RU72734U1 - COOLING DIFFUSER - Google Patents

Abstract

The utility model is aimed at increasing the efficiency of the heat and mass transfer process. This problem is solved due to the fact that the diffuser is made of two sections, and each of these sections consists of two sections, namely, the first section of the lower section is made in the form of a hollow truncated converging cone with an angle of inclination of 30-50 ° to the horizon, the second section of the lower section made in such a way that in longitudinal section it forms arcs of circles whose centers are located on the outside of the tower diffuser, the first section of the upper section is made in the form of a hollow cylinder or a hollow truncated diverging cone under scrap 1-10 ° to the vertical, and the second portion of the upper section - in the form of a hollow truncated cone diverges at an angle of 5-30 ° to the vertical. At the same time, the lower section can consist of 30-40 segments, and the upper one consists of 15-20 segments, which are connected to each other and to the tower body using flange connections, also the lower section can be made with a viewing window, and a gasket is installed between the flanges so that one gasket corresponds to one joint.

Each segment of the upper and lower sectors may have stiffening ribs on the outside of the diffuser, the stiffening ribs of the upper sector being a lattice of a trapezoidal profile in longitudinal section, and the stiffening ribs of the lower sector being a complex construction, as shown in FIG. a trapezoidal profile in longitudinal section, while the small base of the trapezoid is located on the outside of the tower diffuser. Also, stiffeners can be made of a profile, which in longitudinal section is a trapezoid, without a large base, a triangle or corner. 9 ill.

Description

The utility model relates to energy and the chemical industry and can be used as part of a cooling tower.

Known diffuser cooling tower, consisting of three sections: conical converging, cylindrical and conical diverging [Cooling towers of industrial and energy enterprises: Reference manual / Under the general. ed. B.C. Ponomarenko. - M .: Energoatomizdat: 1998. - p. 123].

The disadvantage of this tower diffuser is its poor airflow, which results in a decrease in the efficiency of the fan installed in the volume of the tower diffuser, i.e. there is a decrease in the rate of upward air flow, as a result of which the efficiency of the tower itself decreases.

The utility model solves the problem of increasing the efficiency of the heat-mass transfer process.

This object is achieved by the fact that the diffuser is configured two-part, each of said sections comprises two sections, namely, a first portion of the lower section is formed as a hollow truncated cone with a convergent angle ^of 30-50 to the horizontal, the second portion of the bottom section made in such a way that in longitudinal section it forms arcs of circles whose centers are located on the outside of the tower diffuser, the first section of the upper section is made in

in the form of a hollow cylinder or a hollow truncated diverging cone at an angle of 1-10 ° to the vertical, and the second section of the upper section is in the form of a hollow truncated diverging cone at an angle of 5-30 ° to the vertical.

At the same time, the lower section can consist of 30-40 segments, and the upper one consists of 15-20 segments, which are connected to each other and to the tower body using flange connections, also the lower section can be made with a viewing window, and a gasket is installed between the flanges so that one gasket corresponds to one joint.

Each segment of the upper and lower sectors may have stiffening ribs on the outside of the diffuser, the stiffening ribs of the upper sector being a lattice of a trapezoidal profile in longitudinal section, and the stiffening ribs of the lower sector being a complex construction, as shown in FIG. a trapezoidal profile in longitudinal section, while the small base of the trapezoid is located on the outside of the tower diffuser. Also, stiffeners can be made of a profile, which in longitudinal section is a trapezoid, without a large base, a triangle or corner.

Figure 1 shows a General view of the diffuser of the tower.

Figure 2 shows a top view of the diffuser of the tower.

Figure 3 shows a General view of the lower section of the diffuser of the tower.

Figure 4 shows a General view of the upper section of the diffuser of the tower.

Figure 5 shows a segment of the lower section.

Figure 6 shows a variant of the segment of the lower section with a viewing window.

7 shows a segment of the upper section.

On Fig shows a diagram of the fastening of the segments together.

Figure 9 shows a diagram of the attachment of sections to the tower body.

The tower diffuser is made in two sections, each of these sections consists of two sections, namely, the first section of the lower section 1 is made in the form of a hollow truncated converging cone with an angle of inclination of 30-50 ° to the horizontal, the second section of the lower section 2 is made in such a way that in a longitudinal section it forms arcs of circles whose centers are located on the outside of the tower diffuser, the first section of the upper section 3 is made in the form of a hollow cylinder or a hollow truncated diverging cone at an angle of 1-10 ° to the vertical, and the second Astok upper portion 4 - in the form of a hollow truncated cone diverges at an angle of 5-30 ° to the vertical.

At the same time, the lower section can consist of 30-40 segments, and the upper one consists of 15-20 segments, which are connected to each other and to the tower body using flange connections, also the lower section can be made with a viewing window, and installed between the flanges

gasket so that one gasket corresponds to one joint.

Each segment of the upper and lower sectors may have stiffening ribs on the outside of the diffuser, the stiffening ribs of the upper sector being a lattice of a trapezoidal profile in longitudinal section, and the stiffening ribs of the lower sector being a complex construction, as shown in FIG. a trapezoidal profile in longitudinal section, while the small base of the trapezoid is located on the outside of the tower diffuser. Also, stiffeners can be made of a profile, which in longitudinal section is a trapezoid, without a large base, a triangle or corner.

The tower diffuser operates as follows.

Upward air flow enters the first section of the lower section, which is made expanded at the base for a larger area of air exhaustion and lower aerodynamic drag. Then it enters the second section of the lower section where the fan is installed, in contact with the blades of which the air flow is distributed along the periphery of the second section of the lower section and the upper section. The upper section is made expanded to reduce the aerodynamic drag of the structure and eliminate the reverse air flow.

The main advantages of the proposed design of the tower diffuser include the following:

- good flow around the inner walls of the diffuser with upward air flow, which reduces the aerodynamic resistance of the cooling tower, which increases the efficiency of the heat and mass transfer process of cooling industrial water using industrial cooling towers, also excludes vibration of the fan impeller;

- stiffeners make the body rigid and durable, additionally compensating for the aerodynamic pressure created by the impeller;

- assembly of the diffuser from the same segments allows to reduce the cost and simplify the assembly at the installation site;

- tightness.

Thus, the technical result, i.e. increasing the efficiency of the heat and mass transfer process (cooling water using cooling towers) is achieved by choosing a new aerodynamic form of the tower diffuser.

Claims (6)

1. The tower diffuser, characterized in that it is made of two sections, each of these sections consists of two sections, namely, the first section of the lower section is made in the form of a hollow truncated converging cone, the second section of the lower section is made in such a way that it is in longitudinal section forms arcs of circles whose centers are located on the outside of the tower diffuser, the first section of the upper section is made in the form of a hollow cylinder or a hollow truncated diverging cone, and the second section of the upper section is in the form of logo of a truncated diverging cone. 2. The tower diffuser according to claim 1, characterized in that the sections are connected to each other and to the tower body using a flange connection. 3. The tower diffuser according to claim 1, characterized in that the section of the lower section, made in the form of a hollow truncated converging cone, has a viewing window. 4. The tower diffuser according to claim 2, characterized in that a gasket is installed between the flanges so that one gasket corresponds to one connection. 5. The tower diffuser according to claim 1, characterized in that each section has stiffeners on the outside of the diffuser. 6. The tower diffuser according to claim 1, characterized in that each section consists of segments that are interconnected by means of a flange connection.