DE2940739A1 - Continuous composting of low fuel value material - in which exhaust gas is extracted below upper level in a tank - Google Patents

Abstract

In a process and appts. for continuous composting, the material is made to pass through a container from the top, downwards and is removed from the bottom of the container. A suitable oxygen containing gas for microbiological attack (e.g. air) passes in the opposite direction to the material. The outgoing gas is sucked from a zone under the upper level of the container through pipes which are in the compost.. Used to compost e.g. bark, peat, sawdust and refuse.

Description

'' Process for the continuous composting of composting

material and apparatus for practicing the method "The invention relates to a method for continuously composting a compostable material, preferably a mixture of organic waste or peat or the like and mud. More precisely, the invention relates to a method for continuous Composting such material in a container in which the material is forced will, from the top of the container, from an upper level in this through to move the container downwards and a gas that is rich in flowing through it Oxygen to decompose the material with the help of microorganisms is, where the gas moves in countercurrent to said material. With organic waste a material is meant such as organic household waste, bark, wood shavings, animal carcasses or animal residues or like, although other materials, which do not have the character of waste can be considered, for example such materials as peat and other fossil material.

Sludge should be understood to mean sludge that is used in wastewater treatment work or the same work.

Methods of the type described above are known. With one of these Process is the material to be composted in the top of a container and the oxygen-containing gas that is used to maintain the activity of the microorganisms is required, introduced from the bottom of the container and forced to move upwards to move through the container in countercurrent to the solid material that it allows will slowly fall down through the container, removing the material from the bottom the container is removed. In the known method, the exhaust gas is from the upper part of the container in an almost cold position of the material to be composted. Because the gas contains vapor and, under certain conditions, can be saturated with it It can be difficult to condense the steam in the upper, cold Layer of the material to be composted. This in turn can be in it result that this layer is enriched with water. This water causes that the layer is more compact, which makes the passage of the gases difficult and the size increases the force required to drive the fans, etc. These disadvantages and inconveniences can be avoided when the gas is out one Zone is taken which is below the upper level of the solid material in the container lies.

A very significant advantage achieved thereby is that the exhaust gas, which can be air and which is often malodorous, does not go directly into the Atmosphere is released. Another advantage is that the heat content of the exhaust gas is used for heat exchange at the highest temperature of the gas can be before the gas is cooled by using the upper, cold layer the material in the container comes into contact.

The method can be put into practice by using a manifold for the waste gas is placed at the upper level of the solid material in the container, in which composting is to be accomplished. Are on this manifold Branch lines connected, the arrangement being made so that the branch lines cover the entire cross-sectional area of the container. With the lower side everyone Branch line is connected to a number of nozzle-like tubes that extend downward extend into the bulk of the material to be composted.

It is to those skilled in the art of composting such material amazing that a negative pressure in the collecting line for waste gases in a kind can be achieved to create suction from a zone in the mass itself, without that Material either the piping or the holes blocked in the ends of the nozzle-like tubes. An explanation of why the invention What leads to the excellent results is that when the material is in Container sinks, leaves conical spaces that are free of solid material and which serve as small collecting spaces for the gas.

So far the method is with reference to the use of oxygen-containing Gas has been described. It is clear that this gas can be air, although in special ones Cases air that is enriched with oxygen can be used.

Normal oxygen-containing gas is in the bottom part of the container introduced, which implies that the method is practiced with a combination of insertion at the bottom of the container and suction at the top of the container.

According to the invention there are considerable advantages over the above Process achieved when a negative pressure of such magnitude is generated in the branch lines becomes that air penetrates into the material mass in the container from its upper level and downward simultaneously with the material to and out of the nozzle orifices flows.

The invention also relates to a device for practicing the invention Procedure. The device includes one Container, facilities for introducing compostable material at its upper end, facilities for removing composted material from the bottom of the container, means for supply of oxygen-containing gas at the bottom of the container and facilities for Removing these gases by suction includes at a level below the upper Levels of compostable material in the container. The invention is described below explained in more detail with reference to the drawing.

The drawings show: FIG. 1 a perspective partially broken away illustrated view of the device for practicing the method; Fig. 2 shows a nozzle for removing waste gases by suction and FIG. 3 is a schematic representation a system for performing the method according to the invention.

1 with a container is referred to in the compostable material is introduced at the top. Below the level of the top layer of the compostable Material is provided a manifold or multiple manifolds 2, the are provided with branch lines 3. With each of the branch lines 3 is a plurality connected by tubular nozzles 4. Again Fig. 2 can be seen in more detail is, the nozzles 4 comprise two parts 5 and 6, of which part 5 has a larger diameter has as part 6, such that a constriction of the gas flow through the individual Throttling is effected. The reason for this is to have a more even distribution of the gas flowing through over the entire cross-sectional area of the layer in the container ensure when the gas through the branch lines 3 and the manifold 2 is sucked. Changes are caused by these constricted areas in each throttle of the pressure in the mass compensated for by the fact that there is a resistance in the said constricted area of the throttle occurs as an effect of the higher Gas flow rate. The gas enters the nozzles 4 through openings that are formed in the wall of the nozzle part 5.

When the gas that escapes during the composting process through Suction from the zone below the upper level of the material in the container by means of one or more nozzles that are open in the zone is sucked off, in this Maintain a sufficiently high negative pressure in the pipe or tubes connection an oxygen-containing medium can also be forced at the same time to flow to the material in the container. This ensures that an excess of oxygen-containing medium, preferably air, fed to the zone of the container where the composting process requires most of the oxygen-containing gas. Another advantage is that it becomes an essential A higher degree is ensured than in the above-described method that disruptive Components that cause discomfort to those around cannot be led out of the container.

According to the invention it was found that the composting process preferably by measuring the carbon dioxide content in the composting process escaping gases can be controlled. It has been found that if the operation does not run satisfactorily, more carbonaceous material, such as sawdust, can be introduced into the material to be composted. It is also possible, change the moisture content of the material by adding water.

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Claims (6)

Claims 1. A method for the continuous composting of compostable material in a container where the material is forced to stand from the top of the container, from an upper level in this through the container to move to its bottom, and with the oxygen-containing gas that is used for the Microbiological decomposition of the material required is forced into countercurrent to flow through the meterial, it is clear that the Gas is removed from the container by suction in a zone that is below the top Levels of the material in the container. 2. The method according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the gas is removed from the container by suction via pipes that are located extend downward into the material to be composted to a level which is below the said level in the container. 3. The method according to claim 1 or 2, d a d u r c h g e -k e n n z e i c h e t that air is used as the gas. 4. Device for performing the method according to claim 1 to 3, g e k e n n n z e i c h n e t d u r c h a container (1; 11) with devices (12, 13) for placing a compostable material in the upper part of the container (1; 11), devices (14, 15) for removing composted material from the ground of the container, means (16) for supplying oxygen-containing gas to the bottom part of the container (11) and by means (2, 3, 4 or 17, 19, 20, 21) for discharge of exhaust gases by suction from a level that is below the upper level of the compostable Material is in the container (11). 5. Apparatus according to claim 4, d a d u r c h g e -k e n n z e i c h n e t that the devices for removing the exhaust gases by suction a pipe (3 or 20) or more such lines include the tubular on the lines have attached cans (4 or 21), wherein the nozzles over the entire cross-sectional area of the container distributed to discharge gases through Suction are arranged, which are generated by the mass to be composted in the container. 6. Apparatus according to claim 5, d a d u r c h g e k e n n -z e i c h n e t that the nozzles (4 or 21) each have a part (5) of a relatively large diameter with gas passage openings (7) in the end area and a further part (6) smaller Diameter to create an increased resistance to the gas flow at a even distribution of gas resistance in the mass that is composted, include.