DE1128840B - Method and apparatus for conveying a high density sludge - Google Patents

Description

Method and device for conveying a high sludge Density The invention relates primarily to a method of forwarding of a high density sludge containing larger solid disks from a sedimentation tank in a pipe system; The invention also relates to a device for Implementation of this procedure.

The invention is particularly, although not exclusively, at Suspensions with relatively large solid particles applicable, which one accordingly have high settling speed; this coarse sludge can be stored in a sedimentation tank are kept in suspension, for example, by stirring, but settle quickly from when the movement is stopped; this is for example a suspension the case of coarse salt crystals in a sedimentation tank, where the suspension passes through Crystallize the salt formed from a saturated or supersaturated brine has been.

For control purposes it is often desirable to have such suspensions to drain from the sedimentation tank through a pipeline; there are difficulties here the pipeline and especially its valves from clogging quickly to protect settling solid parts if the drain is interrupted. It is true known, the drain end of the sedimentation tank by adding a liquid above flushing the drain valve, however, this method is not suitable for the To keep solid particles in the lower part of the sedimentation tank in suspension at all times, when the drain valve is closed intermittently; it is also quick on its own settling sludge is not given a chance by flushing out alone to prevent the sludge from settling again when the latter over longer distances is to be transported.

The method according to the invention is therefore based on the object to eliminate this disadvantage.

The object is achieved in that, according to the invention, an inert Liquid at a rate sufficient to cause the sludge to settle to prevent being fed to the settling tank above the drain valve, so that with the drain valve closed, the sludge just kept moving, at However, with the drain valve open, the drainage of the sludge is not obstructed and the sludge settling again behind the Abfinßventil is made pumpable.

The method according to the invention not only eliminates blockages the drain valve at any time effectively prevented, but the sludge is made pumpable even over long distances, with only a minimum of inert Liquid is needed.

One that can be used to practice the method of the present invention Device with one arranged below the bottom of the settling container and intermittently operable drain valve and a liquid line between the settling tank bottom and the drain valve is designed according to the invention so that that below the drain valve a funnel with an approximately horizontal drain line and a horizontal pipe is arranged for the dilution liquid; this Pipe can be connected to the overflow of the sedimentation tank.

In the drawing is an embodiment of an inventive Device shown; it shows Fig. 1 a cross section through the device, FIG. 2 shows a partial section through the settling tank on an enlarged scale, and FIG. 3 shows a section along line III-III of FIG.

When a salt such as potassium chloride crystallizes, from a hot saturated solution, the solution is cooled and in a known manner in an evaporator, which is only partially indicated at 10, concentrated. The resulting saturated or supersaturated solution becomes proportionate huge, generally cylindrical settling tank, in which crystallization he follows.

Although the solution has other solutes, such as sodium chloride, may contain, the concentration in such other solutes generally kept below the saturation level, so that only the desired Product separates. The forming in the lower part of the sedimentation tank 20 Salt crystals are used as a test layer by the movement of the incoming brine in Suspension held, which axially through the downward pipe 12 directly against the somewhat conical bottom 21 of the container is passed. Grow in execution The crystals gradually increase in size until they separate, creating a form thick sludge, which is difficult to handle, especially to pass on is.

The solution is proportionate in the upper part of the pension tank quiet and allows the crystals to settle to the same extent as the solution in the container increases. Almost clear solution is discharged from the container 20 through a line 22 and conveyed through the overflow line 24 to the pump 26. That of an engine 27 driven pump 26 maintains a relatively high and substantially uniform Pressure in the return line 28 is maintained, through which most of the solution is returned to the system as recycled mother liquor.

In the present embodiment, the salt crystal mud is withdrawn at the bottom of the sedimentation tank 20 through the drain line 30. This drain line leads vertically downwards near the outer edge of the container bottom 21, where the sludge density is almost at its peak. The drain is through a metering valve 34, which can be a compressed air operated plug valve, controlled in the manner that the desired sludge density can be maintained in the sedimentation tank.

In the open state of the drain valve 34, the valve opening is far enough to prevent clogging from the crystals or from occasional clumps of crystals, some of which can be quite large, to avoid. The flow rate when the valve is open is therefore usually much greater than the desired average speed the sludge separation. As a result, the drain valve 34 is often up to 80 million kept closed for the entire operating time of the system. The valve can be from Manual, but preferably with automatic time control. The duration a work cycle can be done manually, for example according to the existing sludge density, can be varied. An expediently automatically operating time control device 36 is connected to the drain valve 34 by a compressed air line 37 and causes a periodic opening of the valve; so are z. B. when using the above sludge four work cycles per minute are sufficient to ensure a steady flow. The ratio of the opening to closing times of valve 34 is general about 1: 4 and preferably variable to allow for the separation of the thick sludge with such an average speed to allow the sludge density in the suspension tank 20 maintains the desired value.

The draining sludge passes through the pipe socket 32 into a funnel-shaped container 40. Below the drain end, a lump is more reticent basket 42 is provided with a mesh size that is large enough to contain all solid particles of the sludge with the exception of very large pieces, which cause clogging the rest of the system. The container 40 is open at the top and has steeply sloping walls of conical or pyramidal shape, which to lead to a central drain on the floor. The wall 43 on which the mud hits, can preferably have an angle of inclination of about 60 ° with the horizontal, so that the impacting crystals slide downwards without "caking" at the point of build-up.

A horizontal drain pipe 50 leads directly from the container 40 to the inlet of a feed pump 51 which is driven by a motor 52 and the sludge via a line 54 of the particular desired destination, such as a filter or a centrifuge 55 for separating the crystals from the suspended liquid, feeds. The centrifuge 55 directs the salt crystals to a separation point 56 and the suspending solution back via a line 59, which for example may be connected to the inlet of the return pump 26 so that the solution over the line 28 is returned to the system.

In the container 40, the again settling sludge with a Liquid jet are moved further. This used for dilution purposes The beam is generated by a conduit 60 which extends well into the end of the funnel 40 protrudes. The jet destroys accumulations of solid particles at the end of the discharge Funnel 40 and prevents blockages of the line 50 to the pump 51 during of the open circuit valve. The jet also keeps the liquid moving in of the pump and prevents air lock during pumping if the drain valve 34 is closed.

The jet of liquid is through the horizontally axially into the pipe 50 discharging pipe 60 passed, which has a smaller diameter than the pipe 50 has. The tip of the funnel 40 can emerge from the lower half 62 of the drain pipe 50 exist. The free edge 64 of the tube 60 is at a distance from the mouthpiece 65 the line 50 and directs the beam directly into the latter. Possibly a narrowed jet nozzle can be provided at the free edge 64 of the duct 60; it however, a sufficiently strong jet effect is usually achieved without a corresponding nozzle be available.

When the solid particles of the sludge to be extracted from salt crystals consist, the dilution liquid will preferably consist of one with respect to they consist of saturated solution. Such a solution can e.g. B. on repatriation 28 can be obtained in which a pressure of e.g. B. 1.40 to 2.10 kg / cm2 through the Return pump 26 is maintained. A connecting pipe 68 is for this purpose provided with a control valve 69 for dosing the clear solution for the jet pipe.

The most effective flow rate at the edge 64 of the tube 60 depends on many factors, e.g. B. on the dimensions and the special arrangement the overall situation and the nature of the mud.

For illustration purposes, a system with the following features is given below described: The drain valve 34 promotes the sludge in the open state with about 950 rpm The time control device 36 controls an operation via the drain valve 34, which at least to a ratio of opening to closing time between 1: 5 for one very thick mud and adjustable from 3: 5 for a relatively thin mud is. In this way, an average sludge delivery speed of about 190 to 5701 / min. achieved. The pump 51 has a capacity that is substantially the conveying speed with the valve open or 9501 / min. is equivalent to. The beam at the edge 64 is continuous with a flow rate of about one Third of the pump capacity or about 315 1 / min. generated. The mud tends to to accumulate in the funnel 40 while the valve 34 is open, and will with Help the jet effectively diverted while the valve is closed. By the intermittently operated drain valve 34 caused intermittent accumulation of the Sludge in the hopper 40 is so in a relatively uniform promotion of the diluted sludge is converted by the pump 51.

When the valve is closed, those in the drain pipe 30 tend to be suspended Solid particles to settle on the valve surface, especially when a Duty cycle contains relatively long closing times. To remedy this, will the liquid through a conduit 57 into the drain pipe 30 at a point between pumped into container 20 and drain valve 34 at such a rate that that the sludge in the pipe is flushed back to the settling tank 20. It is appropriate a cleaning liquid continuously into the drain pipe 30 at one speed initiate, which enables this flushing action, without the downward flow of the sludge to influence significantly when the valve 34 is open. Therefore it is not necessary To provide means for interrupting the flow of cleaning liquid. It is therefore preferable to have this inflow or stream during both open and Maintain closed periods of the valve 34, as the resulting dilution of the mud promotes its further treatment and the amount required The cleaning liquid is reduced saturated with salt which crystallizes in settling tank 20 and becomes expedient taken directly from the return line 28, in which the pressure is normally above the hydrostatic pressure at the bottom of the container 20. In the tube 57 can a valve 58 for manually controlling the flow rate of the cleaning liquid be provided.

Taking into account the largest ones normally present in the mud Crystals and a settling speed of about 12.2 cm / sec. and if the drain pipe 30 has an inside diameter of about 10.2 cm, about 76 liters of cleaning fluid are used per minute sufficient to prevent these crystals from settling in the line when the line is closed To prevent valve 34; however, this flow rate affects the fast moved sludge in the container 20 only insignificantly, which has a diameter of 3 to Can have 6 m; even with the valve 34 open, the drainage of the sludge is with a Speed of about 950 1 / min. not significantly impaired.

The following example illustrates what is achieved by the device Economics. It should consist of a sedimentation tank 20 with a diameter of approximately 5.5 m about 190 1 / min. of a high density sludge consisting of about 90 Volume percentage Potassium chloride crystals are composed of a size, which is predominantly through a sieve of between 8 and 20 meshes pass through and in essentially one are suspended with a solution saturated with potassium and sodium chloride. The mud should be directed to a point several hundred meters away from the sedimentation tank will. A known loop-type sludge drainage system is required a pumping of 1325 1 / min. of the heavy sludge through a 10.2 cm pipe a water pressure of about 55 m. The energy consumption for such a system was about 60 hp. In contrast, 190 liters of sludge per minute are of the same density of the device according to the invention passed through the drain valve 34 into the funnel 40 and through the cleaning liquid from the line 60 with the free edge 64 about 570 1 / min. diluted. This diluted mud is the same route through one 7.6 cm line passed at only about 25 m of water pressure, which requires about 15 horsepower.

With the known loop system it was difficult to obtain the required 190 1 sludge per minute to be deducted from the end of the loop, since the one to continue of the mud developed by the loop makes it necessary to have a high pressure to use a small outlet opening which has been repeatedly plugged. It had to be Large amount of water added to the system in the process of cleaning this opening which greatly reduced the effect of the overall system.

With the system of the present invention, the drain valve 34 could easily under all normal working conditions by using such a small amount Cleaning fluid must be kept clean so that it does not affect the system as a whole had a significant effect. The one used to dilute the mud to ease it Treatment applied solution can be easily fed back into the system and consequently does not interfere with the functioning of the system as a whole.

Claims (4)

CLAIMS: 1. Method for conveying a larger solid particle containing high density sludge from a sedimentation tank in a pipe system, characterized in that an inert liquid at a rate that sufficient to prevent the sludge from settling above the drain valve (34) is fed to the settling tank (20) that with the drain valve closed the mud just kept moving, with the drain valve open, the drain of the sludge is not obstructed and that is behind the drain valve again settling sludge is made pumpable. 2. The method according to claim 1, characterized in that the ratio the opening and closing times of the drain valve is kept at 1: 4. 3. Apparatus for performing the method according to claim 1 or 2 with one arranged below the bottom of the sedimentation tank and intermittently actuatable drain valve and a liquid supply line between the settling tank bottom and the drain valve, characterized in that below the drain valve (34) a funnel (40) with an approximately horizontal discharge line (50) and an approximately horizontal one Tube (60) is arranged for the dilution liquid. 4. Apparatus according to claim 3, characterized in that the tube (60) with the Overflow (22) of the settling tank (20) is connected. Considered publications: German Patent Specifications No. 278 120, 188 137; U.S. Patent No. 2277053.