RU2312719C1 - Consortium of strains of hydrocarbon-oxidizing bacteria pseudomonas aeruginosa nd k3-1 and pseudomonas fluorescens nd k3-2 as hydrocarbon destructor and a method of treating oil-polluted subsurface waters - Google Patents

Abstract

FIELD: biotechnology and oil pollution elimination.

SUBSTANCE: consortium of strains as indicated in the title is isolated from samples of diols and subsurface waters of caverns taken in Perm region territory and deposited in collection of geological microbiology laboratory, Institute of ecology and genetics of microorganisms, Ural Department of Russian Academy of Sciences, under name ND-MK-17. Method of treating oil-polluted subsurface waters comprises injecting, through well and/or sluggy, consortium of strains of hydrocarbon-oxidizing bacteria in amount 0.5-1.5 L per 1 m³ subsurface water and then samples to estimate oil destruction efficiency are taken. According to analysis results, biological treatment of subsurface water is adjusted.

EFFECT: enhanced treatment efficiency and reduced expenses.

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Description

The invention relates to the field of biotechnology, and in particular to methods for purifying groundwater contaminated with oil using a consortium of bacterial strains of oil destructors.

Known methods for treating contaminated groundwater using cultures of anaerobic (sulfate-reducing) microorganisms (US Pat. RU No. 2107042, IPC C02F 3/34, bull. No. 8, 1998; RU No. 1838598, IPC ЕВВ 43/28, 1984; A.S. SU No. 1264634, IPC C02F 3/34, 1993). The disadvantages of these methods are, firstly, the high complexity and technical complexity of the work on the allocation of anaerobic microorganisms and the growth of their biomass. Secondly, the use of anaerobic microorganisms is justified for groundwater that does not contain dissolved oxygen, which is toxic to these microorganisms, and therefore, they cannot be used to treat karst groundwater containing dissolved oxygen.

A known consortium of microorganism strains BACILIUS BREVIS and ARTHROBACTER SPECITS, used to clean water and soil from oil and oil products (US Pat. RU No. 2232806, IPC C12N 1/20, C02F 3/34, bull. No. 20, 2004). The consortium deposited with the collection of microorganisms of the Institute of Biology of the Ufa Scientific Center of the Russian Academy of Sciences under the number NB DT-5 includes the strains BACILIUS BREVIS DT-5-1 (51%) and ARTHROBACTER SPECITS IB DT-5-3 (49%). The consortium is isolated from soil contaminated with diesel fuel. The prototype for the inventive consortium of microorganisms. The disadvantage of this method should be recognized as its low efficiency in cases of a high degree of oil pollution.

A known method of purification of groundwater contaminated with petroleum products using bacterial cultures of natural strains isolated from groundwater (US Pat. RU No. 2043312 IPC C02F 3/34, E21B 43/22, bull. No. 25, 1995). The prototype for the proposed method of purification of oil-contaminated karst groundwater. The method assesses the degree of pollution of groundwater, drilling wells, pumping groundwater, aeration and returning them to the aquifer. In this case, the bacterial culture of the natural strain is preliminarily isolated from groundwater, the most active ones are determined and their biomass is produced, after which water is pumped out, sediment is removed from it and 0.1-1.0 g / l is introduced into the water with a residual oil content of water. biomass mixed with K, N, P-containing fertilizers and trace elements. Pumping water, its sediment and aeration is carried out in the well, periodically repeating the process, followed by the introduction of biomass there.

The disadvantages of the method are the high complexity of the work and material costs associated with preliminary pumping of water, its sedimentation and aeration, additional aeration of the formation to create aerobic conditions in the volume of soil (water), and the applicability of the method only with a low residual oil content in water (up to 1 g / l).

The objective of the invention is to obtain a consortium of bacterial strains with high oil destructive activity, as well as the development on its basis of a highly effective method for purifying oil-contaminated groundwater.

The technical result obtained as a result of the implementation of the invention is to improve the cleaning efficiency by reducing costs and increasing the degree of purification.

To achieve the technical result, a Consortium of strains of hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa was proposed. ND K 3-1 and Pseudomonas fluorescens ND K 3-2 [deposited in the collection of the laboratory of geological microbiology of the Institute of Ecology and Genetics of Microorganisms of the Ural Branch of the Russian Academy of Sciences under the number ND-MK-17], as a destructor of oil products.

To achieve the technical result, it is proposed to use a dedicated consortium of bacterial strains with high oil-degrading activity, which is introduced into oil-contaminated groundwater through wells and / or karst funnels. A method for purifying oil-contaminated groundwater involves pumping an oil product destructor through a well and / or karst funnel. A consortium of hydrocarbon-oxidizing bacteria strains Pseudomonas aeruginosa ND K 3-1 and Pseudomonas fluorescens ND K 3-2 in an amount of 0.5-1.5 liters per 1 m ^{3 of} groundwater, then from a well using a device (for example, a sampler) are used as a petroleum destructor samples are periodically taken to assess the effectiveness of oil destruction and, based on the results of the analysis, the biological treatment of groundwater is adjusted.

If we take a consortium of strains in an amount of less than 0.5 l / m ³ , then an effective treatment of groundwater is not achieved.

If we take a consortium of strains in an amount of more than 1.5 l / m ³ , then the costs of groundwater treatment are not justified.

Patent studies have shown that no solutions having features similar to the distinguishing features of the proposed technical solution have been identified, which gives the right to judge the materiality of the differences between these signs, and the totality of all the signs gives the invention a new technical result.

The above signs can effectively solve the problem.

The above distinguishing features, each individually and all together, are aimed at solving the problem and are significant. The use of significant distinguishing features in the prior art is not found, therefore, the proposed technical solution meets the patentability criterion of "novelty."

A single set of new essential features with common, well-known provides a solution to the problem and indicates the successful industrial application of the proposed solution.

The resulting consortium of bacterial strains was isolated from soil and groundwater samples from karst cavities taken on the territory of the OGPD (the village of Polazna, Perm Region). The main physiological feature of the consortium, which is of practical importance, is the destruction of oil hydrocarbons. The consortium was assigned the number MK-17; the consortium is stored in the collection of the laboratory of geological microbiology of the Institute of Ecology and Genetics of Microorganisms of the Ural Branch of the Russian Academy of Sciences under the collection number ND-MK-17. To isolate the consortium, direct sowing from selected soil and water samples was used, followed by obtaining an accumulative culture, first on Raymond liquid medium with 0.5% crude oil, and then on an agar medium of the same composition.

Stepwise analytical selection was carried out according to the principle of selection of microorganisms with high destructive activity in relation to hydrocarbons. All cultures of the consortium are mesophiles, with boundaries of good growth and high activity in the range of 15-35 ° C with an optimum of 26 ± 2 ° C. The consortium is a natural indivisible community consisting of two strains of bacteria.

Sowing monocolonial isolates on media with different carbon sources, their inability to accumulate poly-β-hydroxybutyrate as a reserve carbon source, the formation of fluorescent diffusing pigments, gram-negative coloration of the cell wall, the absence of the need for organic growth factors, a positive result of the oxidase test, the presence of catalase, respiratory type of metabolism, the ability to denitrify and grow at different temperatures, the inability to fix atmospheric nitrogen, cannot NOSTA to grow in an acid medium (pH 4.5), cells under phase contrast microscopy mobility substantiated determination of the species composition of the consortium.

Characterization of the strain Pseudomonas aeruginosa ND K 3-1. Moving sticks 0.5-0.6 × 1.5-3.0 microns. It grows at + 41 ° C, does not grow at + 4 ° C. Hydrolyzes gelatin, does not hydrolyze starch. As a carbon source uses glucose, β-ketogluconate, L-valine, DL-arginine. Does not use meso-inositol, trehalose. It has arginine dehydrolase. It does not have lecithinase activity. Capable of denitrification of nitrate. Saprophyte.

Characterization of the strain Pseudomonas fluorescens ND K 3-2. Moving sticks 0.5-1.0 × 1.5-5.0 microns. It grows at + 4 ° C, does not grow at + 41 ° C. Hydrolyzes gelatin, does not hydrolyze starch. As a carbon source, it uses glucose, trehalose, β-ketogluconate, meso-inositol, L-valine, L-arginine, L-arabinose, sucrose, sorbitol, propionate. Does not use butyrate. It has arginine dehydrolase and lecithinase. Capable of denitrification of nitrate. Saprophyte.

The dominant component of the consortium are bacteria of the strain Pseudomonas aeruginosa ND K 3-1; their number is 60-70%. The composition of the consortium may vary depending on changes in the fractional composition of the oil used. In heavier oils, the bacteria of the Pseudomonas fluorescens strain ND K 3-2 become the dominant component of the consortium; their number is 55-65%.

Example 1

To obtain the drug, a consortium of bacterial strains ND-MK-17 is grown in Raymond liquid medium with 1 wt.% Glucose at room temperature for 48-72 hours under aerobic conditions until a population density of 10 ⁹ -10 ¹⁰ cells / ml is achieved, crude oil is added in an amount of 0.5-1 wt.% and continue cultivation under the same conditions for another 24 hours. Add a nitrogen-containing composition (for example, mineral fertilizer "Nitroammofoska") in an amount of 5 wt.%. The resulting preparation is ready for introduction into oil-contaminated karst underground water through wells and / or karst funnels.

The method in accordance with the present invention is further illustrated using the following example, which is not limited.

Example 2

The oil-destroying activity of a consortium of microorganisms was determined by the loss of individual oil components recorded by conventional gas-liquid chromatography and IR spectrometry in chloroform extracts from experimental samples of water contaminated with 10 wt.% Oil and subjected to bacterial treatment (2 vol.% Three-day culture of the consortium containing cells 1.0 · 10 ⁸ CFU / ml), compared with control samples not subjected to bacterial treatment. After 18 days of incubation, the content of n-alkanes in oil decreased by 4.2 times compared with the control due to the destruction of mainly medium-weight hydrocarbons (n-C _17-26 ). The table below shows comparative data on the disposal of petroleum products by consortia of microorganisms.

Obtained according to example 1, the drug after immobilization on a polymer fiber was introduced into oil-contaminated groundwater through a well (funnel) using a special device for sampling in the amount of 1 liter per 1 m ^{3 of} karst groundwater.

The immobilized preparation was kept in the well for 2 weeks, after which an oil sample was taken from the well for analysis. Chemical analyzes of oil samples showed the following results. An increase in the boiling point from 71 ° C to 77 ° C, an increase in the mass fraction of paraffins from 1.82% to 2.24%, and an increase in the density of oil from 0.8401 to 0.8518 g / cm ³ indicate that as a result activity of the consortium’s bacteria in oil has changed, namely the lightest fractions have disappeared. The increase in oil water cut occurred as a result of the release of hydrocarbon-oxidizing bacteria by a consortium of surfactants that contribute to the formation of a water in oil emulsion.

As the above examples showed, the resulting consortium of bacterial strains can be used as a drug for purifying groundwater from oil pollution. The drug is proposed to be introduced into oil-contaminated groundwater through wells and / or karst funnels in an amount of 0.5-1.5 liters per 1 m ^{3 of} groundwater.

Table
Disposal of petroleum and petroleum products by consortia of microorganisms Consortium Conditions The degree of utilization, wt.% ND-MK-17 10 wt.% Oil in natural water 76.35 ± 5.95 IB-DT 5 (Pat. RU 2232806; prototype) 10 wt.% Diesel fuel in a liquid nutrient medium 59.37

Although the preferred embodiments of the invention have been described, it is clear that changes and additions may be made by those skilled in the art that do not, however, fall outside the scope of the following claims.

Claims (2)

1. A consortium of strains of hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa. ND K 3-1 and Pseudomonas fluorescens ND K 3-2 (deposited in the collection of the laboratory of geological microbiology of the Institute of Ecology and Genetics of Microorganisms of the Ural Branch of the Russian Academy of Sciences under the number ND-MK-17), as a destructor of oil products. 2. A method of purifying oil-contaminated groundwater, including pumping through a well and / or a karst funnel of an oil product destructor, characterized in that a consortium of hydrocarbon-oxidizing bacteria Pseudomonas aeruginosa ND K 3-1 and Pseudomonas fluorescens ND K 3-2 is used as an oil destructor 0.5-1.5 liters per 1 m ^{3 of} groundwater, then samples are periodically taken from the well with a device to assess the effectiveness of oil destruction and, based on the analysis, the biological treatment of groundwater is adjusted.