DE4113993A1 - Organic waste material is composed in a barge or similar craft - vessel hold is fitted for aeration of compost and for handling exhaust air and seepage water - Google Patents

Abstract

A procedure of composting waste material uses a covered barge or similar craft as a reactor vessel. The vessel hold is provided with a means for aeration and for collecting the condensate or seepage from the compost. The vessel hold is first filled to a depth of about 3 m with chopped waste material; the hold is then covered with approximately airtight tarpaulins or sheets (3); the introduction of air of oxygen-rich medium (2) is started during or after filling of the vessel; exhaust air (6) is withdrawn by a fan (8), dried (7), filtered and discharged to the atmos.; seepage water passes through a perforated floor (1) into a collection space below; and after completion of the composting process or a subsequent ripening period, the compost is unloaded and re-used. USE/ADVANTAGE - Used for composting communal or agricultural organic waste. Time and space are saved by using the same vessel for composting and for transport, and a higher overall productivity is therefore achieved.

Description

A large number of composting devices are known which differ in terms of design and mode of operation and their Distinguish environmental impacts. One of today's standards Environmental compatibility requirements and ecological acceptance on the so-called Rottebox in is the most extensive corresponding system closed design, in which an intensive rot with air supply with controlled conditions as well as a treatment of the exhaust air and the liquid waste products can take place. However, also point out shortcomings on these systems, one has the introduction of composting works for the disposal of regional associations, for example after the Separate collection concept, in mind. The need is most important negatively noticeable on the standing or building ground, on the one hand because of the ecologically disadvantageous sealing of considerable areas, for others because of the high cost of construction in urban areas reason. Added to this are the considerable transport burdens for the Transport of the goods to be composted as well as delivery of the finished product to its customer. Noise and smell nuisance supply and the costs for the construction of the actual rotting boxes are other disadvantages of this technology.

The present invention is based on the object Procedures reducing the time and transportation as well of the equipment and construction costs and thus high economic propose speed and a suitable device for ver to provide.

The object is achieved in that specifically prepared, coverable prahm- or lighter watercraft than composting reactors be used. At the collection point with the composted Filled material, becomes during their water transport Destination the composting process is carried out. With the user the raw or finished compost is then available.  

Advantageous embodiments of this proposed according to the invention Procedures are the subject of the subclaims. The one such composting process particularly suitable Device, a specially designed water ride testifies to the characteristics of the device relevant claims described.

The invention is explained below with reference to the embodiment shown in FIGS. 1 to 3 of a particularly useful composting reactor.

Fig. 1 shows a cross section through a watercraft in which compost is produced in the manner according to the invention.

Fig. 2 shows a longitudinal section through such a driving tool.

Fig. 3 shows an embodiment and arrangement of the heat exchanger in which he follows the exhaust gas dehumidification.

The prahm- or lighter-type watercraft has one double-walled hull and a towering this part Dropside. In the fuselage of the vehicle is at a distance of 10 to 100 cm an openwork, preferably from the inner fuselage floor removable shelf arranged. The breakthroughs are formed as holes or slots and have a free Passage from approx. 5 to 50 mm. Who is under the Intermediate floor forming space represents the fumigation and the Collection space for leachate. One or several transverse divisions can be arranged in the area of Show breakthroughs. Below the mezzanine air supply lines are arranged in the double bottom of the fuselage can run and at one or more points in the Be gas room. Here they flow into outflow nozzles or in outlet pipes, the outlet openings on their underside have. The cargo space is with flaps or sheet metal, in front  preferably with gas or tarpaulin coverable. In the covering devices or in the outstanding The side wall is equipped with pipe sockets that are connected to the exhaust air pipes with gas conveying devices such as fans, water jet fans or fans are connected. In these exhaust pipes Heat exchangers are integrated with the task of dampening reduce the exhaust air by condensation. That warmth Exchangers use the cooling effect of the respective water and are arranged inside or outside the hull. Especially their arrangement in protuberances or indentations is advantageous against the ship's wall. Here, their vertical arrangement geome trie are chosen so that they decrease with decreasing draft of the Ship in whole or in part above the water line, whereby their cooling capacity corresponds to the mining process organic components can be adjusted. The heat exchangers can also be designed flexibly and freely in the water hang, preferably in the vortex area of the ship's drive. Purpose moderately, the watercraft has devices for Determination of change in draft to the course of the To be able to follow the composting process in a simple way. Between the watercraft serving as the reactor and a Be boot can be a flexible condensate and / or leachate pipe be arranged to the liquid accumulated in the ventilation space To transfer the product phase. An exhaust duct can also be used this or another dinghy.

The composting ship described is operated in as indicated in the process claims as follows. The empty watercraft is transported using conveyors, in particular Excavators with crushed organic material, e.g. B. municipal or agricultural waste materials, up to one Loading height of a maximum of 3 m filled. Then the cargo space largely covered gastight, preferably with tarpaulin or Fo lien. Afterwards or already during the filling takes place over Devices arranged on the bottom, the supply of air or  oxygen-rich media. The air penetrates the rotting and becomes extracted as exhaust air by means of gas conveyors. The high humidity Exhaust air content is reduced by adding heat exchangers is conducted in which condensation takes place. The cooling performance of the capacitors can be easily in the Who adapted the course of the rotting process to changing conditions the by the heat exchanger by their geometric arrangement partially or fully with decreasing draft of the watercraft constantly come to rest on the waterline. The exhaust air is expediently cleaned before being released into the atmosphere becomes. This can be done using filters, especially biofilters, which can also be designed as a compost filter. The Be Exhaust air can also be treated on a dinghy to which then a flexible exhaust duct is routed. The compost process is carried out up to a specified point in time leads by observing the changing draft of the Watercraft can be determined. To cancel the To initiate the composting process, one can initiate the exhaust gases from internal combustion engines, in particular from ships diesel engines. These gases can be direct or chilled Find use.

The leachate that forms can remain in the collecting area, to be pumped out later. You can also use composting if necessary be fed again. Ultimately, they can too be promoted periodically or continuously on a dinghy which is equipped with tank systems or wastewater treatment systems.

After the composting process, preferably on Destination of the transport of the composting material the watercraft emptied and the product as raw or finished Compost fed for further use.

The inventive method is simple and extreme economical way of composting water relocated to what means of transport if they invented senses were designed as an inexpensive reak  use. On top of that, the composting process immediately with a required transport process to the user be connected so that a further increase in economic speed occurs. Noise and odor nuisance in urban areas as well as environmental damage are greatly reduced or completely avoided.

Claims (13)

1.Procedure for composting municipal or agricultural organic waste products in closed containers with forced aeration of the compost, characterized by the use of concealable peat-type or lighter-weight watercraft as composting reactors, the facilities for the through-ventilation of the compost and for the derivation and collection of the Condensed and / or leachate included. 2. The method according to claim 1, characterized in that

• - the empty watercraft is filled with shredded organic material up to a loading height of approx. 3 m,
• - The cargo space is then largely covered airtight using tarpaulins or foils,
• air or oxygen-rich media are preferably supplied on the bottom after or during the filling,
• - The exhaust air is sucked off and is preferably conducted into the atmosphere after dehumidification by heat exchanger condensation and filtering,
• - The resulting leachate is passed through a perforated intermediate floor that receives the compost material into a collection room located below it,
• - After completion of the composting process or after a maturation period, the watercraft is emptied and the compost material is used as raw or finished compost.

3. The method according to claims 1 and 2, characterized in that that the composting process during the water transport of the compostable material to the destination.   4. The method according to claim 1, characterized in that the exhaust air aspirated by gas conveyors and condensing the moisture activity is supplied to one or more heat exchangers, the are arranged outside or inside the vehicle body and use the respective water as a cooling phase. 5. The method according to claim 2, characterized in that the Composting is stopped when a planned draft of the Watercraft is undercut. 6. The method according to claim 5, characterized in that the Ab break through introduction of exhaust gases from internal combustion engines preferably done by marine diesel engines. 7. composting reactor, which has a closed container with a device for forced ventilation of the compost, characterized in that a prahm- or lighter-type watercraft with a double-walled hull and a side wall projecting over this part,

• a perforated intermediate floor 1 arranged in the fuselage of the vehicle at a distance of 10 to 100 cm from the inner fuselage floor as a support for the compost material,
• - Air supply lines 2 arranged below the intermediate floor,
• a cover device 3, preferably made of gas-tight tarpaulins or foils, for the loading space,
• one or more transverse divisions 4 of the ship's hull, which have openings 5 below the intermediate floor,
• Exhaust air lines 6 in the upper part of the covered loading space, which are connected to one or more gas conveying devices 8 ,
• - Heat exchangers 7 integrated in the exhaust pipe, which use the respective water as a cooling phase,

having.   8. composting reactor according to claim 7, characterized in that that the preferably removable intermediate shelf is perforated or slotted, the free passage preferred is 5 to 50 mm. 9. Composting reactor according to claim 7, characterized in that one or more pipes 2 for air supply preferably run in the double floor of the vehicle and at one or more locations, preferably distributed over the entire extent of the intermediate floor, are guided into the fumigation space 15 below the intermediate floor , where they end in the discharge nozzle 9 , or that in the fumigation space even pipes 10 , which preferably have outlet openings on their underside. 10. Composting reactor according to claim 7, characterized in that in the upper part of the covered cargo pipe line 11 are arranged in the cover and / or in the upper region of the double-walled hull overhanging side wall. 11. Composting reactor according to claim 7, characterized in that the ship's hull has one or more protuberances or Einülpun gene 12 in which cooling tubes 13 or cooling surfaces are angeord net or which are themselves designed as heat exchangers. 12. Composting reactor according to claims 7 and 11, characterized in that the vertical arrangement 14 of the Wärmetau shear takes place so that they are successively completely or partially above the water line with decreasing draft of the ship, preferably by an arrangement geometry that the degradation curve during corresponds to the composting process.