FI96761B - emptying device - Google Patents

Description

! 96761 Empty device

This invention relates to a discharge container for mixing containers at a biogas plant for waste management, which discharge device consists of a lock, wherein the inlet of the lock is provided with a first closure valve and an outlet with a second closure valve, which consists of relative to the horizontal. -type damper valves.

The waste material is mixed in the mixing vessel for the purpose of separating undesirable components for the actual biogas process from the mass to be passed to a biogas reactor belonging to the biogas plant.

The separation in the mixing vessel is based on the fact that the undesirable non-desirable components are either heavier or lighter than the nominal density of the biogas reactor. The heavier components, i.e. heavy fraction consisting of metals, glass, etc., sink to the bottom of the mixing container as the lighter components, ie light fraction consisting of cellular plastics, other plastic material, etc., become liquid pci of the surface of the pulp.

Previously known mixing containers have usually been provided only with a closable drainage tube for removal of heavy fraction, light fraction and consequent water.

It has been found that the discharge through such a tube has been difficult to control in a satisfactory manner. When emptying smaller amounts of heavy fraction, another mass has been lost and when emptying larger quantities of heavy fraction the pipe has become clogged. The variation in the nature and dimensions of the heavy fraction has further aggravated an effective emptying. Removing the light fraction, in addition to having to completely empty the mixing container at the same time, has caused the same problem as the heavy fraction. This has led to known mixing containers having been dimensioned as large as possible to avoid frequent discharges, which has resulted in high construction costs and a poor process economy.

The object of the present invention is to provide a discharge device by which the above-mentioned disadvantages are avoided and by which an efficient discharge is made possible in a simple and reliable way. This is achieved by a discharge device according to the invention, which is characterized in that the lock is arranged at the lower end of the mixing container and that the lock consists of a cylindrical container with a conical, tapered upper part and a conical, tapered towards its outlet 15. lower part.

The basic idea of this invention is to continuously and periodically, at suitably selected intervals, be able to remove undesirable components from the mixing vessel so that the actual process, preparation of pulp for the biogas reactor, can proceed efficiently and without unnecessary interruptions.

The mixing container is emptied in two steps, the upper first closure valve first being opened so that, from the point of view of the actual process, the undesirable material falls into the lock. Thereafter, said first closure valve is closed, the lower second closure valve being opened and the material deposited on an underlying conveyor for further transport.

The two-stage discharge, where the cylindrical container portion of the lock can act as an intermediate layer, allows the emptying of the mixing container to take place in small portions as needed. A further advantage of the dual valves is that the mixing tank is not completely emptied in case of valve failure.

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The inclination of the valves of the lock in itself facilitates the draining of material to the lock. Further, the oblique position ensures that materials that could easily block the valves, such as iron trees, foils, ribbons, socks, plastic film, or the like, do not adhere to the valves, that is, they are almost led to the valve seats. A discharge device constructed according to these main lines means that the mixing container itself can be dimensioned smaller than before in that its effective capacity can be maintained substantially unchanged for a longer period of time, since gradually collected overflow material can be periodically discharged.

The shut-off valves preferably consist of hydraulically driven damper valves which are infinitely openable. The degree of tilting can be adjusted according to the emptying device in question. An oblique position of at least about 5 °, preferably between about 5 - 45 °, preferably about 10 °, has been found suitable. For cleaning and dissolving minor blockages, the valves may be provided with flushing devices, preferably operating with a medium under high pressure, for example water, which can be fed into the process, or compressed air.

By designing the lock as a cylindrical container with a tapered upper part towards its inlet and a lower tapered taper towards its outlet, the function of the lock as intermediate layer is improved. Further, the expansion space below the inlet of the lock facilitates the draining of material to the lock. Where the lock is provided with a control cover, its function can be better monitored. The lock is also preferably provided with a water supply and flushing device. In this way, the lock can be kept clean. Further, the sluice can be poured filled with water, whereby the heavy fraction that falls into the sluice is opened and cleaned at the same time as the water is siphoned into the mixing vessel and further into the process. When the water supply and flushing device is arranged tentatively in relation to the lock, its effect is streamlined while the control door can be kept clean, which further facilitates the monitoring of the function of the lock.

In the following, a preferred embodiment of the invention is described in the form of an example with reference to the accompanying schematic drawing, in which the discharge device placed under the mixing container is shown in side view.

At a biogas plant for waste management, organic waste along with water and sludge are fed to a mixing vessel 1, in which said components are mixed to a biomass measured batchwise to a biogas reactor for digestion via a discharge tube 2. The bulk components, mainly heavy fraction and light fraction, are separated during mixing and passed to the discharge device 3 and from this to an underlying conveyor 10 for further transport.

The discharge device constituted by a lock 3 is preferably positioned at one side of the mixing container 1 in the form of a blunt downwardly directed cone or bottom 11. The above-mentioned undesirable components are supplied to the inlet 4 of the lock 3 the mixing container 1 has rotating scraping means (not shown). The lock 3 is a cylindrical container 31 with a conical tapered upper portion 32 and a conically tapered lower portion 33. The inlet 4 of the lock 3 lies at said upper portion 32 and its outlet 5 at said lower portion 33.

Both the inlet 4 and outlet 5 of the bed lock 3 are provided with shut-off valves 6, preferably hydraulic damper valves. The valves 6 are inclined in relation to the horizontal plane. An oblique position at an angle α of at least about 5 °, preferably between 5 - 45 °, preferably about 10 °, has been found suitable. The valves 6 11 5 96761 are also infinitely openable. Further, they are provided with flushing devices 7, preferably high pressure devices. The 6 gap openings of the fire valves are well suited for flushing. From a process point of view, it is advantageous for the flushing medium to be water that can be returned to the process. The inclined position of the valves 6 prevents the material from being directed against the valve seats and blocks the same. Any minor blockages can be removed by means of the high-pressure flushing devices 7. The slant also facilitates the drainage of the material in the lock 3. The cylinder-shaped container 31 of the lock 3 forms an expansion space below the inlet 4 of the lock, which also facilitates the drainage of the material in the lock.

The mixing tank is emptied in two steps. First, the upper first damper valve 6 of the lock 3 is opened, while the second lower damper valve 6 is closed closed, so that the material can fall into the lock. The size of the material flow can be regulated by the valves being infinitely openable. After a desired amount of material has fallen into the lock 3, the upper valve 6 and the lower valve 6 are opened so that the material falls out of the lock 3 on the underlying conveyor 10, by means of which the material can be passed on for further processing. In this way, the emptying can be done continuously with suitable inter-; 25 ridges.

Monitoring of the material collection (heavy fraction) at the bottom 11 of the mixing vessel 1 is conveniently carried out with a control hatch located in the area of the inlet opening of the discharge tube 2 for the biomass.

The lock 3 is provided with a control cover 8 for monitoring the function of the lock. Further, the lock 3 is provided with a water supply and flushing device 9, with which the lock can be easily cleaned. The water supply and flushing device 9 is arranged tangentially in relation to the circumference of the lock 3. Preferably, this device is directed so that the control cover 8 can be flushed if needed. When emptying the tongue fraction from the mixing vessel 1, it is advantageous to pour the sluice 3 filled with water at the first stage of the discharge, whereby the heavy fraction is cleaned 5 as it falls into the sluice 3 while the corresponding amount of water rises in the mixing vessel 1 and in this way is returned to the process. .

However, it is advantageous to collect the water that comes with the material that is precipitated from the sluice and return it to the process.

The drawing and the accompanying description are intended only to clarify the basic idea of the invention. In detail, for example with regard to the nature, operation and control of the valves, the location and design of the lock, the flushing devices etc., the invention may vary within the scope of the claims.

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Patent claim: 1. Dispensing device for mixing container (1) at biogas plant for waste management, which discharge device consists of a lock (3), wherein the inlet (4) of the lock is provided with a first closing valve (6) and outlet (5) with a second shut-off valve (6), which comprises sliding valves (6) inclined relative to the horizontal plane, characterized in that the lock (3) is arranged at the lower end (11) of the mixing container (1) and that the lock (3) is a cylinder -shaped container (31) having a tapered upper portion (32) towards its inlet (4) and a tapered lower portion (33) towards its outlet (5).

Discharge device according to claim 1, characterized in that the lock (3) is provided with a control door (8).

Discharge device according to claim 1 or 2, characterized in that the lock (3) is provided with a water supply and flushing device (9).

Discharge device according to claim 3, characterized in that the water supply and flushing device (9) is arranged tangentially in relation to the circumference of the lock (3).

The discharge device according to claim 1, characterized in that the shut-off valves (6) are hydraulically operated.

Discharge device according to claim 1 or 5, characterized in that the closing valves 30 (6) are infinitely openable.

Discharge device according to claim 1, 5 or 6, characterized in that the closing valves (6) are inclined at an angle (a) of at least about 5 ° in relation to the horizontal plane.

Discharge device according to claims 1, 5, 6 or 7, characterized in that the closing valves (6) are provided with a flushing device (7).

The discharge device according to claim 8, characterized in that the flushing device (7) is a high pressure device.

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Claims (9)

9 9676 1 A discharge device for a mixing tank (1) of a biogas plant used in waste treatment, the discharge device consisting of a shut-off valve (3), the shut-off inlet (4) being provided with a first shut-off valve (6) and the outlet opening (5) with a second shut-off valve (6) of the butterfly valves (6) arranged obliquely to the horizontal, characterized in that the closure 10 (3) is arranged at the lower end (11) of the mixing tank (1) and that the closure (3) consists of a cylindrical tank (31) with a conical taper (32) towards the inlet ) and a conically tapering lower part (33) towards the outlet. Drain device according to Claim 1, characterized in that the closure (3) is provided with an inspection hatch (8). Drainage device according to Claim 1 or 2, characterized in that the closure (3) is provided with a water supply and rinsing device (9). Drain device according to Claim 3, characterized in that the water supply and rinsing device (9) is arranged tangentially to the circumference of the closure (3). Drain device according to Claim 1, characterized in that the shut-off valves (6) are hydraulically actuated. Drain device according to Claim 1 or 5, characterized in that the shut-off valves (6) 30 can be opened steplessly. Drain device according to Claim 1, 5 or 6, characterized in that the shut-off valves (6) are arranged at an angle (α) of at least about 5 ° to the horizontal. 10 96761 Drain device according to Claim 1, 5, 6 or 7, characterized in that the shut-off valves (6) are provided with a flushing device (7). Drain device according to Claim 8, characterized in that the flushing device (7) is a high-pressure device. «II