RU2057724C1 - Method for purification of water and soil against petroleum impurities and petroleum products - Google Patents

Abstract

FIELD: method for purification of water and soil. SUBSTANCE: culture of microorganism and mineral additives are added into purified medium. Said mineral additive contains nitrogen, phosphorous, potassium and magnesium. Mentioned above culture of microorganism is mixture of natural and active cultures which assimilate petroleum. EFFECT: improves efficiency of method. 3 cl

Description

 The invention relates to methods for purifying water and soil from oil pollution using microbiological methods.

 A known method of purifying water, soil and surfaces from contamination with oil and oil products [1] based on the use as a culture of microorganisms of the bacterial strain Acinetobakter oleonorum and mineral additives containing nitrogen in ammonium form and phosphorus in phosphate form.

 A significant disadvantage of this method is its environmental friendliness, since the introduction into the environment of microorganisms that are not peculiar to it can lead to a violation of biological balance, which can cause unpredictable environmental consequences.

 The closest method selected as a prototype is a method of purifying water and soil from oil pollution [2] in which a mixture of bacterial culture of the natural strain Pseudomonas putida-36 and mineral fertilizer nitroammofoski is used for purification. To obtain the biomass of cells of the strain Pseudomonas putida-36, the culture is grown on a liquid or solid nutrient medium, including sources of nitrogen, phosphorus and potassium. The microorganism culture is mixed with mineral fertilizer and water in certain proportions and evenly applied to the contaminated surface.

 The main disadvantage of the prototype, as well as the analogue, is its non-biological nature, since the introduction into the environment of microorganisms that are not peculiar to a particular region can upset the biological balance in a given area. This can cause unpredictable biological effects. The method for its implementation requires large material costs, since in order to obtain microorganism biomass in industrial volumes, which is necessary to clean real oil spills on water and soil, complex technological equipment is needed. The method is not adapted to the environment being cleaned, namely, to the specific microflora composition of each area being cleaned.

 The objective of the invention is to develop an environmentally friendly method of cleaning the environment from oil pollution, which does not require large material costs and on the basis of which it would be possible to clean real oil spills in water and soil in an acceptable amount of time.

 It is possible to solve the problem when using the claimed invention, in which for the purification of water and soil from oil pollution, as well as in the prototype, a culture of microorganisms and mineral additives containing nitrogen, phosphorus and potassium are introduced into the polluted environment, but a mixture of active microorganisms is used natural oil-absorbing microorganisms isolated from the natural community of microorganisms in a polluted environment, and additionally make a mineral supplement containing magnesium.

 The method is environmentally friendly, since the introduced culture of microorganisms contains those types of microorganisms that are common in the area and are constantly present in water and soil. This eliminates the long-term unpredictable environmental consequences associated with the introduction of foreign species of microorganisms, which can occur when using technology based on the prototype. Since microorganisms that are widely distributed in nature are used, the risk of infection of humans and animals by them is excluded.

 The method is economically advantageous, since for its implementation it does not require complicated technological equipment necessary for the implementation of the prototype method.

The obtained practical results allow us to state that this method can be used to clean large areas (tens of ha) in one summer season with an initial oil content of 40-50%
In addition to the mineral additives used in the prototype, containing nitrogen, phosphorus, potassium, to ensure the conditions for the existence of microorganisms, it is necessary to additionally use a mineral additive containing magnesium. Without magnesium, the above-mentioned additives do not stimulate the vital activity of microorganisms.

 The invention provides optimal parameters for the implementation of the method, allowing to obtain the maximum effect when cleaning contaminated areas with minimal cost.

The introduced amount of biomass of microorganisms 2 · 10 ^-6 5 · 10 ^-4 kg per 1 DM ³ contaminated water or soil provides sufficient growth and development of cells.

If we take the amount of biomass less than 2 · 10 ^-6 kg, then the effect when implementing the method is not stable either in terms of time or quality indicators, and in some cases that take place in practice, the process of oil destruction did not go at all. To take the amount of biomass more than 5 · 10 ^-4 kg does not make sense, since an increase in the amount does not almost lead to a decrease in the time of oil destruction. A special role for the successful implementation of the method is played by the process of introducing a culture of microorganisms into the cleaned environment. In the field it was found that the introduction of the culture in the form of a liquid suspension in the required dose gives a reduction in oil content during the summer by 1.5-2 times, the introduction of the culture on a porous solid filler by 10-30 times.

The amount of filler is not among the factors affecting the destruction of oil. Large amounts of filler is not advisable to use, since the complexity of the process unreasonably increases. The optimal amount of biomass mixed with filler is 3-5%
In order to reduce the cost of technology, the cheapest mineral fertilizer, ammonium nitrate, was used as a nitrogen-containing additive. The use of ammonium nitrate leads to acidification of the soil and water, which negatively affects the vital activity of microorganisms. Therefore, diammonium phosphate is used as a source of phosphorus, which alkalizes the medium, which reduces its acidity. The cheapest mineral additives containing potassium and magnesium are potassium chloride and magnesium chloride, which led to their use in the method.

The proposed ratio of mineral additives in the mixture
5-6: 1-1.5: 1: 0.01-0.015 will optimize the conditions for the existence of bacteria. In this case, a violation of the proportion of ammonium nitrate-diammonium phosphate leads to the release of gaseous ammonia and thereby part of the nitrogen is lost. The consumption of a mixture of fertilizers 1 · 10 ^-2 -2 · 10 ^-2 kg For 1 kg of oil, the amount of applied mineral fertilizer is regulated depending on the degree of contamination of the area being cleaned and the moisture content.

The amount of mineral fertilizer corresponding to the lower value of the interval corresponds to the minimum value that has a noticeable effect on the rate of oil destruction, and the upper limit is limited to a value beyond which an increase in the quantity does not lead to a change in the time and quality parameters of the method. It should be borne in mind that the optimal amount of mineral fertilizers applied should correspond to 0.1 · 10 ^-3 -1.2 · 10 ^-1 kg per 1 kg of water contained in the cleaned object. When the concentration of mineral fertilizers is 0.1 · 10 ^-3 kg per 1 kg of water in the cleaned object, activation of microorganisms is observed, which leads to a decrease in the time of oil destruction.

At a concentration above 1.2 · 10 ^-1 kg, inhibition of the growth of microorganisms begins, which increases the time of destruction of oil.

 The method is as follows.

First, a mixture of active natural oil-absorbing cultures of microorganisms is obtained by selection from a natural community of microorganisms. For this, mineral additives (ammonium nitrate, diammonium phosphate, potassium chloride, magnesium chloride) are dissolved in tap water, soil is added from the object being cleaned and oil or oil product. The process proceeds at room temperature. Thus, from the natural community of microorganisms present in the object being cleaned, the group that is able to use oil or oil products as a source of carbon and energy is isolated. The resulting aqueous solution of biomass is poured filler, which can be used peat, earth, sawdust of deciduous trees. Mineral additives are added in the form of a solution with a concentration of 2-3%. Watered with oil. When summer temperatures of 15-30 ^{° C} and periodic watering 20-25 days will be filled with filler microorganisms. Then the filler, saturated with culture in fragmented form, is scattered throughout the territory in the required quantities, namely 2 · 10 ^-6 -5 · 10 ^-4 kg per 1 dm ^{3 of} purified water or soil. Mineral fertilizers are applied at the rate of 1 · 10 ^-2 -2 · 10 ^-2 kg per 1 kg of oil.

To improve aeration and closer mixing of the components, agricultural measures are carried out: plowing, cultivator cultivation. After reducing the oil content to 5 · 10 ^-3 -1 · 10 ^-2 kg per 1 kg of soil, sowing with perennial grasses is carried out. If complete decomposition of oil is not achieved in one season, then the culture of microorganisms in a state of suspended animation undergoes a period of low temperatures and restores its activity with increasing temperature.

PRI me R 1. In a non-flowing swamp with an area of 14 · 10 ⁴ m ^{2 the} floating layer of oil is approximately 6 · 10 ^-3 m, i.e. 6 kg of oil per 1 m ² or 6 · 10 ⁴ kg of oil per 1 · 10 ⁴ m ² . The amount of oil on an area of 14 · 10 ⁴ m ² is 84 · 10 ⁴ kg. For purification from oil pollution, 14,020 kg of mineral fertilizers were added to 14 · 10 ⁴ m ² , i.e. ammonium nitrate 10000 kg, diammonium phosphate 2000 kg, potassium chloride 2000 kg, magnesium chloride 20 kg (the ratio of 5: 1: 1: 0.01 is observed). 3% of a mixture of microorganism culture with a peat filler consumed 200 kg per 1 · 10 ⁴ , i.e. 1 · 10 ^-4 kg per 1 dm ^{3 of} contaminated swamp volume. After 60 days after treatment, the amount of oil from 6 · 10 ⁴ kg per 1 · 10 ⁴ m ² decreased to 4 · 10 ³ kg per 1 · 10 ⁴ m ² .

PRI me R 2. A plot of forest soil with an area of 32 · 10 ⁴ m ² had a different level of oil pollution, namely, the oil content was from 16 · 10 ³ kg to 12 · 10 ⁴ kg per 1 · 10 ⁴ m ² . The depth of contamination is 0.2 m. The soil moisture content is 20%. To clean from oil pollution, the amount of mineral fertilizers was added depending on the degree of pollution at the rate of 15 kg of mineral fertilizers per 1 · 10 ³ kg of oil. Those. from 1 · 10 ⁴ was introduced from 240 kg to 1800 kg. The minimum content of mineral fertilizers in 1 liter of water contained in the soil is 6 · 10 ^-4 kg / l, and the maximum is 4.5 · 10 ^-3 kg / l. In areas with an oil content of 16 × 10 ³ kg per 1 × 10 ⁴ m ² were made on 1 x 10 ⁴ m ² 169.1 kg of ammonium nitrate, diammonium phosphate, 42.3 kg, 28.2 kg potassium chloride, magnesium chloride 0 , 4 kg (the ratio in the mixture of fertilizers is 6: 1.5: 1: 0.015).

In areas with an oil content of 12 × 10 ⁴ kg per 1 × 10 ⁴ m ² were made on 1 x 10 ⁴ m ² of ammonium nitrate in 1269 kg of diammonium phosphate, 317 kg potassium chloride 212 kg of magnesium chloride 2 kg (observed ratio 6: 1.5: 1: 0.015). 4% of a mixture of microorganism culture with earth filler was consumed 230 kg per 1 · 10 ⁴ m ² , i.e. 4.6 · 10 ^-6 kg per 1 dm ^{3 of} contaminated soil. After 80 days, pollution in all areas, as was noted, decreased by 14 times.

PRI me R 3. A plot of the territory of the fueling station with an area of 3 · 10 ³ m ² with a level of pollution with diesel fuel of 2 kg per 1 m ² , ie on an area of 3 · 10 ³ m ² contains 6000 kg of oil. The pollution depth is 15 · 10 ^-2 m. Soil moisture 10%. To clean the soil from diesel fuel, 2 · 10 ^-2 kg of mineral fertilizers were applied per 1 kg of oil product, that is, 120 kg was applied to an area of 3 · 10 ³ m ² . The content of mineral fertilizers in 1 liter of water contained in the soil is 2.7 · 10 ^-3 kg / l. The mixture of mineral fertilizers consisted of 85.6 kg of ammonium nitrate, 17.1 kg of diammonium phosphate, 17.1 kg of potassium chloride, 0.2 kg of magnesium chloride (the ratio in the mixture was 5: 1: 1: 0.01). 4% of a mixture of microorganism culture on an earthen carrier was consumed 100 kg per 3 · 10 ³ m ² , i.e. 9 · 10 ^-6 kg per 1 dm ^{3 of} contaminated soil. After 30 days, the level of pollution decreased to 12 · 10 ^-3 kg per 1 m ² .

 The technology based on the claimed method is universal in its breadth of application and can be used to clean soils, soil, fresh and sea water, as well as industrial waste water in various climatic zones, including experimental conditions, from oil and oil products. The technology is environmentally friendly and meets regulatory requirements for the complete restoration of areas contaminated with oil and oil products. The technology is simple and makes it possible to carry out reclamation work in a “one step”, without stretching the process for several seasons. The amount of fertilizer applied does not exceed the usual doses in agricultural practice. The final products of oil degradation are carbon dioxide and water.

Claims (3)

1. METHOD FOR CLEANING WATER AND SOIL FROM OIL AND OIL PRODUCTS POLLUTION, including introducing microorganisms and mineral additives containing nitrogen, phosphorus and potassium into a polluted environment, characterized in that a mineral additive containing magnesium is additionally introduced as an active microorganism culture natural oil-absorbing cultures of microorganisms isolated from the natural community of microorganisms in a polluted environment, and the culture of microorganisms is introduced in neutral is supported in an amount of 2 • 10 ^{- 6} to 5 • 10 ^{- 4} kg per 1 dm ³ of contaminated medium and mineral supplement used in an amount of from 1 • 10 ^{- 2} to 2 • 10 ^{- 2} kg per 1 kg of oil at a concentration of 0.1 • 10 ^{- 3} to 1.2 • 10 ^{- 1} kg per 1 kg of water contained in a polluted medium, while the ratio of nitrogen, phosphorus, potassium and magnesium in mineral additives is respectively (5 6) (1 1,5 ) 1 (0.01 0.015).  2. The method according to p. 1, characterized in that ammonium nitrate is used as a nitrogen-containing additive, diammonium phosphate is used as a phosphorus-containing additive, potassium chloride is used as a potassium-containing additive, and magnesium chloride is used as a magnesium-containing additive.  3. The method according to p. 1, characterized in that the number of microorganisms is 3 5% by weight of the carrier.