RU2298751C1 - Aerodynamic cooling tower - Google Patents

Abstract

FIELD: evaporating chimney-type aerodynamic cooling towers.

SUBSTANCE: the aerodynamic cooling tower has an evaporating tower, air-guide baffles with a rough surface located at the inlet ports, vortex generators are admitted to it, the vortex generators are made in the form of an impeller with a generator and positioned in the area of the tower inlet ports, the top of the tower is covered by a structure of thin vertical strips reducing the horizontal component of the wind flow penetrating into the tower.

EFFECT: enhanced thermal efficiency of aerodynamic cooling towers.

3 dwg

Description

The invention relates to the field of power engineering and can be used in evaporative tower aerodynamic cooling towers.

The tower evaporative cooling tower is an aerodynamic installation in which a vertical air flow is formed to cool the circulating water coming in the form of small droplets.

Known tower evaporative cooling tower, in which to increase the efficiency of cooling by the air flow in the area of the air inlet windows are installed air guide shields [1]. These shields add to the swirl of the air flow entering the tower, as a result of the thermal efficiency of the cooling tower increases.

The disadvantage of this device is that in this way it is impossible to significantly increase thermal efficiency. This is because the contact area of water droplets with the air flow remains limited due to its low turbulence.

Closest to the claimed invention is the design of the tower evaporative cooling tower, which increases the turbulence of the air flow [2]. It contains air shields located at the entrance windows of the tower. The panels are installed at a certain angle with respect to the radius of the base of the tower. To increase the turbulence of the air flow entering the tower, a roughness is created on the surface of the guide shields with the help of protrusions of different heights.

The cooling tower works as follows. The flow of external cold air, interacting with the surface of the air guide shields, enters through the entrance windows of the tower, acquiring the tangential velocity component due to the angular arrangement of the shields, and is also turbulized by the rough surface of the shields.

The disadvantage of this design is the low thermal efficiency. This is because the protrusions are a passive turbulizing element and at the same time an obstacle that creates resistance to flow. With their help, it is impossible to turbulize the air flow of the required intensity without creating a lot of resistance.

Another reason for the low efficiency is that strong wind flows at the upper end of the tower lead to the formation of dead zones inside the tower, into which cold air does not enter through the inlet openings, therefore, water cooling in these zones does not occur.

The purpose of the invention is to increase the thermal efficiency of the aerodynamic cooling tower.

The technical result is achieved by the fact that in the aerodynamic cooling tower containing an evaporation tower, air guards with a rough surface located at the entrance windows of the tower, turbulators are introduced, made in the form of an impeller with a generator and located in the region of the entrance windows of the tower, and the top of the tower is covered by a structure of thin vertical stripes that reduce the horizontal component of the wind flow penetrating the tower.

Impellers with a generator can increase turbulence in the air flow. By adjusting the load of the generators, it is possible to change the intensity of the turbulence of the flow.

Overlapping of thin vertical stripes located on the top of the tower eliminates the dead zones that occur in the tower during strong winds, as a result, the entire volume of the tower works uniformly, so its thermal efficiency increases.

The scheme of the aerodynamic cooling tower is shown in the drawing, where: a - side view; b - top view; in - section at the base. It contains an evaporation tower 1, at the base of which there are entrance windows 2. Near them at an angle to the radius of the base of the tower are air guide shields 3, on the surface of which a roughness is created using protrusions of different heights. In the area of the input windows 2 are turbulators 4, each made in the form of an impeller with a generator. The top of the tower 1 is covered by a structure of thin vertical stripes 5. The shape of the structure may be different, for example, in the form of rings interconnected made of thin vertical stripes, as shown in drawing (b).

Aerodynamic cooling tower operates as follows. External cold air enters the tower 1 through the inlet windows 2. Interacting with the air guide shields 3, it acquires the tangential component of speed due to their angular arrangement and is partially turbulized, interacting with the rough surface of the shields. The main turbulization of the air flow is carried out using turbulators 4, made in the form of an impeller with a generator, while the generators generate electricity. By adjusting the load of the generators, it is possible to control the intensity of turbulence in the air flow.

In strong winds, a structure of thin vertical stripes 5 overlapping the top of the tower reduces the horizontal component of the wind flow penetrating the tower and prevents the formation of dead zones inside the tower in which water is not cooled. As a result, the entire volume of the aerodynamic cooling tower works uniformly, so its thermal efficiency increases.

Thus, the proposed technical solution allows to increase the thermal efficiency of the aerodynamic cooling tower by increasing the intensity of turbulence and eliminating the negative impact of wind on the operation of the cooling tower. In addition, the introduction of air flow turbulators, made in the form of an impeller with a generator, makes it possible to additionally obtain electricity using the heat of water entering the cooling tower.

Information sources

1. A.S. USSR No. 380817, class E 04 H 5/12.

2. RF patent No. 2196947, class F 28 C 1/00, E 04 H 5/12 (prototype).

Claims (1)

An aerodynamic cooling tower containing an evaporation tower, air-guiding shields with a rough surface located at the entrance windows of the tower, characterized in that turbulators are introduced into it, made in the form of an impeller with a generator and located in the area of the entrance windows of the tower, and the top of the tower is overlapped by a structure of thin vertical bands that reduce the horizontal component of the wind flow penetrating the tower.