RU2193533C2 - Biological preparation for cleaning water and ground to remove crude oil and petroleum products - Google Patents

Abstract

FIELD: oil pollution elimination. SUBSTANCE: invention relates to microbiological cleaning of grounds and reservoirs in cases of oil spills and treatment of industrial waste waters polluted by petroleum products and heavy metal salts. Biological preparation (commercial name "Lessorb-bio") is developed on the basis of oil-oxidizing bacteria Mycobacterium flavescens Ekh-91, Mycobacterium sp Izh4, Rhodococcus sp. 56d, Acinetobacter sp. NV-1 and sorbent "Lessorb", which is a vegetable material treatment product. Biological preparation assimilates rapidly aromatic, polyaromatic, unsaturated, isoprenoide hydrocarbons of petroleum, which are more carcinogenic and toxic for living nature than saturated hydrocarbons. In addition to petroleum, preparation efficiently assimilates mazut, diesel fuel, kerosene. Cultures of preparation are resistant against heavy metal ions, phenol, and formaldehyde. It is non- pathogenic and doses not contaminate environment. Storage time under refrigerator conditions achieves 6 months. EFFECT: enhanced cleaning efficiency. 5 cl, 6 ex

Description

 The invention relates to microbiological treatment of soils and reservoirs during the spill of oil and oil products, in the treatment of industrial wastewater contaminated with oil products and salts of heavy metals.

 The problem of cleaning water and soil from pollution by oil and oil products is an important task of environmental protection biotechnology. The self-healing process of contaminated soils is very long and can last more than 25 years, and in the north and up to 50 years. The intensification of the biological destruction of oil hydrocarbons in the environment can be achieved through the introduction of oil-oxidizing microorganisms into the polluted ecosystem.

Known biological product "Putidoyl" / 1 /, designed to accelerate the decomposition of oil. Its disadvantage is the complex technology of preparation of the drug, which provides for spray drying of a live culture of bacteria. This drying method does not allow to obtain a preparation with a cell titer of more than 10 ¹⁰ cells / g due to inactivation of cells under the influence of high temperatures (+60 ^o C).

 There are also publications indicating that under natural conditions, the drug "Putidul" was ineffective and that it has a depressing effect on the natural microbial cenosis / 2 /.

The closest to our biological product "Naftoks" / 3 /. Its disadvantage is that the bacteria of the drug utilize only normal oil paraffins (C ₁₂ -C ₁₈ ), and this is 10-20% of the composition of the oil. The composition of oil includes, in addition to normal paraffins, naphthenes, aromatic, polyaromatic, unsaturated, saturated, isoprenoid and other hydrocarbons. All of them are more toxic to wildlife than normal hydrocarbons, and without their biodegradation, oil pollution will be negligible.

 The objective of the invention is the creation of a highly effective biological product (alleged name "Lessorb-bio"), which has a high utilizing ability in relation to oil and oil products in a wide temperature range, which can be used to clean soils and water bodies contaminated with oil, oil products and salts of heavy metals .

The problem is solved by the creation of a biological product containing aerobic oil-oxidizing bacteria, organic substrate, water, and as an organic substrate it contains the sorbent "Lessorb", which is a product of processing plant material, in the following ratio, wt.%:
Sorbent "Lessorb" - 17.5-10.5
Water - Else
Aerobic oil-oxidizing bacteria - in an effective amount (cells / g of the drug)
As an oil-oxidizing bacteria, the biological product contains bacterial strains: Mycobacterium flavescens EX-91/4 /, Mycobacterium species IL 4/5 /, Rhodo-coccus species 56 d / 6 /, Acinetobacter species HB-1/7 /, selected in accordance with the conditions cleaned area, and the required number of living active bacteria is calculated depending on the degree of contamination.

 The cultures included in the biological product are non-pathogenic, non-toxic and non-toxic.

The high efficiency of the biological product is due to the selection of bacterial strains:
-all strains have bioemulsifying activity;
- the drug includes fast and slow growing bacteria, which ensures the speed and effectiveness of cleaning;
-containing bacteria grow at a temperature of 4-10 ^o C, biodegradation of oil at these temperatures slows down, but does not stop, therefore, the proposed biological product can be used to clean oil-contaminated areas in the North;
- bacteria that are part of the biological product are resistant to certain substances and salts of heavy metals:
M. flavescens EX-91 - Mn, Zn, Mo, Pb (100 mg / L), Cr (IV), Cr (VII), Fe (10 mg / L), Ni (5 mg / L), Ag (1 mg / l), Hg (0.05 mg / l), Cu (0.1 mg / l), phenol, formaldehyde (100 mg / l).

 Mycobacterium sp. IL 4 - Ni, Fe (10 mg / l), Pb, Mo, Zn, Cu, Mn, Cr (IV), Cr (VII) - (1 mg / l); phenol (100 mg / l).

 Rhodococcus sp. 56d - Fe (10 mg / L), Pb, Ni, Mn, Cr (IV), Cr (VII) - (1 mg / L), Hg (0.05 mg / L), Zn (0.05 mg / l) phenol (100 mg / l).

 Acinetobacter sp. HB-1 - Ni, Pb, Cr (VII) - (10 mg / L) - (0.5 mg / L), Phenol (10 mg / L).

Sorbent "Lessorb" - a product of processing plant material (moss, wood, peat, etc.) / 8 /. This sorbent has a high absorption capacity in relation to oil hydrocarbons (8-10 kg / kg). In addition, it also has good adsorption capacity against bacterial cells of oil-oxidizing strains (up to 8 • 10 ⁹ cells / g).

The consumption of biological product for the treatment of water bodies is 100-150 g / m ² , for the soil treatment -15-20 kg / t.

The shelf life of the biological product at a temperature of +4 - 10 ^o C - 6 months, and at a temperature of 20 ^o C - 3 months.

 The invention is illustrated by the following examples.

Example 1. The proposed biological product "Lessorb-bio" is obtained by applying cells of oil-oxidizing bacteria to a dry sorbent "Lessorb", which before use is dried at a temperature of 105-110 ^o C for 3-4 hours to a moisture content of 2%.

The microbial mass of the strains for this is grown individually in an AK-210 fermenter, with control and maintenance of the main cultivation parameters (pH, t ^o , partial pressure of dissolved O ₂ , mixing speed, air flow for aeration). The cultivation process is completed at the stationary phase. Then the culture fluid is concentrated on a microfiltration unit MP-0.3. The concentrated cell suspension (10 ¹¹ cells / ml) is mixed with the sorbent in a weight ratio of 7: 1, respectively.

The resulting wet biological product is laid out on trays and dried at room temperature for 2 days or by blowing air (40 ^o C) over the trays for 2 hours to a moisture content of 1-3%. Dry biological product is laid out in plastic bags and sealed. The shelf life of the biological product is 6 months in a refrigerator and 3 months at room temperature.

Example 2. In 100 ml cones, 30 ml of mineral medium 8E and 1% model oil (naphthalene, tetradecane, pentadecane, hexadecane, phenyldecane, pristan, pyrene, phenanthrene, acenaphthene) are added, and 1% of the biological product "Lessorb-bio " The control flask is left without biological product. Cultivation is carried out on a rocking chair at 200 rpm, 20 ^o C for 5 days. Processing the results is carried out on a gas chromatograph. The results show that the biodegradation of these hydrocarbons was 85, 61, 60, 65, 39, 37, 23, 32, 42%, respectively.

Example 3. In 100 ml cones, 30 ml of mineral medium 8E, 300 mg of oil, 10 mg / l of salts are added: Mn, Pb, Zn, Mo, Fe, Mi, Ag and Cr - 50 μg / l and 1% of the biological product Lessorb Bio. The control is a salt-free flask into which a biological product and oil are added. The experiment is carried out in triplicate. The flasks are cultivated on a rocking chair at 28 ^o C at 200 rpm for 5 days. The experimental results show that in a flask with metal salts and without them, biologics cultures utilize oil by 67%.

Example 4. On an experimental plot of sod-podzolic soil (Moscow region) with an area of 0.25 m ² evenly applied oil at a rate of 8 l / m ² and biological product "Lessorb-bio" to a depth of 20-25 cm at a rate of 150 g / kg of soil . Together with the biological product, 0.75% nitroammophos is added, the soil is loosened by a cultivator 3-4 times per season. Samples are taken after 1 and 3 months and analyzed for oil hydrocarbon content. The results show that oil hydrocarbons were disposed of 26% after a month, and 40% after 3, while self-cleaning of the soil due to native microflora occurred by 8% in 1 month and by 18% after 3 months.

Example 5. The experiment was carried out analogously to example 4. In the soil make 24 l / m ² oil. The results show that oil hydrocarbons were disposed of at 48% after a month, and at 63% after 3, while self-cleaning of the soil due to native microflora occurred at 12% in 1 month and 22% after 3 months.

 Example 6. Tests of the biological product "Lessorb-bio" were carried out on the basis of "Transneft" in Bryansk. The technology of land cleaning was carried out according to the following scheme. The soil (sand, earth), which was heavily contaminated (20%) with oil products, was loaded into the reactor, where water (60%) and the Lessorb-bio biological product were also added. The process of soil purification by bioflotation in the reactor was carried out for sand for 4-5 hours, and for the earth 15 hours. By this time, soil cleaning from oil products reached 82-92%. The treated soil was dried and nitroammophos (0.75%) was added in special containers. The soil was regularly loosened and watered. During biological treatment within 3 months, the residual pollutants were disposed of from sand up to 93%, and up to 97% in the ground.

 Thus, the advantage of the proposed biological product "Lessorb-bio" is that it efficiently and in a short time utilizes aromatic, polyaromatic, unsaturated, isoprenoid hydrocarbons, which are more carcinogenic and toxic to wildlife compared to saturated hydrocarbons. In addition to oil, the proposed biological product effectively utilizes fuel oil, diesel fuel, kerosene. The cultures of the proposed biological product are resistant to heavy metal ions, phenol and formaldehyde, which expands the range of its use in cleaning territories from oil and oil products.

Sources of information:
1. TU 64-16-75-91
2. Novikov Yu. V., Komzolova N.V. Studies of the bacterial drug Putidul, proposed for cleaning water from oil. - Water Management, 1992, 2, p. 121-123.

 3. Patent RU 2053205, 01/27/1996

 4. Patent RU 2053296, 01/27/1996

 5. Patent RU 2077578, 04/20/1997

 6. Patent RU 2101352, 01/10/1998

 7. Patent RU 2077579, 04/20/1997

 8. TU 9010-002-35615057-99 (Introduced instead of TU 9010-001-35615057-94).

Claims (4)

1. Biological product for purification of water and soil from oil and oil products, including aerobic oil-oxidizing bacteria, organic substrate, water, characterized in that as the organic substrate use the sorbent "Lessorb", which is a product of processing plant material, in the following ratio of components, wt . %:
Sorbent "Lessorb" - 17.5-10.5
Water - Else
Aerobic Oil-Oxidizing Bacteria - In Effective Amount (cells / g of drug)
2. The biological product according to claim 1, characterized in that it contains bacteria of the Mycobacterium flavescens EX-91 strain at a final concentration of at least 5.0 • 10 ⁹ cells / g of the drug as aerobic oil-oxidizing bacteria. 3. The biological product according to claim 1, characterized in that it contains bacteria of the strain Mycobacterium sp. As aerobic oil-oxidizing bacteria. IL 4 in a final concentration of not less than 4.0 • 10 ⁹ cells / g of the drug. 4. The biological product according to claim 1, characterized in that it contains bacteria of the strain Rhodococcus sp. As aerobic oil-oxidizing bacteria. 56d in a final concentration of not less than 4.5 • 10 ⁹ cells / g of the drug. 5. The biological product according to claim 1, characterized in that it contains bacteria of the Acinetobacter sp. Strain as aerobic oil-oxidizing bacteria. HB-1 in a final concentration of not less than 9.0 • 10 ⁹ cells / g of the drug.