SE502744C2 - Process and apparatus for anaerobic decomposition of organic waste - Google Patents

Abstract

A method and a device for continuous anaerobic degradation of organic waste are disclosed. The waste is emptied into a hopper (1), which preferably contains rotary rollers (2) equipped with knives for disintegrating the waste. At the bottom of the hopper (1), there is provided an infeed means (5) feeding the waste through a conduit (6) to the downwardly-directed narrow end (7) of a funnel-shaped container (8) exhibiting an acute angle alpha of about 60-160 DEG . During the hydrolysis, the waste is fed upwards through the container (8) while being moistened by liquid injection through nozzles (13) arranged above the container (8) or nozzles (14) arranged inside the container (8). After the treatment, the waste is discharged from the container (8) by outfeed means (9), which preferably comprise two screw conveyors arranged at the upper, opposing edges of the funnel-shaped container. The liquid not absorbed by the waste is drawn off, e.g. through perforations (15), and collected in a tank (16), to subsequently be conducted to a filter (19) where biogas is separated (at 20). After an optional addition of fresh water (at 26), the liquid is recycled to the nozzles (13, 14) and supplied to the waste. When having undergone the inventive treatment and been discharged from the inventive device, the waste may undergo further treatment, such as a maturing stage.

Description

More particularly, the invention provides a continuous process for the anaerobic decomposition of organic waste, wherein the waste is emptied into a pocket and fed from the pocket to a container; the waste is moistened by adding water or water-containing liquid; and the waste is removed from the container, characterized in that the container is funnel-shaped at an angle α of the downwardly directed tip of the container of about 60-160 "and that the waste is fed from below through the downward-pointing tip of the funnel-shaped container; that the waste is fed upwards through the funnel-shaped container and moistened; and that the waste is removed from the funnel-shaped container via its upper side edges to dispensing means.

According to the invention there is also provided a device for continuous anaerobic decomposition of organic waste, which includes a pocket for emptying the waste; an input means connected to the pocket; a container; a hinge connecting the pocket (1) and the container: liquid supply means for supplying water or water-containing liquid to the waste in the container: for separating liquid from the waste; characterized in that the container is funnel-shaped at an angle α of the downwardly directed tip of the container of about 60-160 ° and that the conduit is connected to the bottom of the funnel-shaped container, drainage means oriented tip for feeding the waste into the container, and that the funnel-shaped container at its upper end is arranged for discharge via the upper side edges to discharge means.

Further features and characteristics of the invention appear from the dependent claims.

The invention will be described in more detail in the following with reference to the accompanying drawing figures. Fig. 1 shows a schematic side view of a device according to the invention; Fig. 2 is a schematic longitudinal sectional view of the funnel-shaped container of Fig. 1; and Fig. 3 is a schematic plan view of the funnel-shaped container of Fig. 2 with the hood removed.

The device shown in Figs. 1-3 is designed as follows.

As shown in Fig. 1, there is a pocket 1 for receiving organic waste. In the drawing figure, the pocket 1 is designed as a pit, the upper edge of which is at the level of the ground plane, but it is understood that the pocket 1 can also consist of, for example, a free-standing container above the ground plane. For atomizing the waste, the pocket 1 may include atomizing means, for example in the form of knife-equipped rollers 2, but if the waste is sufficiently atomized from the outset, such atomizing means are not necessary.

The pocket 1 is further preferably provided with a lid 3 and heating means 4, suitably in the form of nozzles for injecting hot water vapor. At the bottom of the pocket 1 there is a feed member 5, which, as shown in Fig. 1, is preferably constituted by a reciprocating hydraulic piston member. Other types of feed means are also useful, such as rotary screw feed means, but the preferred feed means 5 is the hydraulic pressure piston shown. The feed means 5 is connected to a conduit 6, which at its other end is connected to the downwardly directed tip 7 of a funnel-shaped container 8. The container 8 is provided at its upper end with the discharge means 9. The discharge means 9 are preferably in the form of two pieces of screw conveyors, which are arranged on two opposite sides of the container 8, as shown in Figs. 1-3. Conveniently, the screw conveyors 9 are combined with another screw conveyor 10 (Figs. 2-3). In order to counteract the spread of unpleasant odors to the surroundings, the container 8 is suitably provided with a hood 11, which means that the hood 11 is preferably provided with a chimney line 12, through which formed gases can be closed 8. be discharged, for example, for incineration or other destruction. 502 744 10 15 20 25 30 35 4 As can be seen in particular from Fig. 3, the container 8 is preferably square (square) for manufacturing technical reasons. Above the upper end of the funnel-shaped container 8 there is a liquid supply means 13 in the form of at least one nozzle for spraying water or an aqueous liquid (hereinafter only referred to as "liquid") on the waste in the container 8. Alternatively, but currently less preferred , the liquid supply means can be designed as nozzles 14 inserted into the container 8, as indicated in Fig. 1. The liquid which is not taken up and retained by the waste is dewatered via drainage means 15, which preferably have the form of perforations in the lower part of the funnel-shaped container 8, as shown in Figs. 1 and 3. For collecting drained liquid there is a container 16, the part of the container 8. Alternatively, or as a complement surrounding the perforated to the perforations 15, draining of liquid can also take place from the discharge means 9, by the screw conveyors at the discharge of the waste simultaneously compressing and forcing liquid out of it. The collection container 16 is provided with a line 17 with a pump 18 for feeding drained liquid to a filter 19. This filter has a conventional design and comprises a container with a carrier, such as pleated plastic sheets, for methane bacteria, which produce methane (biogas). from the liquid supplied to the filter. Formed methane gas can escape, as indicated by the arrow 20, from the filter 19 and the energy content of the gas is recovered by combustion. A line 21 can also be connected to the line 17 for collecting and supplying any liquid from the discharge means 9. The filter 19 is provided with a return line 22 for returning liquid via a line 23 to the nozzle 13, or alternatively via a line 24 to the nozzles 14, as shown in Fig. 1.

The two opposite sides of the funnel-shaped container 8 which are not provided with discharge means 9 are delimited by vertical walls, which for instance form either an integral part of the container 8 or of the hood 11. These vertical 10 15 20 25 30 35 502 744 5 walls shall prevent waste from being discharged at these edges of the container 8, and ensure that all waste is discharged from the funnel-shaped container 8 via the upper side edges which are arranged at the discharge means 9.

As mentioned earlier, the discharge means 9 normally cause a certain compression of the waste at the discharge, whereby excess liquid can be squeezed out of the waste. To receive such excess liquid, the discharge means 9 may be provided with collecting means (not shown), such as perforations on the underside of the screw conveyors 9, the collected liquid then being diverted via the line 21.

The screw conveyors 9 are preferably connected to a further, screw conveyor 10 arranged below them, which receives the waste from the screw conveyors 9 and further transports it for further treatment, such as composting. During the measurement 1, the screw conveyor 10 is suitably aerated, for example by a special blowing of air (not shown) in the screw conveyor 10.

The device according to the invention described above operates in the following manner.

Organic waste is transported to the device, eg by car 25, and tipped into pocket 1. In pocket 1, the waste is preferably atomized by means of rotating, knife-shaped rollers 2, and for example when the waste includes hazardous waste or septic waste, a heat treatment is preferably also performed. action of the waste in the pocket 1. In this heat treatment, the pocket 1 is closed by means of the lid 3 and the waste is heated by, for example, injecting steam through the nozzles 4.

During the heat treatment, the waste is brought to a temperature of about 60-125 ° C, preferably about 70-80 ° C by means of water vapor under pressure, eg at least about 1.5 at. During the heat treatment with steam, the water vapor condenses on the waste, which is thereby moistened.

From the bottom of the pocket 1, the waste is fed by means of the feeding device 5, which is preferably a hydraulic pressure piston, into the pipeline 6, which opens into the lower pointed part 7 of the funnel-shaped container 502 744 10 15 20 25 30 35 6 8. By feeding additional waste, the waste moves upwards through the funnel-shaped container 8, whereby the waste, when pressed upwards through the container, is inverted and pushes the above material upwards and outwards the sides of the funnel-shaped container 8 so that undesired channel formation in the waste is counteracted. For optimal upward feeding of the waste through the funnel-shaped container 8, the tip of the container has an angle α (Fig. 1) of about 60-160 °, preferably about 60-80 ", such as about 65 °. Simultaneously with the feeding of the waste upwards through the container 8 it is moistened by supplying liquid, which preferably takes place by spraying from above with the spray nozzles 13, as described earlier.The wetting reduces the dry matter content (TS) of the waste to about 15-25% TS from eg about 50% TS for household waste. which is not taken up by the waste is taken out via the perforations 15 and collected in the container 16, as stated earlier.

During its upward feeding through the container 8, an anaerobic decomposition of the moist waste takes place, which normally has a pH of about 5-6 and a temperature of about 20-55 ° C, preferably about 25-40 ° C, and most preferably about 25-35 ° C. The time for the treatment, which corresponds to the time it takes for the waste to be fed through the funnel-shaped container 8, depends on whether it is only desired to carry out a partial anaerobic decomposition in the form of hydrolysis in the funnel-shaped container 8 or if it is desired to carry out a complete anaerobic decomposition, ie both hydrolysis and digestion, of the waste. If, as is currently preferred in the invention, it is only desired to carry out a partial anaerobic decomposition of the waste in the container 8, the treatment time is suitably at least about 2 days, preferably at least about 5 days, such as about 5-7 days, and most preferably about 5 days.

If, on the other hand, it is desired to carry out a complete anaerobic decomposition of the waste in the container 8, a considerably longer treatment time of up to about 20-30 days is required.

In this context, it should be pointed out that if a complete anaerobic decomposition is carried out in the container 8, this means that digestion with accompanying methane gas generation also takes place in the container 8. This methane gas is then emitted together with other gases. , such as carbon dioxide, via the chimney line 12 and is disposed of by, for example, combustion.

It will be appreciated that the filter 19 in this case is redundant for methane gas generation, but it can be retained as a leveling and buffer vessel in the described liquid circulation circuit.

When the waste has reached the upper end of the container 8 and the treatment is completed, it is discharged from the container 8 in a suitable manner, preferably by means of discharge means 9 arranged on either side of the container, as shown and described previously. At the discharge, the waste is suitably compressed by the discharge means 9 for squeezing excess liquid, after which the waste is fed further in a screw conveyor 10 and thereby aerated before it is collected for storage or continued biological degradation under anaerobic conditions (post-composting).

To create as closed a system as possible, the liquid collected from the waste during treatment in the container 8 is led through lines 17, 21 to the filter 19, in which formed biogas is separated (see arrow 20) and its energy content is recovered, for example, by incineration. Thereafter, the liquid is recirculated from the filter 19 to the container 8 through the line 22, possibly after supplementation with fresh water, as indicated by the arrow 26.

Due to its compact construction, the device according to the invention is not very space-consuming. The pocket 1 is suitably dimensioned for the volume of waste received during a day and the funnel-shaped container 8 suitably has a square horizontal section with a side edge length at the upper edge of about 5 m and a height of about 4 m. The container 8, like the rest associated equipment is suitably made of sheet metal and steel, respectively; wherein the inside of the container 8 is preferably coated with an abrasion and friction reducing material, such as rubber or plastic.

From the description above it appears that the method according to the invention is continuous, which means an advantage in relation to conventional, batch procedures. The invention has been described above with reference to particularly preferred embodiments, but it will be appreciated that the invention is not limited thereto, but may be modified and varied within the scope of the appended claims. Thus, for example, the container 8 does not have to have a square (square) horizontal section, section. but can, for example, have a circular

Claims (3)

Continuous process for anaerobic decomposition of organic waste, wherein the waste is emptied into a pocket (1) and fed from the pocket (1) to a container (8): the waste is moistened by supply of water or water-containing liquid (13, 14); and the waste is removed from the container (8), characterized in that the container is funnel-shaped at an angle α of the downwardly directed tip (7) of the container of about 60-160 ° and that the waste is fed from below through it. downward-pointing tip (7) of the funnel-shaped container: that the waste is fed upwards through the funnel-shaped container (8) and moistened; and that the waste is removed from the funnel-shaped container (8) via its upper side edges to dispensing means (9). 2. A method according to claim 1, characterized in that the treatment in the funnel-shaped container (8) takes place at a temperature of about 20-55 ° C. k ä n - c k n a t of the fact that the treatment in the funnel container (8) takes place for a period of at least 2 days. Method according to one of Claims 1 to 3, characterized in that the dry matter content of the waste when moistened in the funnel-shaped container (8) is reduced to about 15-25%. Method according to one of the preceding patents, characterized in that the waste is heat-treated in the pocket (1). A method according to claim 1 or 2, net-shaped claims, A device for continuous anaerobic degradation comprising a pocket (1) for emptying an input means (5) connected to the pocket (1): a container (8) : a conduit (6) connecting the pocket (1) and the container (8): liquid supply means (13, 14) for supplying water or water-containing liquid to the waste in the container (8): drainage means (15) for separating liquid from the waste ; organic waste, waste disposal; know - 502 744 10 15 20 25 30 35 10 that the container is funnel-shaped at an angle α of the downwardly directed tip (7) of the container of about 60-160 "and that the conduit (6) is connected to the downward-facing tip of the funnel-shaped container. (7) for feeding the waste into the container, and that the funnel-shaped container (8) at its upper end is arranged for discharge via the drawing thereof, the upper side edges of the discharge means (9). Device according to claim 6, characterized in that the dewatering means (15) comprise perforations in the lower part of the funnel-shaped container (8). 8. A device according to claim 6 or 7, grips two screw conveyors arranged at the upper edges of the funnel-shaped container (8). Device according to any one of claims 6-8, that the liquid supply means (13, 14) comprise at least one nozzle (13) arranged above the funnel-shaped container (8). Device according to any one of claims 6-9, that the pocket (1) is provided with a feature thereof, characterized by a heating means (4).