DE4134506A1 - Arrangement for storing waste in reactor dumps - has controlled feed of reactive process water emanating from rainfall and snow - Google Patents

Abstract

A roof system (1) is used, erected over the area (27) of the dump or on walls (34) around it. It retains rain water or melted snow away from the dump (28), and diverts it into a storage chamber (4, 23) from which it can be taken, as needed, for humidifying the material in the dump (28). Removal of water from the storage chamber is by pumps (20) regulated and operated from a central control (22) which measures via a sensor (33) the degree of humidity in the dump, and activates the water feed units (3) accordingly. Water seeping out of the dump can be collected by corresponding collection conduits (31) and discharged into the storage chamber for re-use in humidifying the dump. USE - For the controlled humidification of reactor material in a dump.

Description

The invention relates to a method for storing waste in a Landfill, preferably reactor landfill, with precipitation, e.g. B. Rain, snow or the like, stagnant water kept from the landfill becomes. The invention further relates to an arrangement for storing garbage in a landfill, preferably a reactor landfill, in particular for passage conduct of the procedure, whereby for the Landfill a roof is provided, which is protected from precipitation, z. B. Rain, snow or the like, stems water from the landfill.

There are numerous processes and landfills for storing garbage known.

DE-OS 38 11 487 describes a system for depositing and La like waste, garbage and the like with an essentially one for Horizontal inclined liquid-tight sole and attached to it closing, tight or sealed side boundaries on send landfill basins, the bottom of the landfill layered to the Underlying adjacent, lower sealing layer and, preferably one Surface drainage layer with leachate drainage, the top sealing layer facing the landfill and between the two sealing layers arranged, in their interior towards the Extending their main surfaces from a liquid, if necessary pressurized flushing medium flows essentially over the entire surface baren mud layer, which over substantially the entire Er stretching of its edge, apex Firstes or the like with at least one feed for a flushing medium and over essentially the entire extent of their level lowest or lower edge or valley bottom or the like with at least a discharge for a possibly contaminated with landfill materials Flushing medium is connected in a communicating manner.

DE-OS 35 25 701 describes a method for the renovation of Landfills, in particular landfills whose leachate contains Have organic, halogenated compounds known in which the Landfill is sprinkled with water from above, and below from the landfill escaping leachate is at least partially harmful parts to be cleaned, possibly including the landfill upwards against the escape of gases and possibly also downwards is sealed against leakage and from the landfill escaping gases are collected and cleaned of harmful components  or disposed of.

From DE-OS 37 36 973 is a roofing arrangement Use over a landfill type with a top film seal of the built-in landfill, known for the roofing arrangement as an air dome with a textile and coated roof skin is formed and that the roof skin at least partially as the Upper foil seal on the built-in landfill serves. Information regarding a water supply to this landfill is not taken as this arrangement protects the landfill against Nieder whipped water both during the operating time of the landfill and in which allows for subsequent time.

EP-A 3 03 591 describes a method for treating landfill material known, in which the landfill good in all respects at least essentially Chen sealed landfill body with liquids and / or gases acts, in particular rinsed and / or leached. Furthermore is off this document a container for long-term storage of landfill material, with a jacket resting on a base and a cover for the Shell cavity, in particular ring containers with central loading and central access shaft, as well as with radial gradient drainage to the loading middle of the tank bottom, known, at the bottom of the tank, if necessary above a leveling layer to the base, a first area filter layer with drainage pipes and a first mineral seal Layer, in particular made of clay minerals, is arranged, the first Surface filter layer and the sealing layer each the free surface of the Cover the bottom of the container, with the sealing layer facing upwards a floor / side sealing apron connects, the side part close to Jacket and, if applicable, against tank internals, such as manholes, and being above and radially within the bottom / side skirt a second surface filter layer with drainage pipes is provided which, preferably with the interposition of a porous protective layer for the second surface filter layer that stores the landfill.

However, none of these known methods and devices see Measures to optimally take the seizure out of the landfill minimizing or avoiding seepage water, however, the Moisture of the landfill for the reaction of the deposited wastes is of crucial importance.

Landfill leachate poses a number of problems on. The accumulation of leachate is discontinuous and therefore for  any biological process control in connection with its disposal problematic. The chemical composition of the leachate is from Age of the reactor landfill depends and varies widely. Due to the operational experience of landfills, the chemical Composition of leachate from the type of waste delivered highly dependent and variable. It can therefore be used for the dimensioning of the chemical wastewater treatment is based on general guidelines only will. The guarantee that specified emission limit values are complied with can therefore only ever take certain parameters into account are given, because when the garbage consistency breaks out of the norm values can fall out of the limit value determinations at any time.

Different degradation inhibitors in the leachate affect the Biodegradation in biological treatment plants for the Leachate negative. An attempt to share the leachate Municipal wastewater can only be promised if the ratio of municipal waste water to leachate is favorable, d. H. a high percentage of municipal wastewater low pollution through leachate.

The processes currently used to purify leachate, namely biological cleaning and reverse electroosmosis or UV ozone combination processes and other cleaning processes difficult to carry out due to the changing consistency of the waste, costly and extremely complex. The known methods involve high investment costs and power consumption, a high one Resource consumption and significant maintenance; nevertheless, compliance with the emission values cannot be guaranteed will.

A major problem when operating a landfill, in particular a reactor landfill, is that the for the operation of the The required amount of moisture in the reactor landfill is not correct occurs, but either drying up the landfill and a The reaction of the waste materials comes to a standstill, or that Precipitation occurs in excess, so that excessive leachate with accruing correspondingly carried waste materials that have to be clarified.

The aim of the invention is to provide a method and an installation create with which these disadvantages can be avoided.

A method of the type mentioned, with these disadvantages are avoided, is characterized according to the invention in that the  water from the precipitation and kept from the landfill as process water necessary for the reaction of the landfill materials and / or timed to the landfill or added to it is brought and the supply or the application of the process water in Ab dependence on the measured moisture content of the landfill materials takes place, the application of the process water takes place to the extent or is controlled in such a way that the seizure comes from the landfill leaking water is minimized or avoided.

An arrangement of the type mentioned is there according to the invention characterized in that irrigation facilities, e.g. B. Sprayer lines, and / or process water pumps and / or water shut-off devices for the regulated application of the rain and the water held in the landfill as process or reaction water the landfill is provided and that control devices for the loading watering devices and / or for the process water pump (s) and / or Water shut-off device (s) are provided with which the process water Can be supplied to the landfill in quantity and / or time-controlled form is so that the accumulation of leachate from the landfill mini is lubricated or avoided.

The solution according to the invention therefore provides that the necessary moisture is supplied to the landfill without a There is an excess of process water and thus seepage water is generated could. Under this condition, the problem of leachate be avoided; the landfill thus becomes oversized Canopy erected, but at the same time the necessary Water of reaction is fed to the landfill in a controlled manner. At the same time it is an advantage if the height of the roof is variable is and can grow with the dump. At the same time however, the roof can be made windproof, for which purpose it is provided that the storage space for the rainwater in the roof itself is carried out, which increases the stability of the roof structure.

The canopy is therefore considered in terms of its height as well A variable construction in terms of its area and in particular is made up of a number of stable ones Canopies built in the form of a network. It is of course, that the canopy is also common, e.g. B. the shape of a gable roof. After completion of the landfill or

Reaction of the waste can erode the waterproof roof  and the landfill will be closed by a cover.

The basic structure of the system according to the invention or Landfill is no different from conventional landfills in the With regard to sealing the landfill from groundwater or the leakage of waste from the landfill. Different from the Conventional landfills, however, are primarily regulated drove from held rain water as reaction water.

In a preferred embodiment of the invention, that the area of the landfill with canopies in the form of oversized  Funnel umbrellas or hall-like spans, reducing the rainfall water collected and stored in a controlled manner or as pure surfaces water can be discharged without damage or in the manner according to the invention for loading humidification of the landfill can be used.

The main economic advantage of the process according to the invention wise lies in the certainty that no inadequately cleaned leachate get into the receiving water and the operating costs on commissioning restrict the spray system. Should the own water supply through If precipitation is insufficient, the humidification of the Landfill body over the water supply network or well or through the water removal of streams or rivers. An exit from Leachate is avoided in any case. Should out of any If there is a seepage water anyway, this can occur the landfill is recycled and thus used again for humidification will.

In principle, the roof of the landfill can have any appearance; it is advantageous if the roof is umbrella-shaped or funnel-shaped, e.g. B. in Shape of an inverted pyramid (blunt), or in the form of a cone, tent, Gable roof or the like is formed.

The invention is illustrated below with reference to the drawing Embodiments explained in more detail. Show it

Fig. 1, 1a and 1b in schemati shear-sectional view and plan view of a roof according to the invention, Fig. 2 and 3, individual enclosures, which are assembled to form a shed-shaped enclosure, Fig. 4 and 4a details of the canopy, Fig. 5 schematically illustrates an embodiment of another Embodiment, FIG. 6 shows a plan view of an embodiment according to FIG. 5, FIG. 7 shows a further embodiment of a system according to the invention, and FIG. 7a shows a reduced plan view of the embodiment shown in FIG. 7.

Fig. 1 shows a roof 1 , which is formed by a network of individual roofs, which are connected to a coherent roof area. The individual canopies, of which the roof surface shown in Fig. 1 is formed, are shown in Figs. 2 and 3 in more detail. At the edge of the roof surface, the roofing 1 shown in Fig. 2 'arranged, whereas in the inside of the roof surface, the roofing 1 shown in Fig. 3' are arranged.

A canopy 1 'comprises a foundation 24 , which supports a cladding tube 5 ' from, in which a support tube 5 is arranged adjustable in height. In its upper part, the support tube 5 carries struts 12 , the ends of which are connected to a peripheral support 25 . The support tube 5 is extended above the level of the vines and the upper end 14 of the support tube 5 is braced with ropes 13 to the corner points of the hexagon formed by the roof skin. The canopy 1 ', like the canopy 1 '', is designed in the form of an over-dimensional funnel, which forms the corresponding storage space 4 for rainwater.

The canopies 1 '' have struts 12 , the ends of which are connected by means of ropes 17 . Adjacent roofing elements 1 'and 2 ' can be connected or tensioned by means of ropes 16 .

The site 27 is opposite the landfill fill 28 with appropriate means, for. B. foils, concrete layers 29 or the like. Isolated. To increase the bed, the support tube 5 in the cladding tube 5 'is moved upward and, if necessary, the cladding tube 5 ' with an additional part 5 '' extended upwards. In this way, the canopy 1 can be raised at substantially the same distance from the landfill body.

In the storage space 4 of the roofing elements 1 and 1 '' there is an overflow 8 for setting a maximum water level so as not to overload the roof construction. This advantageously opens into the support tube 5 , which is led to a further reservoir or a receiving water; The rainwater could be fed back to the irrigation devices 3 from the store in order to be sprayed onto the landfill.

The supply connections 18 of the irrigation devices 3 are at a distance from the bottom of the storage space 4 , so that on the one hand sufficient water is made available, but on the other hand a certain residual water remains in the storage space 4 in order to increase the wind stability of the roof 1 .

As shown in FIGS. 1a and 1b, hexagonal or diamond-shaped or square or rectangular roofing elements can be assembled to form a coherent network; the individual roof elements can be lifted individually or in groups.

Fig. 4 shows the end of a strut 12 and a cable 17 inserted into this a roofing element 1 ''. FIG. 4a shows the tensioning of the ropes 13 at the upper end 14 of the support tube 5.

It is noted that it is possible a canopy over both dachungselementen 1 'as well as from roofing elements 1' to build '; Before geous it is, however, if roofing elements 1 '' outside of roofing elements 1 'are surrounded, which can be performed more stable in terms of their roof structure and in terms of their support tubes 5 .

The additional holding tubes 5 '' can, for. B. in the form of half shells around the support tube 5 and then welded together and with the holding tube 5 '; screwing is also possible.

The rainwater discharge via the overflow 8 takes place through a ge closed line through the landfill in a storage or in a meteor water basin, in which the purity of the rainwater can be checked with regard to their passage through the landfill.

It should also be noted that the individual roofing elements 1 and 1 '' connected at their vertices 11 , z. B. screwed, to get a stable network construction.

The roof skin is made of water-impermeable, coated textile materials, plastic films or metal sheets, which are supported by the struts 12 .

In the embodiment of the roof with the funnel screens according to FIGS. 1 to 4, it can be advantageous if the control device for controlling the water flow from the storage space 4 is installed in the support tube 5 . In the tube 5 z. B. a slide can be provided for the water stored in the storage space 4 , which is drained via the irrigation device 3 designed as a spray ring. In any case, the height of the drain pipe 18 regulates the minimum water level, which minimum water filling causes a sufficient ballast to stabilize the system against wind suction and wind pressure as soon as the support tube 5 in the holding tube 5 'is sufficiently fixed. The connection between these two pipes can be guaranteed by connecting flanges. When lifting the funnel screen connecting flanges are loosened and the screens z. B. raised by means of attachable hydraulics. After the end of the hydraulic lifting process, the half tubes 5 '' can be installed and welded as an extension of the cladding tube.

The enclosure described with reference to FIGS. 1, 1a, 1b, 2, 3, 4 and 4a, is very simple, in particular also because the Bewässerungsein devices 3 can be supplied directly from the storage space 4 and no pumps are necessary.

In principle, however, any type of roofing is suitable for carrying out the method according to the invention. FIG. 5 shows a purely schematic arrangement, in which a very general canopy 1 is provided, which can be erected on the site 27 or on walls 34 . The purpose of one of the canopy-like type 1 is to keep the accumulating rainwater away from the landfill 28 and to direct it into a storage space 4 or 23 , from which the water can in turn be removed in order to moisten the landfill 28 . The removal of the water from the storage 4 or 23 takes place with the aid of pumps 20 , which are optionally operated or regulated by a control device 22 , which measures the moisture in the landfill body 28 with a moisture sensor 33 and accordingly the irrigation devices 3 with water from the Memory 4 , 23 supplied.

Leachate emerging from the landfill can be collected via appropriate collecting lines 31 and released into the storage 4 or 23 , in order to be used again for moistening the landfill 28 . If the water in the reservoir 23 is insufficient, at most water from the urban water supply network or from other water sources can be supplied to the reservoir via a water feed line 30 . If there is excess water in the store 4, 23 , this water can - if its quality is perceived to be sufficient or leachate has not been let in - the water from the store can be fed via a line 32 to a receiving water. Schematically represented water collection devices are designated by 36 .

With the control device 22 , it is possible to apply the water and / or water from water sources kept from the landfill to the landfill 28 at appropriate times and / or in an appropriate amount. The bring on takes place by means of any irrigation devices, which can be designed as spraying or spraying devices or sprinkler systems and can advantageously moisten at least the majority of the surface of the landfill body 28 .

The process water is advantageously regulated in such a way that the accumulation of seepage water emerging from landfill 28 is minimized or completely avoided.

If heavy precipitation occurs, it may be expedient to start watering the landfill 28 at the beginning or during this precipitation, when the reservoir is full, in order not to have to draw on reserves at a later point in time.

The canopies 1 can have various types of devices 36 for collecting the rainwater that is held off; e.g. B. the installation of gutters is possible in the form shown in FIG. 5; if it is a canopy reaching to the ground, then trenches or the like can be arranged around the canopy, which lead to the reservoir.

FIG. 6 shows a possible floor plan for an embodiment according to FIG. 5 and one recognizes a number of lattice mast supports 6 which support a tent roof which is supported or held by cables 35 . Trenches 36 are arranged along the long sides of the canopy 1 and are led via a line 37 to the reservoir 23 with a pump 20 . A line 32 leads to a receiving water 10 .

With the pump 20 , the water can be pumped through a line 38 into the ridge of the canopy 1 and supplies irrigation devices 3 arranged there, which are not shown in detail.

Fig. 7 shows an embodiment of a conical canopy. The roof skin is in the form of a coated, textile covering and is supported or supported by ropes 35 . Further, the ropes 3 carry out the dump body 28 extending irrigation facilities. 3 The ropes 35 and the roof skin are fastened to the upper end of a lattice girder 6 which is anchored in the ground; the ropes 35 are braced in corresponding foundations 39 .

Ditch trenches 36 lie at the end of the canopy, which the rain water held away supplies these ditch trenches 36 . Via the line 37 , the rain water that is held off is fed to the reservoir 23 or the pump 20 , which supplies the water via the line 38 through the interior of the lattice mast 6 to the irrigation devices 3 under pressure, from which the water is sprayed onto the landfill body 28 . Line 32 leads to a receiving water.

Fig. 7a shows the possible floor plan of the embodiment shown in Fig. 7.

Another advantage of the procedure according to the invention is that that agents can be added to the process water, which are favorable to the Impact the reaction of the waste materials or accelerate the reactions. Based samples taken from the landfill or based on examinations of the seepage the necessary substances can be determined with the water Process water to be abandoned. It is therefore also a chemical one Treatment of waste easily possible.

It was found that when operating a landfill according to the invention sufficient rainfall for one year, sufficient To ensure the humidification of the landfill body, without making additional water sources had to be used or without a significant attack of leachate occurred. Rather, it turned out that the timely Irrigation or permanent compliance with the recommended moisture values Rotting or reaction of the landfill materials is happening quickly and therefore an environmentally friendly and inexpensive disposal route has been demonstrated.

Substances are mainly used as chemical additives to the process water Question, which supports the organic biological processes in the reactor landfill other, e.g. B. Starting aid, for composting plants. to adjust the pH could, e.g. B. lime solutions can be used.

Claims (29)

1. A method for storing garbage in a landfill, preferably a reactor landfill, with precipitation, e.g. B. Rain, snow or the like. Originating water is held from the landfill, characterized in that the water originating from the precipitation and kept from the landfill as process water necessary for the reaction of the landfill materials in terms of quantity and / or timing of the landfill supplied or applied to this and the supply or the application of the process water sers depending on the measured moisture content of the landfill substances, the application of the process water takes place to the extent or is controlled such that the accumulation of from the landfill leaking water is minimized or avoided. 2. The method according to claim 1, characterized in that the of Precipitation water collected from the landfill collected or stored in a storage space and at appropriate times and / or in appropriate amount is withdrawn from the storage space and applied to the landfill. 3. The method according to claim 1 or 2, characterized in that in addition to the process water, water from water sources, e.g. B. streams, Well, the public water network or the like, the landfill alternately to or together with the stored low whipped water, is supplied. 4. The method according to any one of claims 1 to 3, characterized characterized in that the process water is sprayed onto the landfill. 5. The method according to any one of claims 1 to 4, characterized records that excess from the landfill or ge stored water is discharged into a receiving water. 6. The method according to any one of claims 1 to 5, characterized records that the landfill across your surface with the process water is evenly supplied. 7. The method according to any one of claims 1 to 6, characterized characterized in that when precipitation starts with a Water supply to the landfill is started. 8. The method according to any one of claims 1 to 7, characterized characterized in that leaking water is collected and on the Landfill recycled or applied or directed into the storage room becomes. 9. The method according to any one of claims 1 to 8, characterized  characterized in that the humidification of the landfill with process water in regular intervals, if necessary with predetermined water quantities, done. 10. Arrangement for the storage of waste in a landfill, preferably a reactor landfill, in particular for carrying out the method according to one of claims 1 to 9, wherein a roof is provided for the landfill, which is protected from precipitation, eg. B. rain, snow od.dg1., Stopping water from the landfill ( 2 ), characterized in that Be watering devices ( 3 ), z. B. spraying devices, and / or process water pumps and / or water shut-off devices for the controlled bringing on of the rain originating from the landfill kept water are provided as process or reaction water to the landfill ( 2 ), and that control devices ( 22 ) for the irrigation devices ( 3 ) and / or for the process water pumps ( 20 ) and / or water shut-off device (s) are provided, with which the process water in quantity and / or time-controlled form of the demoniae ( 2 ) is feasible, so that the attack of seepage water emerging from the landfill is minimized or avoided. 11. The arrangement according to claim 10, characterized in that a storage space ( 4 ) is provided for from the roof ( 1 ) from the landfill ( 2 ) water to which the irrigation devices ( 3 ) leading via the landfill ( 2 ) are connected . 12. The arrangement according to claim 10 or 11, characterized in that the irrigation devices ( 3 ) for supplying additional process water to the landfill ( 2 ) are connected to water supply lines or the like with water from rivers, streams, wells, the public water network. are supplied. 13. Arrangement according to one of claims 10 to 12, characterized in that the roof ( 1 ) umbrella or funnel-shaped, for. B. in the form of a wrong pyramid (blunt), or in the form of a pyramid, cone, tent, gable roof or the like. 14. Arrangement according to one of claims 10 to 13, characterized in that the roof ( 1 ) forms an upwardly open, from the surfaces of the roof ( 1 ) limited storage space ( 4 ). 15. Arrangement according to one of claims 10 to 14, characterized in that the roof ( 1 ) of supports, beams, support tubes ( 5 ), lattice masts ( 6 ) or the like is supported. 16. Arrangement according to one of claims 10 to 15, characterized in that the roof ( 1 ) has the shape of an upward open, upside-down, regularly hexagonal, square, rectangular, rhombic pyramid, the interior of which serves as a storage space ( 4 ). 17. Arrangement according to one of claims 10 to 16, characterized in that a plurality of roofs ( 1 ) are arranged side by side to form a network, the roofs ( 1 ) being connected to one another at least at their respective corner points ( 11 ). 18. Arrangement according to one of claims 10 to 17, characterized in that the roof ( 1 ) supporting supports or support tubes ( 5 , 7 ) are adjustable in height. 19. Arrangement according to one of claims 10 to 18, characterized in that the storage space ( 4 ) has at least one overflow ( 8 ), to which a preferably through the landfill ( 2 ) leading, closed line ( 9 ) is connected, the is led to a reservoir ( 23 ), a receiving water ( 10 ) and / or a meteor water basin. 20. Arrangement according to one of claims 10 to 19, characterized in that the supports ( 5 ) or beams ( 6 ) by the respective roof ( 1 ) are extended upwards and the corner points ( 11 ) of the roof structure or the ends of the from the support ( 5 ) to the corner points ( 11 ) of the roof structure leading spokes or struts ( 12 ) with ropes ( 13 ) to the upper end ( 14 ) of the supports ( 5 ) or beams ( 6 ) are tensioned. 21. Arrangement according to one of claims 10 to 20, characterized in that the supports ( 5 ) side by side roofing elements ( 1 ) with ropes ( 16 ) are interconnected. 22. Arrangement according to one of claims 10 to 21, characterized in that adjacent ends of the spokes or struts ( 12 ) of the roof ( 1 ) are connected by ropes ( 17 ). 23. Arrangement according to one of claims 10 to 22, characterized in that the support tube ( 5 ) for the roof ( 1 ) is provided as a discharge for excess water from the storage space ( 4 ). 24. Arrangement according to one of claims 10 to 23, characterized in that in order to maintain a minimum fill level in the storage space ( 4 ) the supply connection ( 18 ) of the irrigation devices ( 3 ) is located at a distance from the bottom or lower end of the storage space ( 4 ). 25. Arrangement according to one of claims 10 to 24, characterized in that heavily coated textiles, UV-resistant plastic films or light metal sheets are used as the roof skin of the roof structure or as walls of the storage space ( 4 ). 26. Arrangement according to one of claims 10 to 25, characterized in that for the roof ( 1 ) a fixed, anchored in the ground standpipe ( 5 ') is provided, in which the support tube supporting the roof ( 5 ) is vertically adjustable. 27. Arrangement according to one of claims 10 to 26, characterized in that the support ( 21 ) for a pyramid, cone or tent-shaped roof in the center of the landfill body ( 2 ) is located. 28. Arrangement according to one of claims 10 to 26, characterized in that roof structures with outwardly inclined water drainage surfaces, for. B. tent or gable roofs, peripherally with collecting devices ( 19 ), z. B. trenches, for rainwater, surrounded by which the process water, if necessary, via a memory ( 23 ), z. B. by pumps, the irrigation devices ( 3 ) of the landfill. 29. The arrangement according to claim 28, characterized in that part of the number of supports for a gable roof-shaped roof structure is located outside the landfill body ( 2 ).