is a system of parallel-connected pipes, on which one-piece nozzles are secured in a checkerboard pattern with clamps and locks, and the cooling tower sprinkler is made in the form of a module from layers of polymer cellular pipes, the pipes are cylindrical, placed in all layers parallel to each other and welded along the ends of the module between them in places with tying, while the cavities of each of the pipes and the annular space are filled with hollow polymer balls, and the diameter of the balls is 5 ÷ 10% larger than the maximum cell size of the pipes, while the cooling tower sprinkler is made in the form of a module from layers of polymer cellular pipes assembled from corrugated sheets that welded along the edges of the corrugations, and the structure of the channels is performed from the following combinations: straight-tortuous, straight-inclined, curved-inclined, characterized in that the nozzle of the collector located in the upper part of the tower body, they are filled in the form of a casing with a screw coaxially located in the lower part of the casing and located in the upper part of the casing, a fitting with a cylindrical hole for supplying fluid connected to a diffuser, an axisymmetric casing and a fitting, the auger is pressed into the casing with the formation of a conical chamber located above the auger coaxial to the diffuser and connected in series with it, the screw being solid, and the external surface of the screw being two series-connected surfaces, one of which is at least a one-way screw groove with a right or left thread, and is located inside the body, and the second surface is smooth in the form of a body of revolution, axisymmetrically connected to the spray disk located perpendicular to the axis of the body, and protrudes beyond the end surface of the lower part of the body, and as the line forming this surface can be either a straight line or an nth-order curved line, and the surface of the spray disk protruding beyond the end surface of the lower part of the housing it is directed toward the lower part of the casing and has radial cutouts on the peripheral part alternating with the solid part of the surface of the spray disk, and the spray disk is displaced along the axis of the nozzle downward from the smooth surface of the body of rotation of the screw connected to the screw surface of the screw by an amount h, depending on the viscosity sprayed liquid, and is connected to the screw through a rod axisymmetrically located to the screw, while a diffuser is enclosed to the end lower part of the nozzle body, covering the spray disk, at the top of the cone are made at least three ejection openings. 2. The method of circulating water supply using cooling towers according to claim 1, characterized in that an additional atomizer in the form of a cylindrical shell, in which four mesh dividers are mounted in series, is mounted coaxially and axisymmetrically to the nozzle axis according to claim 1, wherein one of them is made in the form of a mesh diffuser, mounted on a mesh circle, mounted perpendicular to the axis of the nozzle, and mounted on the inner surface of the cylindrical shell, and two other mesh sections of Tell - conical round and fixed to the inner surface of the cylindrical shell so that the conical sieve divider axis coaxial nozzle axis, and the center of the round deflector coincide with the center circle of the mesh.