DE4008104A1 - Faster composting appts. with self-circulating air flow - where warm air from reaction rises, cools and falls to base of container via tube, draws in water and flows through heap again - Google Patents

Abstract

Process and appts. for composting biological materials. Heat produced by the reaction rises above the heap, is cooled and falls via a central or side channel to the heap base where it is drawn in again, thus forming a self-circulating air flow. Moisture is picked up during circulation and carried into the heap. Appts. comprises a closed, insulated container with a continuous, perforated central pipe in which a water container with an exposed water surface is suspended. An annular gap remains between the water container and central pipe for air circulation. USE/ADVANTAGE - Used for efficient composting with more rapid material breakdown.

Description

The invention relates to a method for composting organic matter and an implementation facility this procedure.

The implementation takes place in the known compost containers processes take a long time and are imperfect.

The object of the invention is to the composting process shorten and improve the mining processes.

This is achieved in that in one Compost bin both the moisture, the oxygen requirement and the temperature in the substrate to be composted in The combination is optimal

• - an automatic, capillary intake of water in the good to be composted, as well as creating a water vapor saturated Atmosphere in the container and
• - an automatic air circulation through the composting material
• - low heat loss.

The capillary water intake takes place via mats, strips or ropes with narrow pores that make up the composting material surround or enforce it, taking the water tank out where the capillary water extraction takes place, within or outside of the container. The free waiter area of the water tank and part of the compost tank wise exposed suction mats, strips or ropes lead, because they are capillary filled with water, to ver evaporation and thus for water vapor enrichment of the Atmosphere in the container. This way, going out on the capillarity of the material to be composted, on the  capillary suction lines to the water tank lines ge create about which the good with that for the dismantling can saturate necessary water.

The decomposition processes during composting generate heat. The heating of the substrate also leads to the heating of the Air well enclosed in the spaces; it rises upwards, exits the property and cools in the airspace over the estate again. The cooled air sinks through Central tube in the stack of goods down and can go back into that Penetrate material; there is a circulation, so that the material due to this thermals, steadily slow from Air is flowing through.

It is now to be ensured that this flow leads to this composting material necessary for the mining operations oxygen is supplied. Ent during the dismantling processes stands beside the heat also carbon dioxide, which is heavier than Is oxygen. Through a channel at the bottom of the Zentral Pipe can leak heavier carbon dioxide and that Diffuse lighter oxygen. So it is with one Minimum gas volume exchange in the container and thus one very little heat loss possible, the above Circulation of the atmosphere in the container for new oxygen the oxidation processes during the decomposition of the organic substance to mix.

It would also be possible to keep the heat in the compost pile for a direct flow from bottom to top, shows that the colder outside air in the lower area of the Container enters and the warm air through holes in the Lid escapes, but with a greater loss Heat would be connected. This principle could be warmer Areas and in processes where the Heat development in the degradation processes is relatively large.  

In many cases where this heat builds up rather than is marginal, container insulation, e.g. B. provided by foams.

In Fig. 1, a container for performing the described method is shown schematically as an example.

The container, round or rectangular in cross section, consists of the casing 1 , the tightly closing lid 2 and a perforated central tube 3 . A water tank 4 is suspended in the central pipe 3 and is fed by the rain through the cover 2 which is pushed downwards. Dip into the water tank 4 rot-proof fabric strips 5 or ropes 6 with as little capillarity as possible, ie high suction power, e.g. B. made of glass fiber.

The strips 5 lead to the inner surface of the jacket 1 'and on the outer surface 3 ' of the central tube downwards; are thus in the lower area on the compost stack 7 . The ropes 6 plunge directly into the material 7 to be composted. This creates continuous capillary water paths from the material 7 to the water 8 in the container 4 and thus an automatic moisture supply.

Instead of the water tank 4 , the entire central tube 3 can be filled with a capillary-porous material which is impregnated with water but also allows air to pass through.

The air heated during composting emerges from the top of the material 7 , cools down again, sinks down through the gap 9 between the central tube 3 and the water tank 4 and enters the material 7 again through the perforated central tube 3 . The heavier carbon dioxide flows out through the pipe 10 . At the same time, oxygen diffuses through the tube 10 into the central tube 3 and thus compensates for the loss of concentration in the container; the oxygen required for the oxidation processes during composting is supplied later.

Alternatively, if necessary additionally, the lower container wall 1 has openings 11 . Furthermore, 2 openings 12 are provided in the lid. The heated air exits through the openings 12 and fresh air is drawn in through the openings 11 .

The entire container jacket is seen with insulation 13 ver. The container jacket has doors 14 for the removal of the finished compost. The container has no bottom if earthworms are to be given access from the ground. If the highest possible compost temperature is in the foreground, an insulated container bottom must be provided.

Claims (11)

1. A method for composting biological substances in a container, characterized in that the heated air emerging from the composting material stack as a result of reaction processes cools again above the stack, sinks through a central channel or lateral channels, sucked back into the stack in the lower region becomes, and so it comes to an automatic circulating ventilation of the material to be composted. 2. The method according to claim 1, characterized in that the heavier carbon dioxide generated during composting flows out through an opening provided in the bottom of the container and oxygen diffuses into the container. 3. The method according to claims 1 and 2, characterized characterized in that the circulating air over humid Container areas or free water areas in the container strokes, absorbing moisture and this with the Zir enters into the material to be composted and so that with the warm air rising from the stack compensates for the associated loss of moisture. 4. The method according to claims 1 and 2, characterized characterized in that the stored in the container to com posting material on capillary porous ropes, webs or areas in contact with water as a result the capillary action for the implementation processes necessary moisture is supplied. 5. Device for performing the method according to claims 1 to 4, characterized in that the consists of a closed, preferably insulated container ( 1 ) which has a continuously finely perforated central tube ( 3 ) in which a water container ( 4 ) with an open Water surface is hooked in such a way that an annular gap ( 9 ) for air circulation remains between it and the central tube ( 3 ). 6. A container according to claim 5, characterized in that the water container ( 4 ) consists of porous, water-permeable material ( 7 ) and thus has water-evaporating surfaces. 7. A container according to claim 5, characterized in that it has an opening ( 11 ) below for the outflow of carbon dioxide and the entry of oxygen. 8. A container according to claim 5, characterized in that in the water tank ( 4 ) ropes ( 6 ) or webs ( 5 ) dive, which are guided by this, in or around the material to be positioned ( 7 ) and thus capillary , there are water pipes from the water tank ( 4 ) to the material ( 7 ). 9. A container according to claim 5, characterized in that the entire central tube ( 3 ) is filled with capillary, water-soaked substances which are at the same time permeable to air. 10. A container according to claim 5, characterized in that it has bottom doors ( 14 ) for the removal of the finished compost and a lid ( 2 ) for filling. 11. A container according to claims 5 and 10, characterized in that the lid ( 2 ) is curved conically downwards to catch the rain and at the lowest point has an opening ( 12 ) for introducing the water into the container ( 4 ) .