RU2819792C1 - Method of restoring technogenically disturbed urbanized lands - Google Patents

Abstract

FIELD: ecology; soil treatment.

SUBSTANCE: invention relates to ecology and environmental protection and is intended for restoration of technogenic disturbed urban lands. Method involves application of an artificial soil mixture with plant seeds onto a technogenically disturbed surface, watering with water and coating with a polymer film, which is removed when even sprouts appear. Composition of the artificial soil mixture includes loams, clays, citrogypsum, zoocompost of black soldier fly, plant remains in the form of leaves and grass, wastes of wet magnetic separation of iron ore and sand. Volumetric geogrid is used, which forms a structure of hollow cells, into which an artificial soil mixture is filled with the following content of mass fraction of components, wt.%: clay – 15–20, loamy soil – 15–20, citrogypsum – 10–15, black soldier fly zoo compost – 10–15, plant residues in the form of leaves and grass – 10–15, wastes of wet magnetic separation of iron ore – 5–10, sand – the rest.

EFFECT: method provides reduction of terms of restoration of vegetation cover on technogenically disturbed urbanized lands without limitation of field of application with simultaneous expansion of composition of raw materials for its production.

1 cl, 9 tbl

Description

The invention relates to the field of ecology and environmental protection and is intended for the restoration of technogenically disturbed urbanized lands.

Technogenically disturbed urbanized lands are considered to be lands that have lost their original value and are a source of negative impact on the environment. The main reasons for the occurrence of disturbed lands are: development of mineral deposits, laying pipelines, eliminating the consequences of land pollution and carrying out other work related to soil disturbance. The main methods of restoring disturbed areas include technical and biological reclamation.

The “Material for biological reclamation of disturbed lands” (RU 2546155, published on April 15, 2015) is known from the prior art. The material includes soda production sludge and dewatered excess activated sludge or a mixture of dewatered excess activated sludge and primary settling tank sludge after treatment of municipal wastewater. Dehydrated excess activated sludge is a waste of the current output or waste stabilized under natural conditions from 1 to 10 years of the following composition, wt.%: organic substances - 49-67, mineral substances - 33-51, incl. total nitrogen up to 5.7%, phosphorus up to 7.4%. We used soda production sludge of a fine fraction less than 0.5 mm in size, obtained as a result of centrifugation at a rotation speed of 3800-4200 rpm and a centrifugation time of 12-18 minutes with a pH of aqueous extracts of 8.2-8.5. The mass ratio of soda production sludge to dewatered excess activated sludge or a mixture of dewatered excess activated sludge and primary settling tank sludge is 2:1-1:1.

The disadvantage of this material for biological reclamation is the high level of contamination of sludge. Sewage sludge may contain potentially hazardous components - heavy metals, organic pollutants, pathogens and other phytotoxic substances that can accumulate in organisms and the environment, preventing the development and restoration of soil and plant areas, as well as a complex composition that requires centrifugation of soda production sludge , which increases the cost of the finished product.

This technical solution does not take into account the possibility of using a volumetric geogrid filled with artificial soil mixture capable of quickly restoring technogenically disturbed urbanized lands.

The “Method of strengthening the slopes of waterlogged lands” is known (RU 2425474, published on August 10, 2011). A method of securing the slopes of waterlogged lands, including planting plants in the soil of the slope, characterized in that the planting of plants, for example, moisture-loving willows, is carried out by cuttings in nest-holes made both on the slopes and on the edge before the transition of the predominantly horizontal soil surface to the slope using , for example, a metal rod by pressing it to a depth of 20-30 cm and forming a depression in the soil with installing a cutting into it and then compacting the soil around the cutting, while the depressions are made and the cuttings are installed at an angle of 70-90° to the horizontal surface, creating a directional development of the root system of planted plants.

The disadvantage of this method is that it does not involve soil reclamation and is aimed exclusively at strengthening the slopes.

The closest technical solution adopted for the prototype is “Method for creating soil and vegetation cover during the reclamation of disturbed lands” (RU 2484613, published 01/10/2013). A method that includes adding waste, mineral fertilizers to the soil surface and sowing perennial grasses. In this case, mining waste is applied to the soil surface in a layer of at least 5 cm, containing calcite and/or magnesium hydrosilicate. Complex fertilizers N ₇₀ P ₇₀ K ₇₀ are applied, then expanded vermiculite with granules up to 4 mm is scattered in a layer of up to 1 cm, a mixture of seeds of perennial plants is sown, watered with water and covered with a polymer film, which is removed on the 5-7th day. Carbonatite waste, or screenings of olivinite ore, or serpentinite magnesite are also used as mining waste. Red fescue, meadow timothy, awnless brome, and sandy hairs are used as seeds of perennial plants in an amount of 50-100 g/ ^m2 . Watering is carried out at the rate of 5 l/ ^m2 . The method ensures a reduction in the labor intensity of technical and biological work on the reclamation of disturbed lands and landscaping of urban areas, recycling of waste from the mining and processing complex, increasing the efficiency of the formation of seed crops of phytocenoses and their durability, accelerating the reclamation process with the creation of conditions for the accelerated accumulation of fertility elements in the disturbed layer.

The disadvantage of this solution is the mandatory use of fertilizers N ₇₀ P ₇₀ K ₇₀ and expanded vermiculite with granules up to 4 mm, since without these conditions the components themselves do not provide sufficient soil and vegetation cover in the reclaimed area. This method is expensive and involves the use of mining waste.

The objective of the invention is to simplify the technology for quickly restoring vegetation cover on technogenically disturbed urban lands, without limiting the scope of application, reducing the cost of the material and expanding the raw material resources for its production while simultaneously reducing the costs of its implementation in a short time, by filling a volumetric geogrid with an artificial soil mixture.

The technical problem to be solved by the claimed invention is to restore the vegetation cover of technogenically disturbed urbanized lands more quickly in comparison with analogues and prototypes by filling a volumetric geogrid with an artificial soil mixture.

The technical result provided by the given set of characteristics is a reduction in the time required for restoration of vegetation cover on technogenically disturbed urban lands without limiting the scope of application while simultaneously reducing the cost of the material by expanding the composition of raw materials for its production.

This is achieved by applying a volumetric geogrid to the technogenically disturbed surface of urban lands, which, when stretched, forms a structure of hollow cells into which an artificial soil mixture with plant seeds is poured, watered and covered with a polymer film, which is removed when friendly shoots appear. The composition of the artificial soil mixture includes loams, clays, citrogypsum (citric acid production waste), black soldier fly zoocompost, plant residues in the form of leaves and grass, waste from wet magnetic separation of iron ore, sand with the following content of mass components. %: clay 15-20, loam 15-20, citrogypsum 10-15, black soldier fly zoo compost 10-15, plant residues in the form of leaves and grass 10-15, waste from wet magnetic separation of iron ore 5-10, sand - the rest.

A comparable analysis with the prototype shows that the proposed method for restoring technogenically disturbed urban lands differs in that it contains a volumetric geogrid filled with an artificial soil mixture capable of quickly restoring technogenically disturbed urban lands.

Thus, the proposed solution meets the invention criterion of “novelty”.

Comparison of the claimed solution not only with the prototype, but also with other known technical solutions in this field of technology did not confirm the presence in the latter of features that coincide with its distinctive features, or features that affect the achievement of the specified technical result. This allowed us to conclude that the invention met the “inventive step” criterion.

Characteristics of components

The volumetric geogrid is intended for strengthening soils in road construction and landscape design; these are polymer strips welded together in a checkerboard pattern; when the volumetric geogrid is stretched, a structure of hollow cells is formed, cell size 220×220.

Composition of artificial soil mixture

It is known that the basis of the soil mixture includes loams, clays, sands and organic matter. The composition of sandy loams is presented in Table 1. The chemical composition of clay is presented in Table 2.

Citrogypsum is a by-product of the production of citric acid, the chemical composition of which is presented in Table 3.

An important component in creating an artificial soil mixture is the organic part (biocompost), which is represented by processed organic waste of the larva of the dipteran insect black soldier fly (zoocompost) and plant residues in the form of leaves and grass. The chemical composition of biocompost is presented in Table 4 (zoo compost) and Table 5 (plant residues).

The by-products of wet magnetic separation are waste material from the iron ore beneficiation process. Its chemical composition is given in Table 6.

The chemical composition of sand is presented in Table 7.

An important condition for preparing an artificial soil mixture is thorough mixing of the starting components. The production of artificial soil mixtures is based on the mechanical mixing of heterogeneous components, which can vary significantly in physical, chemical and biological characteristics; the resulting initial components were mixed during preliminary grinding.

The component composition of artificial soil mixtures is presented in Table 8.

A method for restoring disturbed urbanized lands involves preparing a volumetric geogrid that forms a structure of hollow cells, into which an artificial soil mixture is poured to fill its cells (composition 1, table 8). 2 kg of sand is mixed with 1.5 kg of clay and 1.5 kg of loam in a paddle mixer for 3-5 minutes. Then citrogypsum is added in the amount of 1.5 kg, wet magnetic separation products in the amount of 0.5 kg and black soldier fly zoocompost 1.5 kg, 1.5 kg of plant residues in the form of leaves and grass, pre-crushed in a screw crusher for 3- 5 minutes. Then, sandy sainfoin seeds are sown into the resulting artificial soil mixture, followed by assessment of the qualitative indicators of the yield of the soil mixture used and the control composition in the field experiment.

The sown sainfoin was cut on August 10, 2023, and its yield and height were determined. Biological parameters are presented in Table 9.

The advantages of the product obtained by the stated method are:

1. Increased biological indicators of crops in comparison with the control group, and, consequently, the effectiveness of reclamation.

2. Reducing the time required for restoration of technogenically disturbed urban lands.

3. Reducing the cost of material for the production of artificial soil mixture using the proposed method.

4. Recycling of waste, preventing its incineration or disposal in municipal solid waste landfills, allowing to reduce the anthropogenic load on the environment due to their re-involvement in the technological cycle, which contributes to the creation of low- and waste-free technologies.

Claims (1)

A method for restoring disturbed urbanized lands, including applying an artificial soil mixture with plant seeds to a technogenically disturbed surface, watering it with water and covering it with a polymer film, which is removed when friendly shoots appear, while the composition of the artificial soil mixture includes loam, clay, citrogypsum, black soldier fly zoocompost , plant residues in the form of leaves and grass, waste from wet magnetic separation of iron ore and sand, the use of a volumetric geogrid that forms a structure of hollow cells, into which an artificial soil mixture is poured with the following content of the mass fraction of components, wt. %: clay – 15-20, loam – 15-20, citrogypsum – 10-15, black soldier fly zoo compost – 10-15, plant residues in the form of leaves and grass – 10-15, waste from wet magnetic separation of iron ore – 5-10 , sand - the rest.