RU193734U1 - Ice Prevention Device in a Tower Cooling Tower - Google Patents

Abstract

The utility model relates to a power system and can be used to cool recycled water in cooling towers of industrial enterprises. The device for preventing ice formation in the tower tower at atmospheric air temperatures below zero contains the upper and lower pipelines located at the top and bottom of the air inlets, respectively, while the air inlets are equipped with two-section rotary shutters with the formation of the lower and upper sections, while the rotary shutters are installed with the ability to adjust the air pass depending on the operating mode of the tower, wind load and air temperature by rotation of the blinds, over which an aerodynamic visor is installed, the upper pipe is made with water-spraying nozzles with the formation of the last water curtain between the air inlets and the sprinkler, the upper and lower pipes are connected to the water distribution pipe with the supply of warm, cooled water, and the upper pipe is fixed to the side wall cooling towers on the inside of the casing and above it a water visor is made, the lower pipeline is fixed under the upper pipeline near the side wall of the housing with its inner side connected to the water distribution pipe water distribution system with Water-spraying nozzle mounted above the sprinkler and adapted to supply cooling water with a higher density at reflux in a peripheral area. As a result, it is possible to prevent ice formation in the tower tower at atmospheric air temperatures below zero. 2il.

Description

The utility model relates to a power system and can be used to cool recycled water in cooling towers of industrial enterprises.

A device is known that contains installed around the perimeter of the upper part of the tower at an angle from 5 to 45 ° to its vertical axis of the device for supplying by means of fans an additional stream of cold and dry air to separate warm and humid air inside the tower from the cold wall, which helps to prevent its icing (see patent RU No. 2451885, class F28C 1/12, publ. 05.27.2012).

However, this installation does not prevent the formation of ice on the bottom of the sprinkler, which limits the installation.

The closest to the utility model in technical essence and the achieved result is a device for preventing ice formation in a tower tower at atmospheric air temperatures below zero, containing the upper and lower pipelines located at the top and bottom of the air inlets (see copyright certificate SU No. 909539, class F28C 1 / 00, published on 02.28.1982).

However, this device does not fully prevent the ingress of cold air into the tower through the central regions of the air inlet windows, since only peripheral portions of the air inlet windows can be heated.

The technical problem solved by the utility model is the elimination of identified shortcomings.

The technical result consists in the fact that it is possible to prevent ice formation in a tower tower at atmospheric air temperatures below zero.

The specified technical problem is solved, and the technical result is achieved due to the fact that the device for preventing ice formation in the tower tower at atmospheric air temperatures below zero contains the upper and lower pipelines located at the top and bottom of the air inlets, respectively, while two-section swivels are installed in the air inlets blinds with the formation of the lower and upper sections, while the rotary blinds are installed with the possibility of adjusting the air pass depending depending on the operation mode of the cooling tower, wind load and ambient temperature by sectionwise rotation of the blinds above which the aerodynamic visor is installed, the upper pipeline is made with water-spraying nozzles with the formation of the last water curtain between the air inlet windows and the sprinkler, the upper and lower pipelines are connected to the water distribution pipeline with supply from it cooled warm water, and the upper pipeline is fixed to the side wall of the tower from the inside of the housing above it is made of baffle visor, lower conduit is secured below the upper conduit around the side wall from its inner side of the housing, water distribution pipe connected to the water distribution system with Water-spraying nozzle mounted above the sprinkler and adapted to supply chilled water with greater irrigation density at the peripheral area.

The above-described design feature of the device to prevent ice formation in the fan tower at atmospheric air temperatures below zero allows you to prevent the cold air from entering the tower during the winter period of operation of the tower over the entire area of the air inlet windows and, at the same time, to ensure that the main function of the tower is its full function - reverse cooling water to the required temperature.

In FIG. 1 shows a longitudinal section of a cooling tower with an ice formation prevention device in a fan cooling tower at atmospheric temperatures below zero.

In FIG. 2 shows a remote element 1 in FIG. one.

The device for preventing ice formation in the tower tower at atmospheric air temperatures below zero contains the upper and lower air ducts 2 located at the top and bottom, respectively, the upper 3 and lower 4 pipelines, while the air inlet windows 2 are equipped with two-section rotary shutters 5 with the formation of the lower and upper sections.

Rotary blinds 5 are installed with the possibility of adjusting the air pass depending on the operating mode of the tower, wind load and air temperature by sectionwise rotation of the blinds 5, above which the aerodynamic visor 6 is installed.

The upper pipeline 3 is made with water-spraying nozzles 7 with the formation of the last water curtain between the air inlets 2 and the sprinkler 8.

The upper 3 and lower 4 pipelines are connected to a water distribution pipe 9 with the supply of warm, cooled water from it, and the upper pipe 3 is fixed to the side wall 10 of the cooling tower from the inside of the housing 11 and a water pick-up visor 12 is made above it.

The lower pipe 4 is fixed under the upper pipe 3 near the side wall 10 of the housing 11 from its inner side. The water distribution pipeline 9 is connected to the water distribution system 13 with water-spraying nozzles mounted above the sprinkler 8 and configured to supply cooled water with a higher density of irrigation in the extreme peripheral zone.

During the operation of the cooling tower in winter, the upper pipeline 3 provides a curtain of warm water along all the air inlet windows 2 and a thermal curtain along the upper perimeter of the air inlet windows 2 to prevent stalactite formations, and the lower pipeline 4 creates a thermal curtain in the air entering the cooling tower at the bottom of the air inlet windows 2 to prevent stalagmite formations, while the air control system allows you to adjust the air supply depending on the operating mode of the tower, wind load, and automatic or manual atmospheric air temperature with rotary louvers 5, divided into upper and lower sections, which allows you to adjust the flow of cold air by partially blocking the air inlet windows 2, which in combination with the formation of a water curtain over the entire area of the air inlet windows 2, heating the incoming air along the upper and the lower perimeter of the air inlet windows 2 and the use of a water distribution system 13 with a higher density of irrigation in the extreme peripheral zone of the sprinkler 8 allows you to prevent the image vanie ice cooling tower of air at very low temperatures (below 0 ° C wet bulb), and the aerodynamic of baffle 6 and 12 sunshields prevent cold air flow past the air-intake windows 2.

Claims (1)

A device for preventing ice formation in a tower tower at atmospheric air temperatures below zero, comprising upper and lower pipelines located at the top and bottom of the air inlets, characterized in that the air inlets are equipped with two-section rotary shutters with the formation of the lower and upper sections, while the rotary the blinds are installed with the possibility of adjusting the air pass depending on the operating mode of the cooling tower, wind load and atmospheric temperature of the spirit by sectional rotation of the blinds over which the aerodynamic visor is installed, the upper pipeline is made with water-spraying nozzles to form the last water curtain between the air inlets and the sprinkler, the upper and lower pipes are connected to the water distribution pipe with the supply of warm, cooled water, and the upper pipe is fixed to the side wall of the cooling tower on the inside of the casing and above it is made a water pick-up visor, the lower pipeline is fixed under the upper m duct near side wall of the housing with its inner side, water distribution pipe connected to the water distribution system with Water-spraying nozzle mounted above the sprinkler and adapted to supply cooling water with a higher density at reflux in a peripheral area.

Images