RU2344005C1 - Vortex tube for fluid removal from catalyst - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention concerns treatment devices for removal of fluid from surface of catalysts already used in chemical reactions. Vortex tube includes nozzle feeding compressed air in tangent line, aperture with central hole, positioned inside the tube at the nozzle end, and adjustable annular slit at the other tube end. Compressed air feed nozzle also includes catalyst feed injector, hose filter for catalyst separation is mounted at the outlet of adjustable annular slit, and size of annular slit conducting catalyst is larger than maximum linear dimensions of catalyst.

EFFECT: simple device for fluid removal from catalysts at lower power cost.

2 dwg

Description

The invention relates to a device for the purification of catalysts already used previously in the process of implementing chemical reactions using catalysts from liquid remaining on their surface.

A known installation for cleaning catalysts from liquid remaining on their surface from previous processes [1], by squeezing the liquid from the catalyst.

The disadvantage of this installation is the design complexity, large dimensions, and the fact that moisture remains on the surface of the catalysts.

Also known is a vortex tube [2], which can be used to blow free moisture from the surface of the catalysts, as well as to dry the catalysts, from the surface of which free moisture was previously removed.

The objective of the invention is to develop a small-sized device for the mechanical removal of free moisture from the surface of the catalysts with compressed air (without evaporation of moisture and, accordingly, without the cost of energy for its evaporation) and subsequent final drying.

The problem is solved by creating a vortex tube for cleaning the catalysts from a liquid containing a nozzle for supplying compressed air to the pipe tangentially; a diaphragm with a hole centrally located therein, located inside the pipe at the end of the pipe adjacent to the nozzle; an adjustable annular gap at the other end of the pipe and characterized in that the compressed air nozzle also contains an injector for feeding catalysts containing liquid on the surface and previously used at least once; a bag filter is installed at the outlet of the adjustable annular gap to separate the catalysts from the air; and the size of the annular gap for the passage of the catalysts is set larger than the largest linear size of the catalysts.

Figures 1 and 2 show a vortex tube 1 for cleaning the catalysts from a liquid, which contains a nozzle 2 for supplying compressed air to the pipe tangentially with the catalyst injector 3, a diaphragm 4 with a hole located centrally inside it, placed inside the pipe at the end adjacent to the nozzle pipe, adjustable annular gap 5 at the other end of the pipe, bag filter 6.

A vortex tube for cleaning catalysts from liquid works as follows. Compressed air is supplied to the nozzle 2, and the catalyst to be cleaned of liquid is fed to the injector 3. The resulting mixture of air and catalyst is fed into the pipe 1 tangentially to the pipe wall, twisted and divided into two streams - hot and cold. Under the influence of centrifugal force, the catalyst particles are thrown to the periphery and are discharged from the pipe through an adjustable annular gap 5, and the liquid is blown off by the air flow from the catalyst surface and is discharged from the pipe through the diaphragm 4. Since the hot air stream is removed from the vortex tube through the annular gap then additional drying of the catalyst occurs. The dehydrated catalyst is sent to a bag filter 6, where it is separated from the air.

Literature

1. A.G. Kasatkin. Basic processes and apparatuses of chemical technology. - M.: Chemistry, 1973.

2. US patent No. 1952281.

Claims (1)

A vortex tube for cleaning catalysts from liquid, containing a nozzle for supplying compressed air to the pipe tangentially, a diaphragm with a hole centrally located in it, located inside the pipe at the pipe end adjacent to the nozzle, an adjustable annular gap at the other end of the pipe, characterized in that the feed nozzle compressed air also contains an injector for feeding catalysts containing liquid on the surface and previously used at least once, a bag filter is installed at the outlet of the adjustable annular gap for Ia catalysts by air, and the size of the annular gap for passage of the catalysts is set larger than the largest linear dimension of the catalysts.

Images