HU187708B - Settling centrifuge - Google Patents

Abstract

A sediment centrifuge has an inner screw drum and an external drum coaxial with this, a pipe feeding in the sludge to be separated, a conveyor screw which conveys the sedimented phase to the screw drum, an outlet opening for the sedimented phase and a further outlet opening for conducting the liquid away, and is designed such that the inner space enclosed by the screw drum enabling the liquid to flow out is divided into two parts by a wall, and the wall is provided with a bore which permits the projection of exchangeable pipes of different lengths for the introduction of the sludge. The partial space which is nearer to the outlet opening for the sedimented phase, and also the external space present between the screw drum and the external drum, are connected together by a passage opening which enables the sedimented phase to flow out to the conveyor screw without any change of direction, so that a blockage can be prevented. It is possible to centrifuge sludges with different sedimentation rates. The sludge supply pipe can be exchanged in a simple manner.

Description

The present invention relates to a sedimentation centrifuge which comprises an inner and outer jacket, a sludge inlet for sludge to be separated, a sediment transfer screw, a sediment discharge opening. and a fluid outlet.

So far, centrifuges and centrifuge structures of various structures have been developed for phase separation of slurries and suspensions. Of these, the basic type of self-propelled centrifuge conveyor is the one in which the process of phase separation in the drum is accompanied by the continuous movement and flow of the liquid and sediment phase. A characteristic of this basic type is that the phase flow in the drum is disturbed by the conditions creating it and, as a consequence of the disturbing effect, the efficiency of sedimentation and the quality of separation needs to be improved. The phase, respectively. fluid flow interference due in part to the different rotary-conveyor motion of the slurry conveyor screw relative to the drum, and partly due to slurry inlet. respectively. it is summed up by the effects of fluid acceleration at the site. As a result, a large part of the slurry introduced into the centrifuge drum does not settle on the inner wall of the drum, but leaves the drum along with the clarified liquid phase, contaminating it. The turbulent effect is due to low density and low solids slurries.

In order to counteract the stirring effect, centrifuges with a single axis, double drum shells, such as those described in e.g. No. 2,024,473. French, and No. 175,774. Danish patent specification.

These devices are in common, substantially increasing the liquid phase sedimentation path length enables the light weight and relatively low density sediment deposition more effective, but thereby the üledékáramlás continuity ³⁵ is interrupted, it changes the flow direction and the flow direction at the place - sediment deposition - in case of high-density and high-mass iszapkiválás helps to cause a malfunction or break. Namely, when the sediment flow is reversed, the sludge mass settling in the inner drum jacket ⁴⁰ in this case only partially reaches the sludge conveyor.

It is an object of the present invention to provide a sedimentation centrifuge in which the sediment flow is maintained at high density and bulk sediment 45 and the total sediment flow is delivered to the sediment transport screw and the sediment is not deposited on the drum jacket.

The present invention is based on the discovery 50 that in a centrifuge of a single-axis, double-shell, cylindrical, or tapered cone, the interior enclosed by the inner jacket can be divided into two parts and the slurry tube extending into the interior is of different lengths and replaceable. , 55 and the sediment flows through the discharge opening to the conveyor screw without any directional bending. In a given force field, one of the conditions for separating sediment and liquid is to remove the entire sediment mass from the sediment conveyor, and another condition is that the fluid 60 flows as smoothly as possible over the longest possible path.

The sedimentation centrifuge of the present invention, comprising an outer and inner uniaxial jacket, a sludge inlet pipe, a sediment transfer barrier, a sediment drainage port, and a liquid drainage opening are designed so that the inner jacket to allow the liquid to drain the enclosed interior is divided by a wall, and the wall is provided with a bore permitting the penetration of a replaceable slurry inlet pipe of different lengths, and the interior closest to the sediment emptying opening and the outer space between the inner jacket and outer jacket is connected to a drainage opening which allows its free discharge.

A replaceable slurry inlet pipe for the introduction of a za75 radical at a sedimentation rate of less than 10 'm / s is introduced into the interior space further away from the sediment discharge port.

In another embodiment, the replaceable slurry inlet pipe 2Q for the introduction of sedimentation rates greater than 10 ~ 'm / s is introduced into an interior space closer to the sediment discharge port.

The settling centrifuge of the present invention has significant advantages. Slurries of high density and high solids content of ₂₅ can also be settled. The sediment can be conveyed directly to the conveyor auger without any bending. The slurry inlet pipe can be easily replaced according to the rate of slurry settling.

Since the sediment flows without any bending of the conveyor, the sediment can be prevented from settling and clogging.

A further advantage is that the sediment is completely separated from the liquid phase and completely discharged through the sediment discharge port and the liquid is drained through the liquid discharge port as long as possible.

The invention will now be described, by way of example only, with reference to the drawings. The attached drawings show

Figure 1 is a longitudinal sectional view of the sedimentation centrifuge with a short slurry inlet tube, a

Fig. 2 is a longitudinal sectional view of the sedimentation centrifuge with a long slurry inlet tube.

In the longitudinal section of Fig. 1, the slurry inlet pipe 6, which extends into the conical interior 4, is connected by a bore 8 to the interior 5. The inner space 5 has a discharge opening 9 which extends into the outer space 11. The inner space 4, 5 is bounded by the conical inner sheath 3 and the outer space 11 by the outer sheath 1. In the outer space 11 a sediment conveyor screw 2 is disposed for transporting the sediment. The sediment is discharged through the sediment discharge port 10 on the outer jacket 1 and the liquid discharged through the liquid discharge port 12.

Figure 2 shows that the slurry inlet pipe 6a extends into an interior space 5 closer to the discharge opening 10. In this case, slurries with a sedimentation rate greater than 10 'm / s are introduced into the interior space 5. In Figure 1, slurries with a sedimentation rate of less than 10 'm / s are sedimented.

The slurry flows through the slurry inlet pipe 6, 6a into the interior space 4, 5. Through the discharge opening 9, the sediment is conveyed to the sediment conveyor 2 without any directional bending. The sediment transport auger 2 conveys the sediment to the sediment discharge port 10. The liquid is the sediment transport direction

In the direction opposite to the cap 187 708, the fluid 12 is directed to the liquid outlet 12 at the opposite end of the outer jacket. In Figure 1, the slurry inlet pipe 6 extends into the interior 4 and leads to a slurry with a sedimentation rate of less than 10 ³ m / s. The liquid flows from the inner jacket 3 to the outer space 11, where it is discharged through the outlet 12. In Figure 2, the fluid flows through the groove or grooves of the conveyor screw 2 up to the liquid outlet 12.

The invention is intended for the separation of first-rate slurries, but it is also applicable to the separation of liquid substances at different settling rates.

Claims (3)

A sedimentation centrifuge comprising an outer and inner uniaxial jacket, a sludge inlet for sludge to be separated, a sediment transfer screw, a sediment drainage opening and a liquid drainage opening, characterized in that the inner space (3) enclosed by the inner jacket (3) (4, 5) is divided by a wall (7), and the wall (7) is provided with a bore (8) to allow the insertion tube (6, 6a) of different lengths to penetrate, further supporting an interior space (5) ) and the outer space (11) between the inner jacket (3) and the outer jacket (1) are connected to each other by a drain opening (9) allowing the sediment to flow out without being guided by the conveyor screw (2). The double jacketed settling centrifuge according to claim 1, characterized in that the replaceable slurry inlet pipe (6) for the delivery of slurries with a sedimentation rate of less than ³ m / s is located in the interior space (6) 4) is introduced. A double-jacketed sedimentation centrifuge according to claim 1, characterized in that the interchangeable sludge inlet pipe (6a) for the introduction of slurry with a sedimentation rate greater than 10 to ³ m / s is located in the interior space closer to the sediment discharge port (10). (5) is introduced. 1 page drawing Published by the National Office of Inventions Responsible for publishing: Zoltán Himer, Head of Department, Picked up by the Photocopier (877677/09) 88-2106 - Dabasi Nyomda, Budapest - Dabas Chief Executive Officer: Csaba Bálint Director