The present disclosure relates to a separator, for example, a nozzle separator, or a centrifuge. The nozzle separator, or centrifuge, includes a vertical axis of rotational and a rotatable drum configured to process an inflowing suspension. The rotatable drum includes an assembly configured to supply a washing liquid into an interior of the drum and at least one supply pipe arranged in the drum and configured to conduct the washing liquid into the interior of the drum
Methods are known under the concept “replacement wash”, in which a washing liquid is conducted into the drum interior using recirculation lines which extend outward radially in the drum interior, so that this washing liquid has a radial speed component and an axial speed component upon entry into the drum interior. The solid phase separated from the mother solution is absorbed by the washing solution and ejected as the washed washing suspension from the drum via nozzles as the nozzle phase (see
This procedure has fundamentally proven itself. However, appearances of mixing of the detergent phase with the surrounding solid-charged liquid or suspension result, since the freshly “injected” washing liquid is lighter than the surrounding solid-charged liquid and is, therefore, deflected radially inward.
Embodiments of the present disclosure address this problem of deflecting the washing liquid inward.
The present disclosure thus relates to a centrifuge having a vertical axis of rotation. The centrifuge includes a rotatable drum configured to process an inflowing suspension. The rotatable drum includes an assembly configured to supply a washing liquid into an interior of the drum and at least one supply pipe arranged in the drum and configured to conduct the washing liquid into the interior of the drum. The supply line is arranged such that the washing liquid exits from the supply line with a velocity component in a peripheral rotational direction. A method for diverting a solid phase from a centrifuge includes the step of using the centrifuge.
Through the step of deflecting the washing liquid in the peripheral rotational direction and the application of a velocity component in the peripheral rotational direction connected thereto, multiple advantageous effects are achieved, which reduce the problem described above.
The radial exchange of fresh washing solution and suspension is thus opposed with an elevated resistance. Because of the additional peripheral velocity, the centrifugal force on the washing liquid is increased. The liquid having greater specific gravity can no longer displace the washing liquid entirely or partially inward.
Through the deflection of the washing liquid stream in the peripheral rotational direction, among other things, packing and similar structures on the inner wall of the drum can be omitted. This results in a structural simplification of the centrifuge and also enlarges the usable drum volume.
Sedimentations of solids between the solid discharge nozzles are flushed in the direction of these nozzles.
It is within the scope of the present disclosure that a part of the required solid discharge nozzles can be omitted, which reduces the machine costs and the danger of clogging.
The gravity field is amplified by the additional peripheral velocity, according to the present disclosure.
The outlet openings of the supply pipes may, for example, in accordance with the present disclosure, lie in the peripheral direction between the solid discharge openings to achieve a particularly good effect, as described above. Alternatively, however, it is within the scope of the present disclosure that they can also lie radially as an extension of the outlet openings.
Embodiments of the present disclosure are discussed herein, including the appended claims.
Other aspects of the present disclosure will become apparent from the following descriptions when considered in conjunction with the accompanying drawings.
To divert a solid phase, the separator drum 2 has solid discharge nozzles 3 in the region of its largest diameter.
The nozzle drum 2 is rotatable by a drive (not shown) and has, in addition to the components shown in
In addition to the intake for the suspension to be processed, the separator drum 2 has an assembly 4 for feeding washing liquid into the drum interior.
This assembly 4 has an intake for washing liquid (not shown), which can be formed concentrically to the intake, or pipe, for the suspension to be processed, for example.
The intake for washing liquid opens into a distributor 5 (see
The distributor or supply pipes 6 extend radially outward in the drum 2 up to shortly before the solid discharge nozzles 3 in the drum wall 8, according to the prior art of
The supply lines 6 for the washing liquid are used for the purpose of conducting the washing liquid, at least a washing acid having a lower specific gravity, into the drum interior in the region shortly in front of the solid discharge nozzles 3.
As discussed herein related to the prior art, in addition to the expected deflection of the jet of the washing liquid, undesirably strong mixing with the suspension contained in the separator drum 2 can occur, since the freshly added washing liquid is lighter than the surrounding, solid-charged liquid or the suspension, so that the washing liquid is deflected inward. A passage of the washing liquid into an upper course results therefrom, whereby the effectiveness of the washing is impaired.
In order to counteract this effect, an embodiment according to the present disclosure, is provided and shown in
It is advantageous and within the scope of the present disclosure to provide the supply pipes 6, which first extend radially outward in the drum interior, with a curved deflection section 7 in their radial outer region. Such section 7 is used for the purpose of deflecting the washing liquid from the radial direction in the peripheral rotational direction U.
This deflection section 7 is formed, as shown in
As is shown in
The deflection angle a, in the peripheral rotational direction U from the radial direction R, may, for example, be between 45° and 120° (see
In contrast to the drum structure of
During a washing method, firstly washing liquid, for example, a washing acid having a lighter specific gravity, is guided through the inlet pipes 6 in the edge region of the interior of the separator drum 2, where it exits in the peripheral rotational direction U from the inlet pipes 6 into the drum interior.
A method for diverting a solid phase from a centrifuge includes the step of using a centrifuge having a vertical axis of rotation. The centrifuge includes a rotatable drum configured to process an inflowing suspension. The rotatable drum includes an assembly configured to supply a washing liquid into an interior of the drum and at least one supply pipe arranged in the drum and configured to conduct the washing liquid into the interior of the drum. The supply line is arranged such that the washing liquid exits from the supply line with a velocity component in a peripheral rotational direction.
Experiments were carried out in a separator DC 130 in accordance with the present disclosure. A highly concentrated salt solution was admixed to the product intake as a tracer and subsequently the salt concentration was determined in the upper course, or the gripper phase, and lower course, or the nozzle phase, respectively. A complete mass balance could thus be carried out in the separator.
The previously known assembly I (see
In the previously known assembly for supplying washing liquid (see
Upon the observation of the measured values of the assembly II according to the present disclosure, it could be established, in accordance with the present disclosure, that the loss of liquid product, as can occur through the mixing of the heavier liquid product phase with the lighter washing liquid, is decreased with increasing washing quantity.
Although the radial mixing could not be completely precluded even with the supply of the lighter washing liquid in the peripheral direction, less product is lost upon the removal of the solid phase with the washing liquid, in accordance with the embodiments of the present disclosure.
Although the present disclosure has been described and illustrated in detail, it is to be clearly understood that this is done by way of illustration and example only and is not to be taken by way of limitation. The scope of the present disclosure is to be limited only by the terms of the appended claims.
Number | Date | Country | Kind |
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10 2010 016 740.1 | May 2010 | DE | national |
This application is a national stage of International Application PCT/EP2011/056275, filed Apr. 19, 2011, and claims benefit of and priority to German Patent Application No. 10 2010 016 740.1, filed May 3, 2010, the content of which Applications are incorporated by reference herein.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2011/056275 | 4/19/2011 | WO | 00 | 11/14/2012 |