RU2422219C2 - Composition for cleaning soil from oil contamination - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to bioengineering and specifically to compositions for cleaning soil from oil contamination. The composition contains peat as an adsorbent and a source of oil-oxidising microorganisms and nitrogen-phosphorus-containing fertilisers, and additionally contains zeolite, 100 g of the absolutely dry substance (a.d.s) of the composition containing 5-10% zeolite, 8.0% gold and 1.2% phosphorus, with the following ratio of components in wt %: nitrogen fertiliser 15.9-23.5; phosphorus fertiliser 5.3-6.1; zeolite 5.0-10.0; peat (a.d.s) - up to 100.

EFFECT: invention increases efficiency of cleaning soil from oil contamination.

1 tbl, 5 ex

Description

The invention relates to compositions for cleaning the soil from oil pollution and can be used in environmental protection, in particular when cleaning various surfaces during emergency oil and oil product spills.

A known method of chemical treatment of soils contaminated with oil and oil products / 1 /, which consists in using a mixture of synthetic detergents and waste from metallurgical industries, including either ferrochrome self-decaying slags (SFS) containing at least 46% CaO, 7-16% MgO, 24-32 % SiO ₂ , 4-8% Al ₂ O ₃ , 2-6% Cr ₂ O ₃ and fractions less than 0.5 mm to 97%, or powdered lime containing not less than 45% CaO and MgO, active MgO not more than 5 %, and fractions less than 1 mm not less than 85%.

The disadvantage of a mixture of synthetic detergents and metallurgical waste products is the impossibility of its use in oil spills on agricultural soils, since synthetic detergents and Al ₂ O ₃ and Cr ₂ O ₃ contained in ferrochrome self-decaying slags will themselves be sources of soil pollution.

A known composition for cleaning the soil from oil pollution / 2 /, taken as a prototype and containing oil-oxidizing microorganisms, adsorbent and fertilizer, moreover, it contains peat as an adsorbent and a source of microorganisms, and nitrogen-phosphorus-containing mineral fertilizers as a fertilizer, moreover, according to claim 1 100 g of absolutely dry substance of the composition contains 12-15% nitrogen and 1.8-2.3% phosphorus in a ratio of nitrogen and phosphorus equal to 1: 0.15, in the following ratio of components, wt.%:

Nitrogen fertilizer 24.2 5-44.10 Phosphorus fertilizer 6.50-8.80 Peat (absolutely dry matter) 47.10-69.25

or, according to claim 2, in the case of a low degree of soil contamination, the composition contains components in an amount, wt.%:

Nitrogen fertilizer 0.260-0.870 Phosphorus fertilizer 0.235-0.500 Peat (absolutely dry matter) rest

The disadvantage of the composition according to claim 1 is the need to make with this composition in conditions of significant oil pollution a high dose of nitrogen-phosphorus fertilizers to comply with the ratio C: N: P equal to (10-20): 1: 0.15, which will lead to soil inhibition biota and slow down the process of destruction of petroleum hydrocarbons. The introduction into the oil-contaminated soil of a high starting dose of mineral fertilizers with the composition according to claim 1 will lead to their significant unjustified consumption, which is economically disadvantageous. And the composition according to claim 2 of the prototype, containing a low amount of mineral components, is used to clean the soil of a low degree of pollution - up to 8 l / m ² , and the objective of the claimed invention is to develop a composition intended for cleaning the soil of any degree of pollution with oil and (or) oil products .

The invention is aimed at eliminating these disadvantages and lies in the fact that the composition for cleaning the soil from oil pollution as an adsorbent and a source of microorganisms contains peat, as a fertilizer - nitrogen-phosphorus-containing mineral fertilizers and additionally contains zeolite, provided that it contains 100 g of absolutely dry substances of 5-10% zeolite, 8% nitrogen, 1.2% phosphorus in the following ratio of components, wt.%:

Nitrogen fertilizer 15.9-23.5 Phosphorus fertilizer 5.3-6.1 Zeolite 5.0-10.0 Peat (absolutely dry matter) up to 100

The proposed composition differs from the prototype in that it additionally contains zeolite. The use of zeolite in combination with peat provides a more intensive process of destruction of petroleum hydrocarbons, which is associated with the multifunctionality of the properties of the claimed composition. Peat has a sorption ability with respect to oil and an increased abundance of hydrocarbon-oxidizing microflora adapted to oil pollution. Peat is a carrier of macro- and micronutrients, organic fertilizer, and can also act as a soil cultivator, which improves soil aeration. Mineral fertilizers are the source of vital activity of microorganisms involved in the destruction of oil. Zeolite in the claimed composition combines the properties of a sorbent for oil and microorganisms, a catalyst for the destruction of petroleum hydrocarbons. The advantage of zeolite is that it acts as a source of macro- and microelements necessary for the activation of oil-oxidizing and nitrogen-fixing soil microorganisms. Due to ion-exchange properties, zeolite is also capable of sorbing mineral nutrition elements, which helps to reduce the toxic effect on microflora of high starting doses of mineral fertilizers included in the proposed composition, that is, it ensures prolonged composition.

Another difference of the claimed composition is the proposed quantitative ratio of its constituent ingredients, which will provide a wider C: N: P ratio equal to (28-39): 1: 0.15, and will also reduce the toxic effect of mineral fertilizers on microflora and provide a higher degree of destruction of petroleum hydrocarbons, which is achieved by lower than in the prototype, the content of nitrogen and phosphorus in 100 g a.s. (8% nitrogen and 1.2% phosphorus).

The proposed composition for cleaning the soil from oil pollution is environmentally friendly, since the basis for its preparation are natural formations - peat and natural aluminosilicate - zeolite.

The proposed composition can be used to clean the soil from oil pollution of varying degrees after preliminary collection of excess oil from the soil surface. The proposed composition contains the optimal amount of zeolite (5-10 wt.%), The introduction of which into oil-contaminated soil contributes to the formation of centers of active destruction of oil hydrocarbons in contaminated soil due to sorption of oil-absorbing cultures of microorganisms on its surface and is a catalyst for the destruction of oil hydrocarbons. In addition, zeolite as a sorbent of elements of mineral nutrition ensures the prolonged use of them and helps to reduce toxic effects on microflora. To reduce the toxic effects of mineral fertilizers on the microflora will also result in lower than in the prototype, the content in the proposed composition of nitrogen and phosphorus (8% N and 1.2% P in 100 g a.s.v.), which will provide a wider ratio C: N: P equal to (28-39): 1: 0.15.

The use of zeolite in combination with peat and mineral fertilizers will provide a more intensive process of destruction of petroleum hydrocarbons.

The effectiveness of the claimed composition was evaluated by the degree of destruction of petroleum hydrocarbons and the number of hydrocarbon-oxidizing microorganisms.

To prepare the inventive composition for cleaning the soil from oil pollution, peat moisture from 55 to 70% and a natural mineral zeolite fraction of 1.0-3.0 mm are used.

To obtain the composition, peat is mixed with mineral fertilizers and zeolite. Then, for 3-7 days, the prepared mixture is incubated in the mesophilic mode.

Example 1. A composition is prepared by mixing peat with a decomposition degree of 23%, an ash content of 25%, a moisture content of 60% in an amount of 875.6 kg (73.8) wt.%), A zeolite fraction of 1-3 mm in an amount of 23.7 kg (5 , 0 wt.%), Urea and ammophos in the amount of 75.5 kg (15.9 wt.%) And 25.1 kg (5.3 wt.%), Respectively. The resulting mixture is mixed in the mixer for 8-10 minutes and aged in the mesophilic mode for 7 days at a temperature of 22 ° C.

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 30: 1: 0.15. The composition is introduced into the oil-contaminated soil in the spring-summer period, followed by mixing with the topsoil to a depth of 20 cm. Soil analysis was carried out after 3 days, then after 1 and 3 months after applying the composition. The effectiveness of the composition was evaluated by the degree of degradation of oil and the number of hydrocarbon-oxidizing soil microorganisms.

Table 1 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 oil destruction for 1 month was 30.8%, for 3 months 66.2%. The number of hydrocarbon-oxidizing microorganisms remains at a high level throughout all three months of the study.

Example 2. The composition is prepared according to example 1. 792 kg (60.4 wt.%) Of peat of moisture 60%, 52.5 kg (10 wt.%) Of zeolite, 123.3 kg (23.5 wt.%) Of ammonia are mixed nitrate, 32.0 kg (6.1 wt.%) double superphosphate.

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 28: 1: 0.15.

The effectiveness of the composition, as in example 1, was evaluated by the degree of destruction of petroleum hydrocarbons and the total number of hydrocarbon-oxidizing microorganisms.

Table 1 shows that when using the proposed composition, the degree of oil destruction for 1 month was 31.9%, for 3 months - 67.1%. The number of hydrocarbon-oxidizing microorganisms remains stably high during the three months of the study.

Example 3. The composition is prepared according to example 2. The resulting composition at a dose of 50 t / ha is applied to oil-contaminated soil with a degree of contamination of 10 l / m ² (3.5 g / 100 g of soil), which provides a ratio of C: N: P equal to 37: 1: 0.15.

The effectiveness of the composition prepared according to example 2 and used under conditions of a lesser degree of soil pollution with oil, in a lower dose (50 t / ha) than in example 2, is judged as in examples 1 and 2 by the degree of destruction of petroleum hydrocarbons and the total number of hydrocarbon-oxidizing microorganisms.

In the table. 1 shows that when using the composition prepared according to example 2 at a dose of 50 t / ha, the degree of destruction for 1 month was 34.3%, for 3 months - 69.4%. Over the course of all three months of the study, a high number of hydrocarbon-oxidizing microorganisms was noted.

Example 4. Preparing the composition according to example 1. The resulting composition at a dose of 50 t / ha is applied to oil-contaminated soil with a degree of contamination of 8 l / m ² (2.77 g / 100 g of soil), which provides a ratio of C: N: P equal to 33: 1: 0.15.

The effectiveness of the composition prepared according to example 1 and used under conditions of a lesser degree of soil contamination with oil in a lower dose than 50 (t / ha) was judged, as in examples 1, 2, 3, according to the degree of destruction of oil and the total the number of hydrocarbon-oxidizing microorganisms.

Table 1 shows that when using the composition prepared according to example 1 at a dose of 50 t / ha, the degree of degradation of oil for 1 month was 33.9%, for 3 months - 70.0%. The number of hydrocarbon-oxidizing microorganisms during the three months of the study remained at a high level.

Example 5. Preparing the composition of example 1.

Mixed 846.5 kg (68.8 wt.%) Peat moisture 60%, 49.2 kg (10 wt.%) Zeolite, 78.2 kg (15.9 wt.%) Urea, 26.1 kg (5 , 3 wt.%) Ammophos. The resulting composition at a dose of 100 t / ha is applied to oil-contaminated soil with a degree of contamination of 20 l / m ² (6.9 g / 100 g of soil), which provides a C: N: P ratio of 39: 1: 0.15.

Table 1 shows that when using the proposed composition, the degree of oil destruction for 1 month was 24.3%, for 3 months - 66.5%. The number of hydrocarbon-oxidizing microorganisms during the three months of the study remained at a fairly high level.

Thus, the proposed composition has a high efficiency of cleaning the soil from oil pollution and is economically beneficial from the point of view of lower than in the prototype the content of nitrogen and phosphorus fertilizers.

Information sources

1. RF patent No. 2152274, cl. B09C 1/08, publ. 07/10/2000 A method for the chemical treatment of soils contaminated with oil and oil products.

2. RF patent No. 2238807, cl. B09C 1/10, publ. 2004.10 27. Composition for cleaning the soil from oil pollution (options).

Claims (1)

Composition for cleaning the soil from oil pollution, containing peat as an adsorbent and a source of oil-oxidizing microorganisms and nitrogen-phosphorus-containing mineral fertilizers, characterized in that it additionally contains zeolite provided that it contains 100 g a.s. composition of 5-10% zeolite, 8.0% nitrogen, 1.2% phosphorus in the following components, wt.%:
Nitrogen fertilizer 15.9-23.5 Phosphorus fertilizer 5.3-6.1 Zeolite 5.0-10.0 Peat (absolutely dry matter) up to 100