RU2557636C2 - Method of decontamination of soils from contamination with crude oil, petroleum products and heavy metals and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method comprises boardless ploughing the soil to create porous mechanically activated soil structure, mulching harrowing. Soil treatment is carried out by spraying an aqueous solution of a mixture of biological and organic-mineral preparations selected in the ratio (0.5÷1):3. After that, the treated area is covered with the roll material providing the maintenance of the concentration of aqueous solutions of reagents, regardless of rainfall. The biological product is used as hydrocarbon-oxidizing microorganisms selected from the yeast and bacteria, or mesophilic microorganisms of the genus Rhodococcus, Psendomonas, Acinetobacter. The organic-mineral preparations are used as humic-mineral concentrates on a basis of potassium humate or the mixture of humic or fulvic acids. The device comprises the vehicle on which the container for a solution and the hinged unit are mounted. The hinged unit comprises a boardless plough, a block of disc harrows, and a liquid sprayer in the form of a tube, mounted in series. The sprayer is attached to the centrifugal and the nozzle sprayers. The harrow discs are made convex, provided with notches and mounted transversely inclined in opposite directions.

EFFECT: technology and design enable to improve the quality of soil decontamination from petroleum products and heavy metals.

3 cl, 4 dwg, 1 tbl

Description

The invention relates to the field of soil and soil remediation contaminated with oil, oil products and heavy metals. It relates to agricultural equipment and, in particular, to devices for tillage and subsoil application of liquid complex reagents.

A known method of reclamation of soil contaminated with oil and oil products. The method includes the steps of mixing soil contaminated with oil and / or oil products with bird droppings, organic or wood waste and composting for a period of at least 10 months (RU 2240877 C1, B09C 1/00, C05F 3/00, published. 27.11.2004 )

The disadvantage of this method is the low quality of soil cultivation, the long term of its restoration and significant energy costs for additional operations on the introduction of solid reagents and their grinding with soil.

A known method of cleaning the soil from oil pollution (RU 2170149 C1, B09C 1/10, published. 07/10/2001), in which the soil is treated with a bacterial culture adapted to hydrocarbons in oil mixed with a biostimulator. The bacterial strain Bacillus is used as an adapted bacterial culture, and the Biotran protein mixture is used as a biostimulant. It is obtained in a biotechnological way based on carbon-containing raw materials using non-pathogenic producer dies, and before they are introduced into the soil, they are mixed in a ratio of 1: 1. These drugs accelerate soil biodegradation.

The disadvantage of this method is the presence of intermediate operations for the preparation of biological products and a long period of cleaning the soil from oil pollution.

A known method of cleaning soils from heavy metals, (DE 19813425 A1, B09C 1/10, C09K 17/22, published. 09.09.2005). In the method, the reduction of the content of heavy metals in the soil occurs due to their transition to plants, for which the soils are treated with structured polyacrylates or polytetacrylates.

The disadvantage of this method is the inability to use it to clean the soil from petroleum products.

Closest to the proposed is a method of removing hydrocarbons and heavy metals from the soil (GB 2348422 A1, B09C 1/06, B09C 1/02, published. 04.10.2000). In the method, halogenated hydrocarbons and compounds of lead and other heavy metals are removed from the soil, first subjected to heat treatment. In this case, the decomposition of hydrocarbons, lead compounds and other heavy metals occurs. Oil products at the same time pass into the gaseous phase and are passed through a heat-resistant porous material. Hydrocarbons present in the gas phase decompose due to catalytic oxidation. Then heat-treated soil is mixed with an aqueous solution to dissolve metal oxides and other toxic inorganic substances. After that, the soil is separated from the leach solution, washed with water and recycled to the leach solution.

This method allows you to clean the soil in a multi-stage process using thermal heating, catalysts and aqueous reagents. This increases the cost of soil cleaning and requires the use of special equipment. The soil obtained after this does not have agronomic properties.

Known combined unit for processing, fertilizing the soil and sowing, consisting of slotted drains, rotary cultivators, sealing rollers, hydraulic communications, tanks for liquid organic and mineral fertilizers and the seed part (SU 1473728 A1, A01B 49/06, A01C 23/02, published. 04.23.1989).

The disadvantage of this device is the low quality of soil treatment and the inability to mix soil layers with liquid reagents due to the poor filtration ability of the soil walls.

Known is a combined unit for layer-by-layer tillage, including a frame, batteries of disk working bodies, a flat cutting non-moldable working body and an additional working body (RU 2283559 C1, A01B 49/02, published on September 20, 2006).

The disadvantage of this unit is the low quality of soil treatment and the inability to use it for subsoil application of liquid organic fertilizers and reagents. In addition, the elastic suspension of the disk batteries, rigidly fixed to the frame when meeting with obstacles, poorly processes the soil, and the spaces between the disks will become clogged with soil and plant debris.

The prototype of the proposed device is a combined unit for soil treatment and the application of liquid organic fertilizers (RU 2352095 C1, АСС 23/02, published. 04/20/2009), containing tanks with pressure piping, a frame, cutting discs, filling nozzles, while the discs are located in four rows with the concavity of the disks of each subsequent row and the opposite concavity of the disks of the next row and are cut, the casting nozzles are equipped with deflector nozzles and mounted on the convex side of the disks of the second row.

The disadvantage of this installation is the impossibility of deep plowing of contaminated soil and the creation of optimal loosening of the soil layer and its complete irrigation with a complex solution.

In the first and second objects of the invention, a technical result is achieved, which consists in ensuring the neutralization of contaminated soils from oil, oil products and heavy metals in urban areas by combining a biological and chemical cleaning method.

The specified technical result in the first object of the invention is achieved as follows.

In the method of neutralizing soils from contamination by oil, oil products and heavy metals, soilless plowing of the soil is carried out when creating a porous mechanically activated soil structure, mulching harrowing and soil cultivation by spraying an aqueous solution of a mixture of biological and organomineral preparations selected in the ratio (0.5 ÷ 1): 3. Then carry out the shelter of the treated area with roll material, ensuring the maintenance of the concentration of aqueous solutions of reagents, regardless of precipitation.

As a biological preparation, hydrocarbon-oxidizing microorganisms are used, which are selected from yeast and bacteria, or mesophilic microorganisms of the genus Rhodococcus, Pseudomonas, Acinetobacter. As an organomineral preparation, humic-mineral concentrates based on potassium humate or a mixture of humic or fulvic acids are used.

In this case, landless plowing of the soil is carried out to a depth of 200-300 mm.

The specified technical result in the second object of the invention is achieved as follows.

Installation for the disposal of soils from pollution by oil, oil products and heavy metals contains a vehicle on which a tank for mortar and mounted unit.

The mounted unit includes a sequentially mounted subsurface plow, a block of disc harrows and a liquid sprayer.

The latter is made in the form of a pipe with centrifugal and nozzle nozzles attached to it.

The harrow discs are made convex, equipped with cutouts and mounted transversely with an inclination in opposite directions.

The invention is illustrated in the drawing, where in FIG. 1 is a side view of a soil disinfection apparatus; FIG. 2 shows a top view of the installation for decontamination of soils, in FIG. 3 shows a diagram of the interaction with the soil of the harrow disks after plowing with a plow, FIG. 4 shows a recess in the soil after harrowing.

The figure shows the vessel 1 to an aqueous solution of a mixture of drugs, reference wheel 2, moldboard plow 3, drives 4 sets of disc harrows, spray beam dispenser 5, the axis 6 harrows, furrow 7, the depth h ₁ plowing, depth h ₂ harrowing, the length l of the treated reservoir .

The proposed method is carried out using the proposed device as follows.

Before starting the movement of the vehicle, the plowshares of the waste plow 3 are set to a predetermined plowing depth h ₁ equal to 200-300 mm.

The disc harrows attached to the plow cultivate the soil, creating a porous mechanically activated soil structure by mulching harrowing.

The porous mechanically activated soil structure is formed due to the fact that the porous space of the soil, like other porous materials, can be represented as an aggregate with a statistical labyrinth with alternating extensions and narrowings of different sizes and shapes. This maze occupies part of the total volume of the porous body, corresponding to the effective porosity. Pore size, their shape and combination are very diverse, since they are derived from the random arrangement of polydisperse particles of mechanical composition - elementary soil particles, microaggregates and structural parts, which are extremely different in size, shape and nature of their surfaces. These gaps in shape and size vary greatly over time depending on the physical, mechanical and biological processes occurring in the soil.

In this case, the density of aggregates or their porosity is of great importance (N. A. Kachinsky Soil Physics. - M: Higher School., 1965, 320 p.). Microbiological activity in the lump is associated with porosity. If the structural lump is penetrated only by very thin pores, then even with low humidity the microbiological aerobic processes in it sharply decrease, being limited only to the upper film.

With mulching harrowing, processes of mechanical activation of a complex soil structure proceed, which can be analyzed on the basis of modern concepts of the physicochemical mechanics of dispersed media.

As a result of soil mechanical activation, condensation structures are formed that are similar to crystallization, but differ in the nature of the particle bonds. Here, the role of bridges is played by non-crystalline products of chemical reactions. With the intensive action of the harrow under conditions of deformation, the formation of new surfaces occurs. The destruction or development of a crack is accompanied by a change in the energy state of the substance and the transition of the energy of the harrow into the surface energy of the crushed soil particles. In this case, physical and chemical interactions occur, as well as an increase in the total energy of the system in the isothermal process of surface growth (Technological problems of grinding and mechanical activation. Materials of the scientific and technical seminar of the Commonwealth countries. - Mogilev: 1992, pp. 21-23; Sedov V.V. ., Kuzminki A.S., Kirshtein N.I. In Sat: 11 - Everything. Symposium on mechanoemission and mechanochemistry of solids (Tallinn, vol. 2, 1977, pp. 15-25).

Cutting discs 4 harrows have a concave shape. Due to this, the soil evenly descends from the concave side of the disks 4. Cutouts in the disks 4 increase the cutting and crushing ability of the working body and promotes active mulching of the soil.

Since after the plow, grooves 7 are formed in a conical shape with a depth of h ₁ , the combined action of the discs 4 directed in different directions destroys the trapezoidal bridges between them. Thus, loosened rectangular depressions are formed in the soil with a height of h ₂ = 150-200 mm.

After harrowing, the entire area of porous mulched soil is irrigated using centrifugal and nozzle sprayers. Irrigation is carried out by spraying an aqueous solution of a mixture of biological and organomineral preparations, selected in the ratio (0.5 ÷ 1): 3.

The study of the factors of the appearance of a higher efficiency of the process with the combined and simultaneous exposure to reagents showed that MMC chemically binds heavy metal ions and organic toxicants into durable complexes. This leads to their neutralization, that is, loss of bioavailability. This reduces the energy costs of a living cell of a biological product to eliminate the negative effect when contaminants enter the intracellular environment. In this case, microorganisms not only clean the soils from hydrocarbons of oil products, but also bind metal compounds to insoluble sediments. When the ratio of biological products to GMC is less than 0.5: 3, this effect is not observed.

As a biological preparation, hydrocarbon-oxidizing microorganisms in the form of yeast and bacteria, or mesophilic microorganisms of the genus Rhodococcus, Pseudomonas, Acinetobacter, are used.

As the sole carbon source, n-paraffins obtained by carbamide dewaxing with a high content of aromatic hydrocarbons are used.

The cultivation process is carried out continuously or periodically at a temperature of 38 ° C to 42 ° C and a pH of 6.8 to 7.2 under aerobic conditions.

If necessary, the resulting biomass of bacteria can be dried on a spray dryer.

As an organomineral preparation, humic-mineral concentrates based on potassium humate or a mixture of humic acids or fulvic acids are used.

These preparations provide the most complete neutralization of soils from oil products and heavy metals. Their mixture mixes well and when they are fed through nozzles, the spray channels are not clogged.

After irrigation, the treated area is covered with a roll covering material, which ensures the maintenance of the concentration of aqueous reagent solutions in a given mode, regardless of precipitation. In addition, gases released from the soil, as a result of ongoing reactions, provide the required soil porosity. As a covering material, a polyethylene film, ST, a cloth of 0.100 × 6000 grade first GOST 10354-82 can be used.

Table 1 shows examples of the method with different composition and ratio of a mixture of biological and organomineral preparations, demonstrating the achievement of a technical result.

The implementation of the proposed invention will effectively ensure the biochemical rehabilitation of soils from pollution by oil, petroleum products and heavy metals to the concentration of maximum permissible concentrations.

Claims (3)

1. The method of neutralizing soils from contamination with oil, oil products and heavy metals, characterized in that the soil is plowed without soil when creating a porous mechanically activated soil structure, mulching harrowing, soil treatment by spraying an aqueous solution of a mixture of biological and organomineral preparations, selected in the ratio (0.5 ÷ 1): 3, and subsequent covering of the treated area with roll material, ensuring the maintenance of the concentration of aqueous reagent solutions, regardless of the attack Ia precipitation, wherein as biological preparation used hydrocarbon-oxidizing microorganisms, which is selected from yeast and bacteria or mesophilic microorganisms of the genus Rhodococcus, Pseudomonas, Acinetobacter, and as the organic-drug use humic mineral concentrates based on potassium humate, or mixture of humic and fulvic acids. 2. The method according to p. 1, in which subsurface plowing of the soil is carried out to a depth of 200-300 mm 3. Installation for decontamination of soils from contamination by oil, oil products and heavy metals, containing a vehicle on which a solution tank and mounted unit are installed, including a sequentially mounted dump plow, a disk harrow unit and a liquid spray in the form of a pipe with centrifugal and attached spray nozzles, while the harrow disks are convex, provided with cutouts and mounted transversely with an inclination in opposite directions.

Images