RU2618699C1 - Method for biological cleaning of soils contaminated by oil products - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for biological cleaning of soils contaminated with oil products includes introducing granules of sapropel with microorganisms immobilized on it as a solid carrier in contaminated soil. The sapropel granules immediately before application are treated at the ratio of 1:0.015 by weight with the liquid form of the Naftox biopreparation based on aerobic hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa-12-P or Pseudomonas citronelollis-48-Y with the working titer of the biopreparation -10 in 8 cells/ml. After that, the rehabilitated soil is immediately cultivated with simultaneous harrowing to the depth of 25-30 cm and subsequent watering from the calculation of bringing the soil humidity up to 60%. The sapropel granules treated with Naftox biopreparation can be introduced into previously ploughed soil contaminated with oil products.

EFFECT: method by means of complex use of the natural ameliorant sapropel and Naftox biopreparation based on hydrocarbon-oxidizing bacteria of the genus Pseudomonas - biodestructors transforming oil hydrocarbons into carbon dioxide and environmentally friendly products allows in a relatively short time to effectively clean the soil from oil products and to restore its structure and fertility.

2 cl, 5 tbl, 2 ex

Description

The present invention relates to the field of environmental protection, soil restoration for agriculture, in particular to the treatment of soils contaminated with oil products, and can be used for microbiological treatment of contaminated soils directly at the site of pollution, or on a specially equipped site.

The elimination of technogenic pollution of soils with oil and products of its processing is a complex and urgent task of environmental protection for almost all oil refineries and oil products transporting enterprises.

An alternative to the currently widely used technologies for cleaning soils contaminated with oil products, which are based on the thermal method of disposal or placing contaminated soil at authorized industrial waste landfills, is their biological treatment using the integrated use of natural ameliorants and biological preparations (biodestructors) based on hydrocarbon-oxidizing bacteria . This method allows for a relatively short time to utilize petroleum hydrocarbons, transforming them into carbon dioxide and environmentally friendly products.

A known method of detoxification of soil contaminated with oil [Pat. No. 2475314 of the Russian Federation, IPC V09C 1/10, BI. No. 5, 2013], which consists in introducing a natural sorbent with a biological product into it and creating a shielding layer of vermicompost in the lower part of the contaminated layer. Glauconite is used as a sorbent, and polyculture is used as a biological product.

The disadvantages of this method are the high complexity, the need for excavation and transportation of contaminated soil to a specially equipped site and the inability of this method to carry out detoxification on large land plots under in situ conditions.

A known method of cleaning the soil from oil pollution [Pat. 2354464 RF, IPC V09C 1/10, C12N 1/26, BI. No. 13, 2009], which consists in treating the soil with a mixture containing oil-destroying microorganisms, nitrogen-phosphorus fertilizer and an adsorbent, proppant-ceramic granules with a branched porous structure are used as adsorbent. Before processing, the mixture is frozen, cracked into pieces and in winter pressed into contaminated soil.

The disadvantages of this method are the high complexity of preparing a mixture of carbon-oxidizing microorganisms with proppant and its further application, in the duration of rehabilitation measures. The method can be used in remote places and only in the winter season.

Also known is a method of biological remediation of oil-contaminated soil [Pat. No. 2307869 RF, IPC C12N 1/20, B09C 1/10, BI, No. 28, 2007], including liming, mineral fertilizing, treatment of contaminated areas with a biological product-oil destructor containing microbial fertilizer carrier in the form of fermented agricultural waste and a culture of bacteria immobilized on a carrier, seed application and harrowing.

The disadvantages of this method are the additional financial costs for the use of mineral fertilizers, lime and seeds of agricultural crops, the complexity and duration of rehabilitation measures and low efficiency.

A known method of cleaning the soil from oil and oil products, developed in VNIGRI [Pat No. 2429089 of the Russian Federation, IPC V09C 1/10, BI No. 26, 2011], which consists in treating contaminated soil with a liquid form of a biological product, including aerobic hydrocarbon-oxidizing bacteria (bacterial culture Mycobacterium sp. 5 KB) in combination with nitrogen-phosphorus-potassium mineral fertilizer and fish meal, which are a breeding ground for the life and activity of the bacterial culture.

The disadvantage of this method is that it provides only for the destruction of toxic petroleum products and prevents their further negative impact on the soil, but it does not eliminate the already caused environmental damage.

Closest to the proposed one is a method of purifying soils from oil and oil products using a composition for biological soil purification (US Pat. RF No. 2215596, IPC B09C 1/10, C12N 1/20, 2003) containing Rhodococcus 1418 strains as a consortium of microorganisms Rhodococcus 1715 (0.04-0.06 wt.%) On a solid carrier sapropel (the rest). Rhodococci and natural sapropel with a moisture content of 12% are mixed in the form of a thick suspension, the mixture is granulated, granules after possible storage are scattered on the surface of soil contaminated with oil products at a rate of 1-2 kg / m ² depending on the degree of contamination, after which intensive soil is irrigated until it is completely moisture saturation to break granules and provide the greatest contact of Rhodococcus with oil products.

A disadvantage of the known composition and method is that far from all of the rhodococci of the claimed amount survive such hard contact with a solid carrier during the preparation of granules and their storage, and when granules are scattered on the surface of contaminated soil, some of them die from solar radiation, which negatively affects the destructive capabilities of the composition. In addition, a large amount of water is needed to spill contaminated territory to destroy sapropel granules and release microorganisms.

To eliminate these disadvantages allows the method of biological treatment of soils contaminated with oil products, including introducing into the contaminated soil sapropel granules with microorganisms immobilized on it as a solid carrier, selected according to the type of contamination, and irrigating the soil to be rehabilitated with water, in which according to the invention, granules are introduced into the contaminated soil sapropel, immediately before application, processed in a ratio of 1: 0.015 by weight of the liquid form of the Naftox biological product based on aerobic hydrocarbon acidifying bacteria Pseudomonas aeruginosa - 12-P or Pseudomonas citronelollis - 48-Y with a working titer of using a biological product - 10 in 8 cells / ml, after which they immediately cultivate the rehabilitated soil with simultaneous harrowing to a depth of 25-30 cm and subsequent watering with water based on bringing soil moisture to 60%. In addition, sapropel granules treated with the Naftox biological product can be added to previously plowed soil contaminated with oil products.

The problem solved by the invention is to increase the efficiency of purification of oil-contaminated soils and restore their fertility due to the integrated use of a liquid form of a biological product based on aerobic hydrocarbon-oxidizing bacteria of the genus Pseudomonas, previously immobilized on a carrier, a natural ameliorant - granular sapropel.

Microorganisms of the genus Pseudomonas are especially active in the destruction of oil and oil products in the soil and equally easily use monocyclic aromatic hydrocarbons (benzene, toluene, xylene), aldehydes (formaldehyde, acetaldehyde), alcohols (methanol, glycerol) and other more complex compounds (Galchenko and others. , 2008). The temperature range of the effective operation of the biological products of the Naftoks series, like any other biological products, lies in the range of 15-30 ° C. The climatic conditions of central Russia are quite favorable for the use of aerobic hydrocarbon-oxidizing microorganisms of the genus Pseudomonas in the biological treatment of soils contaminated with oil and oil products.

Natural sapropel contains micronutrients and macroelements that activate microorganisms. After the soil has been cleaned with oil-borne microorganisms, the sapropel granules do not need to be removed from the soil, since the soil bacteria undergo mineralization of the sapropel, the soil structure improves, its acidity decreases, buffering increases, the humus content increases, and soil microflora is activated, thereby creating positive prerequisites for the use of purified soils in agriculture A, since sapropel granules have a colloidal structure, they have significant sorbing superficiality.

Granular sapropel treated with aerobic hydrocarbon-oxidizing bacteria combines the properties of ameliorant for soil, a sorbent for oil and oil products and a carrier for immobilized aerobic microorganisms, as well as a source of macronutrients for the process of destruction of oil products.

Processing the sapropel granules with a liquid form of a biological product immediately before entering the contaminated soil allows to preserve the vital activity and destructive activity of microorganisms as much as possible.

The ratio of the microbial preparation and sapropel (1: 0.015 by weight) is optimal and provides stimulation of the growth in the number of bacteria after they are introduced into contaminated soil. With large starting doses of the microbial preparation, the costs of soil rehabilitation increase significantly, and the effectiveness of cleaning the soil from oil products does not significantly increase.

Immediate cultivation with simultaneous harrowing to a depth of 25-30 cm of contaminated soil after applying sapropel granules treated with a liquid form of the Naftox biological product to its surface should be performed in order to prevent the death of microorganisms from solar radiation on the soil surface; reduce the starting content of petroleum products in the soil by diluting with stirring the contaminated surface layer with the underlying clean soil; improve aeration of the soil, saturate it with oxygen and thereby create more favorable conditions for the development of introduced aerobic hydrocarbon-oxidizing microorganisms; evenly distribute the sapropel treated with the biological product in the soil to be cleaned. In addition, contaminated soil soddy or overgrown with weeds must be plowed before applying the sapropel treated with a biological product.

To implement the proposed method, as a solid carrier for microorganisms, a natural ameliorant - granular sapropel produced by LLC TPK Kamsky Sapropel in an amount of 2 kg / m ^{2 was used} . The recommended dose of sapropel is based on agrochemical standards for the introduction of this type of ameliorant in agricultural land.

The results of complex chemical-analytical studies of sapropel are presented in tables 1, 2.

Analysis of the results of complex chemical-analytical studies of sapropel (tables 1 and 2) showed that sapropel is neutral in acidity; organic matter content - 20.53%; the content of humic acids - 30.57%, fulvic acids - 61.15%, humins - 8.28%; mass fraction of moisture is 3.0%. Of the three main nutrients (nitrogen, phosphorus, potassium), sapropel contains approximately the same amount of total potassium and total nitrogen: 1.04% and 1.05%, respectively. The content of total phosphorus in sapropel left 0.21%, which is significantly less than the content of nitrogen and potassium. The cation exchange capacity is 29.9 mmol / 100 g; calcium content (CaO) - 7.64%; the content of iron (Fe ₂ O ₃ ) - 2.21%, sulfur (SO ₃ ) - 1.78%. The content of pollutants in the sapropel sample does not exceed the requirements established by the standard (GOST R 54000-2010, GN 2.1.7.2042-06) and is distributed as follows: manganese - 196.41 mg / kg (standard no more than 500 mg / kg for fitness class 1) ; copper - 9,803 mg / kg (standard no more than 100 mg / kg for fitness class 1); zinc - 56.781 mg / kg (standard no more than 300 mg / kg for fitness class 1); lead - 14.494 mg / kg (standard no more than 50 mg / kg for fitness class 1); arsenic - 1.164 mg / kg (UEC 5 mg / kg); cadmium - 0.169 mg / kg (standard no more than 3 mg / kg for fitness class 1). The sapropel content of natural radionuclides (radium-226, thorium-232 and potassium-40) is typical of soils and sapropels. No contamination of the sapropel sample with artificial radionuclides by strontium-90 was detected, and the detected small amounts of cesium-137 correspond to global deposition.

Thus, based on the results of comprehensive chemical and analytical studies of sapropel samples, the requirements of GOST R 54000-2010 and sanitary and hygienic standards, it can be argued that the sapropel LLC TPK Kamsky Sapropel can be used as an ameliorant that can act as a carrier for immobilized aerobic hydrocarbon-oxidizing bacteria, to perform the functions of organic fertilizer, a carrier of macro- and microelements, and also to act as a physical ameliorant (baking powder) in the process of biological purification of soils from oil products, and in addition, it has a sorption ability in relation to oil products.

To implement the proposed method used samples of biological products produced on the basis of patented by the All-Russian Oil Research Geological Exploration Institute (FSUE "VNIGRI") strains of hydrocarbon-oxidizing microorganisms under the trademark "Naftoks", having the following characteristics:

- microbial preparation No. 1 (Pseudomonas aeruginosa - 12-P), the basis of the biological product is the patented strain UOM 12-P, the titer of the finished biological product is 10 in 12 cells / ml, the working titer of using the biological product is 10 in 8 cells / ml;

- microbial preparation No. 2 (Pseudomonas citronelollis - 48-Y), the basis of the biological product is the patented strain UOM 48-Y, the titer of the finished biological product is 10 in 12 cells / ml, the working titer of the use of the biological product is 10 in 8 cells / ml.

The introduction of granular sapropel, pre-treated with aerobic hydrocarbon-oxidizing microorganisms of the genus Pseudomonas, into the soil contaminated with oil products contributes to the formation of centers of active destruction of petroleum hydrocarbons in it due to sorption of microorganism culture on its surface.

The proposed method of biological treatment of soils contaminated with oil is as follows:

Example 1. An oil-contaminated soil containing 3 wt.% Diesel fuel is plowed if necessary, then granular sapropel is added in an amount of 2 kg / m ² , immediately before application, it is treated (in a ratio of 1: 0.015 by weight) with the liquid Naftox biological product based on a strain of aerobic hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa - 12-P with a working titer of using a biological product - 10 in 8 cells / ml. Then the soil is immediately cultivated with simultaneous harrowing to a depth of 25-30 cm. Additionally, the rehabilitated soil is irrigated with water at the rate of bringing the soil moisture to 60% of the WSP. The acidity of the soil is close to neutral, the temperature regime is 25-29 ° C. Cultivation of the rehabilitated soil with simultaneous harrowing in the future is recommended to be carried out 3-5 days after watering or heavy rains, preventing the formation of a crust on its surface. The degree of degradation of oil products in the soil for 30 days was 63.5%, for 90 days - 88.4%.

Example 2. Contaminated soil containing 3 wt.% Diesel fuel is pre-plowed if necessary, then granulated sapropel is added in an amount of 2 kg / m ² , immediately before application it is treated (in a ratio of 1: 0.015 by weight) with the liquid Naftox biological product based on a strain of aerobic hydrocarbon-oxidizing bacteria Pseudomonas citronelollis - 48-Y with a working titer of using a biological product - 10 in 8 cells / ml. Then the soil is cultivated and harrowed, the soil moisture is brought up to 60% of PPV, as described in example 1. The degree of degradation of oil products in the soil for 30 days was 54.3%, for 90 days - 86.2%.

After cleaning the soil contaminated with oil products, sapropel granules are not removed.

Thus, the proposed method, as a result of the integrated use of natural ameliorant-sapropel and Naftox biological product based on hydrocarbon-oxidizing bacteria of the genus Pseudomonas-biodestructors that transform petroleum hydrocarbons into carbon dioxide and environmentally friendly products, allows you to effectively clean the soil from petroleum products in a relatively short time and restore its structure and fertility.

The method is based on the use of domestic natural ameliorant and biological product.

Claims (2)

1. The method of biological treatment of soils contaminated with oil products, including the introduction of sapropel granules into the contaminated soil with microorganisms immobilized on it as a solid carrier, selected according to the type of contamination, and watering the soil to be rehabilitated with water, characterized in that sapropel granules are introduced into the soil contaminated with oil products immediately before application, processed in a ratio of 1: 0.015 by weight of the liquid form of the Naftox biological product based on aerobic hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa-12-P or Pseudomonas citronelollis-48-Y with a working titer of using a biological product - 10 in 8 cells / ml, after which they immediately cultivate the rehabilitated soil with simultaneous harrowing to a depth of 25-30 cm and subsequent watering with the calculation of bringing the soil moisture to 60%. 2. The method according to p. 1, characterized in that the sapropel granules treated with the biological product "Naftoks", contribute to the previously plowed soil contaminated with oil products.