SU1586774A1 - Packing for heat and mass exchange processes - Google Patents

Abstract

The invention relates to contact devices for heat and mass transfer processes in column apparatus of the chemical, gas processing, petrochemical, food industry, as well as in nuclear reactors in a power system. The aim of the invention is to reduce hydraulic resistance. The nozzle is made in the form of a ball with annular protrusions that surround the ball, which are offset from the center of the ball. The offset of the protrusions relative to the center of the ball is 0.2 - 0.55 Rball. The height and width of the annular protrusions are constant over the entire surface of the ball and are 0.01–0.05 of the diameter of the ball. 2 hp f-ly, 3 ill.

Description

The invention relates to contact devices for heat and mass transfer processes in column apparatus of the chemical, gas processing, petrochemical, food industry, as well as in nuclear reactors in a power system.

The purpose of the invention is to reduce the flow resistance.

Fig, 1 shows a nozzle in the form of a ball with an annular protrusion; in fig. 2 is a section A-A in FIG. 1; in FIG. 3 - graphic dependence of the hydraulic resistance coefficient of the proposed nozzle Lot Reynolds number Re.

The nozzle consists of a ball 1 with a protrusion 2.

The protrusions of the ball nozzle are ring-shaped and offset relative to

center of the body of the ball on the value of I. equal to 0.2-0.55 of the radius of the ball.

The height and width in the annular protrusions are made constant over the entire surface of the ball, are equal to each other, and their size is within 0.1-0.05 of the diameter of the ball.

The projection of annular projections on the nozzle, displaced towards the flow relative to the geometric center of the ball by an amount equal to 0.2-0.55 of the ball radius, makes it possible to sharply reduce the vortex zone behind the streamlined body, and with it the hydraulic resistance of the nozzle.

The work of the nozzle is carried out as follows.

Balls with a diameter of 25 mm are made with protrusions of an annular shape with an offset from the center of the ball of the ball by a height.

sc

about

6 mm, i.e. Approximately 0.5 times the radius of the ball, the width and height of the protrusions are equal to 1.0 mm, i.e. equal to 0.04 diameter of the ball.

Balls are loaded into the column regularly by protrusion towards the incident flow.

When a ball wrapped around a ball equipped with such protrusions on the frontal part of the ball at this place, the boundary layer breaks off. As a result, the turbulence region moves backward in the direction of flow along the surface of the streamlined body by about 60 °. The vortex zone behind the ball, and at the same time, its resistance decreases.

The tests carried out show that the hydraulic resistance compared to a conventional ball without protrusions on the frontal part of the ball is reduced by 40-62%. Comparative test results

fl i

0

five

0

shown in FIG. 3 as a dependency (Re).

The curve I (Fig. 3) shows the experimental data for ordinary balls without protrusions, and the curve II shows the data on the hydraulic resistance of balls with protrusions.

Claims (3)

1. A nozzle for heat and mass transfer processes in the form of a ball with protrusions, characterized in that, in order to reduce the hydraulic resistance, the protrusions are made of an annular shape, around the ball and equidistant relative to the center of the ball. 2. The nozzle of claim 1, wherein the offset of the protrusions relative to the center of the ball is 0.2-0.55 of the radius of the ball. 3. The nozzle according to Claim 1, characterized in that the height and width of the annular protrusion are made constant over the entire surface of the ball and equal to 0.01-0.05 of the diameter of the ball. i / 2 7 Ю Ю Ю 7 е Fig.d