RU211779U1 - NOZZLE ELEMENT - Google Patents

Abstract

The utility model relates to a packing element and can be used for absorption, desorption and rectification in packing apparatuses in the chemical, oil and gas or food industries. The cross section of the packing element is a curve of constant width, which is a pentagon. The inner surface of the wall of the nozzle element in cross section may have the shape of an equilateral pentagon. The technical result consists in increasing the strength and stability of the packing elements, which makes it possible to reduce the hydraulic resistance and intensify the processes in packing devices. 1 s. p. f-ly, 4 ill.

Description

The utility model relates to packing elements and can be used for absorption, desorption, rectification and other processes in packing apparatuses in the chemical, oil and gas, food and related industries.

A well-known element of the nozzle is the Raschig ring, the cross section of which represents a curve of constant width [Processes and apparatuses of the chemical industry: Textbook for technical schools / P.G. Romankov, M.I. Kurochkina, Yu.Ya. Mozzeria and others - L .: Chemistry, 1989. - 560 p. (S. 334)].

A disadvantage of the known packing element is the need for a large wall thickness of the element from the condition of strength and stability from the action of transverse forces, which leads to a decrease in the surface area of the phase contact and, consequently, to a decrease in the intensity of processes in packing apparatuses. This also increases the hydraulic resistance, which in turn increases the energy costs for pumping the gaseous medium in packed apparatus.

The purpose of the utility model is to increase the strength and stability of the packing element, which will reduce the thickness of its wall and intensify the processes in packing devices. In this case, the hydraulic resistance will also decrease, and thereby the energy costs for pumping the gaseous medium in packed apparatuses will decrease.

This result is achieved due to the fact that the cross section of the proposed element of the nozzle is a curve of constant width, namely a pentagon.

The inner surface of the wall of the nozzle element in cross section may have the shape of an equilateral pentagon.

A three-dimensional model of the packing element, the cross section of which has the shape of a pentagon, is shown in Fig. 1. In FIG. 2 shows a cross section of this element.

A three-dimensional model of the packing element, the inner wall surface of which in cross section has the shape of an equilateral pentagon, is shown in Fig. 3. In FIG. 4 shows a cross section of this element.

The results of the computer simulation of loading by transverse force of the proposed packing element and the Raschig ring showed that when the conditions of strength and stability are met, the proposed packing element has a smaller wall thickness, which makes it possible to intensify the processes in packing apparatuses. In this case, the hydraulic resistance will also decrease, and thereby the energy costs for pumping the gaseous medium in packed apparatuses will decrease.

The execution of the inner surface of the wall of the proposed element of the nozzle, having a cross-sectional shape of an equilateral pentagon, allows you to withstand a greater transverse force.

The choice of the standard size of the proposed packing element (wall thickness; element height; dimensions of the pentagon forming the outer surface of the element wall) will be determined by the technological modes of operation of the packing apparatus, as well as the magnitude of the allowable transverse forces.

Thus, the implementation of the packing element having a cross-sectional curve of constant width, namely a pentagon, will reduce the wall thickness of the packing element and intensify the processes in the packing apparatus. In this case, the hydraulic resistance will also decrease, and thereby the energy costs for pumping the gaseous medium in packed apparatuses will decrease.

If it is necessary to increase the strength and stability of the proposed packing element, the inner surface of the element wall in cross section may have the shape of an equilateral pentagon.

Claims (2)

1. An element of a nozzle for nozzle devices, the cross section of which is a curve of constant width, characterized in that the curve of constant width is a pentagon. 2. The packing element according to claim 1, characterized in that the inner wall surface of the packing element in cross section has the shape of an equilateral pentagon.

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