RU120892U1 - FILLER ELEMENT FOR NOZZLE COLUMNS - Google Patents

Abstract

1. A filler element for packed columns, made of a spherical shape, containing a central partition in the form of a circle, dividing the element into two hemispherical sections connected to the partition and located on each of its sides, at least four undulating ribs of variable width, in the partition is made at least one through hole, on the partition along the axis of its symmetry, a bridge is installed passing through the hole, in the crests of at least one of the undulating ribs located symmetrically relative to the bridge, at least on one side of the partition, rod elements are made ... ! 2. The element according to claim 1, characterized in that the undulating ribs are installed parallel to each other symmetrically relative to the partition, forming the surface of the undulating ribs perpendicular to the plane of the central partition, and the plane of the web is perpendicular to the plane of the central partition. ! 3. An element according to claim 2, characterized in that the rod elements are installed to form at least two rows. ! 4. The element according to claim 1, characterized in that one central hole is made in the partition, and the bridge is located along the axis of symmetry of the through hole. ! 5. An element according to claim 4, characterized in that the central hole is made elongated along the bridge. ! 6. The element according to claim 3, characterized in that two holes are made in the partition, located diametrically, the bridge is located along the axis of their symmetry and passes through them, and the rows of rod elements are conjugated with the holes. ! 7. An element according to claim 1, characterized in that the undulating ribs are located

Description

The utility model relates to the design of bulk nozzles for mass transfer apparatuses and can be used in chemical, oil refining, petrochemical and other industries when carrying out heat and mass transfer processes in liquid-vapor (gas) systems, mainly for water degassing.

Known spherical filler element for packed columns (RU, No. 2310499, class B01D 53/18, B01J 19/30, 2007). The spherical element is made with a diameter of 20-70 mm with 6-9 recesses in the spherical surface, the axes of which converge in the center of the ball, separated by walls, and the wall thickness between the recesses decreases to the center of the ball.

A device of a similar purpose of a spherical shape is known, containing a central partition in the form of a circle, dividing the element into two hemispherical sections connected to the partition and located on each of its sides with wave-shaped ribs of variable width, a central through hole is made in the partition, a partition is installed along the axis of symmetry on the partition a jumper passing through the hole, rod-shaped elements are made in the central ridges of the wave-shaped ribs (RU 98339 U1, 10.20.2010).

The disadvantage of this device is the unreliability of the design, the possibility of easy deformation of the elements and, as a consequence, a decrease in the efficiency and intensity of heat and mass transfer processes.

The technical result of the proposed utility model is to eliminate these drawbacks, increase the rigidity and reliability of the structure, its service life, as well as increase the efficiency and intensity of heat and mass transfer processes.

The specified technical result is achieved in the filler element for packed columns, made of a spherical shape, containing a central partition in the form of a circle, dividing the element into two hemispherical sections connected to the partition and located on each of its sides, at least four wavy ribs of variable width, at least one through hole is made in the partition, a bridge passing through the hole is installed on the partition along the axis of symmetry in the ridges of at least one of lnoobraznyh ribs arranged symmetrically relative to the jumper, at least on one side of the partition formed rod members.

In addition, the wave-like ribs are mounted parallel to each other symmetrically relative to the septum, forming the surface of the wave-like ribs perpendicular to the plane of the central partition, and the jumper plane is perpendicular to the plane of the central partition.

In addition, the core elements are installed with the formation of at least two rows.

In addition, one central hole is made in the partition, with the jumper located along the symmetry axis of the through hole.

In addition, the Central hole is made elongated along the bridge.

In addition, two diametrically arranged holes are made in the partition, the jumper is located along the axis of symmetry and passes through them, and the rows of rod elements are associated with the holes.

In addition, the wavy ribs are located one from another at a distance from 0.05 to 0.15 of the diameter of the spherical element.

In addition, the wavy ribs are located one from the other at the same distance.

In addition, along the perimeter of the through hole, at least one of the sides of the septum has an influx in the form of a step of thickening.

In addition, the element is made of polymeric materials.

In addition, the material of the element is selected from the series: polyethylene, polypropylene, polystyrene, polyvinyl chloride and other polymeric materials.

In addition, the specific working surface of the element is from 130 to 800 m2 / m3.

In addition, the diameter of the element is from 10 to 100 mm.

The utility model is illustrated by drawings, in which Fig. 1 shows a filler element for packed columns, a general view in a perspective view; figure 2 is also a view, a front view; figure 3 is the same side view; figure 4 is the same, a top view; figure 5 is a section aa in figure 2; figure 6 is the same, front view in a perspective view; Fig. 7 is the same, rear view in a perspective view.

The device contains a central partition 1 in the form of a circle, dividing the element into two hemispherical sections 2 and 3, connected to the partition 1 and located on each of its sides, at least four wave-shaped ribs 4 of variable width (there may be different ribs on each side quantity - 5, 6, 7, 8, 9, 10, etc. .. Their number will depend on the size of the element and on its technical characteristics)

At least one through hole 5 is made in the partition 1. On the partition 1, a jumper 6 is installed along the axis of its symmetry, passing through the hole 5.

In the ridges 7 of the wave-shaped ribs 4 located symmetrically with respect to the bridge 6, at least one side of the partition 1 has rod elements 8 (for example, 5 elements on each side of the bridge).

The wave-like ribs 4 can be installed parallel to each other symmetrically with respect to the partition 1, forming the surface of the wave-like ribs 4 perpendicular to the plane of the central partition 1, and the plane of the jumper 6 is perpendicular to the plane of the central partition 1.

The rod elements 8 are installed with the formation of at least two rows.

In the partition 1, one central hole 5 can be made and it can be elongated along the bridge (not shown in the drawings), while the bridge 1 is located along the symmetry axis of this through hole.

Two holes 5, diametrically arranged, can be made in the partition, while the jumper 6 is located along the axis of symmetry and passes through them, and the rows of rod elements 8 are associated with the holes.

Wavy ribs 4 can be located one from another at a distance from 0.05 to 0.15 of the diameter of the spherical element.

Wavy ribs 4 are located one from the other at the same distance.

Along the perimeter of the through hole 5, at least one of the sides of the partition 1 can be made an influx in the form of steps 9 thickening.

The element may be made of polymeric materials selected, in particular, from the series: polyethylene, polypropylene, polystyrene, polyvinyl chloride and other polymeric materials. The specific (specific) working surface of the element is from 130 to 800 m2 / m3. The diameter of the element can be from 10 to 100 mm.

The implementation of the element with the rod elements located in this way will make it possible to increase its rigidity and further develop a heat and mass transfer surface with low hydraulic resistance, increase its reliability and, as a result, increase the efficiency and intensity of heat and mass transfer processes in comparison with a known device of rod elements.

Other signs are also aimed at increasing the efficiency and intensity of heat and mass transfer processes, creating a smooth flow regime (execution and arrangement of through holes 5, mutual arrangement of wave-shaped ribs 4, quantitative indicators characterizing this device, going beyond which leads to a decrease in the efficiency of ongoing processes, etc. d.)

The utility model will increase the rigidity and reliability of the structure, increase its service life, as well as increase the efficiency and intensity of heat and mass transfer processes.

Claims (13)

1. The filler element for packed columns, made of a spherical shape, containing a central partition in the form of a circle, dividing the element into two hemispherical sections connected to the partition and located on each of its sides, at least four wave-shaped ribs of variable width, made in the partition at least one through hole, on the partition along the axis of symmetry there is a jumper passing through the hole in the ridges of at least one of the wave-like ribs located symmetrically tnositelno webs, at least on one side of the partition are formed rod members. 2. The element according to claim 1, characterized in that the wave-like ribs are mounted parallel to each other symmetrically relative to the septum, forming the surface of the wave-like ribs perpendicular to the plane of the central partition, and the plane of the bridge is perpendicular to the plane of the central partition. 3. The element according to claim 2, characterized in that the rod elements are installed with the formation of at least two rows. 4. The element according to claim 1, characterized in that in the partition there is one central hole, the jumper is located along the axis of symmetry of the through hole. 5. The element according to claim 4, characterized in that the Central hole is made elongated along the bridge. 6. The element according to claim 3, characterized in that in the partition there are two holes arranged diametrically, a jumper is located along the axis of symmetry and passes through them, and the rows of rod elements are conjugated with holes. 7. The element according to claim 1, characterized in that the wave-shaped ribs are located one from another at a distance from 0.05 to 0.15 of the diameter of the spherical element. 8. The element according to claim 7, characterized in that the wavy ribs are located one from the other at the same distance. 9. The element according to claim 1, characterized in that along the perimeter of the through hole, at least one of the sides of the partition is made an influx in the form of a step of thickening. 10. The element according to claim 1, characterized in that it is made of polymeric materials. 11. The element according to claim 10, characterized in that the material is selected from the series: polyethylene, polypropylene, polystyrene, polyvinyl chloride and other polymeric materials. 12. The element according to claim 1, characterized in that the specific working surface of the element is from 130 to 800 m ² / m ³ . 13. The element according to claim 1, characterized in that the diameter of the element is from 10 to 100 mm