RU2174454C2 - Crude oil- and oil product-polluted land reclamation method - Google Patents

Abstract

FIELD: oil pollution removal. SUBSTANCE: preparation "Ekogum" is added to soil, which is product obtained after extracting active humic acids from brown coal with sodium hydroxide solution and which contains at least 30 wt. % water-soluble sodium humate and has pH 9.0 for its 1-% aqueous solution. EFFECT: enhanced land reclamation efficiency and improved sanitary-hygienic condition of oil- polluted land. 6 tbl

Description

 The invention relates to the protection of the environment, in particular to the protection of soil resources from industrial pollution.

 Protecting soils from technogenic degradation and pollution is an important component of a modern environmental management strategy. Of particular importance is the problem of preservation and restoration of the natural soil layer - humus. Given that it takes about 100 years to restore the humus layer of soil 10 cm thick naturally, the urgency of the problem of reclamation of technologically disturbed lands and rational use of soil resources is quite obvious. Another important aspect of this problem is sanitary and hygienic, since exceeding the allowable limits for oil products, aromatic hydrocarbons, benzo (a) pyrene and other toxic substances in contaminated soils, worsening the sanitary and hygienic characteristics of soils, poses a serious threat to public health.

 One of the known, environmentally friendly methods for cleaning oil-contaminated soils is the use of biological preparations based on strains of microorganisms that can use hydrocarbons as the sole source of nutrition and energy.

 The closest technical solution we have taken as a prototype is a method of reclamation of soils contaminated with oil and oil products by treating the soil with the bacterial preparation "Bacispecin" based on a natural strain of bacteria Bacillus species [1].

A significant drawback of bacterial preparations recommended for the elimination of oil pollution is that most of them are able to perform their destructive functions only under optimal humidity conditions and in the range of relatively high temperatures (from +10 ^o C to +30 ^o C), which limits them application, in particular, in the Far North and Western Siberia, where the bulk of the productive wells of the Russian Federation are concentrated. In addition, the use of preparations based on microbial cultures requires constant feeding with mineral food sources, which significantly increases the cost of the already very high cost of biological products (up to $ 100 thousand per 1 ton). And, indeed, an analysis of the environmental activities of the largest oil and gas producing companies (ANK Bashneft, Surgutneftegaz, Yuganskneftegaz, etc.) shows that in the current economic situation, the use of bacterial preparations does not go beyond the scope of field trials on limited sites. All of the above necessitates the search for new, environmentally friendly reagents based on an affordable and cheap raw material base to accelerate the self-cleaning of contaminated soils.

 As is known, soil organic matter is 80-90% represented by a complex complex of humic substances, the ecological role of which is to accumulate huge reserves of nutrients and energy necessary for plant growth and development [2].

 In recent years, data have appeared on the ability of biologically active humic substances to stimulate seed germination and plant growth, improve plant adaptation to the effects of ionizing radiation and pesticides [3, 4].

 The prospect of using humic acids and fulvic acids to clean the soil from metals and radionuclides is evidenced by the article published in the foreign press [5].

 When studying the effect of humate-containing reagents on microbiological processes in oil-contaminated soil, we first revealed the ability of humic substances to activate the biodegradation of oil hydrocarbons.

 The aim of the invention is to increase the effectiveness of reclamation and improve the sanitary-hygienic condition of soils contaminated with oil and oil products.

 This goal is achieved by the fact that the reclamation method is carried out by introducing into the soil contaminated with oil and oil products, the EcoGum preparation, obtained on the basis of humic substances extracted from natural raw materials - brown coal.

 Ecogum is produced according to TU 0258-004-20672718-93 and is a product of exhaustive neutralization of brown coal humic acids with a solution of sodium hydroxide.

Qualitative indicators of the drug:
1) appearance - powder from brown to black;
2) filtration in 30 minutes - not more than 6 cm ³ ;
3) moisture content - not more than 28.0%;
4) the content of sodium humate is not less than 30.0%;
5) the pH of a 1% aqueous reagent solution is 9.0;
6) particle size distribution — residue on a sieve with a mesh size of 2.0 mm — not more than 2.0%.

 Ecohum is a low-toxic and low-hazard compound (IV hazard class GOST 12.1.007. -76). The drug does not have allergenic and carcinogenic activity.

 Examples of specific use of the drug Ecogum.

 Example 1. The effectiveness of our proposed method was evaluated in laboratory conditions by the ability of Ecogum to increase the biological activity of oil-contaminated soil, as well as to improve its structural state in a long-term model experiment when applied at doses comparable to the doses of organic fertilizers generally accepted in agronomic practice. It was shown that the application of Ecogum led to an improvement in the structural state of the soil, while the content of agronomically valuable water-resistant aggregates (3-1 mm) increased by more than 100% compared with the control variant, as well as with the variants treated with mineral and organic fertilizers (table 1).

 An increase in the biological activity of oil-contaminated soil in the experiment with the introduction of the Ecogum preparation is evidenced by the high number of bacteria that absorb organic forms of nitrogen, as well as hydrocarbon-oxidizing bacteria, which are the main destructors of the organic matter of oil, the number of which over the entire observation period was 2-3 times higher than the control level option (without making the drug, table 2). It should be noted that the introduction of a double dose of a humic preparation (100 t / ha) did not increase its effectiveness. When a humic preparation is introduced into an oil-contaminated soil, an increase in the intensity of soil respiration (carbon dioxide production) is also observed, which is an integral indicator of the intensity of microbiological processes in the soil, while the most intensive biodegradation of organic compounds occurs in the first two months, 2-4 times higher than the level of respiration oil-contaminated soil in the control variant (without treatment with the drug). After three months, there is an equalization of the intensity indicators of the mineralization losses of organic carbon in various experimental variants.

 Example 2

 The effectiveness of the proposed method is shown in assessing its effect on the quantitative and qualitative characteristics of humus and phytotoxicity of oil-contaminated soil in a model laboratory experiment.

From table 3 it can be seen that the use of Ecogum contributed to an increase in the content of water-soluble organic matter and mobile humus (almost twice); expansion of the ratio of C _gc : C _fc (carbon of humic acids to carbon of fulvic acids) in the embodiment with the addition of Ecogum is associated with the content of humic acids in its composition; under the influence of the drug, an increase in the content of humic substances, represented by "free" and associated with one and a half oxides of humic acids, occurs. The observed positive changes in the quantitative and qualitative characteristics of humus, the most important factor in soil fertility, are due to the transition of the compounds that make up the Ecogum to the fractions of humic substances and the formation of complex complexes with soil organic matter.

 An objective criterion for the effectiveness of the proposed method of reclamation is to reduce the phytotoxicity of oil-contaminated soil. In an experiment with seed germination, it was found that in the variant with the introduction of Ecogum, the level of phytotoxicity of the soil is reduced to 70% compared with the control soil not treated with the drug. The same effect has the introduction of manure at a dose of 70 t / ha; the application of mineral fertilizers reduced the toxicity of oil-contaminated soil slightly.

 Example 3

 The effectiveness of our proposed remediation method was evaluated by the ability of Ecogum to increase biological activity and improve sanitary and hygienic indicators of oil-contaminated soil under field conditions (the soil was contaminated as a result of an accidental oil spill in the territory of the oil field No. 4 of the Uzybashevskoye oil field Ufaneft). For comparison, in one of the experimental variants, the well-known bacterial preparation Bacispecin was introduced.

 From table 4 it can be seen that in 1 term of the study, the maximum number of heterotrophic bacteria assimilating organic nitrogen was noted in the variant with the addition of a humic preparation at a dose of 10 t / ha - 3 times higher than in the control untreated version. In the second term of the study (after 2 months), the stimulating effect of Ecogum on the development of this group of bacteria was noted in the variants with both doses of the drug (exceeding the control level by 5 and 6 times, respectively).

 It should be noted that the use of the bacterial drug Bacispecin in the first two terms is not effective, which is explained by the arid conditions of the hot summer of 1997 and the low moisture availability of the soil, which negatively affected the activity of the strain-destructor. And only at the end of the observation period (in October) was the stimulating effect of Bacispecin on the number of bacteria using organic nitrogen observed; the maximum number of microorganisms during this period was determined in the variant with the introduction of Ecogum at a dose of 5 t / ha.

 The number of hydrocarbon-oxidizing bacteria in all cases was characterized by moderate changes, reaching maximum development in the variant with the introduction of a humic preparation (10 t / ha) at the end of the observation period.

 A very sensitive indicator of the productive properties of soils is the content of bacteria that bind nitrogen and provide plants with this main biogenic element, in particular, belonging to the genus Azotobacter. It was established that oligonitrophils, bacteria that can develop with a low supply of nitrogen-containing substances, respond positively to the introduction of Ecogum, and the numbers of the azotobacter increase in the same variants, and the bacterial drug Bacispecin is much inferior to Ecogum in its stimulating effect on the development of the azotobacter, which is a microbiological indicator soils.

 In the variants with the introduction of the humic preparation in the first two terms, the number of microscopic mushrooms sharply increases (3 times higher than the control level), and only at the end of the observation period their number in different experimental variants is characterized by comparable values.

The activation of microbiological processes in oil-contaminated soil upon application of a humic preparation is also evidenced by the results of determining the intensity of CO ₂ emission (“respiration” of the soil). From table 5 it is seen that the application of the humic preparation increases the respiration rate of the soil, while there is a correlation between the rate of CO ₂ emission from the reclaimed soil and the dose of the applied preparation. It should be noted that in both variants with the introduction of different doses of the humic preparation, a high level of CO ₂ production is maintained throughout the entire observation period (2.5 months), while in the control variant and the variant with the introduction of the bacterial preparation by the end of the growing season decrease in the value of this indicator. In the control variant and the variant with the introduction of the bacterial preparation by the end of the growing season, a noticeable decrease in the value of this indicator is observed.

 The sanitary-hygienic state of the reclaimed oil-contaminated soil was assessed by the content of oil products and chlorides, which are an indicator of secondary salinization of soils - one of the most unfavorable environmental consequences of accidental soil pollution, causing a sharp decrease in soil productivity and plant death. It was shown that the introduction of a humic preparation contributed to the acceleration of biodegradation of oil products and a decrease in their concentration under commercial conditions from 52,240 to 26,640 mg / kg, i.e., by 49% of their initial content (at a dose of humic preparation of 5 t / ha). The use of a double dose of a humic preparation did not increase the effectiveness of its action, and only at the end of the observation period in this variant the oil content decreased by 20% (table 6).

 The introduction of the humic preparation also contributed to a decrease in the chloride content in the oil-contaminated soil, and the effect of the humic preparation was longer in comparison with the bacterial preparation (drawing). In the non-treated variant, the chloride content in the first two months decreased slightly, and by the end of the observation period it reached its initial value. The introduction of a double dose of the humic preparation did not have a significant effect on the salt content - in this embodiment, there was a tendency to some increase.

 Thus, on the basis of the data of a lengthy model experiment, as well as field tests, the possibility of using humic substances for reclamation, increasing fertility and improving the sanitary and hygienic condition of oil-contaminated soils was first established.

The proposed method for the rehabilitation of soils contaminated with oil and oil products, has the following advantages:
- high efficiency, based on the activation of the processes of microbiological degradation of oil hydrocarbons, which, in contrast to the use of bacterial destructive strains, is independent of environmental factors - temperature, pH, humidity, provision with batteries, etc .;
- the ability to cleanse soils not only from petroleum products, but also chlorides that adversely affect the biological and agrochemical properties of soils;
- the ability to reduce the phytotoxicity of oil-contaminated soils and increase their fertility, as indicated by the intensive development of nitrogen-fixing bacteria in the soil treated with a humic preparation;
- the ability to improve the structurally-aggregate state of reclaimed soil and increase the content of water-soluble organic matter and mobile humus;
- the availability and low cost of the proposed humic preparation due to the manufacturability and simplicity of the method of its production on the basis of natural cheap raw materials (brown coal).

List of references
1. Andreson R.K., Khaziev F.Kh., Deshura V.S. et al. RF Patent N 2077397, B 09 C 1/10, C 09 K 3/32. "Method for the restoration of oil contaminated soils", 1993

 2. Alexandrova L.I. Organic matter of the soil and the processes of its transformation - L., "Science", 1980. - S. 286.

 3. Motovilova L. V., Berman O. N., Skvortsova O. V. Humates are environmentally friendly stimulators of plant growth and development // Chemistry in Agriculture. - 1994. - N 5. - S. 12-13.

 4. Gorovaya A. I. The role of physically active humic substances in the adaptation of plants to the action of ionizing radiation and pesticides // Humic substances in the biosphere. - RAS, Scientific Tip. Prob. Soil science. - M., 1993 .-- S. 144-150.

 5. Acids may play bioremediation role // Applied Genetics News. - 1996. - 16, N 12, - p. 2-3.

Claims (1)

 The method of reclamation of soils contaminated with oil and oil products by treating the soils with a bioactivator of microbiological and soil-forming processes, characterized in that the preparation Ecoogum is used as a bioactivator; % and pH of a 1% aqueous solution is 9.0.

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