RU192206U1 - HUB FOR EXTRACTION OF MERCURY FROM SOIL - Google Patents

Abstract

The utility model relates to a method for extracting metallic mercury from mercury-containing materials, in particular technological sludge, contaminated soils, and construction waste. The technical result of the proposed utility model is to simplify the cleaning of holes for mercury discharge, simplify repairs, and make it possible to calibrate holes. The technical result is achieved in that the hub for extracting mercury from the soil, containing a movable drum with holes, a stationary drum of a centrifugal concentrator, the inner surface of which is made in the form of two straight truncated cones with a common base located between the end parts of the drum, and in the area of the common base and the smallest drum thickness made at least one hole for the withdrawal of mercury from the stationary drum, characterized in that the hole is made in the form of nozzles. The nozzle can be made in the form of a cylindrical sleeve with an external thread and a calibrated hole, and the corresponding holes with an internal thread are made in the stationary drum. The technical result is to simplify the cleaning of the holes for the output of mercury, simplify repair, and to obtain the possibility of calibrating the holes so that the nozzles are easy replaced and repaired in the factory or replaced if necessary with new ones. A useful model can be successfully used for the construction of multi-rotor separators a metallic mercury to separate from the materials, soil, etc.

Description

The utility model relates to a method for extracting metallic mercury from mercury-containing materials, in particular technological sludge, contaminated soils, and construction waste.

The well-known "Method for the recovery of metallic mercury from contaminated mercury-containing soils" US 5244492 [1], including the production of aqueous pulp from mercury-containing materials, such as contaminated soil, in a mixing tank, the separation of metallic mercury.

The disadvantage of this method is the low efficiency of the separation of metallic mercury.

Closest to the claimed technical solution is the "Method for extracting metallic mercury from mercury-containing waste" RU 2606376 [2], including a movable drum with holes, a stationary drum of a centrifugal concentrator, the inner surface of which is made in the form of two straight truncated cones with a common base located between the end parts of the drum, and in the region of the common base and the smallest thickness of the drum, holes are made for removing mercury from the drum.

Known hub has a high degree of enrichment.

A disadvantage of the known design is the difficulty of cleaning the holes for the removal of mercury from the drum, the complexity of the repair, the inability to calibrate the diameter of the holes.

The technical result of the proposed utility model is to simplify the cleaning of holes for the withdrawal of mercury, simplify repairs, and obtain the ability to calibrate the holes.

The technical result is achieved in that the hub for extracting mercury from the soil, containing a movable drum with holes, a stationary drum of a centrifugal concentrator, the inner surface of which is made in the form of two straight truncated cones with a common base located between the end parts of the drum, and in the area of the common base and the smallest drum thickness made at least one hole for the withdrawal of mercury from the stationary drum, characterized in that the hole is made in the form of rsunki.

The nozzle can be made in the form of a cylindrical sleeve with an external thread and a calibrated hole, and corresponding holes with an internal thread are made in the stationary drum, which will simplify the production, installation and dismantling of nozzles.

In FIG. 1 shows a partial section of a movable drum, where:

1 - flutes on the inner side of the movable drum;

2 - nozzle sleeve;

3 - hole;

4 - stationary drum;

5 - metallic mercury.

The device operates as follows: the outer side of the drum is under pressure from a light fluid medium that penetrates into the drum. During operation, the drum exposes the inertial forces to the pulp located inside the movable drum between the flutes 1, and two forces act on the raw material particles: the friction force with the fluid directed inside the drum and the inertia force directed on the outside of the drum. With a certain ratio of forces, heavier particles overcome the friction force and exit through the holes in the movable drum to the outer surface of the movable drum, where they are assembled like metal mercury 5. The nozzle is mounted on the wall of the stationary drum 4, consists of a sleeve 2 with a hole 3. On the outer surface the bushings have an external thread and the corresponding internal thread in the drum. Nozzles can be replaced, repaired, calibrated, changed the diameter of the hole, etc.

EFFECT: simplified cleaning of openings for mercury outlet, simplified repair, and the possibility of calibrating the openings is achieved by the fact that nozzles are easily replaced and repaired at the factory or replaced, if necessary, with new ones.

Industrial application. The utility model can be successfully used for the construction of multi-rotor separators for the separation of metallic mercury from building materials, soils, etc.

Claims (1)

A hub for extracting mercury from soils, containing a movable drum with holes, a stationary drum of a centrifugal concentrator, the inner surface of which is made in the form of two straight truncated cones with a common base located between the end parts of the drum, and an opening is made in the region of the common base and the smallest thickness of the drum the output of mercury from a stationary drum, characterized in that the hole is made in the form of a cylindrical sleeve with an external thread and a calibrated hole With a hole, while in the stationary drum corresponding holes are made with an internal thread.

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