RU226611U1 - Triangular nozzle element for attachment devices - Google Patents

Abstract

The utility model relates to elements of packings for packing devices in the chemical, oil and gas, food and related industries and can be used to carry out absorption, desorption, rectification and other heat and mass transfer processes.

The purpose of the utility model is to increase the surface area of phase contact, which will intensify processes in packed devices.

This result is achieved due to the fact that an internal partition runs from the center of the sides of a regular Reuleaux triangle to its center.

The internal partitions of the proposed triangular element of the nozzle for nozzles can be curved, and the bending radius of the internal partitions is equal to the bending radius of the sides of a regular Reuleaux triangle.

Making a triangular element of the nozzle for nozzles, the cross section of which has the shape of a regular Reuleaux triangle with an internal partition extending from the vertices of the regular Reuleaux triangle to its center with an internal partition extending from the center of the sides of the regular Reuleaux triangle to its center allows you to increase the surface area of the phase contact and, therefore, thereby intensifying the processes in the packed devices.

An additional increase in the phase contact surface area can be achieved by making the internal partitions of the proposed triangular element of the nozzle for nozzles curved, and the bending radius of the internal partitions is equal to the bending radius of the sides of a regular Reuleaux triangle.

Description

The utility model relates to elements of packings for packing devices in the chemical, oil and gas, food and related industries and can be used to carry out absorption, desorption, rectification and other heat and mass transfer processes.

There is a known triangular element of the nozzle for nozzle devices, the cross section of which has the shape of a regular Reuleaux triangle with an internal partition extending from the vertices of the regular Reuleaux triangle to its center [Copyright certificate SU 806102 A1, 02/23/1981, only 3 pages, column 2 line 20 line 29, column 3 line 20-column 4 line 8, figure 2, D1].

The disadvantage of the known triangular element of the nozzle for packed devices is the small surface area of phase contact, which leads to a decrease in the intensity of processes in the packed devices.

The purpose of the utility model is to increase the surface area of phase contact, which will intensify processes in packed devices.

This result is achieved due to the fact that an internal partition runs from the center of the sides of a regular Reuleaux triangle to its center.

The internal partitions of the proposed triangular element of the nozzle for nozzles can be curved, and the bending radius of the internal partitions is equal to the bending radius of the sides of a regular Reuleaux triangle.

A three-dimensional model of the proposed triangular element of the nozzle for nozzle devices according to claim 1 of the formula of the utility model is presented in Fig. 1. In FIG. Figure 2 shows its cross section. A three-dimensional model of the proposed triangular element of the nozzle for nozzle devices according to claim 2 of the formula of the utility model is presented in Fig. 3. In FIG. Figure 4 shows its cross section.

The internal partition of the proposed triangular element of the nozzle for packed devices makes it possible to increase its total surface area - to increase the surface area of phase contact, in comparison with the known triangular element of the nozzle for packed devices. The table presents the total surface areas of the proposed and known triangular elements of nozzles for nozzles, obtained from the constructed computer models. The diameter of the circle into which the cross section of the triangular elements of the nozzles for nozzles is inscribed is 50 mm, the height of the triangular elements of the nozzles for nozzles is 50 mm, and the thickness of the wall (sides and internal partitions) is 2 mm.

Triangular nozzle element for attachment devices Total area of all surfaces, mm ² According to the author's certificate
SU 806102 A1 19913.727 Proposed according to claim 1 of the formula 23812.840 Proposed according to claim 2 of the formula 24001.742

Thus, the implementation of a triangular element of the nozzle for nozzles, the cross section of which has the shape of a regular Reuleaux triangle with an internal partition extending from the vertices of the regular Reuleaux triangle to its center with an internal partition extending from the center of the sides of the regular Reuleaux triangle to its center allows you to increase the surface area of the phase contact and, thereby, intensify processes in packed devices.

An additional increase in the phase contact surface area can be achieved by making the internal partitions of the proposed triangular element of the nozzle for nozzles curved, and the bending radius of the internal partitions is equal to the bending radius of the sides of a regular Reuleaux triangle.

Claims (2)

1. A triangular element of a nozzle for nozzles, the cross section of which has the shape of a regular Reuleaux triangle with an internal partition extending from the vertices of a regular Reuleaux triangle to its center, characterized in that an internal partition runs from the center of the sides of a regular Reuleaux triangle to its center. 2. A triangular element of the nozzle for nozzles according to claim 1, characterized in that the internal partitions are curved, and the radius of bending of the internal partitions is equal to the radius of bending of the sides of a regular Reuleaux triangle.