PL221429B1 - Method for natural reclamation of mineral landfills - Google Patents

Description

Description of the invention

The subject of the invention is a method of reclamation of mineral landfills composed of fine-grained or dusty post-industrial waste.

The invention may be applicable to the rehabilitation and revitalization of metal ore flotation waste landfills.

Soilless landfills, especially flotation waste, due to the special granulometric composition, very low nitrogen and phosphorus content, high content of heavy metals and the lack of any biological life are particularly difficult to manage. Few plants are capable of developing and yielding satisfactorily under such difficult conditions. The main problem of flotation waste is its extremely poor structure, a large amount of the finest fractions and the lack of skeletal parts.

The methods of reclamation known and used so far generally consist in introducing an appropriate amount of mineral substances into the top layer of waste and mixing with it. This results in the improvement of the structure and nutrient abundance of the substrate for some time. The main purpose is to protect landfills against dusting and is to be a substrate for plant growth. After some time, however, the effect of the introduced substances disappears, which results in a return to the situation from before the revitalization.

From the Polish patent application P.386046, a method is known which consists in introducing an aqueous solution of sulfuric acid or ammonium sulphate into the flotation waste tanks. Its purpose is only to neutralize with acids, landfills of a decidedly alkaline nature. However, it does not change the physical properties of the substrate for a long time and does not enrich biological life. The process also causes high foaming, which makes neutralization difficult without significantly improving the physical and biological properties of the substrate.

In turn, from the application P.301405 a method of reclamation is known, which consists in free laying, along the entire height of the slopes, a pile of biotextile containing in its structure at least 5% of legume seeds and stokłosy, while the biotextile is attached to the surface of the slopes with elements, preferably in such a way, to create a mesh similar to a diamond shape. On the other hand, in the patent application P.312929, a method is described in which a turf covering, at least three-layered, is applied to the landfill, where the bottom layer is a textile material made of synthetic fibers, on which a layer of reclamation soil with a thickness of at least 3 mm is applied, the whole is covered with a layer of non-woven fabric with grass seeds and, possibly, creeping shrubs grafted into its structure.

It is known from the application P.313851 to use gels mixed with ground brown coal or peat. The agent for greening wastelands and reclamation of land degraded by industry, can also be used for stabilization and greening of dusty industrial waste landfills as well as sand dunes and earth embankments. The essence of the solution, based on acrylic copolymers, is that hydrated gels containing cross-linked copolymers of acrylic acid salts and acrylamide are homogenized with comminuted brown coal, dried high peat and organic fertilizer, preferably of the biohumus type, and possibly with other corrective and supporting additives, and diluents.

On the other hand, the Polish patent description PL192147 describes a method of making a biological casing of dusty post-industrial areas, consisting in the fact that the casing is made in two stages, with the first stage spraying an aqueous solution of water glass containing at least 5% SiO2 on the stabilized surface, in an amount ensuring that the surface layer of the soil is wetted at least 2 cm deep. In the second stage, a typical biological stabilization of the area is carried out, where the area is covered with a thin-walled biogenic layer in the form of mineral soil with a thickness of about 5-10 cm, with a grain size composition of at least sandy loam. Then, the initial NPK mineral fertilization is performed and a special mixture of seeds of turf and humus-forming plants is sown into a thin biogenic layer in the amount of 100-200 kg / ha. The mixture of seeds consists of a set composed of: 20% Westerwald ryegrass (Lolium multiflorum var .westerwoldicum), 20% common bent grass (Agrostis vulgaris), 20% perennial ryegrass (Lolium perenne), 20% red fescue (Festuca rubra), 10% treetops (Lotus comiculatus), 10% lion chickpeas (Coronilla varia).

From patent application P.394743 there is known a method of revitalizing mineral landfills, which consists in introducing a mixture of sand, phosphogypsum and rock into the substrate.

PL 221 429 B1 with a grain diameter not exceeding 2 cm in weight ratio, respectively 1.25-4:

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1.25-4: 1.25-4 kg m ² or a mixture of sand, phosphogypsum, crumb rock and gangue in a ratio of _{2 by} mass, respectively 1.25-4: 1.25-4: 1.25-4: 1 , 25-4 kg m ² . Then the seeds of plants which tolerate such substrates well, for example alfalfa and / or red clover and / or white clover and / or mixtures of these plants, are sown.

The methods used so far do not comprehensively solve the problem of managing copper ore flotation waste landfills. Moreover, those used are extremely expensive to implement, as they require enormous material and energy expenditure related to the creation of the top layer of the landfill.

The method according to the invention is based on the assumption that it should be possible to implement with the lowest possible cost and high efficiency.

The essence of the invention is that the top layer of the mineral landfill, which is the copper ore flotation landfill, is moved with a cultivator to the maximum depth and leveled with a harrow, and then the first dose of nitrogen fertilization in the amount of 60 to 80 kg / ha and phosphorus fertilization in the amount of 130 up to 170 kg / ha, after which it is mixed to a depth of 10 cm with organic material consisting of chopped straw with a layer of 25 to 35 mm thick. The substrate prepared in this way is left to fall asleep, and then a mixture of the seeds of the horn millet (Panicum virgatum) and the beetle (Lotus comiculatus) in a weight ratio from 0.9 to 1.1, at a dose of 28 to 32 kg / ha, Depending on the course of plant vegetation, 5-7 weeks after the emergence of the plants, the second N and P fertilization is carried out in the N dose as before, and P in the amount of 30 to 70 kg / ha. The dose of mineral fertilization replenishes the lack of nutrients to the generally accepted standard.

It is also preferred that the straw chaff is wheat straw chaff.

Preferably, after sowing the plant mixture, rolling is performed, excluding the smooth roll.

It is also advantageous to make the first cut after the second mineral fertilization and to fertilize with nitrogen in the same dose as before.

It is also advantageous if the swath is left in the field in the form of comminuted biomass in order to enrich the soil with mineral and organic substances.

The substrate prepared in this way creates relatively good conditions for their growth. Many years of research have confirmed the effectiveness of this method of reclamation. The advantage of the method is that the first plant growth is obtained at the end of the first plant growing season, and over time (2 years and more), the reclamation effect increases many times in such a way that the obtained increase in plant biomass is so large that it can even be harvested twice a year for energy purposes.

The invention is described in more detail in an embodiment.

E xample: Flotation waste remaining intact and dewatered forms a compact substrate. Before planting in the plants, its surface is shaken with a cultivator to a depth of 20 cm and then leveled with a harrow. Then the first dose of nitrogen fertilization N (70 kg / ha) and phosphorus P (150 kg / ha) is sown. After fertilization, the organic material (wheat straw chaff) is spread over the waste with a layer 30 mm thick. Then it is mixed with the substrate with a rotary tiller to a depth of 10 cm. After the substrate has fallen aside, a suitably selected mixture of millet (Panicum capillare) and Lotus comiculatus (16:16 kg / ha) seeds is sown and rolled. After 6 weeks from the emergence of the plants, N and P are fertilized again in the dose of N = 70 kg / ha, and P in the amount of 50 kg / ha, and the third nitrogen fertilization after harvesting the first cut in the dose as before.

Claims (5)

Patent claims Method of reclamation of mineral landfills composed of fine-grained or dusty mineral waste by introducing and mixing the distributed material and mineral fertilizers with the substrate and sowing plant seeds, characterized in that the top layer of the mineral landfill, which is a copper ore flotation waste landfill, is moved by a cultivator to the maximum depth, level with a harrow, and then sows the first dose of nitrogen fertilization in the amount of 60 to 80 kg / ha and phosphorus fertilization in the amount of 130 to 170 kg / ha, and then mixed to a depth of 10 cm with organic material consisting of chopped straw and an applied layer with a thickness of 25 to 35 mm, and the prepared substrate is left to fall asleep, and then In a weight ratio of 0.9 to 1.1, at a dose of 28 to 32 kg / ha, then, depending on the course of the vegetation, the mixture of the seeds of the horn millet (Panicum virgatum) and the comedon (Lotus comiculatus) is sown 5-7 weeks after the emergence of the plants, the second N and P fertilization is carried out in the N dose, as before, and P in the amount of 30 to 70 kg / ha. 2. The method according to p. The method of claim 1, wherein the straw chaff is wheat straw chaff. 3. The method according to p. A method according to claim 1, characterized in that after sowing the plant mixture, rolling is performed, excluding the smooth roll. 4. The method according to p. The method of claim 1, characterized in that after the second mineral fertilization, the first cut is made and nitrogen fertilization is carried out at a dose of 60 to 80 kg / ha. 5. The method according to p. A method according to claim 1, characterized in that the mown biomass is left in the field in a comminuted form.