RU2238807C2 - Composition for soil purification from oil pollutions - Google Patents

Abstract

FIELD: compositions used for soil purification from oil pollution.

SUBSTANCE: the invention presents a composition used for soil purification from oil pollutions. The composition contains oil-oxidizing microorganisms, an adsorbent and a fertilizer. In the capacity of the adsorbent and the source of microorganisms It contains peat, and in the capacity of fertilizers- nitrogenous phosphorus mineral fertilizers provided, that 100 g of that absolutely dry substance contains 12-15 % of nitrogen and 1.8-2.3 % of phosphorus and the ratio of nitrogen and phosphorus is 1:0.15 at the following relationship of components (in mass %): nitrogenous fertilizer - 24.25-44.10, phosphorus fertilizer - 6.50-8.80, peat (absolutely dry substance)- 47.10-69.25. For purification of the soil with relatively low degree of oil and oil products pollution they offer the composition containing in 100 g of the absolutely dry substance 0.15-0.30 % of nitrogen and 0.065-0.13 % of phosphorus at the following ratio of components (in mass %): Nitrogenous fertilizer - 0.260-0.870, phosphorous fertilizer-0.235-0.500, peat (absolutely dry substance) - the rest. Technical result is production of reception of more simple in component structure and in the method of preparation ecologically pure and cheap composition for a recultivation of the oil-polluted soils, that allows for a short time to purify the different kinds of soils of a different level of pollution.

EFFECT: the invention allows for a short time to purify the different kinds of soils of a different level of pollution.

2 cl, 1 tbl, 4 ex

Description

The invention relates to compositions for cleaning the soil from oil pollution. Known adsorbent for cleaning soil and water from oil and oil products, containing a multi-component natural formation and modifier. Peat or its mixture with sapropel is used as a multicomponent natural formation, and salts of divalent metals of humic acids are used as a modifier [1].

This composition performs the function of a sorbent material and allows you to remove oil pollution from the surface of the spill due to the fact that the drying of the prepared composition leads to the death of microflora and the loss of the ability of peat to additionally play the role of biodegrador of petroleum hydrocarbons. Moreover, peat of a broken structure is used to prepare the sorbent after extracting humic acids from it, which leads to a decrease in its sorption ability with respect to oil. The preparation of a modifier that acts as a water repellent, including the extraction of divalent metal salts from sapropel, is an additional and not entirely justified operation.

By technical nature and the achieved result closest to the proposed invention is a composition for cleaning the soil from oil pollution, adopted as a prototype [2].

The composition according to claim 1 contains oil-oxidizing microorganisms, complex fertilizer and adsorbent in the following ratio of components, wt.%:

Oil-oxidizing microorganisms 1.0-2.0

Complex fertilizer 9.0-16.0

Adsorbent Else

The composition according to claim 2 further comprises Clostridium omelianskii and / or you. mesentericus in the following ratio, wt.%:

Oil-oxidizing microorganisms 1.0-2.0

Complex fertilizer 9.0-16.0

Clostridium omelianskii

and / or you. Mesentericus 0.2-0.4

Adsorbent Else

The disadvantage of the composition is the inclusion in it of expensive well-known bacterial preparations containing a set of certain cultures of microorganisms, possibly not peculiar to a particular region, the introduction of which into oil-contaminated soil, can lead to a violation of the biological balance in a given area. The disadvantages of obtaining the proposed composition include the laborious operation of ammonization of peat in order to obtain complex fertilizers, as well as the implementation of an expensive and lengthy operation of the allocation of oil-absorbing microorganisms.

The objective of the invention is to obtain a simpler component composition and method of preparing an environmentally friendly and cheap composition for the rehabilitation of oil-contaminated soils, which allows, due to its sorption properties and the presence of oil-oxidizing microorganisms, to clean various types of soils of different degrees of pollution in a short time.

The problem is solved by creating compositions for cleaning the soil from oil pollution, containing oil-oxidizing microorganisms, fertilizer and adsorbent, in which peat is used as an adsorbent and a source of microorganisms, and nitrogen-phosphorus-containing mineral fertilizers are used as fertilizer. Moreover, the first composition for cleaning heavily contaminated soil surfaces with oil and oil products contains 100 g a.s. 12-15% nitrogen (N) and 1.8 - 2.3% phosphorus (P) (with a ratio of N: P = 1: 0.15) in the following ratio of components, wt.%:

Nitrogen fertilizer 24.25-44.10

Phosphate fertilizer 6.50-8.80

Peat (A.S.W.) 47.1-69.25

The second composition contains 100 g a.s. 0.15-0.30% nitrogen (N) and 0.065-0.13% phosphorus (P) in the following ratio of components, wt.%:

Nitrogen fertilizer 0.260-0.870

Phosphate fertilizer 0.235-0.500

Peat (A.S.W.) Else

The first composition can be used to clean the soil from oil pollution of varying degrees after preliminary collection of excess (floating) oil from the soil surface. The proposed composition within the claimed quantitative range contains the optimal amount of nitrogen-phosphorus-containing mineral fertilizers, the introduction of which into oil-contaminated soil of any degree of contamination will provide the ratio C: N: P equal to (10-20): 1: 0.15, necessary, according to the experiment, for the life of hydrocarbon-oxidizing microorganisms for a long time. The claimed quantitative parameters of the content of peat in the composition used as a sorbent of petroleum hydrocarbons will ensure their sorption. Hydrocarbon-oxidizing microorganisms present in peat, when released into the medium containing oil, begin to grow vigorously using the carbon of oil, organic and mineral salts contained in the composition, and biodegradable petroleum hydrocarbons.

The second composition can be used to clean the soil from oil pollution of a low degree - up to 8 l / m ² . The use of the first composition in this case is impractical due to its higher cost and high content of mineral fertilizers in it, which are not needed in such quantities to feed hydrocarbon-oxidizing microorganisms with a low degree of contamination. The claimed quantitative interval of the introduction of nitrogen-phosphorus-containing mineral fertilizers and peat due to the use of the composition in this interval as fertilizer for crops. The composition is introduced into oil-contaminated soil at the rate of adding peat (humidity 60%), nitrogen (N) and phosphorus pentoxide (P ₂ O ₅ ) at a dose of 100 tons, 60-120, 60-120 kg, respectively, per 1 ha. The amount of nitrogen and phosphorus contained in the composition corresponds to the minimum value that has a noticeable effect on the rate of oil destruction.

The effectiveness of cleaning oil-contaminated soil is judged by the degree of destruction of oil hydrocarbons and the number of hydrocarbon-oxidizing microorganisms. To do this, a year after treatment, soil analysis is carried out. If necessary, post-treatment for the next spring-summer period in order to intensify the vital activity of hydrocarbon-oxidizing microorganisms, nitrogen-phosphorus fertilizers are added to the treated area in an amount that provides the necessary C: N: P ratio.

New in the claimed compositions is that peat is used as a source of microorganisms, which is a carrier of hydrocarbon-oxidizing microflora adapted to oil pollution, while in the prototype microorganisms are expensive bacterial preparations containing a set of certain crops that may not be typical for a particular region .

In the claimed compositions, fertilizers use mineral fertilizers containing nitrogen and phosphorus, the introduction of which in peat contributes to its activation, which leads to intensification of the growth of oil-oxidizing microorganisms when the composition is added to the medium containing oil, and retain their activity for a long period. The additional presence in the composition of the fertilizer potassium, magnesium, trace elements, as in the complex fertilizer of the prototype, is not required due to their content in sufficient quantities in the peat itself.

As the adsorbent in the claimed invention, peat is used, which has a relatively high oil absorption capacity and does not require disposal, since it is a widely used organic fertilizer, while in the prototype, where wood shavings are adsorbent and cellulose-destroying microorganisms are used for their utilization.

The proposed compositions for cleaning the soil from oil pollution are environmentally friendly, because for their preparation a multicomponent natural formation is used - peat, which is a carrier of macro- and micronutrients, organic fertilizer, and can also act as a cultivator (physical ameliorant), which improves soil aeration and creates favorable conditions for the destructive activity of oil-oxidizing microorganisms.

The proposed compositions are economically advantageous from the point of view of the absence of an additional operation of ammonization of peat in order to obtain the main component of complex fertilizer as in the prototype, since in the proposed compositions, when nitrogen-containing fertilizer is added to peat during subsequent incubation in the mesophilic mode, it undergoes partial ammonization .

To prepare the compositions, moisture peat from 55 to 70% is used, under which the best conditions are created for the absorption of ammonium ions and phosphate ions, and mineral fertilizers containing nitrogen and phosphorus, which are a nutrient medium for microorganisms and provide an increase in the number of oil-oxidizing microflora when the composition is added to oil contaminated soil. Potassium, magnesium, microelements (Cu, Mo), necessary for the life of microorganisms, are found in sufficient quantities in the peat itself.

To obtain a composition according to claims 1 and 2, peat is mixed with mineral fertilizers. Then, for 3-7 days, the prepared mixture is incubated in the mesophilic mode to ensure the required level of the number of hydrocarbon-oxidizing microorganisms.

The characteristics of the composition for cleaning soils from oil pollution, acting as a sorbent and oxidizer of petroleum hydrocarbons:

- sorption capacity in relation to oil - 3.5-8 g of oil / 1 g a.s.v.

- the total number of hydrocarbon-oxidizing microorganisms (100-400) · 10 ⁸ cells / 1 g a.s.v.

Example 1. The composition according to claim 1 is prepared by mixing peat with a decomposition degree of 23%, an ash content of 25%, a moisture content of 60%, with an oil absorption capacity of 6.5 g / 1 g a.s.v and a total number of hydrocarbon-oxidizing microorganisms 1232.9 cells / 1 g a.s.v. in the amount of 690 kg (47.1 wt.%), ammonium nitrate and double superphosphate in the amount of 258.4 (44.1 wt.%) and 51.6 (8.8 wt. %) kg, respectively. The content of nitrogen (N) and phosphorus (P) in 100 g a.s. accounts for 15 and 2.3%, respectively. The resulting mixture is mixed in the mixer for 8-10 minutes and kept in the mesophilic mode for 7 days at a temperature of 22 ° C to provide the required level of abundance of hydrocarbon-oxidizing microorganisms and sorption of ammonium and phosphate ions by peat.

The resulting composition at a dose of 100 t / ha is applied to oil-contaminated soil with a degree of contamination of 15 l / m ² (5.2 g / 100 g of soil), which provides a C: N: P ratio of 13: 1: 0.15. The composition is introduced in the spring and summer using a spreader of mineral fertilizers, followed by mixing with the topsoil to a depth of 20 cm.When it enters the oil-contaminated soil, the composition simultaneously sorb petroleum hydrocarbons, and also contributes to the intensification of hydrocarbon-oxidizing microorganisms responsible for the destruction of petroleum hydrocarbons.

After 7 days, 1 and 3 months after treatment, soil analysis was carried out. The effectiveness of the composition was judged by the degree of destruction of oil and the number of hydrocarbon-oxidizing microorganisms.

The table shows the results of determining the degree of destruction of oil and the total number of hydrocarbon-oxidizing microorganisms. Using the proposed composition, the degree of destruction for 1 month was 23%, for 3 months 64.4%. The number of hydrocarbon-oxidizing microorganisms, increased at the beginning of the experiment, remains stably high for three months.

Example 2. Preparing the composition according to example 1 with a different mass content of components and other fertilizers used as a source of nitrogen and phosphorus. Mixes 849 kg (69.25 wt.%) Of 60% humidity peat, 118.9 kg (24.25 wt.%) Of urea and 31.9 kg (6.5 wt.%) Of ammophos. The content of nitrogen (N) and phosphorus (P) in 100 g a.s.v. is 12% and 1.8%, respectively.

The resulting composition at a dose of 100 t / ha is applied to oil-contaminated soil with a degree of contamination of 15 l / m ² (5.2 / 100 g of soil), which provides C: N: P equal to 19: 1: 0.15.

The effectiveness of the composition, as in example 1, is judged by the degree of destruction of oil and the number of hydrocarbon-oxidizing microorganisms.

The table shows that when using the proposed composition, the degree of destruction for 1 month was 21%, and for 3 months 63.5%.

The number of hydrocarbon-oxidizing microorganisms, increased at the beginning of the experiment, remains stably high for three months.

Example 3. Preparing the composition according to claim 2 of example 1 by mixing 994.5 kg (98.63 wt.%) Peat moisture 60%, 3.5 kg (0.87 wt.%) Ammonium nitrate and 2.0 kg (0.50 wt.%) Double superphosphate.

The resulting composition at a dose of 100 t / ha is applied to oil-contaminated soil with a degree of pollution of 8 l / m ² (2.8 g / 100 g of soil).

The effectiveness of the composition, as in examples 1,2, is judged by the degree of destruction of oil and the number of hydrocarbon-oxidizing microorganisms.

The table shows that when using the proposed composition, the degree of destruction for 1 month was 32%, for 3 months 68%. The number of hydrocarbon-oxidizing microorganisms, increased at the beginning of the experiment, is slightly reduced by the third month of testing.

Example 4. Preparing the composition of example 3 with a different mass content of components and other nitrogen-phosphorus fertilizers included in this composition. 998 kg (99.505 wt.%) Of peat of moisture 60% 1.04 kg (0.260 wt.%) Of urea, 0.94 kg (0.235 wt.%) Of ammophos are mixed.

The resulting composition at a dose of 100 t / ha is applied to oil-contaminated soil over an area of 100 m with a pollution degree of 8 l / m (2.8 g / 100 g of soil).

The table shows that when using the proposed composition, the degree of destruction for 1 month was 30%, for 3 months 67%.

The number of hydrocarbon-oxidizing microorganisms, increased at the beginning of the experiment, is slightly reduced by the third month of testing.

The inventive compositions for cleaning the soil from oil pollution in comparison with the known ones, including the prototype, are more effective, affordable, do not require large expenditures in their production, and allow for a short time to clear the soil of varying degrees of pollution.

Sources of information

1. Patent of the Russian Federation No. 2126717, cl. In 01 J 20/00, publ. 02.27.1999, “Sorbent for water purification from oil and oil products”.

2. Patent of the Russian Federation No. 2112610, cl. C 02 F / 34, publ. 10/06/1998, the "Composition for cleaning the soil from oil pollution and a method of cleaning the soil from oil pollution."

Claims (2)

1. The composition for cleaning the soil from oil pollution, containing oil-oxidizing microorganisms, adsorbent and fertilizer, characterized in that it contains peat as an adsorbent and a source of microorganisms, and nitrogen-phosphorus-containing mineral fertilizers as a fertilizer, provided that it contains 100 g of absolutely dry substances with a composition of 12-15% nitrogen and 1.8-2.3% phosphorus and a ratio of nitrogen and phosphorus equal to 1: 0.15, with the following ratio of components, wt.%: Nitrogen fertilizer 24.25 - 44.10 Phosphate fertilizer 6.50 - 8.80 Peat (absolutely dry matter) 47.10 - 69.25 2. Composition for cleaning the soil from oil pollution, containing oil-oxidizing microorganisms, adsorbent and fertilizer, characterized in that it contains peat as an adsorbent and a source of microorganisms, and nitrogen-phosphorus-containing mineral fertilizers as a fertilizer, provided that it contains 100 g of absolutely dry matter composition of 0.15-0.30% nitrogen and 0.065-0.13% phosphorus in the following ratio of components, wt.%: Nitrogen fertilizer 0.260 - 0.870 Phosphate fertilizer 0.235 - 0.500 Peat (absolutely dry matter)