PL186766B1 - Method of building dumping yards for hazardous wastes containing heavy metals - Google Patents

Abstract

1. A method of building landfills for hazardous waste containing, heavy metals, characterized by the use of become chemically and / or physicochemically active the released ion-binding substrate (2) metals and as a substrate (2) uses waste containing at least 50% by weight of calcium carbonate, for example dolomite ore flotation tailings Zn-Pb, including those contaminated with metals heavy.

Description

The subject of the invention is a method of constructing landfills for hazardous waste containing heavy metals from metallurgy and processing of non-ferrous metals.

Various landfills are known from the patent literature. The method of forming a carbon dump from carbon wastes, known from the Polish patent specification No. 124 958, consists in the fact that the dump is formed in layers in the form of an inner body and an outer shell, while the inner body is formed by alternately arranging mechanically compacted coarse-grained layers with layers of flotation waste. On the top of the heap, on the highest layer of post-flotation waste, drainage drainage is arranged, which is covered with a layer of waste with grain size> 1 mm. External

The mantle of the dump is formed by laying thin mechanically compacted layers with a grain size> 1 mm, the layer slope towards the outside and amounts to> 2%. On the other hand, from the application of the invention P 304101 a method of constructing a coal waste substrate, in particular for coal and / or industrial and municipal waste storage, is known, comprising the preparation of a bottom layer of coal waste or mineral soil with compaction and shaping of a slope for water runoff. The method consists in depositing on the bottom layer at least one layer of coal waste with a grain size of up to 60 mm mixed with an amount of 15 - 25% by volume of the waste fine grain, preferably dusty. Then the layer is impregnated with a silicate binder with a sodium silicate content of not less than 25% by volume. After that, it is sprinkled on the surface with an aqueous solution of ammonium chloride with a concentration of 3 - 5% by volume, and after mechanical compaction - within 8 hours from spraying - it is left to harden for at least 3 days. Finally, a surface layer 0.15-0.2 m thick is applied.

A classic solution for storing hazardous waste is placing it on an impermeable ground. The tightness of the base is ensured by natural or artificial material. Standard requirements of the substrate are met by a 3-meter layer of clay. The water permeability coefficient of the substrate is of decisive importance. An additional seal is made of polyethylene foil - produced especially for these purposes. Apart from sealing the bottom of the landfill, it is provided with a drainage system, through which the contaminated leachate is discharged for disposal. Such a solution is very expensive in the case of mass and industrial production of hazardous waste.

Hazardous waste that is of interest to us, such as electroplating waste, metallurgical slag, scrap of accumulators or batteries due to the presence of heavy metals: Zn, Pb, Cd, Sb, Cu, requires storage to prevent metals from entering surface and ground waters. It is expedient to bind heavy metals to forms that are difficult to dissolve, for example carbonates. It is known that in the conditions of an underground deposit characterized by pressure and a reducing atmosphere, the ore-bearing and accompanying minerals remain neutral towards the environment. The reservoir waters are not saturated with components harmful to the environment, and the concentration of heavy metals remains at a trace level. The dolomite containing CaCO ₃ and MgCO _3, which is the main mineral in the deposit, ensures the alkaline reaction of the water in contact with it.

The zinc-lead ore mining industry generates large amounts of waste, including from mining technology processes: mining and processing - mainly flotation. Flotation tailings account for approximately 65% of the total ore extracted and processed: they contain dolomite as the main component.

The aim of the invention is to restore for the deposited waste the equilibrium conditions that existed before the deposit was disturbed by exploitation, and the technical task is to develop a method of building a landfill for hazardous waste containing heavy metals.

The method according to the invention consists in using a chemically and / or physicochemically active substrate that binds the ions of the released metals, and as the substrate, waste containing at least 50% by weight of calcium carbonate, for example dolomite Zn-Pb ore flotation waste, including those contaminated with heavy metals, is used. The substrate has a coefficient of permeability of less than 10 ^-5 m / s and the pH of the contained moisture 7-9. Hazardous waste containing heavy metals is placed on the active substrate in the formed excavation, the bottom of which is located at a distance of at least 5 m from the natural ground, for example: Pb, Sb, Cd, Cu, Zn in an amount preferably not exceeding 100 kg released into the environment heavy metal ions per 1 m ² of landfill area. On the top of the created layer of waste, technical and biological reclamation is carried out, and finally a reclamation layer is formed so as to obtain maximum runoff and retention of water in the surface layer and minimize water infiltrating into the depths. Hazardous waste lagoon excavation shall be protected with calcium carbonate waste side screens, preferably in the form of a shaft diameter at

186 766 ponds preventing side leakage of infiltrating waters. The top of the landfill shall have a slope of 1: 3%. Fine-grained waste containing calcium carbonate is used as fine-grained waste with particle size below 0.3 mm, of which about 50% by weight has grain sizes below 70 pm, or coarse-grained waste, the inter-grain spaces of which constitute 30-50% of the volume, are filled with fine-grained limestone material, for example, the mentioned fine-grained waste or sludge from the treatment of underground water in non-ferrous metal mines. Hazardous waste is waste from the processing of non-ferrous metals, for example throat sludge from the shaft furnace for copper matte smelting, electroplating sludge, metallurgical slag from lead smelting, waste from processing battery scrap and batteries. The reclamation layer is formed of sewage sludge and waste sludge from hard coal mines, which is a substitute for humus.

It goes without saying that the method according to the invention can be carried out on a constructed substrate containing calcareous carbonates, as well as with the use of existing dumps (settling tanks) of calcareous carbonate waste. The landfill according to the invention is safe for the environment, which means that its impact on the environment is at the level permitted by the applicable legal standards. The construction of the landfill ensures that the correct proportions between the amounts of infiltrating and flowing water are maintained, which is the result of the proper sealing of the substrate, stored material, reclamation layer and surface shape. The substrate made of calcareous carbonates, especially dolomites, binds metal ions by adsorption, reducing their concentration to the permissible values in the natural soil filtering water. The calculations made on the basis of determination of the content of unadsorbed heavy metal ions in the waters infiltrating into the layer of fine-grained flotation wastes showed almost no Pb, Cd, Fe ions in the waters permeating through the landfill. On the other hand, the concentration of Zn ions decreased with infiltration into the repository. Therefore, it can be assumed that the water seeping deep into the substrate is cleaned of the substances initially dissolved in it. This process can be proved by the composition of the water taken from the pond having direct contact with the waters infiltrating it through the dump. A comparison of the analysis of pond water and pool water on the surface of the waste settling tank is presented below.

Type of sample PH concentration mg / dm ³ Zn ²⁺ Pb2 + Cd2 + soluble salts water from the pond 7.98 0.12 0 0 500 puddle water in the landfill 7.25 12.7 0 0.12 470

The water from the pond is characterized by much lower concentrations of dissolved metals than the uptake on the surface, which proves the effectiveness of groundwater protection against contamination with heavy metals in the landfill constructed in this way.

The invention is described in more detail in the examples of the drawing, in which Fig. 1 shows a landfill with an excavation for hazardous waste in the form of a lagoon on the surface of a flotation waste settling tank - in vertical longitudinal section, and Fig. Zn-Pb ores flotation waste settler.

Example I. As shown in Fig. 1, a trench made in the ground 1 was filled with Zn-Pb ore flotation waste containing as the main component dolomite ~ 70% by weight, the grain size (90%) of which was <0.3 mm and the water permeability coefficient k = 0.8 W ^ m / s. The created substrate 2, in the form of an above-level-sub-level sedimentation tank, was surrounded by an embankment 3 made of earth removed from the trench and the outflow of hydrocyclones being flotation wastes with a coarser grain class. On the plateau of the substrate 2, a lagoon 4 was built, the bottom of which was situated at a distance A of about 5 m from the bottom of the trench. The lagoon 4 was surrounded by embankments 5 constituting side screens, which were made of a mixture of flotation and washing waste. Lagoon 4 was filled with waste from processed battery scrap - classified as hazardous waste due to the content of metals: Pb, Cd, Zn. The waste was compacted by a vibratory roller run. The formed layer of waste 6 was leveled with the upper level of the embankments 5. On the surface of the layer 6 with a 2% inclination angle - in order to ensure even runoff of rainwater - a reclamation layer 7 with a thickness of 50 cm was made from a mixture of sewage sludge and waste coal mud in the proportion 1: 3.

Example II. As shown in Fig. 2, in the flotation waste settling tank 2 existing on the natural substrate 1, the embankment 3 was formed by leveling the bottom and smoothing the slopes - excavation 4, in which the distance A of the excavation bottom from the natural substrate was 5.5 m, and its water permeability was k <10 ⁵ m / s. Based on the archival documentation and analysis of the well samples, it was confirmed that the mud waste with a grain size of 50 mm and flotation waste with a grain size <0.3 mm and carbonate are stored in the settling tank.

On the outlet side, the working area 4 was closed with a shaft 5 composed of a mixture of Zn-Pb ore flotation waste, i.e. with a grain size of <0.3 mm and coarse-grained dolomite mining and processing waste with a grain size of up to 50 mm. The constructed shaft 5 is characterized by a wider base B than its height C. The excavation 4 was filled with throat sludge classified as hazardous waste from the shaft furnace for smelting copper matte, containing about 40% by weight Pb, 6% by weight Cu and other heavy metals. Then, the waste was compacted and formed until reaching the level line of the top of the flotation waste settler. The formed layer of waste 6 was characterized by water permeability k <10 ' ⁵ m / s and a surface slope of 3%. The slope of the outer slope of the embankment 5 constituting the side screen was 1: 3. The adopted angle of inclination of the surface of the waste layer 6 facilitates even (without furrowing) flow of rainwater. The surface of the layer 6 was covered with a rehabilitation layer 7 of waste coal sludge with the addition of sewage sludge in an amount of about 25% by weight and sown with grass.

Fig. 2

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Claims (8)

Patent claims 1. Method for the construction of landfills for hazardous waste containing heavy metals, characterized by the use of a chemically and / or physicochemically active substrate (2) binding ions of released metals and the substrate (2) using waste containing at least 50% by weight of calcium carbonate , for example dolomite Zn-Pb ore flotation waste, including those contaminated with heavy metals. 2. The method according to p. 1, characterized in that the substrate (2) has a filtration coefficient of less than 10 ^-5 m / s and the pH of the contained moisture 7-9. 3. The method according to p. 1, characterized in that hazardous waste containing heavy metals is placed on the ground (2) in the formed excavation (4), the bottom of which is located at a distance (A) of at least 5 m from the natural ground (1), for example: Pb, Sb , Cd, Cu, Zn in an amount preferably not exceeding 100 kg released into the environment of heavy metal ions per 1 m ² of the landfill, and then on the plateau formed layer of waste (6) is carried out reclamation technical and biological, and finally the layer is formed rehabilitation (7) in order to obtain maximum runoff and retention of water in the surface layer, and minimize water infiltrating into the depths. 4. The method according to p. The method of claim 1, characterized in that the lagoon excavation (4) with hazardous waste is protected by side screens of calcium lime carbonate waste, preferably in the form of a shaft (5) with a diameter at the base to prevent lateral leakage of infiltrating waters. 5. The method according to p. The method of claim 1, wherein the plateau of the landfill is sloped at 1: 3%. 6. The method according to p. 3. The process of claim 1, characterized in that fine-grained waste with a grain size of less than 0.3 mm, of which about 50% by weight has a grain size below 70 µm, or coarse-grained waste, the inter-grain spaces of which are 30-50% of the volume filled with are fine-grained limestone material, for example the aforementioned fine-grained waste, or sludge from underground water purification of non-ferrous mines. 7. The method according to p. The method of claim 1, characterized in that waste from the processing of non-ferrous metals is treated as hazardous waste, for example: throat sludge from a shaft furnace for smelting copper matte, sludge from an electroplating plant, smelting slag from lead smelting, waste from processing accumulator scrap and batteries. 8. The method according to p. A method as claimed in claim 1, characterized in that the reclamation layer (6) is formed of sewage sludge and waste sludge from hard coal mines as a humus substitute.