RU2527368C1 - Method of land reclamation, disturbed by dredging works - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: in the river valley the dams of embankment are constructed for creation of fields of filtration and prevention of spreading of sewage water from the reclamated plot. At that the sewage water from the dredging water reservoir with a high content of suspended clay particles is fed through the hoses on the planned surface of the reclamated plot, and the place of pulp supply is periodically changed on the area of the reclamated plot.

EFFECT: return of the clay material in the pore space of coarse-grained sediment dredging that leads to saturation of deposits with fine soil and to improvement of the hydrothermal regime and increase in soil fertility.

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Description

The invention relates to methods for land reclamation in river valleys disturbed by dragee mining.

As a result of dredging, in the river valleys, the natural landscape structure is completely deformed and a technogenic landscape is formed, the main components of which are significantly altered (disturbed) by economic activities (lithomass, water mass), or completely destroyed (soil, phytomass). The main landscape functions - phyto- and oxygen-producing, as well as anti-erosion and water-protective-such landscape site are not carried out.

Dredge in the process of developing alluvial deposits disperses clay rocks, leaving coarse and sand fractions at the landfill in pellet dumps. Silt and clay particles with wastewater form a solid runoff and migrate from the landfill downstream. The resulting pellet deposits acquire new properties: they are characterized by low density, high porosity and water permeability, low content of silt-pelite fractions, especially on the surface of the landfill. According to the research [Karavaeva T.I. Geological substantiation of the use of alluvial-technogenic deposits for the purification of surface water from suspended solids (for example, the basin of the river Vishera): Dis ... Ph.D. Perm, 2010] sand, gravel and pebble fractions prevail in the granulometric composition of dragee deposits. The content of fine fractions (<0.05 mm) does not exceed 1.5-2.0%. Dragee deposits are a kind of substrate for the development of soil formation processes, the specificity of which is due to the low content of fine earth - a carrier of fertility elements, high moisture permeability and low water retention capacity due to cartilage and stagnation. These adverse features inhibit the development of nutrients and inhibit the process of soil formation in general, therefore, the soil and vegetation cover in the disturbed territories is restored extremely slowly. The physicochemical properties of dragee deposits differ from natural soil indices in all monitored parameters: the content and supply of humus (less than 1 t / ha), fertility elements - phosphorus, potassium, and environmental acidity [Refinement of an alluvial diamond deposit in the middle reaches of the river. B. Kolchim acting dredge №141: Working draft. Volume 4. Environmental Impact Assessment / ENI at CCGT. Perm, 2004. 35 c.]. Such deposits during the restoration of the territory require additional measures to improve their physico-chemical characteristics.

In accordance with the basic provisions on land reclamation, removal, conservation and rational use of the fertile soil layer, reclamation is carried out sequentially in two stages: technical and biological. The technical stage provides for the planning of the territory and the application of a fertile layer of soil. The biological stage includes a complex of agrotechnical and phyto-reclamation measures.

At dredge landfills, the main mining restoration work is the dumping and flattening of overburden dumps, since they create the greatest violations, especially with their height, the slope angles, the occupied area, and also the bulldozer leveling of the relief. The fertile soil layer due to low thickness (up to 10 cm), a large amount of boulder-pebble material in accordance with GOST 17.5.3.06-85 [Nature protection. Of the earth. Requirements for determining the standards for removing the fertile soil layer during earthworks: GOST 17.5.3.06-85. Approved and enacted by decree of the USSR State Committee for Standards dated July 17, 1985 No. 2256.] It is removed and stored together with other overburden rocks, which does not allow its further use in reclamation.

Reclamation measures in the areas of pelleted mining are time-consuming and expensive in material terms, since due to the sedimentation of deposits, mechanized work at the stage of biological reclamation is impossible. As a rule, after leveling the relief, land is transferred for natural overgrowing. The practice of the work indicates the unsatisfactory results of such restoration. According to the results of the survey of deposits in the north of the Perm Territory, five years after reclamation and transfer of the territory for self-growth, its condition has not changed - the vegetation has not been restored [Voronchikhina EA Reclamation of disturbed landscapes: theory, technology, regional aspects: monograph / E.A. Voronchikhina. Perm, 2010, 163 p.].

An analogue of the proposed method of reclamation due to saturation of the pore space of sediments with clay material is the hydraulic mixtures of grass mixtures used at the biological stage of reclamation. A working mixture (hydraulic mixture) is applied to the reclaimed area with a water jet using hydraulic seeders, containing, in addition to water, seeds of perennial herbs, mineral fertilizers, mulching and stabilizing substances. The applied hydraulic mixture creates the conditions necessary for seed germination, for the initial growth and development of herbs without first applying an organic layer to the mineral soil. The method of hydropowing is widely used in fixing slopes of roads and railways (Lobovikov N.N. Technology of biological reclamation of disturbed lands in the European North / N.N. Lobovikov, N.P. Akulshina. Syktyvkar, Syktyvkar State University, 1990, 12 sec. .).

The prototype of the proposed method is used in practice, the technical stage of reclamation, in which a fertile layer of land is applied to the previously planned surface of the plot for subsequent planting of vegetation [Basic provisions on land reclamation, removal, conservation and rational use of the fertile soil layer. Approved The Ministry of Natural Resources of Russia and Roskomzem dated December 22, 1995 No. 525/67 [Electronic resource]. Electron Information and legal portal "Guarantor". URL: http://base.garant.ru/2107557/. Date of treatment 07.11.2012].

The fertile or potentially fertile layer may be natural or specially prepared and brought to the site of restoration.

Common in reclamation methods is the artificial creation of a fertile or potentially fertile layer of land.

The fundamental difference lies in the fact that in the proposed reclamation method for creating a potentially fertile layer, dragee production wastes are used - clay substances that are suspended in the wastewater of the dragee reservoir. These substances are not carried into rivers and do not become pollutants of the environment, but mainly remain at the place of their formation - the dredging site, colmatize the pore space of dredged deposits and create a fertile soil base. The difference also lies in the method of delivering a potentially fertile base to the site - the filtration fields are irrigated with sewage from dragee ponds and sediments are deposited in the burrow space due to mudding.

The main objective of the proposed method of reclamation of disturbed areas is the return of clay material to the pore space of coarse dragee deposits, which will lead to saturation of deposits with fine earth and to improve the water-thermal regime and increase fertility.

The problem is solved using the signs indicated in the claims, such as the method of land reclamation, disturbed by dredging, characterized by the fact that in the river valley they build embankment dams to create filtration fields and prevent wastewater from spreading from the reclamation site, while wastewater from dredging reservoir with a significant content of suspended clay particles is fed through hoses to the planned surface of the reclamation site, and the pulp feeding place is periodically changed recultivated on the area portion.

The above set of essential features allows you to get the following technical result - when filtering water deep into the sediment mass and spreading over the area, the pore space is clogged with clay particles and a potentially fertile layer is created suitable for the natural renewal of vegetation or for biological reclamation.

The invention is illustrated by the following examples and the layout of the dragee pond and the reclaimed area in figure 1 and figure 2 the profile of the river with the reclaimed area (A-B).

Reclamations are exposed to areas near the dragee (technological) reservoir 2 that are not planned for redevelopment. Water with a high content of suspended clay particles (pulp) 7 is pumped 6 through a pipeline 5 from a dredged pond 2 to reclaimed plots 1. Position 8 indicates a dam of a dredged pond 2. (Fig.1) From the river 3 and downstream, the reclamation plots dams-shafts 4 with a height of 0.5-1.0 m, which prevent rapid swelling of the supplied water and erosive erosion of the surface. The result is water infiltration and accumulation of fine earth in the pore space, which allows you to quickly create a potentially fertile substrate 10 (figure 2). To more evenly fill the pore space with fine-grained earth on the area of the reclaimed area 1, the water supply point “B” periodically changes. In the process of downward filtration of the pulp to the groundwater level and filtration in the direction of the river channel with the flow of groundwater 9, suspended clay substances are deposited in the pore space of dragee sediments.

In the valley of the river. B. Kolchim in the Krasnovishersky district of the Perm Territory, on the spent pellet test site, studies were carried out on the sedimentation of suspended solids from wastewater (pelleted) water by filtering them through sand pellets. Drag deposits are represented by quartz sand of large and medium size. In the particle size distribution, sand fractions of 0.05–2.0 mm comprise 90% of the total mass, the content of clay particles is on average about 0.5%. The porosity of the deposits varies from 49 to 59%, the filtration coefficients are in the range of 7.5-22.1 m / day. Pressure filtration was carried out from higher hypsometric marks towards the river bed. The concentration of suspended solids in wastewater reached 1975 mg / DM ³ . With a pressure gradient of 0.040-0.047 and a filtration path length of 26.5-39.6 m (in different parts of the landfill), the concentration of suspended solids in the treated waters was 7-54 mg / dm ³ . In the pore space of sand pellets, 89.9-99.3% of suspended solids were retained. From each liter of filtered pulp, up to 1.9 g of suspended clay particles remained in the pore space, enriching dragee deposits with fine earth - the main carrier of fertility elements.

The advantage of the proposed method of land reclamation is the possibility of simultaneous mining and reclamation work, which significantly reduces the time for restoration of disturbed territories. In addition, as a result of filtration and sedimentation of suspended particles in the pore space, the problem of treating a certain amount of wastewater is solved.

The result of the proposed method of reclamation is the enrichment of coarse material with fine fractions and the creation of favorable conditions (water and thermal conditions) for the natural renewal of vegetation in pelleted landfills.

The result is achieved by supplying wastewater, contaminated with suspended solids of the clay fraction, from the dragee reservoir to the reclaimed surface (Fig. 1). At a landfill located below the dredge’s working reservoir, wastewater is pumped through large-diameter hoses. The reclamation site is pre-fenced with dams-shafts with a height of 0.5-1.0 m to prevent the spread of wastewater outside the site and into the river (figure 2). Wastewater freely flowing onto the surface of the landfill from a hose is partially infiltrated into the sediment mass, and partially flows down the reclaimed area to the dams. Colmatization of the pore space with suspended solids of the clay fraction gradually occurs within the sector sector. After sedimentation of sediments by clay particles to a depth of not less than 10 cm, the hose moves along the surface of the plot for irrigation and mudding of the adjacent sector. Similarly, the entire area of the dredging site is being reclaimed. In the process of mudding clay particles of the pore space of sediments on the surface of the landfill, a potentially fertile soil layer is created suitable for sowing perennial grasses or woody vegetation, as well as for the natural renewal of vegetation at the initial stage of succession.

Practical use of the proposed reclamation method is possible in the valleys of any lowland and foothill rivers, where clay fractions are present in the sediments in a sufficient amount. In the process of sedimentation of sediments by clay particles and the creation of a potentially fertile layer, a significant decrease in the technogenic load on the water ecosystems of the territory occurs. Water is partially clarified by sludge in the filtration fields and the degree of negative effect of suspended particles on surface water is reduced. Using the reclamation method can significantly reduce the company's payments for surface water pollution by suspended solids. There are no capital costs for site restoration. Preparatory work includes the preliminary leveling of the site and the creation of bunds to limit wastewater spreading. Operational costs during the testing of the landfill by dredging from top to bottom are associated with the operation of the pump for supplying wastewater from the dragee reservoir to the reclaimed area and periodically involving a worker to transfer the hose to the neighboring irrigation sector. When working out the landfill with a dredge from bottom to top, water from the dragee reservoir is fed by gravity from the retaining dam of the dragee reservoir, and a pump is not required.

This description and examples are considered as material illustrating the invention, the essence of which and the scope of patent claims are defined in the following claims, a combination of essential features and their equivalents.

Claims (1)

A method of reclamation of lands disturbed by dragee mining, characterized in that in the river valley, dams are constructed to create filtration fields and to prevent the spread of wastewater from the reclamation site, while wastewater from dragee ponds with a significant content of suspended clay particles is supplied through hoses to the planned surface reclamation site, and the place of pulp supply is periodically changed by the area of the reclaimed area.

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