RU115056U1 - FAN COOLING TOWER - Google Patents

Abstract

A fan cooling tower containing a body with a polymer sprinkler installed in it, a water distribution system, a drip catcher and a pool for collecting water, while the pool is located under a polymer sprinkler, and the water distribution system is located above the polymer fill, the cooling tower body is made of a prefabricated metal frame sheathed with galvanized metal sheets with polymer coating, the drop catcher is located above the water distribution system, in the upper part of the cooling tower above the drop catcher there is at least one fan, and in the lower part of the body there are air inlet windows, characterized in that the air inlet windows are installed on horizontal axes with the possibility of turning the louvers, and in each air inlet window, the louvers are combined into a group in which the louvers are connected kinematically to each other by means of rods with the possibility of simultaneous rotation with the formation of an acute angle with respect to the vertical wall of the housing in which they are installed blinds of each group, as well as with the possibility of fixation in intermediate open and closed positions, and each blind is made in the form of a multilayer rectangular panel with outer and inner skin of corrosion-resistant material and a heater placed between them.

Description

The utility model relates to a power system, namely to cooling towers of water recycling systems of power plants and industrial enterprises.

Known fan tower containing a tower, a sprinkler with a water distributor installed above it, a water catcher and a catchment basin, and the sprinkler is made with central and peripheral sections (see copyright certificate SU No. 1548634, CL. F28C 1/00, 03/07/1990).

The implementation of the tower with the Central and peripheral sections allows you to adjust the performance of the tower. However, this cooling tower has significant dimensions, which narrows the scope of its use.

The closest to the utility model in terms of technical nature and the achieved result is a fan cooling tower containing a housing with a polymer sprinkler, a water distribution system, a drip trap and a pool for collecting water, the pool is located under the polymer sprinkler, and the water distribution system is located above the polymer sprinkler, the casing of the cooling tower is made of a prefabricated metal frame with a polymer coating sheathed with galvanized metal sheets, the drop catcher is located on d with a water distribution system, at least one fan is located in the upper part of the tower above the drip catcher, and air inlets are made in the lower part of the casing (see utility model patent RU No. 54157, class F28C 1/02, 06/10/2006) .

In this design of the cooling tower, a reduction in size is achieved due to the transverse supply of cooling air. However, the design of the cooling tower does not allow adjusting the supply of cooling air, which, especially in the winter months, can lead to overcooling and, as a consequence, a decrease in its performance.

The problem solved in the utility model is the organization of an adjustable supply of cooling air.

The technical result achieved by using the utility model is to increase the reliability and performance of the tower, regardless of climatic changes in ambient temperature, while simplifying the design of the tower.

This problem is solved, and the technical result is achieved due to the fact that the fan cooling tower contains a housing with a polymer sprinkler, a water distribution system, a drip trap and a pool for collecting water, the pool is located under the polymer sprinkler, and the water distribution system is located above the polymer sprinkler, the cooling tower case is made of a prefabricated metal frame with a polymer coating sheathed with galvanized metal sheets, a drop catcher is located above the water system distribution, at least one fan is located in the upper part of the tower above the droplet eliminator, and air inlets are made in the lower part of the casing, while the air inlets are mounted on horizontal axes with the possibility of rotation of the blinds, and in each air inlet window, the blinds are grouped, in which the blinds are kinematically connected to each other by means of rods with the possibility of simultaneous rotation with the formation of an acute angle with respect to the vertical wall of the housing in which the blinds are installed each group, as well as with the possibility of fixing in the intermediate open and closed positions, with each louvre made in the form of a multilayer rectangular panel with outer and inner lining of a corrosion-resistant material and insulation placed between them.

The implementation of the cooling tower with a housing made of a prefabricated metal frame coated with galvanized metal sheets with a polymer coating in combination with the implementation of air inlet windows in the lower part of the housing, in which the blinds are mounted on horizontal axes with the possibility of rotation of the blinds, and in each air inlet window, the blinds are combined into a group in which the blinds kinematically connected to each other by means of rods with the possibility of simultaneous rotation with the formation of an acute angle with respect to the vertical wall of the housing, in which the blinds of each group are installed, and also with the possibility of fixing in the intermediate open and closed positions, each blind made in the form of a multilayer rectangular panel with the outer and inner lining of a corrosion-resistant material and a heater placed between them, which allows creating corrosion-resistant structural elements almost any required profile with high heat-insulating properties, which can significantly simplify the design of the cooling tower and at the same time increase the reliability of cooling tower operations.

At the same time, among other things, it is possible to regulate and maintain the required operating mode regardless of weather conditions, namely, to organize the maximum air supply during the summer period of operation when the fan is running at 100% capacity, and in winter to limit the supply of cold air to the cooling tower. In addition, in the daytime of a power plant’s operation, with increased demand for electricity, the tower operates at 100% capacity and provides the maximum supply of cooling air, and at night, when energy consumption is sharply reduced, the tower can be switched to a mode of operation with reduced productivity. Blinds allow you to restrict the supply of cooling air to the tower.

Figure 1 shows a longitudinal section of a fan cooling tower.

Figure 2 presents a cross section of a fan tower made along the axis of the shaft of the blade wheel of one of the fans of the tower.

Figure 3 presents a part of a cross section of a fan tower at the installation location of the blinds.

The fan tower contains a housing 1 with a polymer sprinkler 2 installed in it, a water distribution system 3, a drip trap 4 and a pool 5 for collecting water located under the polymer sprinkler 2. The water distribution system 3 is located above the polymer sprinkler 2. The cooling tower body 1 is made of a prefabricated galvanized galvanized metal metal sheets 6 of the frame 7 with a polymer coating. A droplet eliminator 4 is located above the water distribution system 3. At least one fan 8 is located in the upper part of the tower above the droplet eliminator 4, and air inlet windows 9 are made in the lower part of the housing 1, while the louvers 10 are mounted on horizontal axes, moreover, in each air inlet window 9, the blinds 10 are combined into a group in which the blinds 10 are kinematically connected to each other via rods 11 with the possibility of simultaneous rotation with the formation of an acute angle, for example 87 ° (see figure 3) with respect to to the vertical wall of the housing 1, in which the blinds 10 of each group are installed, as well as with the possibility of fixing in the intermediate open and closed positions. Each louvre 10 is made in the form of a multi-layer rectangular panel with outer and inner lining of a corrosion-resistant material and insulation placed between them.

The cooling tower fan 8 includes a housing 12 made in the form of a confuser-diffuser shell, in which a blade wheel 13 is mounted, the shaft of which is connected to the rotary drive 14 of the blade wheel 13. The confuser-diffuser shell is made in the form of a rotation body, the confuser and diffuser parts of which are conical surfaces smoothly conjugated with a cylindrical part formed by a cylindrical surface. The conical surfaces forming the confuser and diffuser parts of the shell are smoothly mated with the cylindrical surface of the shell by surfaces formed by a paraboloid of revolution. The rotational drive 14 of the blade wheel 13 is made in the form of an angular gear installed in the housing and connected via a shaft to an electric motor located outside the housing 12.

During the operation of the cooling tower, water is sprayed through the water distribution system 3 and falls onto the surface of the polymer sprinkler 2, filling the volume between the pool 5 and the water distribution system 3, through which water flows as a thin film into the pool 5. At the same time, the flowing film of water is blown by the air stream created by the fan 8. Dry atmospheric air is blown through the layers of the sprinkler 2, which contributes to its intense saturation with evaporated moisture over the entire height of the sprinkler and intensive cooling of the water. The supply of cooling air to the tower is regulated by changing the position of the shutters 10 in the air inlet windows 9 and thus changing the passage section of the latter.

This utility model can be used in recycled water supply systems of technological plants, for example, refrigeration units, air conditioning units, compressor stations, power plants and other industrial plants where circulating water cooling is required.

Claims (1)

A fan tower containing a housing with a polymer sprinkler installed in it, a water distribution system, a drip trap and a pool for collecting water, while the pool is located under the polymer sprinkler, and the water distribution system is located above the polymer sprinkler, the tower body is made of a prefabricated metal sheathed galvanized metal sheet frame with with a polymer coating, a droplet eliminator is located above the water distribution system; at the top of the cooling tower above the droplet eliminator is located, at least at least one fan, and in the lower part of the housing there are air inlet windows, characterized in that the air inlets are mounted on horizontal axes with the possibility of rotation of the blinds, and in each air inlet window, the blinds are combined into a group in which the blinds are kinematically connected to each other by rods with the possibility of simultaneous rotation with the formation of an acute angle with respect to the vertical wall of the housing in which the blinds of each group are installed, as well as with the possibility of fixing in an intermediate open Washed and closed positions, and each blind is made in the form of a multilayer rectangular panel with outer and inner cladding of corrosion-resistant material and insulation placed between them.