SK7096A3 - Insulation of landfill with waste plastic consolidated layer of foilic character - Google Patents

Abstract

The method of waste dump isolation and its isolation layer, with the isolation layer (5) consisting of plastics with the character of a foil (2), which is furnished with a layer of bentonite or another material with non-crawling properties, and the isolation is formed by the plastics (5) folded in multiple layers being compacted and the compacting being maintained by ballast soil (4) or by another ballast material.

Description

SUMMARY OF THE INVENTION The present invention provides a method for insulating a waste landfill during its construction, operation and remediation, or for closing the landfill body using hitherto unused insulation materials. It concerns the issue of waste management, which is part of environmental protection.

BACKGROUND OF THE INVENTION

One of the ways to dispose of waste is by landfilling. To this end, controlled landfills are currently being built, the main function of which is to prevent the escape of pollutants, which, by leaching waste in the landfill body, mainly through rain and subsequent seepage, reach the groundwater, which is thereby degraded and subsequently polluted into the entire chain. fauna and flora, thus endangering the environment. Controlled landfills are built after the selection of a suitable site, after a thorough, versatile mainly hydrogeological survey of the subsoil of the site. After landscaping, which consists in creating a suitable landfill profile, the bottom and slopes of the landfill are mechanically compacted. The landfill sealing is effected by gradually depositing high-density insulating films of multilayer on the bottom and slopes of the landfill. Individual insulating foils are thermally welded or glued and overlaid with gravel, earth, clay, etc., which gradually compact. The landfill is equipped with a drainage system, a monitoring and service system, which are not the subject of this proposal.

Disadvantages of such landfill sites are: - difficulty in selecting a suitable location, - high labor in its construction, - material and financial demands of the sealing system, - difficulty in the expertise and precision of the construction, - imperfection of the sealing system, which consists mainly of:

and / its thickness, which reduces the capacity of the landfill, respectively. increases its projected dimensions, b / the possibility of breaking insulation layers on slopes

- landfills, landslides that are real after long-term weather effects as landfills are intended for 20, 30 and more years of operation, c / risk of damage to the seal by pressure of the superimposed waste layer and mechanical shocks, presence of a sharp object under or above the insulation foil.

solid object under the insulating foil, the recess under the foil.

by piercing the insulating film at the initial weighing of the waste with a longer solid object, e.g. In the case of damage to the top insulation foil, the probability of damage to other foils due to landfill leaching, pressure and mechanical shocks during the weighing of the waste and subsequent dilatations in the interlayer is high.

SUMMARY OF THE INVENTION

Insulation of the landfill by a compacted layer of waste plastic is characterized in that polyethylene, polypropylene or other plastic composite foil-like material is used to ensure the isolation of the landfill. This material is distributed in the loose state so that it falls on the bottom of the landfill or slope. This distributed plastic material is sprayed with a suspension of a substance having a tisotropic property, preferably bentonite, at a concentration of 0.5 - 3 X masses, in an amount of 3 - 5 m ³ per 1000 µl of surface and compacted by stacking the hunting earth or similar material. On the layer created in this way a drainage net is placed, which is covered with a layer of gravel

After a sufficient width of 0.3 m and height up to the surface of the insulating surface of the resulting landfill bottom surface, this is mechanically compacted by sliding mechanisms. At the bottom of the landfill, an insulating, leachate-free leachate is formed. The same insulating layer is then gradually built in stages, already during the operation of the landfill. It is done by placing the pressed plastic foil material at the foot of the landfill slope and after unpacking and evenly spreading, preferably up to 1.5 m free slope, slope to create the same insulation on the bottom of the landfill. Proceeding “3” as described for the formation of the bottom of the landfill, without draining, the landfill closes after its operation and the waste has settled. and reclamation uncontrolled landfills t.J. dumps that do not have an insulating system, preferably after the injection application of the insulating resins dD of the bottom of the landfill. The installation of the drainage system can also be realized in another way, which does not affect the design utility. The plastic material used may come from separate collection, provided that it is free of pollutants that could affect the quality of the groundwater, even if, after compacting the plastic material using a thixotropic suspension, its leaching is out of the question. Unsuitable material should be washed to remove harmful substances, but this is not the subject of this solution. Spraying 1X by mass with a suspension of bentonite or kaolinite will prevent possible capillary diffusion of the landfill leachate between adjacent surfaces of the plastic layer. It will also prevent possible capillary elevation of groundwater through the insulation layer if it rises above the bottom of the landfill. Spraying will help to form an additional insulating layer, which is formed from the colloidal leachate components on the surface of the plastic insulating layer.

The solution as described has the following advantages:

Perfect sealing of the dump One layer of compacted plastic.

Sealing material It is available, it is usually waste and its use at the same time solves the problem of its disposal.

r Due to the perfection of the seal, the selection of the site to set up the landfill is less demanding.

The solution does not preclude the formation of an additional protective layer at any time during the operation of the landfill, especially if it is necessary to dispose of plastic waste that cannot be used to seal new landfills.

The solution enables easy closure of waste-filled landfills, remediation of non-isolated landfills.

It is possible to minimize leachate leakage from existing uncontrolled landfills as well as landfill sites with a broken insulation system by providing the described type of insulation on their surface.

This method of landfill insulation can be realized by the current technical means used for the construction of “4” landfills.

During the operation of the landfill, the pollutants concentrate in the lower horizontal layer of the landfill and, in case of total disposal of the landfill, their moino can easily be identified.

Intentional damage to the landfill sealing system cannot be accomplished by simply piercing it, as each sealing ability is restored.

The solution of insulation is in comparison with the method used hitherto

cheaper, simpler, less Time, technically t

and technologically demanding.

to

Overview of figures and drawings

In Figure 1 in Det. A) A covering of at least 0.6 m of the prepared material is shown. The protective film ensures that the material does not overflow into the film layer. Na Det. B / shows spraying of spread film with bentonite suspension.

In Figure 2 in Det. A) A compressed layer of plastic film material 5 below (PFM) in Det. B /, Figure C.2. It is shown how the drainage 6 filled with gravel Z is incorporated into said layer.

In Fig. C. 3. the landfill body is shown. PFM 2 used soil and compacted PFM S induced waste 6 ·

Figure 4 shows the reclaimed reclaimed landfill where the soil A used forms the bottom and t reclamation layer of PFM 5 drainage system h. and a deposited layer

Ddpadu Z.

Figure 5 shows the possibilities of breaking the high-density polyethylene 5 used up to now by a sharp object X, a trench 2, a stone 3 or an iron rod A.

The figure 5 in Part A shows the initial state. Part B shows the adaptability of the proposed gasket to individual influences.

The attached drawings show the operations required to isolate the landfill, the landfill, after its operation and reclamation, the imperfection of the foil insulation and the adaptability of the proposed plastic insulating layer to the risk effects in the vertical section. Fig. 1 in detail A shows the process of beginning insulation formation where X is a landfill body, 2 plastic foil material (PFM) after spraying with bentonite suspension, 3 foil to prevent mixing of the stored soil 4 with PFM. Detail B shows a method of spraying PFM 2 with a bentonite suspension. In FIG. 2 shows in detail A the first part of the already pressurized PFM layer 5 and the spraying of another to the first strip of the applied PFM layer to form the bottom of the landfill. Detail B of Fig. 2 shows the introduction of drainage pipes 4 into the soil layer 4 above the formed PFM layer with a water jet, where Z is a gravel-filled drainage pipe. Fig. 3 shows the formation of slope insulation where X is a landfill body, 2 loosely deposited PFM, 4 soil, an S layer of a compressed layer of PFM, 4 waste.

Fig. 3 shows the state after the soil has been rolled over and the insulation has been formed on the slope of the PFM slope. FIG. 4 shows in a vertical section a reclaimed landfill where 4 is soil, 3 is an PFM insulation layer Ddpad. Fig. 5 shows in vertical section the possibilities of breaking the film 5 under pressure and leaching in the presence of a sharp object X, a recess below the film 2, a hard object with a longer object 4, when compacting waste in a landfill. 6 shows the risks of damage to the PFM insulation layer

With sharp object

In section ** A, the condition is shown if, under the above-mentioned effects, pressure and shocks do not affect the bottom of the landfill and in section B the adaptability of the insulation layer

Ξ on the above risk effects

An example of a description of a specific procedure for the isolation of a landfill of square ground plan with a floor area of 10000 m ² s

A 40 m ³ bentonite suspension of ³ wt.% Concentration is prepared in the landfill leachate collecting chamber, so that 1250 kg of bentonite 6 are poured into 39.5 m ^{3 of} water and mixed by air pressure from a faecal vehicle. Stored over the entire length of the edge, ie 100 m, 30 m ³ of extruded plastic-foil material (PFM), which, when released, spreads evenly to a height of 1.5 m on a 3 m wide slope and 1.5 m on side slopes of the same width . After mixing, 0.3 nP of the bentonite suspension from the collection tank is pumped through the slurry vehicle and immediately sprayed onto the formed PFM strip. It is advantageous to cover the PFM strip with a 5 m wide polyethylene foil to prevent soil from entering the PFM and thereby mixing them. 150 m ^{3 of} soil are gradually deposited on the PFM by means of a loader, so that _l forms a 0.7 m high and approximately 2 m wide soil layer on the PFM and a 1 m wide band of soil not covered by the PFM remains over the entire length.

Next, proceed in such a way that 21 m ^{3 of} PFM is always induced, from which a total of 3 m wide strip is formed in a similar manner, evenly covering the side slopes up to a height of 1.5 m. 0.4 m ^{5 of} suspension is applied to this strip. as described above, again omitting the 1 m wide uncovered PFM strip.

This proceeds up to the opposite slope of the landfill, where it proceeds at the beginning of the process. After the drainage has been incorporated as described above with the aid of a faecal vehicle utilized as a pressurized water source, the surface is dried and leveled, the layers are compacted by driving the vehicles used.

Slope sealing procedure:

The waste is deposited in the landfill so that there is always a minimum space of at least 0.5 m between the landfill slope and the waste. The compressed PFM packages are stored all over the perimeter of the landfill. After a 1 m waste layer has been set up, the total landfill perimeter will be approximately 420m. A total of 60 m ³ PFM is applied to the space between the waste and the landfill slope along the perimeter. After the bales have been released, PFM is sprayed evenly with 1.8 πZ 3Z of mass, bentonite suspension and over the Dbv. , 1 -0.15 m thick layer of insulation up to 0.5 m above the waste level.

Claims (3)

1. Isolation of landfills during the construction of new landfills as well as remediation and reclamation filled landfills is actually the essence of solutions characterized in that the waste polyethylene, pdypropylénový or other mixed plastic material that is in the bulk state in the amount of 100 to 150 kilograms _(to 1 I ² the inner surface of the landfill spreads out, _t sprayed with 0.5 to 32 wt. suspension agents with thixotropic _t properties in an amount of 3-5 m? 1000 m @ surface of the so treated plastic material is laminated, preferably 0.5 to 1 m of soil or similar material, and The two layers are compacted, resulting in a bottom and part of the landfill sludge, an impermeable, insulating layer that gradually builds up to a height of 0.5 to 1.5 m above the level of deposited waste while the landfill is being operated. spraying 0.5 to 32 wt.% of the material at the foot of the landfill slopes with a slurry of 3 to 5 in * thixotropic properties per 1000 µl of surface area and then the earthy material is added to the slope and only after the landfill has been filled and settled, just as the bottom of the landfill has been formed. also suitable for surface remediation and reclamation uncontrolled landfills, preferably after injection of the insulating resins t into the bottom of the landfill. ¹ 2. Insulation of the landfill as defined in point 1, consisting of a foil material up to a thickness of 1.5 mm, provided with a layer of material with thixotropic properties, e.g. bentonite, 0.03 to 0.15 m thick, compressed with DU loads and compacted soil or similar material. 3. Insulating material consisting of a plastic sheeting material and bentonite or a substance of similar characteristics, formed by compaction or compression by said or other means, having insulating properties within the meaning of point 1, independent of thickness, shape or method of use or application. 9- Paper-PV Insulation of the landfill with a compacted layer of plastic waste film of foil character ” The invention falls within the field of environmental protection. It solves the problem of waste disposal by landfilling using plastic foils, which are also waste. By virtue of the fact that by forming a compacted layer of twisted plastic foils provided with a thixotropic coating, preferably 0.5-33C, bentonite, the waste landfill body can be perfectly sealed and thus prevent the possible leakage of harmful leachate, which is caused mainly by rainwater on waste stored in the landfill. . At the same time, the problem of plastic waste disposal is solved by using them to dispose of a quantity of plastic waste corresponding to 5 - 8Z vol. waste, the disposal of which is achieved using this method. The solution can be used in the construction of new landfills as well as in the rehabilitation and reclamation of filled landfills and also to minimize the leakage of leachate in the case of damage to the sealing system of the operated landfills.