RU2637131C1 - Method for purification of soil polluted by oil and oil products using biopreparation - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: method includes full mineral fertiliser introduction into the soil, soil moisture maintaining, periodic loosening or plowing, preparation of a ready to use aqueous dispersion from a dry biopreparation containing a water soluble protective medium and microorganisms - petroleum hydrocarbon destructors, including bacteria of epy Rhodococcus genus, and its application to the polluted soil, a biopreparation is used containing Rhodococcus strain of the Rhodococcus jialingie 1kp bacterium as a bacterium, as well as additional Lysinibacillus xylanilyticus 5 rb bacterium strain and Yarrowia lipolytica 2kp yeast strain, in which dried microorganisms are taken at a weight ratio of Rhodococcus jialingie 1kp : Lysinibacillus xylanilyticus 5 rb : Yarrowia lipolytica 2kp = (1-2):(1-1.5):(2-3). The protective medium of the biopreparation includes dehydrated yeast autolysate, glucose and nutritive mineral salts and trace elements containing at least nitrogen, phosphorus, potassium, magnesium, manganese, zinc and iron compounds, which are taken in the mass ratio of dehydrated yeast autolysate : glucose : salts and trace elements = (1-2):(0.5-1):( 1-2). Preparation of the ready-to-use aqueous dispersion of the biopreparation performed by dispersion of the calculated amount of dry biopreparation M (g) in g in the calculated volume V₁ (l) in 1 l of 0.4-0.6% aqueous solution of the full mineral fertiliser to obtain an initial dispersion containing the viable microorganisms of the preparation in an amount of 2×10⁹-4×10¹¹ colony forming units (CFU)/l, air blowing through it for 12-14 hours, followed by introduction of a diesel fuel or soil contaminant into the dispersion in an amount of 0.05-0.20% of the initial dispersion, re-purging through the air dispersion during 12-14 hours and dilution of the obtained concentrated dispersion 20-40 times with a calculated volume of water V₂ (l) in l. The ready-to-use dispersion is applied in an amount of 10-20 l/m² soil, soil moisture is maintained at a level of 60-70% and the first soil loosening or plowing is performed after application of the ready-to-use biopreparation dispersion and application of mineral fertiliser to the soil, and the numerical values of V₁ (n), M (r), and V₂ (n) are calculated by the formulas V₁ (n)=P (l/m²)×S (m²)/N, where P (l/m²) is the amount of ready-to-use biopreparation dispersion in l applied per 1 m² of polluted soil, S (m²) is the total area of the soil to be cleaned in m² and N is the degree of dilution of the concentrated dispersion with water, M (g)=K (CFU/l)×V₁ (l)/A (CFU/g), where K (CFU/l) is CFU content in 1 l of initial dispersion, A (CFU/g) is the known content of viable microorganisms of the biopreparation in CFU in 1 g of dry biopreparation and V₂ (n)=(N-1)×V₁ (l).

EFFECT: speed of soil purification from hydrocarbon pollution is increased by 5 times.

1 tbl, 13 ex

Description

The invention relates to environmental biotechnology, and in particular to a method for cleaning soil contaminated with oil and oil products using a biological product.

Nature has a certain potential for self-purification from oil and oil products, which are based on microbiological processes. However, the rate of natural processes of self-cleaning is small and the duration of cleaning of natural and man-made objects can be calculated for years and even decades. To eliminate pollution of ecosystems with oil and oil products, various purification methods using biological products have been successfully applied.

A known method of cleaning soil (soil) contaminated with oil and oil products using a biological product by storing or delivering a dry biological product to a contaminated area, activating a biological product by first preparing the initial (base) aqueous dispersion (suspension) of the biological product, then it is ready for use (working) dispersion followed by its spraying over the contaminated soil (patent RU 2114071, C02F 3/34, 05/22/1997, see column 4, paragraph 3). This method of cleaning the soil from contamination by oil and oil products has such signs that coincide with the essential features of the proposed technical solution, such as preparation of a dry biological product at the beginning of its original aqueous dispersion, then ready for use dispersion, and its application to the contaminated area. The disadvantage of this method is that it does not provide a high speed of cleaning the soil from contamination with oil and oil products, determined by the decrease in the content of the pollutant in the soil (decrease in the degree of soil contamination) for a certain period of time after processing the contaminated soil with a biological product.

A known method of cleaning soils contaminated with oil and oil products using a biological product by storing or delivering a dispersion of a biological product containing strains of hydrocarbon-oxidizing microorganisms of the genus Rhodococcus and yeast of the species Yarrowia lipolytica in an aqueous-salt medium in the presence of additives of biologically active substances, preparing the biological product for use by dilution dispersion (suspension) of biomass to the required concentration (patent RU 2114071, C02F 3/34, 05.22.1997). This method of soil cleaning has such signs that coincide with the essential features of the proposed technical solution, such as preparation for use of a biological product containing hydrocarbon- oxidizing bacteria of the genus Rhodococcus and yeast of the species Yarrowia lipolytica by diluting the biological product with water to the required concentration of microorganisms and introducing an aqueous dispersion of the biological product into the contaminated area. The disadvantage of this method is that it does not provide a high speed of cleaning the soil from contamination by oil and oil products.

Closest to the claimed is a known method of cleaning soil contaminated with oil and oil products, using a biological product by introducing full mineral fertilizer into the soil (nitroammophoski in an amount of 20-200 g / m ^{2 of} soil), maintaining soil moisture (at a level of 20-40%) , its periodic loosening or plowing (once a week), preparation from a dry biological product containing a water-soluble protective environment (including substances selected from the group consisting of sucrose, thiourea, polyglucin, or any other Referring) and microorganisms - destructors of petroleum hydrocarbons, including bacteria of the genus Rhodococcus, ready to use aqueous dispersion (working solution), its application to the contaminated soil (in an amount of 10 l / m ² of soil), and seeding ground seeds of annual and perennial grasses (patent RU 2378060 C2, IPC B09C 1/10 (200601), prototype).

This method of cleaning the soil from contamination with oil and oil products using a biological product has such signs that coincide with the essential features of the proposed technical solution, such as applying full mineral fertilizer to the soil, maintaining soil moisture, periodically loosening or plowing, preparing from a dry biological product containing a water-soluble protective medium and microorganisms - destructors petroleum hydrocarbons including bacteria of the genus Rhodococcus, ready to use aqueous dispersion and its n bearing on contaminated soil.

The disadvantage of this method is that it does not provide a high speed of cleaning the soil from contamination by oil and oil products. So, for example, when the degree of contamination of the soil (soil) with oil is 2.5% with a single application of a ready-to-use aqueous dispersion (working solution) of a known biological product containing microorganisms in an amount of 1 × 10 ⁷ -1 × 10 ⁸ colony forming units (CFU) / ml, at the rate of 10 l / m ^{2 of} soil (soil) and repeated single loosening of the soil to be cleaned 7 days after the application of the biological product, the contaminant loss in 13 days after treatment with the biological product is 7% of the initial degree of contamination, i.e. soil cleaning rate is 0.54% / day. In addition, the method of cleaning the soil using this drug is quite time-consuming and requires repeated application of the biological product once every two weeks during the first month of cleaning, and then once a month until the end of the work on cleaning the soil (see prototype, page 8 , paragraph 6 below).

The technical problem of the invention lies in the development of a method for cleaning the soil from contamination by oil and oil products using a biological product devoid of these disadvantages.

The technical result of the invention is to increase the speed of cleaning the soil from contamination by oil and oil products.

Previously, experiments were conducted with various biological products and methods of cleaning the soil from contamination with oil and oil products, which showed that the specified technical result is achieved when in the method of cleaning soil contaminated with oil and oil products, using a biological product, including the introduction of a full mineral fertilizers, maintaining soil moisture, its periodic loosening or plowing, preparation from a dry biological product containing a water-soluble protective medium food and microorganisms - oil hydrocarbon destructors, including bacteria of the genus Rhodococcus , ready to use an aqueous dispersion and its application on contaminated soil, use a biological product containing as a bacterium of the genus Rhodococcus a strain of the bacterium Rhodococcus jialingie 1kp , as well as additionally containing the bacterial strain Lysinibacillus 5ylanify and a yeast strain Yarrowia lipolytica 2kp , dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1kp: Lysinibacillus xylanifyticus 5 rb: Yarrowia lipolytica 2kp = (1-2) :( 1-1.5) :( 2-3), protective environment which includes dehydrated yeast autolysate, glucose and mineral nutrient salts and trace elements containing at least nitrogen, phosphorus, potassium, magnesium, manganese, zinc and iron compounds, which are taken in a mass ratio of dehydrated yeast autolysate: glucose: mineral nutrient salts and trace elements = (1 -2) :( 0.5-1) :( 1-2), and the preparation of a ready-to-use aqueous dispersion of a biological product is carried out by dispersing the calculated amount of dry biological product M (g) in g in the calculated volume V ₁ (l) in l 0 , 4-0.6% aqueous solution of a complete mineral fertilizer with obtaining the initial dispersion containing viable microorganisms of the drug in the amount of 2 × 10 ⁹ -4 × 10 ¹¹ CFU / l, blowing air through it for 12-14 hours, followed by the introduction of dispersion of diesel fuel or soil contaminant in the amount of 0, 05-0.20% by weight of the initial dispersion, re-purging through an air dispersion for 12-14 hours and diluting the resulting concentrated dispersion 20-40 times with the calculated volume of water V ₂ (l) in l, while the dispersion ready for use is added in an amount of 10-20 l / m ² of soil humidity Runt maintained at 60-70% and the first plowing or tilling the soil is carried out after application to the soil of the paint dispersion biopreparation and entering of mineral fertilizers, and the numerical values of V ₁ (n), M (r) and V ₂ (n) is calculated by to the formulas V ₁ (l) = P (l / m ² ) × S (m ² ) / N, where P (l / m ² ) is the amount of the biopreparation dispersion ready for use in l applied to 1 m ^{2 of} contaminated soil, S (m ² ) is the total area of soil to be cleaned in m ² and N is the degree of dilution of the concentrated dispersion with water, M (g) = K (CFU / l) × V ₁ (l) / A (CFU / g), where K ( CFU / L) - CFU content in 1 L of the original dispersion, A (CFU / g) is the known content of viable microorganisms of the biological product in CFU in 1 g of dry biological product and V ₂ (L) = (N-1) × V ₁ (L).

The proposed method is new and is not described in the patent and scientific literature. The optimal qualitative and quantitative composition of the biological product used in the proposed method was established experimentally and is also new.

The proposed method can be used to clean crude oil and oil products, for example, such as gasoline, diesel fuel, fuel oil, etc., various types of soil, for example, such as loam, sandy loam, chernozem, peat soil, etc.

The use of a dry form of a biological product in the proposed method in comparison with a liquid form of a biological product can significantly increase the duration of storage of a biological product without reducing its activity and simplifies the delivery of the drug to a place of use, which is not always in an easily accessible area, and eliminates the need for bulky and inconvenient thermal containers for transportation.

The biological product used in the proposed method must necessarily contain microorganisms - oil hydrocarbon destructors, without which it is impossible to carry out environmental biotechnology for cleaning the soil from contamination by oil and oil products. The biological product used contains two bacterial strains and one yeast strain, taken in the optimum experimentally found ratios, in which there is a pronounced synergistic effect on the speed of cleaning soil contaminated with oil and oil products, compared with the use of each strain of microorganisms individually or a biological product made on the basis of only any two microorganism strains described above.

In addition, to preserve the biomass of the used dry biological product in an active state, the biological product, in addition to microorganisms, contains a water-soluble protective environment, the composition of which is original and experimentally selected. The optimal mass ratio of the components in the protective medium has also been established experimentally. It should be noted that the yeast autolysate is a source of vitamins and biologically active substances, and glucose in the first stage serves as the main nutrient for microorganisms. Nutrient mineral salts and trace elements are also necessary for the life and reproduction of microorganisms. Moreover, the mass ratio between nutrient mineral salts and trace elements in the used protective environment, as well as the qualitative and quantitative ratio of trace elements in the biological product are traditional for biology.

As nutrient mineral salts and trace elements in a protective environment, you can use the well-known water-soluble commercially available complex fertilizers with trace elements or a mixture consisting of several fertilizers.

The dehydrated yeast autolysate is commercially available or can be obtained by spray drying a liquid autolysate or freeze drying it.

If the dry biological product does not contain a water-soluble protective environment, then the biological product cannot be used for soil cleaning due to a sharp decrease in the oxidative activity of the biomass of the drug during storage and, as a consequence, the low efficiency of the drug.

If in the used biological product instead of the protective medium declared in the proposed technical solution, another known protective medium is used, for example, the mixture of sucrose, thiourea and polyglucin used in the prototype, then the speed of soil cleaning in the proposed method is significantly lower. Thus, the experimentally selected protective environment is optimal for the drug used.

The biological product used can be obtained by mixing the necessary mass quantities of different types of dried (lyophilized) microorganisms individually grown in inoculators (fermenters) on specially selected nutrient media, followed by the addition of the required amount of a dry protective medium. Used in the proposed preparation of a dry protective medium can also be obtained by mixing dry components taken in the required mass ratios. The content of viable microorganisms in 1 g of dry biological product in CFU / g is established experimentally by methods traditional for microbiology.

The shelf life of the used dry biological product is at least one year. The biological product is compact, it is easy to transport, including over long distances, in the container traditional for the transportation of biological products, kraft bags, polypropylene containers, etc.

The microorganism strains used in the proposed method were deposited in the All-Russian Collection of Microorganisms of the Federal State Unitary Enterprise State Research Institute of Genetics with registration numbers: strain of the bacterium Rhodococcus jialingie 1kp Ac-1957 (2014) , strain of the bacterium Lysinibacillus xylanifyticus 5 rb B yrtia rgb-11685 (2) yr5 rybrytov-2685 lipid Y-4043 (2014) .

Rhodococcus jialingie 1kp is a natural isolate from oil-contaminated peat soils of Western Siberia.

Cultural and morphological characteristics of the strain

Gram-positive cocciform cells, there are rods of size (0.7-0.8) × (0.8-1.3) microns. The culture is motionless. The colonies are creamy, mucous, shiny. The consistency is soft, easily removed from the surface of the agar, easily smeared. Growth is very good - at 25 ° C on glucose-peptone agar forms colonies after 24 hours.

Physiological characteristics of the strain

Aerobic microorganism grows well in the temperature range from 10 ° C to 35 ° C with an optimum of 28 ° C, pH of 6.0-8.0. Actively assimilates oil hydrocarbons. Grows in the presence of 5% NaCl. Catalase test is positive.

Strain storage

The strain is stored on a solid medium of the following composition (g / l): peptone 20.0 g, glucose 10.0 g, sodium chloride 5.0 g, agar-agar 15.0 g, distilled water 1000 ml or on standard glucose peptone medium (mix 50.0 g of M649 powder (HiMedia trademark) in 1000 ml of distilled water). Reseeding is carried out every 3-4 months. The cultivation of the strain is carried out on broth (HiMedia) or glucose-mineral medium.

The bacterial strain Lysinibacillus xylanifyticus 5 rb is a natural isolate from oil-contaminated peatlands of Western Siberia.

Cultural and morphological characteristics of the strain

Gram-positive cocciform cells. The colonies are brilliant with a slight yellowish-yellow hue. The growth is moderately good - after 48 hours at 25 ° C it forms colonies on glucose-peptone agar. Forms intracellular spores.

Physiological characteristics of the strain

Aerobic microorganism (facultative anaerobic), grows well in the temperature range from 15 ° C to 30 ° C with an optimum of 25 ° C, pH of 6.0-7.0. Assimilates oil hydrocarbons. It is able to grow in the presence of up to 5% NaCl.

Strain storage

The strain can be stored in a lyophilized state. The strain viability test is carried out once every 12 months by inoculation on glucose-peptone agar, ready-made media of grades M9 or LB1.

When stored on jambs with these media at 5 ° C - reseeding 1 time in 3 months. The composition of the media for the propagation of the strain (g / l): peptone medium 20.0 g, glucose 10.0 g, sodium chloride 5.0 g, agar-agar 15.0 g, distilled water 1000 ml or standard glucose-peptone medium ( stir 50.0 g of M649 powder (HiMedia) in 1000 ml of distilled water). It can be cultured in broth (HiMedia) or in a glucose-mineral medium.

The yeast strain Yarrowia lipolytica 2kp was isolated from contaminated effluents of an industrial enterprise (Moscow region).

Cultural and morphological characteristics of the strain

They grow well on glucose-peptone agar, colonies form after 24 hours at 25 ° C, the cells are mostly single, oval, less often rounded 5-8 microns. The colonies are white, matte, round, easily removed from the surface of the agar.

Physiological characteristics of the strain

An aerobic microorganism grows well in the temperature range from 5 ° C to 30 ° C with an optimum of 25 ° C, pH of 5.0-7.0. Actively assimilates oil hydrocarbons. Halotolerant, able to grow in the presence of 8% NaCl.

Strain storage

To maintain the strain, the method of periodic reseeding (2-4 times a year) on media of the following composition (g / l) is used: peptone 20.0 g, glucose 10.0 g, sodium chloride 5.0 g, yeast extract 0.5 g agar-agar 15.0 g, distilled water 1000 ml or on standard glucose-peptone medium (mix 50.0 g of M649 powder (HiMedia) in 1000 ml of distilled water).

Individually, the microorganisms used in the proposed method are described in the scientific and technical literature. For example, the bacterium strain Rhodococcus jialingie 1kp VKPM Ac-1957 is known, which can be used to clean the soil from contamination with oil and oil products (Sheina N.I., Scriabin E.G., Myalina L.I., Budanova E.V. ., Sazonova L.P., Kolesnikova V.V., Chub G.G., Toxicological Bulletin, 2015, vol. 130, No. 1, pp. 54-56).

A known bacterial strain Lysinibacillus xylanifyticus 5 rb VKPM B-11685 , which can be used to clean the soil from contamination with oil and oil products (Sheina N.I., Scriabin E.G., Myalina L.I., Budanova E.V., Sazonova L.P., Kolesnikova V.V., Chub G.G., Toxicological Bulletin, 2015, v. 130, No. 1, pp. 57-59).

Known yeast strain Yarrowia lipolytica 2kp VKPM Y-4043 , which can be used to clean the soil from contamination with oil and oil products (Sheina N.I., Scriabin E.G., Myalina L.I., Budanova E.V., Sazonova L. .P., Kolesnikova V.V., Chub G.G., Toxicological Bulletin, 2015, v. 130, No. 1, pp. 60-62).

However, the biological product used for cleaning the soil and containing all of the above microorganisms taken in an experimentally selected mass ratio, as well as a specific water-soluble protective environment, is not described in the scientific and technical literature. Also, a method for cleaning soil contaminated with oil and oil products using such a specific biological product is not described.

Used biological product when dry when applied to contaminated soil loses its working capacity. Therefore, before use, a dry biological product is subject to mandatory activation with the preparation of an aqueous dispersion ready for use, for the preparation of which it is necessary to use several calculated parameters. We give an example of their calculation.

Suppose that with the use of a dry biological product with a known A value (CFU / g) of a preparation (for example, 2.5 × 10 ¹¹ CFU / g), it is necessary to clean the soil S (m ² ) (for example, 100 m ² ) from application to a contaminated soil ready for use dispersion of a biological product in the amount of P (l / m ² ) soil (for example, 10 l / m ² soil) and diluting a concentrated dispersion of a biological product having a volume of V ₁ (l) with water N times (for example, 20 times ) by introducing a concentrated dispersion of additional water volume V ₂ (l) to obtain a ready to use dispersion b opreparata. Then the total volume of the ready-to-use dispersion of the biological product V (l) will be

V (l) = P (l / m ² ) × S (m ² ),

(e.g. V (l) = 10 l / m ² × 100 m ² = 1000 l) and

V ₁ (n) = V (l) / N = P (L / m ²⁾ × S (m ²⁾ / N,

(e.g. 1000 l / 20 = 50 l). In this case, to prepare a ready-to-use dispersion of a biological product, V ₂ (l) of water, (for example, 950 l), must be added to the concentrated dispersion.

In the proposed method of cleaning the soil, the values of V ₁ (l) and V ₂ (l) can vary depending on the value of N equal to 20-40, but always

V (l) = V ₁ (l) + V ₂ (l),

From the equations it follows that

V (l) = N × V ₁ (n)

(e.g., V (l) = 20 × V ₁ (l)) and

V ₂ (l) = V (l) - V ₁ (l) = (N-1) × V ₁ (l) = (N-1) × V (l) / N,

(for example, V ₂ (l) = 20 × V ₁ (l) - V ₁ (l) = 19 V ₁ (l) = (19/20) × 1000 l = 950 l).

In the proposed method, the preparation of a ready-to-use aqueous dispersion of a biological product having a volume of V (l) is carried out by dispersing the calculated amount of dry biological product M (g) in a calculated volume of V ₁ (l) of a 0.4-0.6% aqueous solution of complete mineral fertilizer (for example, 0.5%) to obtain the initial dispersion containing the microorganisms of the drug in an amount equal to K (CFU / l) (for example, 2 × 10 ⁹ CFU / l), followed by a two-stage purge through the resulting dispersion of air and diluting the resulting concentrated d perspiration N times by introducing V ₂ (l) of water. It follows that

M (g) × A (CFU / g) = K (CFU / l) × V ₁ (l)

and M (g) = K (CFU / l) × V ₁ (l) / A (CFU / g),

(e.g. M (g) = 2 × 10 ⁹ CFU / l × 50 l / (2.5 × 10 ¹¹ CFU / g) = 0.4 (g)

Moreover, to prepare the required volume V ₁ (l) of fertilizer solution, it is necessary to dissolve the calculated amount of M ₁ (kg) of fertilizer equal to the product of the mass of water in kg having a volume of V ₁ (l) by the concentration of fertilizer in the solution, i.e. dissolve V ₁ (kg) × (0.004-0.006) fertilizer in V ₁ (l) of water (for example, dissolve 50 kg × 0.005 = 0.25 kg of fertilizer in 50 l of water).

The preparation of the initial dispersion of the biological product is as follows. In a container with a calculated volume of water V ₁ (l) with a temperature of 20-25 ° C add the calculated amount of M ₁ (kg) complex (complete) water-soluble mineral fertilizer, the resulting mixture is stirred until the fertilizer is completely dissolved to obtain 0.4-0.6 % fertilizer solution. In case of presence of conglomerate formations in the fertilizers (packed lumps that arose during the transportation of fertilizers), before filling the fertilizers into water, they are crushed to obtain a homogeneous mass. Next, the calculated amount M (g) of dry biological product with a known value of A (CFU / g) is added to the indicated capacity. In the case of the presence of packed lumps in the preparation that arose during its transportation, they are also crushed before filling the preparation into a container until a homogeneous mass is obtained. After applying the biological product, the contents of the container are mixed until an externally homogeneous initial dispersion of the biological product containing microorganisms is obtained in the experimentally established optimal amount of 2 × 10 ⁹ -4 × 10 ¹¹ CFU / l. Air is blown through the resulting dispersion with a compressor for 12-14 hours, followed by the introduction of the calculated amount of diesel fuel or soil contaminant in the amount of 0.05-0.20% by weight of the dispersion and re-blowing through the resulting dispersion, which is a colloidal system, containing both dispersed microorganisms and drops of injected liquid hydrocarbon, air for 12-14 hours

After activating the initial dispersion with a double air purge, the obtained concentrated aqueous dispersion of the biological product must be stored at a temperature of +5 to + 25 ± 5 ° C and used within a day after preparation.

Before use, the concentrated dispersion is diluted N times with the calculated volume V ₂ (l) of water, resulting in the desired volume V (l) of the ready-to-use dispersion of the biological product, which when applied over the entire area of the contaminated soil in an amount of 10-20 l / m ² taking into account the increase in the number of microorganisms of the biological product in the process of drug activation, it introduces by an order of magnitude the introduction (introduction) into the contaminated soil of the above viable microorganisms of the biological product in the amount of 1 × 10 ¹⁰ -1 × 10 ¹³ CFU / m ^{2 of} soil.

The need to disperse the dry biological product used not in water, but in an aqueous solution of complete fertilizer, is due to the fact that such a mineral fertilizer is needed to ensure optimal living conditions and propagation of the microbial cultures of the biological product, since the water-soluble protective environment of the dry biological product alone, even with its high content in dry biological product is not able to provide such conditions. As such fertilizer, you can use any water-soluble complete mineral fertilizer containing at least nitrogen, phosphorus and potassium compounds, for example, nitroammophoska, fertilizers with the trademarks KEMIRA PLUS, Ripen Up, Novofert Universal, etc. .d.

In the proposed method, the need for a two-stage purge of air through the dispersion of the biological product used is due to the fact that at the first stage, the cultures used in the biological product are “awakened” from the “sleep” in which they are in the dry preparation. The second air purge in the presence of diesel fuel or soil contaminant sets up the “awakened” microorganisms for biodegradation of hydrocarbons as elements of their nutrition. In this case, the optimal concentration of an aqueous solution of complete mineral fertilizer (0.4-0.6 mass%), the number of viable microorganisms of the biological product in the initial dispersion prior to its activation, equal to 2 × 10 ⁹ -4 × 10 ¹¹ CFU / l, the duration of the first and second air purging through the dispersion for 12-14 hours, the optimal amounts of diesel fuel or soil contaminant introduced into the dispersion (0.05-0.20% by weight of the dispersion) and the dilution degree of the concentrated dispersion with water N, equal to 20-40 times, were experimentally determined.

If during the preparation of a ready-to-use dispersion of a biological product, air purges are not carried out at all, or limited to only one first or only one second 12-14 hour air purge or even increase their duration, for example, up to 24 hours, but after that before the second air purge introduce diesel fuel or soil contaminant into the system, or introduce diesel fuel or soil contaminant immediately into the initial dispersion of the preparation before the first air purging through it, then the activity is ready for use The dispersion of the biological product obtained under such conditions will inevitably decrease, and the rate of soil purification will also decrease.

In the proposed method for cleaning from contaminants, not a dry initial biological product is introduced into the soil, but its aqueous dispersion ready for use. In this case, the number of microorganisms introduced (introduced) into the soil is determined by the product of the amount of the biopreparation dispersion ready to use in l, applied per 1 m ^{2 of} contaminated soil, and the content of viable (native) microorganisms in it. By varying the numerical values of the parameters M (g), V ₁ (l) and V ₂ (l), one can get the same dispersion of the preparation from different initial dry biological preparations, the known CFU / g of which can vary widely. Therefore, the mass ratio between the biomass of microorganisms and the protective environment in the biological product used can also vary widely and be, for example, 1: (1-1000), which allows the use of a series of dry biological products with different initial CFU / g of the drug (see examples) .

The proposed method involves the introduction into the contaminated soil of a complete mineral fertilizer necessary to create favorable conditions for the life and reproduction of microorganisms used in the biological product. The amount of fertilizer applied in g / m ^{2 of} soil depends on the type of soil, type of pollutant and, most importantly, on the depth of penetration of the pollutant into the soil. This is due to the fact that to achieve a technical result, it is necessary to ensure the optimal concentration of fertilizer in the entire volume of contaminated soil. It was experimentally found that with a relatively small depth of penetration of the pollutant into the soil (about 2-4 cm), a high speed of soil cleaning is achieved when fertilizer is applied in an amount of 20 g / m ^{2 of} soil. With a high contaminant content in the soil (for example, above 15%), accompanied, as a rule, by a greater depth of penetration of the pollutant into the soil (for example, 15 cm and deeper), the amount of fertilizer applied can be increased, for example, to 80 g / m ² soil. Making more fertilizer at a time is not practical.

Mineral fertilizer can be applied to the contaminated area in the form of its aqueous solution, for example, by dissolving it in a ready-to-use suspension of the drug. Dry fertilizer is also possible. If before applying the biological product mineral fertilizer in contaminated soil is not applied at all, then the technical result of the invention is not achieved.

In the proposed method, a ready-to-use dispersion of a biological product must be applied in an amount of 10-20 l / m ^{2 of} soil. With a consumption of the working dispersion of a biological product of less than 10 l / m ^{2 of} soil it cannot be evenly distributed over the surface of the soil, which will inevitably lead to the fact that the speed of soil cleaning at different points will be different. The introduction into the soil of more than 20 l / m ^{2 is} impractical from a technical point of view, since it requires the preparation of a large volume of the finished suspension.

Before applying the biological product, it is also advisable to determine the degree of contamination of the soil to be cleaned with oil and oil products using traditional methods described in the scientific and technical literature, such as gravimetry, infrared spectroscopy, gas chromatography, etc. to determine the correct cleaning strategy. Soil samples for analysis are initially and during the cleaning process taken at different depths according to a five-point scheme using a standard sampler.

The biological product used is applied to the contaminated soil surface in the form of a working dispersion once, i.e. repeated or subsequent treatment of the soil with a biological product is not required, which greatly simplifies the known method of cleaning the soil from contamination with oil and oil products, selected as a prototype.

It was experimentally established that when implementing the proposed cleaning method, in contrast to the prototype, it is necessary to maintain soil moisture at 60-70% of its total moisture capacity, which creates the most favorable conditions for the life and reproduction of introduced microorganisms of a biological product and increases the speed of soil cleaning. At other soil moisture values, the rate of soil cleaning from hydrocarbon contamination decreases.

If necessary, this is achieved by periodically watering or sprinkling the area to be cleaned. In rainy weather, additional soil moisture is not produced. It should be noted that at an initial soil moisture content of less than 60%, the soil is moistened before, at the same time, or after the used biological product and mineral fertilizer are introduced into the soil, but before the first loosening or plowing of the soil. This makes it possible to ensure uniform humidity over the entire volume of the soil being cleaned, and, as a result, to obtain more reliable data on the speed of soil cleaning throughout the contaminated area. In this case, the determination of soil moisture is carried out depending on weather conditions 2-3 times a week and is carried out by the traditional methods described in the scientific and technical literature.

If in the proposed method the soil moisture is maintained at a level below 60% or above 70%, then the speed of soil cleaning is reduced.

In the implementation of the proposed method, the contaminated soil is periodically loosened or plowed to a depth, as a rule, not exceeding the depth of penetration of the pollutant into the soil, since it is impractical to smell the pollutant into the unpolluted soil layers. Moreover, in contrast to the prototype, the first loosening or plowing of the soil is carried out not before, but after the introduction of mineral fertilizer and the working dispersion of the biological product into the soil. This allows you to more evenly distribute the introduced biological product and mineral fertilizer throughout the entire volume of contaminated soil and positively affects the speed of soil cleaning. Loosening or plowing of the soil can be carried out using known means and mechanisms used for this purpose, for example, using a cultivator or tractor. Non-mechanized means, for example, a shovel or a hoe, can also be used to disinfect small areas.

In the proposed method, in contrast to the prototype, repeated loosening and plowing of the soil can be carried out not only once a week, but more often, for example, 2-3 times a week. They are necessary to increase the volume of soil in order to aerate it and improve its structure, which favorably affects the speed of soil cleaning. Moreover, the choice between plowing and loosening the soil depends on the type of soil, the size of the contaminated area and the presence of difficult to overcome obstacles in the area being cleaned, for example, trees, tree stumps, stones, etc. If during the implementation of the proposed method the first or repeated loosening or plowing of the soil is not carried out, this will inevitably reduce the speed of soil cleaning.

Cleaning the soil contaminated with oil and oil products using the proposed method may include the next step. It is advisable to remove the contaminant that has not absorbed into the soil by mechanical means, rather than scouring it into the soil before the first treatment with a biological product. Mechanical removal of hydrocarbons from a contaminated area is necessary in the event of a strong spill when there are sections of soil with an unabsorbed contaminant. It should be noted that in crude oil or in pure petroleum products in the absence of soil, the biological product does not work, but it effectively cleans the soil contaminated by them.

If the contaminant that has not absorbed into the soil is not removed, then the speed of cleaning the soil from contamination by oil and oil products using the proposed method will also be high, but the total duration of cleaning the soil and the consumption of biological product will increase, which is impractical.

In addition, it is possible to increase the speed of soil cleaning by evenly distributing semi-rotted horse manure and / or cattle manure in the amount of 1-5 kg / m ^{2 of} soil and / or an organic soil conditioner selected from the group including before the first loosening or plowing of soil on its surface sawdust, wood shavings, fallen leaves, mowed grass, peat or any combination thereof, introduced in an amount of 0.01-0.03 m ³ per 1 m ^{2 of} soil.

The introduction of organic fertilizer into the soil, as well as the introduction of an organic soil structurer increases the activity of the microbial population and activates the biodegradation of oil products, which further increases the speed of soil cleaning.

Cleaning the soil using the proposed method is carried out in the summer-autumn period, while the optimal temperature for disinfecting the soil is 20-25 ° C. Cleaning is carried out until the contaminant content in the soil is below its maximum permissible concentration. At the final stage of soil cleaning, its phytoremediation is possible by sowing the soil with seeds of annual and perennial grasses. The duration of complete soil cleaning depends on the type of soil, the type of pollutant, its content in the soil, the depth of its penetration into the soil and weather conditions.

The advantages of the proposed method are illustrated by the following examples.

Example 1

Using the proposed method, it is necessary to clean part of the territory of a railway depot with an area of 1 ha, sandy loam soil of which is contaminated with a mixture of crude oil and diesel fuel with a contaminant content of 5% in the surface soil layer. In this case, the soil moisture is 50% and the penetration depth of the pollutant into the soil reaches 6 cm. A dispersion of the biological product in the amount of 10 l / m ^{2 of} soil that is ready for use must be added to the contaminated soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanifyticus 5 rb: Yarrowia lipolytica 2kp = 1: 1.5: 3, the components of the water-soluble protective medium of the biological product are taken in a weighted ratio of dehydrated dehydrated : nutritious mineral salts and trace elements = 1: 1: 2, moreover, the biomass of the microorganisms of the preparation and the protective medium are taken in a mass ratio of 1: 1 and the content of viable microorganisms in the biological product is 1.2 × 10 ¹¹ CFU / g of the preparation.

The preparation used in the example is prepared as follows. Freeze-dried cultures of microorganisms are mixed in a container: 0.10 kg of Rhodococcus jialingie 1kp , with 0.15 kg of Lysinibacillus xylanifyticus 5 rb and 0.30 kg of Yarrowia lipolytica 2kp and the resulting mixture is stirred until an externally homogeneous mass is obtained. Get 0.55 kg of microbial mass.

In another container, 25.00 kg of complex water-soluble mineral fertilizer are mixed with KEMIRA PLUS microelements with 0.75 kg of water-soluble magnesium sulfate. Get 25.75 kg of a water-soluble inorganic preparation, nutritious mineral salts and trace elements which contain in total mass total nitrogen 16%, phosphorus in terms of P ₂ O ₅ 17%, potassium in terms of K ₂ O 30%, magnesium 0.6 %, manganese 0.1%, zinc 0.01% and iron 0.11%. In the third container, 7.5 kg of dehydrated yeast autolysate, 7.5 kg of glucose and 15.0 kg of the obtained inorganic preparation containing nutritious mineral salts and trace elements are mixed, and the resulting mixture is mixed until an externally homogeneous mass is obtained. Obtain 30.0 kg of a water-soluble protective environment.

To obtain a dry preparation in the fourth container, 0.55 kg of the obtained microbial mixture is mixed with 0.55 kg of the obtained protective medium. 1.10 kg of the biological product used is obtained.

Before preparing the dispersion, the amount of dry biological product introduced and the required volume of an aqueous solution of a complete mineral fertilizer are calculated, as well as the amount of fertilizer to obtain such a solution and the volume of water required to dilute the concentrated dispersion after drug activation by 20 times.

After that, 830 g of the obtained dry biological product is dispersed in a container in 5000 l of a 0.5% aqueous solution of nitroammofoski, the contents of the container are mixed until an outwardly homogeneous initial dispersion of the biological product is obtained, the microorganism content of which is 2 × 10 ¹⁰ CFU / l. Air is blown through the resulting dispersion for 12 hours, after which 5 kg of crude oil (0.1% by weight of the dispersion) is introduced therein, dispersed and air is recycled through the resulting dispersion for 12 hours. Then, the system is diluted with 95,000 liters of water. After mixing, 1 × 10 ⁵ L of a ready-to-use dispersion of the preparation is obtained.

A total of 30 g / m ^{2 of} soil mineral fertilizer is uniformly distributed over the entire area of the contaminated area, then the preparation dispersion is applied, the soil is ready for use, the soil is moistened by irrigation to a moisture content of 65% and loosened with a cultivator to a depth of 6 cm. After this, repeated loosening the soil once a week and maintain soil moisture at 65% throughout the entire cleaning process.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 2

Using the proposed method, it is necessary to clear 200 m ^{2 of} sandy loam dirt road in the countryside after an accident on it of freight vehicles transporting diesel fuel. The content of diesel fuel in the soil is 4%, the depth of penetration of the pollutant into the soil reaches 4 cm, the soil moisture is 40%. In the contaminated soil be made ready-to-use dispersion biological product in an amount of 15 l / m ² of soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanifyticus 5 rb: Yarrowia lipolytica 2kp = 1: 1: 3, the components of the water-soluble protective environment of the biological product are taken in the following ratio: glucose-dehydrated: mineral salts and microelements = 1: 1: 2, moreover, the biomass of the microorganisms of the preparation and the protective medium are taken in a mass ratio of 1:10 and the content of viable microorganisms in the preparation is 2 × 10 ¹⁰ CFU / g of the preparation.

The biological product used in the example is prepared as follows. Freeze-dried cultures of microorganisms are mixed in a container: 1 g of Rhodococcus jialingie 1kp , with 1 g of Lysinibacillus xylanifyticus 5 rb and 3 g of Yarrowia lipolytica 2kp and the resulting mixture is stirred until an externally homogeneous mass is obtained. Get 5 g of the microbial mixture.

In another container, 14.29 g of dehydrated yeast autolysate, 7.14 g of glucose and 28.57 g of an inorganic preparation based on KEMIRA PLUS and magnesium sulfate used in Example 1 are mixed. The resulting mixture is also mixed until an externally homogeneous mass is obtained. Obtain 50 g of a water-soluble protective environment.

To obtain a dry biological product in a third container, 5 g of the obtained microbial mixture are mixed with 50 g of the obtained protective medium. Obtain 55 g of the used biological product.

Before preparing the dispersion, a calculation is made of the amount of dry biological product introduced and the required volume of an aqueous solution of complete mineral fertilizer, as well as the amount of fertilizer to obtain such a solution and the volume of water required to dilute the concentrated dispersion after drug activation by 30 times.

After that, 50 g of the obtained dry biological product is dispersed in a container of 100% 0.4% aqueous KEMIRA PLUS solution in the container, the contents of the container are mixed until an outwardly homogeneous initial dispersion containing the microorganisms of the drug in the amount of 1 × 10 ¹⁰ CFU / l is obtained. Air is blown through the resulting dispersion for 13 hours, after which 50 g of diesel fuel is introduced there (0.05% by weight of the dispersion), it is dispersed and air is repeated through the resulting dispersion for 12 hours. Then, the calculated volume of water equal to 2900 l. After mixing, 3,000 L of a biopreparation dispersion ready for use is obtained.

To combine the introduction of a complete mineral fertilizer into the soil with the application of a finished dispersion of a biological product, 6 kg of readily soluble KEMIRA PLUS fertilizer is added to the finished dispersion, which is equivalent to the direct introduction of this fertilizer into the soil in an amount of 30 g / m ^{2 of} soil.

A ready-to-use dispersion of a biological product is applied uniformly to the entire area of the contaminated area, containing additional mineral fertilizer added to it, after which the soil is moistened by watering to a moisture content of 70% and loosened to a depth of 4 cm by harrowing, then repeated loosening of the soil is carried out once every 6 days and maintain soil moisture at 70% during the entire process of soil cleaning.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 3

Using the proposed method, it is necessary to clear 500 m ^{2 of the} forest road and the adjacent territory after an accident in vehicles transporting gasoline. The contaminant content in the podzolic soil is 4%, the penetration depth of gasoline into the soil reaches 5 cm and the soil moisture is 70%. Ready-to-use dispersion of a biological product in the amount of 12 l / m ^{2 of} soil must be applied to contaminated soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanifyticus 5 rb: Yarrowia lipolytica 2kp = 2: 1: 3, the components of the water-soluble protective environment of the biological product are taken in the following ratio: glucose-dehydrated: mineral salts and microelements = 2: 0.5: 2, moreover, the biomass of the microorganisms of the drug and the protective medium are taken in a mass ratio of 1: 100 and the content of viable microorganisms in the biological product is 3 × 10 ⁹ CFU / g of the drug.

The biological product used in the example is prepared as follows. Freeze-dried cultures of microorganisms are mixed in a container: 0.334 kg of Rhodococcus jialingie 1kp , with 0.167 kg of Lysinibacillus xylanifyticus 5 rb and with 0.501 kg of Yarrowia lipolytica 4043 and the resulting mixture is stirred until an externally homogeneous mass is obtained. 1.002 kg of the microbial mixture is obtained.

In another container, 3.00 kg of dehydrated yeast autolysate, 0.75 kg of glucose and 3.00 kg of water-soluble complex mineral fertilizer are mixed with Sozrevayka brand microelements, nutritious mineral salts and microelements in which total nitrogen contains 17% in mass phosphorus in terms of P ₂ O ₅ 17%, potassium in terms of K ₂ O 17%, magnesium 1.00%, manganese 0.01%, zinc 0.01% and iron 0.02%. The resulting mixture is also stirred until an externally uniform mass is obtained. Get 6.75 kg of a water-soluble protective environment.

To obtain the used dry biological product in the third container, 67.5 g of the obtained microbial mixture are mixed with 6.75 kg of the obtained protective medium. Get 6.82 kg of the used biological product.

Before preparing the dispersion, a calculation is made of the amount of dry biological product introduced and the required volume of an aqueous solution of complete mineral fertilizer, as well as the amount of fertilizer to obtain such a solution and the volume of water required to dilute the concentrated dispersion after drug activation by 30 times.

After that, 6.67 kg of the obtained dry biological product is dispersed in 200 l of a 0.4% aqueous solution of KEMIRA PLUS mineral fertilizer, the contents of the container are mixed until an outwardly homogeneous initial dispersion of the biological product is obtained, the content of viable microorganisms in which is 1 × 10 ¹¹ CFU / l Air is blown through the resulting dispersion for 12 hours, after which 300 g of gasoline is introduced there (0.15% of the weight of the dispersion), it is dispersed and air is re-blown through the resulting dispersion for 14 hours. Then, a calculated volume of water equal to 5800 l. After mixing, 6,000 L of a biopreparation dispersion ready for use is obtained.

A total of 25 g / m ^{2 of} soil mineral fertilizer is uniformly distributed over the entire area of the contaminated area, then the preparation dispersion is applied and the soil is loosened to a depth of 5 cm. Repeated soil loosening is carried out once every 5 days and the soil is moistened by irrigation at the level of 70% during the entire cleaning process.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 4

Using the proposed method, it is necessary to clear 400 m ^{2 of the} forest road and the territory adjacent to it after the accident of vehicles transporting fuel oil. The contaminant content in the podzolic soil is 5%, the penetration depth of fuel oil into the soil reaches 4 cm and the soil moisture is 65%. Ready-to-use dispersion of the biological product in the amount of 20 l / m of soil must be applied to the contaminated soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanifyticus 5 rb: Yarrowia lipolytica 2kp = 2: 1: 2, the components of the water-soluble protective medium of the biological product are taken in the following ratio: glucose-dehydrated: mineral salts and microelements = 2: 0.5: 1, moreover, the biomass of the microorganisms of the preparation and the protective medium are taken in a mass ratio of 1: 1000 and the content of viable microorganisms in the preparation is 3 × 10 ⁸ CFU / g of the preparation.

Used biological product is obtained as follows. Freeze-dried cultures of microorganisms are mixed in a container: 16 g of Rhodococcus jialingie 1kp , with 8 g of Lysinibacillus xylanifyticus 5 rb and with 16 g of Yarrowia lipolytica 2kp and the resulting mixture is stirred until an externally homogeneous mass is obtained. 40 g of a microbial mixture are obtained.

In another container, 22.86 kg of dehydrated yeast autolysate, 5.71 kg of glucose and 11.43 kg of water-soluble mineral fertilizer Aquarin are mixed, nutrient mineral salts and trace elements in which total nitrogen contains 14% in mass, phosphorus in terms of P ₂ O ₅ 10%, potassium in terms of K ₂ O 28% o, magnesium 1.5%, manganese 0.042%, zinc 0.014% and iron 0.054%. The resulting mixture is also stirred until an externally uniform mass is obtained. Get 40 kg of a protective environment.

To obtain a dry biological product in a third container, 40 g of the obtained microbial mixture are mixed with 40 kg of the obtained protective medium. Get 40.04 kg of the used biological product.

Before preparing the dispersion, the amount of dry biological product introduced and the required volume of an aqueous solution of a complete mineral fertilizer are calculated, as well as the amount of fertilizer to obtain such a solution and the volume of water required to dilute the concentrated dispersion after activation of the drug by 40 times.

After that, 40 kg of the obtained dry biological product is dispersed in a container in 200 l of a 0.6% aqueous fertilizer solution, the contents of the container are mixed until an externally uniform initial dispersion of the biological product containing the microorganisms of the preparation is obtained in an amount of 6 × 10 ¹⁰ CFU / l. Air is blown through the resulting dispersion for 14 hours, after which 400 g of fuel oil (0.20% by weight of the dispersion) is introduced therein, dispersed and the air is recycled through the resulting dispersion for 14 hours. Then, the calculated volume of water equal to 7800 is introduced there. l After mixing, 8,000 L of a biopreparation dispersion ready for use is obtained.

Nitroammophosco fertilizer is uniformly distributed over the entire area of contaminated soil in the amount of 25 g / m ^{2 of} soil, then a biopreparation dispersion ready for use is applied and the soil is loosened to a depth of 4 cm. After this, repeated loosening of the soil to the same depth once every 6 days is carried out and supported soil moisture at 65% throughout the entire soil cleaning process.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 5

Field tests of the drug are carried out at the experimental site of an oil refinery located in the Omsk region. During the tests, it was necessary to clean 100 m of sandy loam soil with a moisture content of 60% and containing crude oil in a surface layer of 3 cm thick in an amount of 2.5 mass% by adding a ready-to-use dispersion of a biological product in an amount of 10 l / m ^{2 of} soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanilyticus 5 rb: Yarrowia lipolytica 2kp = 1: 1.5: 2, the components of the water-soluble protective medium of the biological product are taken in a mass ratio of dehydrated dehydrated : nutritious mineral salts and microelements = 1: 1: 1, moreover, the biomass of the microorganisms of the drug and the protective medium are taken in a mass ratio of 1: 1 and the content of viable microorganisms in the biological product is 2.5 × 10 ¹¹ CFU / g of the drug.

This drug is prepared as follows. Freeze-dried cultures of microorganisms are mixed in a container: 10 g of Rhodococcus jialingie 1kp , with 15 g of Lysinibacillus xylanilyticus 5 rb and with 20 g of Yarrowia lipolytica 2kp and the resulting mixture is stirred until an externally homogeneous mass is obtained. Get 45 g of microbial mass. In another container, 0.15 kg of dehydrated yeast autolysate is mixed with 0.15 kg of glucose and with 0.15 kg of the inorganic preparation used in example 1. The resulting mixture is also mixed until an externally homogeneous mass, which is a protective medium, and has a mass of 0, 45 kg

To obtain a dry biological product in a third container, 45 g of the obtained microbial mixture are mixed with 45 g of the obtained protective medium. Get 90 g of the used biological product.

Before preparing the dispersion, the amount of dry biological product introduced and the required volume of an aqueous solution of a complete mineral fertilizer are calculated, as well as the amount of fertilizer to obtain such a solution and the amount of water required to dilute the concentrated dispersion after drug activation by 20 times.

0.4 g of the obtained preparation is dispersed in a container in 50 l of a 0.5% aqueous solution of Aqvarin, the contents of the container are mixed until an outwardly homogeneous initial dispersion of the preparation containing microorganisms of the preparation is obtained in an amount of 2 × 10 ⁹ CFU / l. Air is blown through the resulting dispersion for 12 hours, after which 50 g of crude oil (0.1% of the mass of the dispersion) is introduced therein, dispersed and dispersed again through the resulting dispersion for 12 hours. Then, the calculated volume of water equal to 950 L, and after mixing, 1000 L of a ready-to-use dispersion of the preparation is obtained.

Over the entire area of the contaminated soil, the total mineral fertilizer nitroammofosku is uniformly distributed in the amount of 20 g / m ^{2 of} soil, then the dispersion of the biological product in the amount of 10 l / m ^{2 of} soil is evenly applied, the soil is loosened to the depth of penetration of the pollutant into the soil (3 cm), then repeated loosening the soil twice a week and by irrigation maintain the soil moisture at 60% throughout the entire process of soil cleaning.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 6

Using the proposed method, it is necessary to clear 2000 m ² temporary underground parking in rural areas. The content of the pollutant - a mixture of gasoline and diesel fuel in loamy soil is 6%, the depth of penetration of the pollutant into the soil reaches 5 cm and the soil moisture is 50%. Ready-to-use dispersion of a biological product in the amount of 15 l / m ^{2 of} soil must be added to the contaminated soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanilyticus 5 rb: Yarrowia lipolytica 2kp = 2: 1.5: 2, the components of the water-soluble protective medium of the biological product are taken in a mass ratio of dehydrated dehydrated : nutritious mineral salts and microelements = 2: 1: 1, moreover, the biomass of the microorganisms of the drug and the protective medium are taken in a mass ratio of 1:10 and the content of viable microorganisms in the biological product is 2.4 × 10 ¹⁰ CFU / g of the drug.

Used biological product is obtained as follows. Freeze-dried cultures of microorganisms are mixed in a container: 20 g of Rhodococcus jialingie 1kp , with 15 g of Lysinibacillus xylanilyticus 5 rb and with 20 g of Yarrowia lipolytica 2kp and the resulting mixture is stirred until an externally homogeneous mass is obtained. Obtain 55 g of the microbial mixture.

In another container, 250 g of dehydrated yeast autolysate, 125 g of glucose and 125 g of the inorganic preparation used in Example 1 are mixed. The resulting mixture is also stirred until an externally homogeneous mass is obtained. 500 g of a protective medium are obtained.

To obtain a dry biological product in a third container, 50 g of the obtained microbial mixture are mixed with 500 g of the obtained protective medium. Get 550 g of the used biological product.

Before preparing the dispersion, the amount of dry biological product introduced and the required volume of an aqueous solution of a complete mineral fertilizer are calculated, as well as the amount of fertilizer to obtain such a solution and the amount of water required to dilute the concentrated dispersion after drug activation by 30 times.

Then, in the container, 457 g of the obtained dry biological product is dispersed in 1000 l of a 0.5% aqueous KEMIRA PLUS fertilizer solution, the contents of the container are mixed until an outwardly homogeneous initial dispersion of the biological product is obtained, the content of viable microorganisms in which is 1.1 × 10 ¹⁰ CFU / l . Air is blown through the dispersion obtained using a compressor for 12 hours, after which 1.0 kg of diesel fuel is introduced there (0.1% of the dispersion mass), it is dispersed and air is blown through the dispersion again for 12 hours. the system is injected with a calculated volume of water equal to 29,000 liters. After mixing, 30,000 L of a ready-to-use dispersion of the preparation is obtained.

Over the area of contaminated soil uniformly distributed complete fertilizer Akvarin in an amount of 30 g / m ² of soil, and then applied to the ready-to-use biological product dispersion, soil moistened by watering to 65% humidity, then loosened by using a cultivator to a depth of 5 cm. This is followed by repeated loosening of the soil once a week and maintain soil moisture by irrigation at 65% throughout the entire cleaning process.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 7

Using the proposed method, it is necessary to clean 10 ⁴ m ^{2 of the} territory adjacent to the mothballed oil well. The oil content in the loamy soil is 16%, the depth of penetration of the pollutant into the soil reaches 12 cm and the soil moisture is 60%. Ready-to-use dispersion of a biological product in the amount of 10 l / m ^{2 of} soil is necessary for contaminated soil.

To clean the soil, a biological product is used, the dried microorganisms in which are taken in a mass ratio of Rhodococcus jialingie 1 kp: Lysinibacillus xylanilyticus 5 rb: Yarrowia lipolytica 2kp = 1.5: 0.8: 1.7, the components of the water-soluble protective medium of the biological product are taken in a mass ratio of dehydrated yeast autolysate: glucose: nutritious mineral salts and microelements = 1.50: 0.75: 1.50, the biomass of the microorganisms of the drug and the protective medium are taken in a mass ratio of 1:10 and the content of viable microorganisms in the biological product is 2.7 × 10 ¹⁰ CFU / g of the drug.

In the experiment using a biological product obtained as follows. Freeze-dried cultures of microorganisms are mixed in a container: 1.95 kg of Rhodococcus jialingie 1kp , with 1.04 kg of Lysinibacillus xylanilyticus 5 rb and 2.21 kg of Yarrowia lipolytica 2kp and the resulting mixture is mixed until an externally homogeneous mass is obtained. 5.20 kg of microbial mixture is obtained.

In another container, 20.8 kg of dehydrated yeast autolysate, 10.4 kg of glucose and 20.8 kg of the inorganic preparation used in Example 1 are mixed. The resulting mixture is also mixed until an externally homogeneous mass is obtained. Obtain 52.0 kg of a protective environment.

To obtain a dry biological product in a third container, 3.4 kg of the obtained microbial mixture are mixed with 34.0 kg of a protective medium. Get 37.4 kg of the used biological product.

Before preparing the dispersion, a calculation is made of the amount of dry biological product introduced and the required volume of an aqueous solution of complete mineral fertilizer, as well as the amount of fertilizer to obtain such a solution and the volume of water necessary to dilute the concentrated dispersion 40 times after drug activation.

After that, 37 kg of the obtained dry biological product is dispersed in the container in 2500 l of a 0.5% aqueous solution of nitroammofoski, the contents of the container are mixed until an outwardly homogeneous initial dispersion of the biological product containing the microorganisms of the preparation in the amount of 4 × 10 ¹¹ CFU / l is obtained. Air is blown through the resulting dispersion for 12 hours, after which 2.5 kg of crude oil (0.1% by weight of the dispersion) is introduced therein, dispersed and air is recycled through the resulting dispersion for 12 hours. After that, the system is diluted with the calculated volume water equal to 9.75 × 10 ⁴ liters. After mixing, 1 × 10 ⁵ L of a ready-to-use dispersion of a biological product is obtained.

A total of 80 g / m ^{2 of} soil mineral fertilizer is uniformly distributed over the entire area of the contaminated soil, then a ready-to-use dispersion of the biological product is applied and the soil is plowed to a depth of 12 cm. After this, repeated soil re-cultivation is carried out once a week and the soil is moistened by watering at 60% during the entire cleaning process.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 8 (control, using a biological product based only on a strain of Rhodococcus jialingie 1kp and a protective environment)

The experiment is carried out analogously to example 5, however, instead of the described biological product, a biological product is used based only on the strain Rhodococcus jialingie 1kp and the protective medium described in example 5, taken in mass ratios of 1: 1 with a content of viable microorganisms of 3.5 × 10 ¹⁰ CFU / g of the drug.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 9 (control, using a biological product based only on a strain of Lysinibacillus xylanilyticus 5 rb and a protective environment)

The experiment is carried out analogously to example 5, however, instead of the described biological product, a biological product is used based only on the Lysinibacillus xylanilyticus 5 rb strain and the protective medium described in example 5, taken in mass ratios of 1: 1 with the content of viable microorganisms 5 × 10 ¹⁰ CFU / g of the drug.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 10 (control, using a biological product based on only Yarrowia lipolytica 2kp strain and protective medium)

The experiment is carried out analogously to example 5, however, instead of the described biological product, a biological product based on only the Yarrowia lipolytica 2kp strain and the protective medium described in example 5, taken in mass ratios of 1: 1 with a content of viable microorganisms of 5 × 10 ⁸ CFU / g of the preparation, is used.

The loss of contaminant in the soil during the cleaning process is shown in the table.

Example 11 (control, using a biological product based on a protective medium and only a mixture of strains of Rhodococcus jialingie 1kp and Lysinibacillus xylanilyticus 5 rb )

The experiment is carried out analogously to example 5, however, instead of the described biological product , a biological product is used based on the protective medium described in example 5, and only a mixture of strains of Rhodococcus jialingie 1kp and Lysinibacillus xylanilyticus 5 rb taken in a mass ratio of 1: 1.5. In this case, the biomass of microorganisms and the protective environment are taken in a mass ratio of 1: 1 and the content of viable microorganisms is 4 × 10 ¹⁰ CFU / g of the drug.

The loss of contaminant in the soil during the cleaning process is shown in table.

Example 12 (control, using a biological product based on a protective medium and only a mixture of strains of Rhodococcus jialingie 1kp and Yarrowia lipolytica 2kp )

The experiment is carried out analogously to example 5, however, instead of the described biological product, a biological product is used based on the protective medium described in example 5, and only a mixture of strains of Rhodococcus jialingie 1kp and Yarrowia lipolytica 2kp , taken in a mass ratio of 1: 2. In this case, the biomass of microorganisms and the protective environment are taken in a mass ratio of 1: 1 and the content of viable microorganisms is 3.5 × 10 ¹⁰ CFU / g of the drug.

The loss of contaminant in the soil during the cleaning process is shown in the table.

Example 13 (control, using a biological product based on a protective environment and only a mixture of strains of Lysinibacillus xylanilyticus 5 rb and Yarrowia lipolytica 2kp )

The experiment is carried out analogously to example 5, however, instead of the described biological product, a biological product is used based on the protective medium described in example 5, and only a mixture of strains of Lysinibacillus xylanilyticus 5 rb and Yarrowia lipolytica 2kp , taken in a mass ratio of 1.5: 2. In this case, the biomass of microorganisms and the protective environment are taken in a mass ratio of 1: 1 and the content of viable microorganisms is 4 × 10 ¹⁰ CFU / g of the drug.

The loss of contaminant in the soil during the cleaning process is shown in the table.

The table shows that the rate of soil cleaning using the used biological product (example 5), equal to 3.15% / day, exceeds 1.5-2 times the speed of soil cleaning using any biological product containing only one of the above microorganisms (examples 6- 8), as well as biological products containing any combination of only two of the above microorganisms (examples 9-11), which indicates the presence of a pronounced synergistic effect when using the proposed drug.

The table also shows that the proposed method more than five times increases the speed of cleaning the soil from contaminants with hydrocarbons compared with the known technical solution, selected as a prototype.

Claims (1)

A method for cleaning soil contaminated with oil and oil products using a biological product, including applying a full mineral fertilizer to the soil, maintaining soil moisture, periodically loosening or plowing it, preparing it from a dry biological product containing a water-soluble protective environment and microorganisms - oil hydrocarbon destructors, including bacteria of the genus Rhodococcus, a ready-to-use aqueous dispersion and its application to contaminated soil, characterized in that they use a biological product containing as e bacteria of the genus Rhodococcus strain of the bacterium Rhodococcus jialingie 1kp, as well as additionally containing the strain of the bacterium Lysinibacillus xylanilyticus 5 rb and the yeast strain Yarrowia lipolytica 2kp, dried microorganisms in which are taken in the mass ratio of Rhodococcus jialingie 1kpusprylibanulia 1 -2) :( 1-1.5) :( 2-3), the protective environment of which includes dehydrated yeast autolysate, glucose and nutritious mineral salts and trace elements containing at least nitrogen, phosphorus, potassium, magnesium, manganese compounds , zinc and iron, which are taken in a mass ratio of dehydrated yeast autolysate: glucose: nutritious mineral salts and trace elements = (1-2) :( 0.5-1) :( 1-2), and the preparation of a ready-to-use aqueous dispersion of a biological product is carried out by dispersing the calculated amount of dry biological product M (g ) in grams in the calculated volume V ₁ (l) in liters of a 0.4-0.6% aqueous solution of complete mineral fertilizer to obtain an initial dispersion containing viable microorganisms of the drug in an amount of 2 × 10 ⁹ -4 × 10 ¹¹ colony forming units in a liter, blowing air through it for 12-14 hours followed by introducing into the dispersion of diesel fuel or soil contaminant in an amount of 0.05-0.20% by weight of the initial dispersion, re-purging through the air dispersion for 12-14 hours and diluting the resulting concentrated dispersion 20-40 times with the calculated volume of water V ₂ (l) in liters, while the ready-to-use dispersion is added in an amount of 10-20 l / m ^{2 of} soil, the soil moisture is maintained at 60-70% and the first loosening or plowing of the soil is carried out after applying a ready-to-use dispersion of a biological product to the soil and introduced I fertilizer, and the numerical values of V ₁ (n), M (r) and V ₂ (n) is calculated according to the formulas V ₁ (n) = F (l / m ²⁾ × S (m ²⁾ / N, where P (l / m ² ) - the amount of the biopreparation dispersion ready for use in liters, applied to 1 m ^{2 of} contaminated soil, S (m ² ) - the total area of the soil to be cleaned in m ² and N - the degree of dilution of the concentrated dispersion with water, M (g ) = K (colony forming units / l) × V ₁ (l) / A (colony forming units / g), where K (colony forming units / l) is the content of colony forming units in 1 liter of the original dispersion, A (colony forming units / g) is the known content of viable microorganisms of the biological product in colony forming units in 1 g of dry biological product and V ₂ (l) = (N-1) × V ₁ (l).