RU2138451C1 - Biopreparation for removing environmental petroleum and petroleum product pollution - Google Patents

Abstract

FIELD: oil pollution removal. SUBSTANCE: preparation contains aerobic oil-oxidizing bacteria and filler. Used is consortium of mesophilic bacterial strains (wt %): Pseudomonas putida 1-10, Pseudomonas flucrescens 1-10, and Micrococcus species 1-10, and consortium of psychrophilic bacterial strains (wt %): Pseudomonas putida 1-10, and Xanthomonas species 1- 10. Mineral additives, wt %: nitrogen source 0.25-0.75, phosphorus source 0.15-0.50, and potassium source 0.1-0.25. EFFECT: increased activity at widened temperature and pH ranges. 2 tbl, 2 ex

Description

 The invention relates to a means of combating pollution of environmental objects with oil and oil products using microorganisms and can be used, for example, in the aftermath of oil spills.

 Known biological product for cleaning environmental objects from oil and oil products, containing aerobic oil-oxidizing bacteria Acenitobacter oleovorum, residues of nutrient media, stabilizing additives, mineral salts and various fillers, see "Bacterial drug Bioprin - B", technical specifications TU - op. 11249895-12-22-92, M., 1992 (copy attached).

 The disadvantage of this drug is the need for stabilizing additives to maintain the activity of microorganisms. In addition, Acenitobacter oleovorum bacteria do not actively utilize heavy oil fractions.

Also known is a biological product for cleaning environmental objects, mainly soil and water, including oil-oxidizing bacteria, for example, Mycobacterium, hydrocarbon additives - normal paraffins - C ₁₂ - C ₁₈ , mineral additives - ammonium oxalate and water as a filler, see, for example, patent of the Russian Federation N 2053206 according to cl. C 02 F 3/34 dated 09/29/94

 This biological product is adopted as a prototype of the present invention.

Its disadvantage is the narrow temperature range at which the active oxidation of hydrocarbons occurs. The biological product has sufficient activity only at T = 20-40 ^o C, which sharply narrows the possibility of its use in the northern regions.

 The present invention is based on the solution of the problem of creating a biological product for cleaning environmental objects from oil and oil products, having a wider temperature range at which they are actively oxidized.

According to the invention, this problem is solved due to the fact that a consortium of mesophilic bacterial strains of Pseudomonas putida PI K _o -1, Pseudomonas fluorescens П contains -896, Micrococcus species PI K _y - 1 and a consortium of psychrophilic bacterial strains of Pseudomonas fluorescens PI LBH-3, Pseudomonas putida PI LBH-8, Xantho-monas species PI LBH-7 in the following ratio of components, wt.%:
Pseudomonas putida PI K _o -1 - 1 - 10
Pseudomonas fluorescens PI-896 - 1 - 10
Micrococcus species PI K _y -1 - 1 - 10
Pseudomonas fluorescens PI LBH-3 - 1 - 10
Pseudomonas putida PI LBH-8 - 1 - 10
Xanthomonas species PI LBH-7 - 1 - 10
Mineral supplements:
Source of nitrogen - 0.25 - 0.75
Source of phosphorus - 0.15 - 0.50
Potassium source - 0.1 - 0.25
Filler - Else
Pure cultures of microorganisms are isolated from soils contaminated with oil products in selective nutrient media containing hydrocarbons of oil products as the sole source of carbon nutrition. Strains are registered in the collection of microorganisms of the All-Russian Institute for Plant Protection KMZR VIZR-760. The strains are stored separately on an agarized nutrient medium (MPA or SPA) at a temperature of +0 - +5 ^o C or in a lyophilized state in ampoules.

In the first specific example, the biological product contains bacterial strains: Pseudomonas putida PI Ko-1 - 7 wt.%, Pseudomonas fluorescens PI-896 - 7 wt. %, Micrococcus species PI K _y -1 -7 wt.%., Pseudomonas fluorescens PI LBH-3 - 7 wt.%, Pseudomonas putida PI LBH-8 - 7 wt.%, Xanthomonas species PI LBH-7 - 5 wt. .%.

The strain Pseudomonas putida PI K _o -1 - small, short, direct, movable single sticks, have polar flagella, sizes: (0.2-0.3) x (0.5 - 0.8) microns; gram (-); aerobe. Colonies of the strain are round, smooth, with a shiny surface, slightly raised in the center, yellowish, translucent, with a diameter of 4-6 mm. The strain assimilates ammonium and nitrate nitrogen, is catalase-positive, forms fluorescent pigments, arginine dihydrolase, does not thin the gelatin, does not hydrolyze starch, the oxidase reaction is positive. It uses glucose, 2-ketogluconate, L-valine, β-alanine, DL-arginine, and hydrocarbons as growth sources.

 The strain Pseudomonas fluorescens PI-896 - small short single sticks, have polar flagella, sizes: (0.1-0.4) x (0.6-0.7) microns; gram (-) aerob. Colonies of the strain are round, smooth, with a shiny surface, slightly convex, translucent, colorless, with a diameter of 3-5 mm. The strain assimilates ammonia and nitrate nitrogen, is catalase-positive, forms fluorescent pigments, the oxidase reaction is positive, hydrolyzes gelatin, does not hydrolyze starch, and forms arginindigrolase. It uses glucose, trehalose, 2-ketogluconate, meso-inositol, hydrocarbons, L-arabinose, sucrose, ethyl alcohol as growth sources.

The strain Micrococcus species PI K _y - 1 - cocci, spherical motionless cells, with a diameter of 0.6-1.0 microns; form irregular groups or occur singly. Colonies of the strain are round with a smooth edge, warm in color, opaque, smooth, shiny, with a diameter of 2-5 mm. The strain assimilates ammonium and nitrate nitrogen, is catalase-positive, forms a yellow pigment, does not hydrolyze starch, does not form indole, forms hydrolases. Uses glucose, L-valine, β-alanine, hydrocarbons as growth sources.

 The strain Pseudomonas fluorescens PI LBH-3 - small short single sticks, have polar flagella, sizes: (0.25 - 0.35) x (0.55 - 0.65) microns; gram (-) aerob. Colonies of the strain are round, smooth, with a shiny surface, slightly convex, translucent, colorless, with a diameter of 4 - 6 mm. The strain assimilates ammonia and nitrate nitrogen, is catalase-positive, forms fluorescent pigments, the oxidase reaction is positive, hydrolyzes gelatin, does not hydrolyze starch, and forms arginindigrolase. It uses glucose, trehalose, 2-ketogluconate, meso-inositol, hydrocarbons, L-arabinose, sucrose, ethyl alcohol as growth sources.

 The strain Pseudomonas putida PI LBH-8 - small, short, direct, movable single sticks, have polar flagella, sizes: (0.15 - 0.25) x (0.45 - 0.75) microns; gram (-); aerobe. Colonies of the strain are round, smooth, with a shiny surface, slightly raised in the center, yellowish, translucent, with a diameter of 5 - 7 mm. The strain assimilates ammonium and nitrate nitrogen, is catalase-positive, forms fluorescent pigments, arginine dihydrolase, does not thin the gelatin, does not hydrolyze starch, the oxidase reaction is positive. It uses glucose, 2-ketogluconate, L-valine, β-alanine, DL-arginine, and hydrocarbons as growth sources.

The strain Xanthomonas species PI LBH-7 - single straight sticks, sizes: (0.2-0.25) x (0.6 - 1.0) microns; the colonies of the strain are round, smooth, with a shiny surface, mucous consistency, light yellow in color, with a diameter of 3-5 mm. There are polar flagella, do not form covers, grams (-). It does not form oxidase; it forms catalase. In a slightly buffered medium, acid is produced in small amounts. It uses various carbohydrates, but not inulin, rhamnose, adonite, dulcite, salicin, inositol. In milk with a bromocresol purple indicator, acid does not form. Uses acetate, propionate, citrate, malate, succinate. Benzoate and oxalate are not used. Hydrolyzes starch and TWEEN-80, nitrates do not restore. Forms hydrogen sulfide from cystine, thiosulfate, peptone. Acetoin and indole do not form. Needs methionine, glutamic acid, nicotinic acid. Asparagine does not use. Strict aerob. It grows at temperatures from +5 to +30 ^o C. It dilutes gelatin. Tolerant to NaCI - 0.5 - 1.5%. Urease does not form.

 To obtain seed, the strains were grown separately; microorganisms were co-cultured in the fermenter.

For the cultivation of these microorganisms used nutrient medium of the following composition:
KH ₂ PO ₄ - 2 g / l
Na ₂ HPO ₄ - 3 g / l
MgSO ₄ • 7H ₂ O - 0.5 g / l
FeCl ₃ • 6H ₂ O - 0.05 g / l
CaCl ₂ • 2H ₂ O - 0.01 g / l
(NH ₄ ) ₂ SO ₄ - 2 g / l
Soya flour - 5 g / l
Molasses - 20 g / l
Water - Up to 1 L
The cultivation process was carried out in fermenters at T = 20 ^o C, pH 6.8 - 7.2 for 24 hours under aerobic conditions. As an inductor, 0.01% crude oil was used.

As mineral additives in the first example used:
a source of nitrogen - urea - 0.6 wt.%
phosphorus source - double superphosphate - 0.30 wt.%
source of potassium - potassium sulfate for agriculture - 1.5 wt.%
Filler is sterile peat. After introducing the associations of microorganisms into peat, crops were grown at T = 3 ^° C for 120 hours.

The titer of a biological product is 1 • 10 ¹² viable cells in 1 g of the drug.

During testing, the drug was introduced into ceramic vessels filled with soil with different pH (ranging from 4.5 to 8.2) and a fuel oil content of 11.2 - 12.6 g / kg. The amount of the drug introduced is 1 g per 1 kg of soil. The vessels were kept in thermostats in the temperature range from 3 ^o C to 40 ^o C for 90 days. The fuel oil content in the soil was monitored once every 30 days; the experiment was carried out in triplicate. The test results of the biological product are given in table. 1 (see the end of the description).

In another example, a biological product contains:
Pseudomonas putida PI K _o -1 - 6 wt.%
Pseudomonas fluorescens PI-896 - 10 wt.%
Micrococcus species PI K _y -1 - 1 wt.%
Pseudomonas fluorescens PI LBH-3 - 5 wt.%
Pseudomonas putida PI LBH-8 - 8 wt.%
Xanthomonas species PI LBH-7 - 3 wt.%
Microorganisms are grown on the same nutrient medium as in the first example.

Mineral supplements contain:
The source of nitrogen is ammonium sulfate - 0.7 wt.%
The source of phosphorus is simple superphosphate - 0.4 wt.%
The source of potassium - potassium sulfate technical - 0.2 wt.%
Filler is sterile peat. The titer of the drug is 5 • 10 ¹¹ viable cells in 1 g of the drug. The soil to be cleaned contained 11.5-12.9 g / kg of crude oil. The experiment was carried out in triplicate. The test results are given in table. 2 (see the end of the description).

As a result of the experiments, it is possible to state a very high destructive activity of the claimed biological product (up to 93%), including in relation to heavy oil fractions. Moreover, the drug is effective in a wide range of pH and temperature of the cleaned medium (pH 4.5 - 8.2, T = 3 - 40 ^o C).

 The biological product can be manufactured industrially using standard biotechnological equipment using available raw materials.

Claims (1)

Biological product for cleaning environmental objects from oil and oil products, including aerobic oil-oxidizing bacteria, mineral additives and filler, characterized in that it contains a consortium of mesophilic bacterial strains Pseudomonas putida PI K ₀ -1, Pseudomonas fluorescens PI-896, as aerobic oil-oxidizing bacteria species PI K _U -1 and a consortium of psychrophilic bacterial strains of Pseudomonas fluorescens PI LBH-3, Pseudomonas putida PI LBH-8, Xanthomonas species PI LBH-7 in the following ratio, wt.%:
Pseudomonas putida PI K ₀ -1 - 1 - 10
Pseudomonas fluorescens PI-896 - 1 - 10
Micrococcus species PI K _U -1 - 1 - 10
Pseudomonas fluorescens PI LBH-3 - 1 - 10
Pseudomonas putida PI LBH-8 - 1 - 10
Xanthomonas species PI LBH-7 - 1 - 10
Mineral supplements:
Source of nitrogen - 0.25 - 0.75
Source of phosphorus - 0.15 - 0.50
Potassium source - 0.1 - 0.25
Filler - Else

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