DE19518631C1 - Pneumatic flotation plant for solid suspensions - Google Patents

Abstract

The conditioned pulp is led through an annular, conical channel whose outside wall expands towards its outlet in the form of a cone-shaped gas-permeable tube (5) of given porosity. Air is forced in from outside through this wall into the conical channel as against the inside channel wall whose periphery forms a closed displacement element (4). The element is moved axially and the outside wall specified is itself enclosed by a conformably shaped covering (8). The outer gas-permeable wall should consist of porous abrasion proof material, pref. recrystallised Si carbide. The cone shaped displacer (4) is raised and lowered by a lifting device (9) as required for process reasons.

Description

The invention relates to a device for gassing a slurry provided with conditioning agents for subsequent pneumatic floating.

Pneumatic flotation means agitatorless flotation, whereby in the sludge is conditioned to the more modern form and then pressurized is next pumped into a gassing reactor. This is where the fumigation takes place Turbidity through compressed air supplied from outside, whereupon the fumigated turbidity into the actual separation vessel is transferred, where by floating one Component that separates.

Such a method with a corresponding device is described in DE 44 16 261 C1 wrote. The hydrophobic, air-laden solid particles reach to the surface of the separation vessel and form a foam that drains away The hydrophilic grains, which are not laden with air, sink down and form a flota tion residue are subtracted downwards.

A modern fumigation facility that is used in this context can find, shows DE-PS 24 20 482. Here are the bubble generator in arranged a line leading the turbidity and that is the fumigation area che parallel to the turbid flow. To foam and stick under optima To enable conditions, the fumigation area should be a multiple ches of the flow cross section.

Naturally, the flow cross section is dimensioned relatively small, what to constipation and thus in continuous operation to serious malfunctions can lead. It was also found that the conventional Bega solution body, which mostly consisted of porous plastic foams, in the harsh conditions of salt flotation are very prone to wear. In addition the conventional devices are characterized by a certain rigidity that do not allow flexible adjustments to changing conditions.

According to DE 40 22 831 A1, a device for gassing liquids be knows the liquid or suspension to be gassed through a channel is guided, essentially by two butt-joined  annular pipe segments is formed, at least one of which has its end face grooves, so that in the plane of the connection of the Radially distributed openings at the ends of the pipe for the passage of Bega air. The pipe segments are detachably inserted in a housing stretches and form with their inner diameter together with a z. B. ko nus-shaped displacement body an annular space through which to be fumigated Cloudy flows. Adjustments to the flow cross-section during operation are not possible and the device is relatively expensive to manufacture.

The task to be solved is simple in terms of manufacturing effort Develop fumigation device that has a relatively large fumigation area has, a flexible adjustment of the flow cross-section during loading drives and prevents blockages.

This object is achieved by a device according to claim 1, which describes the weak point te does not have.

In the device according to the invention, the turbid flow is through a channel managed, which is characterized by the following features:

• a) The channel is designed as a conical annular channel, the outer wall The extension widens towards the outlet.
• b) The outer wall is pre-filled with a gas-permeable tube given porosity, via which the air enters the ring channel from the outside can be pressed.
• c) The inner wall of the ring channel consists of a closed Ko nut body, which is arranged displaceable in the axial direction.

The permeable outer wall of the ring channel can also with a conformal overlap, reducing the amount of through air can be changed. The permeable wall consists of an abrasion-resistant, porous material, preferably made of recrystallized Silicon carbide.

The invention is explained in more detail with reference to FIG. 1:
An essential part of the device according to the invention is the cone-shaped, gas-permeable gas pipe 5 . This sits in a holder 6 . By loosening a threaded piece 10 , the gas pipe can be removed from the holder. Through the gas connection 7 , the required air is pressed through the pores of the fumigator tube 5 into the slurry, which sweeps past the inside of the fumigator tube.

By the axially arranged, cone-like displacer 4 , an annular channel is generated, which tapered auseinan from inlet 1 to outlet 2 . The outside of this ring channel is formed by the already mentioned gas tube 5 , which consists of a highly wear-resistant and porous material, for example recrystallized silicon car bid, over the entire length.

The gassing takes place from the outside inwards into the slurry, it being possible to vary the coverage 8 of the gassing surface that is not required. A lifting device 9 fastened on the running side to the displacement body 4 enables the cone-like body to be raised and lowered within the limits which are predetermined by the geometry of the displacement body and the cone-shaped fumigating tube. The outer contour of the displacer can get any possible streamlined shape while maintaining the conical shape. By shifting the body in its longitudinal extension, the channel cross section can be varied within the predetermined limits. This is possible both after decommissioning the gassing device and in the operating phase. This has the advantage that, for. B. can be removed by the brief we substantial expansion of the set channel cross-section during operation bes channel blockages by the cloudy flow. It also allows optimization at any time.

Claims (3)

1. Device for gassing a slurry provided with conditioning agents for the subsequent pneumatic flotation, the slurry flowing through a conical annular channel,

• 1.1 whose outer wall widens towards the outlet,
• 1.2 the outer wall of which is formed by a cone-shaped gas-permeable tube ( 5 ) with a predetermined porosity, via which air is pressed into the ring channel transversely to the turbid flow from the outside,
• 1.3 whose inner wall is on its circumference closed konusähnli cher displacement body ( 4 ) which is arranged in the axial direction to be displaceable.

2. Device according to claim 1, characterized in that the effective same permeable outer wall is partially provided with a form-fitting cover ( 8 ). 3. Device according to claim 1, characterized in that the outer re wall made of abrasion-resistant porous material, preferably rekri installed silicon carbide.