RU35631U1 - Chip former to isolate crumb rubber from hydrocarbon solutions - Google Patents

Description

: B01F5 / 00

Chip former to isolate crumb rubber from hydrocarbon solutions

The utility model relates to devices used in the petrochemical industry for the separation of polymers from hydrocarbon solutions in the form of crumbs, in particular crumbs of rubber formed in a high-speed dispersed stream.

Known crumb for separating polymers from hydrocarbon solutions, containing coaxially located housing for receiving the polymer solution, a mixing chamber and a lower part installed in its cavity and connected to the latter and the cavity of the housing, a dispersion chamber, nozzles for supplying water vapor, polymer and water solution, pipe for the removal of pulp and means for swirling flows.

A disadvantage of the known device is that the device has no conditions for additional updating of the surface of the crumbs, which reduces the efficiency of the degassing process.

The closest in technical dryness is a crumb former for separating crumb rubber from hydrocarbon solutions, containing a coaxially located housing for receiving a polymer solution, a mixing chamber and a lower part installed in its cavity and connected to the latter and the plane of the housing, a dispersion chamber, pipes for supplying water vapor, polymer and water solution, a pipe for draining the pulp and means for swirling the flows, in which the dispersion chamber is plugged from the lower end, and in the side wall of its lower th portions are slotted transverse holes for connection with the mixing chamber, see. SU Inventor's certificate 1126454, MNC V29N 1/00, B01J 19/00, 1984.

vF IPC7 C08C 2/06, C08F 6/10,

The disadvantage of this device is that the well-known crumb-forming agent does not have the ability to control the process of crumb formation when changing the costs of material flows, in particular polymerizate.

The objective of the utility model is to improve the quality of the rubber crumb in shape, size and porosity due to the two-stage method of forming crumbs. At the first stage, the polymer solution is dispersed to dusty particles in the dispersion chamber, and at the second stage, their enlargement in the coagulation chamber is generated; it has a regular Taylor-Gertler vortex flow into porous spherical particles of the same size.

The technical problem is solved in that the crumb for forming rubber crumbs from hydrocarbon solutions, containing a dispersion chamber, a mixing chamber with a tangentially mounted pipe for water inlet, a pipe for pulp removal, further comprises a coagulation chamber made in the form of two coaxial cones, with the possibility of axial mixing ; of the inner cone relative to the outer one, the dispersion chamber is equipped with a coaxial nozzle for supplying a polymer solution and a tangentially mounted nozzle lump for the supply of water vapor, and tangentially through the pipe connected to the coagulation chamber, which in turn is coaxially connected to the mixing chamber, while the dispersion chamber is made in the form of a cylinder, having; its narrowing, passing into a cylindrical pipe and contains a coaxially mounted perforated cylinder, muffled from the end.

The solution to the technical problem allows to improve the crumb of rubber in shape, size and porosity.

The shredder consists of the following; their elements:

pipe 4 for supplying water vapor. The dispersion chamber is made in the form of a cylinder having a constriction passing into a cylindrical pipe and contains a coaxially mounted perforated cylinder 3, which is muffled from the end. The dispersion chamber 1 is tangentially connected through a pipe 5 to a coagulation chamber 6, which is made in the form of two coaxial cones 7 and 8 with the possibility of axial movement of the inner cone 8 relative to the outer 7. The coagulation chamber 6 is coaxially connected to the mixing chamber 9, which has a tangentially mounted nozzle for water inlet 10 and pipe 11 for withdrawing a suspension of rubber crumb from the crumb former for further degassing.

The shredder works as follows:

A polymer solution is fed into the dispersion chamber 1 through the nozzle 2, which is squeezed out of the openings of the perforated cylinder 3, foams when pressure is released and is dispersed to a pulverized size by a swirling stream of water vapor supplied through the nozzle 4. In the pipe 5, up to 50% of the solvent is removed from the sprayed solution. Then the flow goes to the coagulation chamber 6, in which, due to the flow twisting, regular Taylor-Görtler type vortices are generated in the gap between the two coaxial cones 7 and 8. Under the action of centrifugal forces arising inside the vortices, the sticky polymer particles coagulate into porous chips. Changing the gap leads to a change in the size of the crumbs. An anti-agglomerator is added to the mixing chamber 9, where the crumb enters, to prevent further adhesion of the formed ball crumbs and through the pipe 11 it is sent for further degassing.

The inventive Tumbler allows you to get a crumb of rubber spherical in shape, porous in structure and the same in size due to the two-stage method of forming crumbs. At the first stage, the polymer solution is dispersed to dust particles in the dispersion chamber, and at the second stage, they are enlarged in the coagulation chamber, Taylor-Gertler, in size. generating a regular vortex flow like porous spherical particles of the same - / -

Claims (1)

A chip former for separating crumb rubber from hydrocarbon solutions, containing a dispersion chamber, a mixing chamber with a tangentially mounted nozzle for introducing recycled water, a nozzle for draining the pulp, characterized in that it further comprises a coagulation chamber made in the form of two coaxial cones, with the possibility of axial movement the inner cone relative to the outer, the dispersion chamber is equipped with a coaxial nozzle for supplying a polymer solution and a tangentially mounted nozzle for supplying water vapor, and tangentially through the pipe is connected to a coagulation chamber, which in turn is coaxially connected to the mixing chamber, while the dispersion chamber is made in the form of a cylinder having a restriction passing into a cylindrical pipe, and contains a coaxially mounted perforated cylinder, muffled with end face.