DE3732262C2 - High-security large landfill and processing of waste materials and for highly secure final storage of non-reusable waste materials including contaminated sites - Google Patents

Description

The invention relates to a portable and in the form Length, width, height, depth and slope to the respective Ge Country structure adaptable high security landfill to Auf waste processing and highly safe final storage non-reusable waste including contaminated sites.

The specified high-security large landfill is intended as one from several such facilities with a manageable on area in a suitable landscape area with optimal Traffic connection on a fixed or so to be created sub reason for the presence of leachate drainage device and leachate control devices, at through going forward folding glass roof over roof supports and roof racks including rainwater drainage, with scales right and lowering waste transport per 25 m field with suspended tilting show rolling in side members fields, with biogas discharge and biogas utilization, with supported stripped outer ring walls including upper ver Sweep ring guide, with additional stripped and control high and provided with ventilation devices security chambers for barrel and pallet storage incl. direct transport connection supported by elevators with four preliminary construction phases and one five th continuous construction phase with early storage already one year after the start of construction, with coverage from  set landfill areas using sand leveling layer, Fo lie, sweat tracks, foil, sand, partial paving and courage terboden and when accommodating administrative buildings and on processing plants the processing of waste materials and the highly secure final storage of non-reusable Ensure waste materials including contaminated sites.

It is known that a uniform, highly secure waste Storage combined with processing plants for reuse reversible shares do not exist. It is also known that previous waste storage in existing or artificially ge creating earth troughs was made that soil and gust insulation by means of foil within this earth mul the non-permanent groundwater and side water barrier ensure that precipitation can flow freely from above into the Ingress of waste materials and flushing out toxins in the lower one Trough area the groundwater and in the trough side area ne overburdening terrain and upper water areas Start of nationwide passive biogas use not pre-planned is taken.

According to DE-OS 35 07 240 is analogous to the well shape mentioned a stepped on the embankments and waa in the base area just continuous control floor for leachate control provided. In addition, a roof slope to the interior of the landfill ren with intended roof lifting acc. increasing Level. According to DE-OS 35 05 687 the leachate frame when using a multi-layer sealing screen with injection processes towards damaged areas in the groove of collecting shafts and tunnel tubes. In the magazine "Rubbish and Waste" 2/87 pages 37-46 at independent gas collectors represent active gas production posed. In the same magazine 5/86 page 183-194 the selection of suitable surface sealing systems for the  Gerolsheim hazardous waste landfill to be encapsulated.

It is necessary, however, through complex individual dimensions mainly took the Depo as part of the repair never limit outgoing leachate damage and that to catch gas escaping from the landfill body.

The invention is based on the object, called repara to avoid gymnastics from the outset and by Be start when using high security chambers as an intermediate store the processing of waste materials in continuously increasing scope in the context of the highest possible recycling as well as in a continuously decreasing manner Extent of non-reusable waste as well disposal of contaminated contaminated sites with high security.

This task is performed when setting up a high security Large landfill due to the characteristic features of the claim 1 solved.

The advantages achieved with the invention are in particular the fact that the area to be developed in advance does not include more than the respective landfill requirements that be 1 year after the start of construction by means of trucks and freight trains The high is marked according to types and hazard classes Large-scale landfill waste that is brought forward of building rubble recycling is increasingly being targeted here when using the high security chambers as an interim storage facility the processing can be supplied that at the same time the waste that cannot or cannot be processed at Vor presence of ring roads in the top 10 m area below roll half of the glass folding roof in the side members the tipping bucket or equivalent waste carrier each 25 m Field without impact on the roof supports on each Control and regi  easily stored and gently stored without embankment can be that the previously created glass folding roof prevent any precipitation access to the waste material that the leading insulation of the static tra and the sole leaking insulation of the statically effective sides pressure - absorbing massive ring development Groundwater and side water prevented in the landfill body and a counter-sinking infiltration into the ground water or in the side area because of the triple insulation and especially because of the lack of precipitation Leachate is not possible that leachate long-term control beyond the filling phase It is steady that from the beginning the biogas is released taken and forwarded and recycled that after Replenishment of the entire large landfill including the settling phase all-round encapsulation is achieved using the top cover, that beyond that the glass folding roof continues as needed can be held or dismantled that in any case the Biogas use can continue indefinitely and in the end stage the residual biogas can be easily burned off.

An embodiment of the invention is in the drawing is shown and described in more detail below:

Show it:

Fig. 1 shows the vertical section through the first transverse wall of the high-security large landfill as detail I i. M. 1: 200, whereby the section designated as Detail 11 through the opposite second transverse wall of the high-security large landfill is mirror image the same and need not be clarified further here.

The transverse wall in the lower area ( 1 ) and in the upper area ( 2 ) delimits the high-security large landfill on the cross side, is stabilized from the outside by cross pillars ( 3 ) and takes the carriageway for the railway track ( 5 ) directly using the upper solid ceiling ( 4 ) above the load-bearing wall, including by going through the inner reinforcement console ( 6 ), next to it the inner truck lane ( 7 ), then the outer truck lane ( 8 ) and outside the 2 m wide cycle and pedestrian path ( 9 ) with separating Signal post ( 10 ) towards the truck lane. The heaped-up soil ( 11 ) falls off slightly, and an outer railing can easily be created based on the inside of the roof support pillars.

The outer edge of the carriageway is the outermost 9 m high tubular steel roof support bracket ( 12 ) with an upper cover plate ( 13 ) for receiving the horizontally installed 1.00 m high longitudinal member ( 14 ), against it at an angle of 90 degrees Gradient equipped stiffening and with the upper edge flush cross member ( 15 ) are attached. Apart from the first field towards the outer wall of the landfill, the center distance of the roof supports is always and always 25.00 m in both directions. The vertical position of the roof supports is guaranteed starting from the stable outer walls by means of horizontal holding brackets ( 16 ) installed in both directions and at a height of 10 m. As a rule, as of the first field towards the outer wall of the pit, they are usually 25.00 m less. Strength of a roof support column long, are hooked on at the end by means of retaining hooks ( 17 ) on the roof support columns and contain a hollow tube in the filling area with connection to the hollow roof support columns provided with biogas flaps ( 18 ) for the purpose of forwarding this bio gas to the machine room.

The landfill cover ( 19 ) takes place when the filling has finally settled well, whereby the connections of the foils and welding tracks to the outer walls, to other constructions within the landfill and above all to the roof supports are to be created particularly elastically by means of expansion overhangs.

The roof, which is horizontally laid in the longitudinal direction in the high steel beams, is the glass folding roof ( 20 ) with a span of 25.00 m and 2.50 m high and 5.00 m wide, taking into account the expansion joint fields of 25.00 m × 25.00 m. For the rainproof cover, synthetic fiber-reinforced stabilizing film is sufficient at the beginning, with stabilizing glazing later. The glass folding roof has a slope in the transverse direction analogous to the cross members ( 15 ), the rainwater flowing out in the gutters is every 25.00 m by means of the inlet pipes ( 21 ) stored in the longitudinal members with a slope in the transverse direction of the roof ridges following and in the cross member ( 15 ) stored as the ends of the side members ( 14 ) continuous Regenwasser serabflußrohre ( 22 ) down to the rainwater drainage channel ( 29 ) down.

The foundation ( 23 ) is considered the first solution with regard to leachate control, but is not used due to the excessive material expenditure by means of the sole, supports and solid ceiling.

Fig. 2 shows the vertical section through the rear second longitudinal wall of the high-security large landfill as detail III i. M. 1: 200.

The rear limiting wall in the lower region (24) and in the upper region (25) adjacent the high-security large landfill from the longitudinal side, is from the outside through cross-pillar (26) sta stabilizes and accepts by means of upper solid ceiling (27) of the roadway to the rail track (5 ) directly above the load-bearing longitudinal wall including continuous inner amplifier console ( 6 ), next to it the inner truck lane ( 7 ), next to it the outer truck lane ( 8 ) and outside the 2.00 m wide bike and pedestrian path ( 9 ) with separating signal posts ( 10 ) on the inside and continuous railing ( 28 ) on the outside. Then lowered the outside by the thickness of the pavement, the rainwater drainage channel ( 29 ). Here, in front of the roof support ( 12 ), the rainwater downpipe ( 30 ) opens into the rainwater drainage channel, with a continuous overflow ( 31 ) with water drainage to the adjacent area ( 11 ).

On the roof support ( 12 ) lies horizontally in the longitudinal direction of the 1.00 m high side member ( 14 ), in it the upper edge is fitted flush and fastened the slope cross member ( 15 ), reinstalled in it and fastens the rainwater drain pipe ( 22 ) with the rainwater inlet pipes ( 21 ). Above the glass folding roof ( 20 ) with its gradient structure.

The vertical roof supports ( 12 ) are in turn stabilized by means of the holding brackets ( 16 ) including the holding hooks ( 17 ), the biogas discharge lines with opening access to the hollow roof supporting supports being included in the landfill filling area in the holding brackets ( 16 ), while the above Ren simple support brackets ( 16 ) installed under the roof structure only remain until the roof racks ( 14 ) and ( 15 ) are installed and then used again in another way. Also in the roof supports ( 12 ) again the bio gas extraction tabs ( 18 ) for transferring the biogas via the holding brackets described ( 16 ) to the machine rooms.

The landfill cover ( 19 ) has already been shown, but here the slope towards the center of the landfill is clearly visible parallel to the roof. There is also a railing ( 32 ) which, when folded inwards, provides side protection to the landfill that has not yet been filled.

The landfill sole ( 33 ) is shown here as a reinforced concrete sole, an underside layer of concrete can also be introduced for work-related reasons. The sole insulation ( 34 ) goes up in the same way over fillets glued to the outer walls and connects to the insulation of the landfill cover ( 19 ).

Solution 2 is used for the so important area of leachate drainage and leachate control. In this case, waterproof and double-sided finished pipes ( 35 ) with an outer rebate and insertion spring are pushed together using rubber rings and additional outer and inner sealing tape analogous to the roof and sole from the long sides at 25 m center distance in the field in the transverse direction. The pipes are 5.00 m long, 1.00 m wide on the inside and 2.00 m i. L. high and taper to 0.60 m wide in the upper area. Every fifth pipe is provided with an upper inlet and an insertable transparent and acid-proof seepage water control container of 0.50 m × 0.50 m × 0.20 m = 50 L. A float switch with contact wire to the Zentralcompu ter causes container emptying or container replacement. Groundwater pressure and rainwater to be drained during the construction period can be pumped down from the center to the ends of the inspection aisle by means of the described collecting shafts including submersible pumps and float switch control. Basically, it should be noted that the inspection passages described here always run in the transverse direction, always lie centrally between the rows of roof support pillars, the center distances to the roof support pillars always 12.50 m, the center spacing of the inspection walkways to each other always 25.00 m and the center spacing of the Inlets to each other in the same inspection run are also always 25.00 m.

With regard to leachate control, the control procedure ( 36 ) designated as solution 3 is not used.

Fig. 3 shows the vertical section through the front first longitudinal wall of the high-security large landfill as detail IV i. M. 1: 200.

The front boundary wall ( 44 ) is subdivided into the lower wall area ( 37 ), into the upper wall area ( 38 ), is stabilized from the outside by cross pillars ( 39 ) and increases by means of the upper solid ceiling ( 40 ) in the presence of the ramps ( 46 ) the carriageway for the railway track ( 5 ) directly above the load-bearing inner longitudinal wall ( 45 ), next to it the inner truck track ( 7 ), next to it the outer truck track ( 8 ) and outside the 2.00 m wide wheel and pedestrians away ( 9 ) with separating signal posts ( 10 ) inside and through walking railings ( 28 ) outside. In addition, the rainwater drainage channel ( 29 ) is lowered by the strength of the road surface. Here, just like on the opposite side in front of the roof support ( 12 ), the rainwater downpipe ( 30 ) opens into the rainwater drainage channel ( 29 ), with a runout leading to the overflow ( 31 ) with water drainage into the adjacent area ( 11 ) .

On the roof support ( 12 ) lies horizontally in the longitudinal direction of the 1.00 m high side member ( 14 ), flush with the top edge and fastened the slope cross member ( 15 ), reinstalled in it and fastened the rainwater drain pipe ( 22 ) the rainwater supply pipes ( 21 ). Above the glass folding roof ( 20 ) with its gradient structure.

The vertical roof supports ( 12 ) are stabilized again by means of the holding brackets ( 16 ) including the holding hooks ( 17 ), these holding brackets ( 16 ) including holding hooks ( 17 ) being required for assembly only in the upper region of the landfill because of the different construction and biogas discharge does not occur here.

Safety with regard to torrential rain can be achieved if each of the transverse rainwater drainage pipes ( 22 ) is provided with a large overflow bend at a distance of 100 m in the upper area and excess water through this bend in such a downpipe leaning against every fourth roof support post to the UK The bottom of the landfill is piped and from there to the 12.5 m cross-slope line below the level of the leachate control tank it flows directly into the underground control passage with a slight slope to the outside. Here at both ends of the respective inspection aisle are the pump shafts, which have already been described elsewhere, with the underwater pumps controlled by floating switches and correspondingly dimensioned with a riser to the natural rainwater drainage channel.

The first longitudinal wall of the high-security large landfill differs from the second longitudinal wall in that high-security chambers ( 41 ) with a center distance of 5.00 m at a width of 4.50 m are located in the entire height and length of the landfill. L. be created. Of the high-security chambers ( 42 ) between two expansion joints at a distance of 25 m, the middle chamber is used as an entrance to the inspection aisle that begins at the end of the chamber and can be reached by means of an entry ramp.

The uppermost high-security chamber ( 43 ) carries the end ceiling, which rises analogously to the roof and can be driven by all types of motor vehicles.

Between the outer longitudinal wall ( 44 ) and the inner longitudinal wall ( 45 ) is the ramp access serving all floors ( 46 ).

The elevator shaft ( 47 ) is located in a sensible distance from the area of the ramp access ( 46 ) for operating the railroad, for transporting other loads and for transporting people up to the floors.

The shape of a landfill results from the terrain structure and can be hexagon, rectangle or square.

Reference symbol list:

1 transverse side - boundary wall below
2 transverse side - boundary wall above
3 cross pillars
4 solid ceiling
5 railroad track
6 amplifier console
7 truck lane inside
8 truck lane outside
9 bicycle and pedestrian path
10 signal posts
11 Soil fill
12 roof support
13 cover plate
14 side members
15 cross beams
16 holding brackets
17 holding hooks
18 biogas extraction tabs
19 Landfill cover
20 glass folding roof
21 rainwater inlet pipes
22 rainwater drainage pipes
23 foundation - not claimed -
24 Second long side - boundary wall below -
25 Second long side - boundary wall above -
26 cross pillars
27 solid ceiling
28 railings
29 rainwater drainage channel
30 rainwater downpipe
31 overflow
32 railings
33 Landfill sole
34 sole insulation
35 finished pipes - claim - to Fig. 1 -
36 control sequence - not claimed -
37 First long side - boundary wall below -
38 First long side - boundary wall above -
39 cross pillars
40 solid ceiling 41 high security chambers - standard floors -
42 high security chambers - sole floor -
43 high security chambers - upper floor -
44 Outer longitudinal wall - analogous to 37 and 38 -
45 Inner longitudinal wall
46 ramp access
47 elevator shaft

Claims (1)

Large high-security landfill for the processing of waste materials and for the highly safe final storage of non-reusable waste materials including contaminated sites, characterized in that
that in a suitable, sparsely populated and as uniform as possible landscape area with access to the 4 traffic routes federal road, highway, railroad and waterway, a pla num reduced to a stable building site is created, that the removed earth masses are deposited, so that the upper 35 cm topsoil is used for this purpose are later stored separately at a suitable location,
that in the transverse direction at a center distance of 25 m inspection passages of 1.00 m width i. L. and 2.00 m height i. L. are created below the formation so that these inspection passages contain the inlets with leachate control tanks in the upper passage area at intervals of 25.00 m,
that if the subsoil conditions require such continuous sub-concrete, reinforced concrete base and expansion joints self-supporting foundation surfaces of 25 m by 25 m arise that the entire floor area over the expansion joints away by triple insulation with a slight slope to the floor inlets against seepage liquid of all kinds impermeable and is sealed against groundwater so that the floor drains are covered with screen gravel to prevent the ingress of other waste,
that on the corner joints of the 25 m by 25 m large sole fields round with foot plates and supporting protective mats roof support brackets are set up, that these round roof support brackets at appropriate height intervals with overlaid th and the biogas-absorbing gas discharge openings are seen that these are at a center distance of 25 m standing round the hollow roof supports, starting from the massive pit wall, are stabilized on all sides by means of generally 24 m long, horizontally arranged support brackets with an intermediate distance of 10 m, so that the roof supports are completed up to 9 m above the top The landfill is enough,
that in the longitudinal direction 1.00 m high steel girders are supported on the roof support supports provided with top cover plates, that these horizontal longitudinal girders are braced by 25 m long flush downward cross girders that run in the longitudinal girders roller-mounted attached self-tipping waste transport blades that run the rainwater drainage pipes with a passage through the longitudinal beam ends are fitted in the downright cross members so that the rainwater supply pipes open into the longitudinal beams,
that on the 25 m long side members, each consisting of 5 fields, each 5.00 m wide and 2.50 m high, are self-supporting glass folding roof elements, so that the glass folding roof lies horizontally in the longitudinal direction on the side members, so that the glass folding roof in the transverse direction There is a gradient from the center to both sides, so that on the two long sides of the landfill there is an open rainwater drainage channel with downpipes at intervals of 25 m and covered natural rivers with an inlet to the nearby ring driveways,
that the finally settled landfill area is covered usable and navigable by means of sand leveling layer, film, welding tracks, film, sand bed, partial paving and topsoil application, that the 35 cm topsoil, which was initially stored sideways, was reapplied on this area, which is fairly accessible through partial paving will,
that the first transverse side, the second longitudinal side and the second transverse side of the landfill are delimited watertight by means of high inside triple and outside 1-fold stripped reinforced concrete walls, that these reinforced concrete walls with existing expansion joints again at a distance of 25 m each 25 m field of 2 outer pillars acc. Static requirement in the Lot stabilized that on the first transverse side, the second longitudinal side and the second transverse side outer walls and cross-pillars which consist of a railway ring lane, two lorry ring roads and a lane for pedestrians and cyclists circular traffic guidance men that these cross-pillars on the second longitudinal side also take the rainwater drainage channel with cross-flow to the river genes there,
that on the first long side as the main side near the public traffic routes, the landfill goes into a high-security warehouse for usually 200 L. drums with highly contaminated and, above all, liquid chemical or production waste, that again with expansion joints at a distance of 25 m se high-security chambers in 4.50 m width i. L. with existing cross stabilization by supporting pillars then storey floors with insulation and floor drainage control result that the top end ceiling, which rises towards the center, also contains the construction and work platform for all other work and supervisory areas, which is flush with the later landfill cover,
that on the bottom floor of the high-security chambers towards the open landfill in the middle of the 5 chambers between two 25 m expansion joint areas a 1.00 m wide gradient ramp leads directly into the 1.00 m wide and 2.00 m high control corridors that these inspection walks when using respirators by means of electrically driven special vehicles forward and backward in the presence of a safety retrieval line can be traversed that the seepage water control containers present every 25 m under the ceiling can be individually located and located by means of a float switch and a connected contact wire to the central computer are to be maintained accordingly
that at the transition from the slope ramp to the inspection a covered pump sump with built-in automatic float switch underwater pump before installing the leachate control tank, the rain and groundwater accumulating during the construction work is pumped out, that after the depot is roofed and never after the leachate control tank is installed Submersible pump despite the watertight control passageways for safety reasons and in case of activity control by means of a central computer is maintained that because of the long length of the control passages, such a pump sump should also be considered on the opposite end of the control passageway, that in the middle between two expansion joints with storey supply line the required number of air ducts from the two outer chambers in each case with an upper exhaust opening below the glass folding roof or above the glass folding roof,
that the first long side of the landfill facing the public traffic routes, viewed from the outside inwards, as the outer support pillar has at a distance of 12.50 m according to structural requirements, that these support pillars stabilize the outer longitudinal wall, again divided into 25 m sections using perpendicular expansion joints, that parallel to this outer longitudinal wall at a distance of 3.50 m, an inner longitudinal wall such as that which is created by means of 25 m fields including expansion joints, that the 3.50 m space includes single-track ramps for vehicles of all types including truck size that each of these ramps Ramp slopes and ramp levels include that the ramp slopes have a slope at 100 m length, that the ramp levels at 80 m length and with correspondingly large passage openings through the inner longitudinal wall provide access directly in front of the front sides of the high-security chambers and that on all floors.
that here in front of the chambers correspondingly wide Verkehrsräu me the parking for loading and unloading the trucks as well as the passing or parking of other trucks as well as other vehicles enable that in these loading and unloading areas also in length in the distance of 250 m parallel to the first longitudinal wall and above all the railway operation applicable elevators can be used in stages that from these transhipment areas by means of forklifts the Fäs ser or solid items stacked on standard pallets are transported directly into the high-security chambers that these high-security chambers acc. Hazard class I-III on floors and walls are stripped using paints, spatulas or, in the highest hazard class, using acid-proof wall and floor tile covering, so that each part of the chamber between the secured expansion joints is again provided with a floor collecting container over a length of 25 m in that a float switch is provided for this floor collecting container below the grating that each individual float switch signals this leaking liquid by means of a contact wire to the central computer,
that on the first long side of the upper ring road the railroad is arranged directly above the inner longitudinal wall, that next to it the two lanes of traffic remain, that behind it the path secured by signal posts and railings for pedestrians and cyclists closes, that the rainwater drainage channel is created on the outside, that on the outer edge of the rainwater drainage channel, the rainwater drainage pipes from the 10 m high glass folding roof reaching there open out, so that the rainwater drainage channel opens into the next river at a suitable point with a sufficient gradient, so that at all 4 Landfill sites a completely covered ring road using a railroad track, two truck lanes and a cycle and pedestrian path ensures that the final ceiling of the high-security chambers on the longest side he a second railroad track on the actual longitudinal landfill edge Allows all truck cross transports to this longitudinal landfill edge to be made possible on this final ceiling,
that on the corner of the first transverse side - first long side of the access to the main road and the motorway, a two-part loop with a subsequent tunnel section opens up the construction vehicles direct corner access to the level of the foundation base, that when using the ramp, further landfill sole access points on the bottom of the lowest high-security chambers taking into account the appropriate clearance height can be used
that at the first corner, starting with construction section I when connecting to the federal highway, railroad and waterway, landfill storage as well as storage in high-security chambers can be started after only one year, that with construction section II, the traffic supply takes place, that with construction Section III of the direct motorway connection is created and here further re landfill storage and storage in the high-security chambers is made possible that with the construction of section IV the entire first transverse side is developed, that with the beginning of section V the landfill is being processed in its entirety and use is made that from here in the longitudinal direction with longer time expenditure with the order top soil removal, dredging, sole production, roof construction, refilling waste, landfill cover and topsoil application is to be done that long before pulling the second transverse side the Dep then the end of the onion filling that the landfill gas use is guaranteed for a long time over the filling period, that after the final placement of the landfill masses, the entire landfill surface is covered from the first transverse side by means of sand leveling layer, film, welding tracks, film, sand layer and partial paving, that the glass folding roof construction is stabilized in the continuous time by installing glass panes after initial low-cost cover with synthetic fiber-reinforced stabilizing film, that the high-security chambers continue to be used and controlled for an indefinite period of time, that the leachate control below the sole and in the high-security chambers is continued indefinitely.