SU1807069A1 - Method for recultivation of oil-polluted soils - Google Patents

Description

SUBSTANCE: invention relates to methods of soil cultivation, in particular to biological recultivation of oil deposits, damaged soils during the extraction and transportation of oil.

The purpose of the invention is to simplify the process and accelerate the decomposition of oil, as well as the return of soils to agricultural use.

This goal is achieved by the fact that in the known method of reclamation, which provides for preliminary plowing and the introduction of biological additives, the processing of freshly contaminated soil is carried out for two years, and in the period from six months to one year, monthly plowing is carried out to the depth of the arable horizon during the growing season, and during the second year, waste brewer's yeast is introduced in a concentration of 5-10% to the volume of the arable horizon and sowing of oil-tolerant grasses is carried out. When recultivating lands with old pollution (54) METHOD FOR RECULTIVATION OF OIL-CONTAMINATED SOILS (57) Use: oil-contaminated lands. The purpose of the invention: simplification of the process of reclamation and acceleration of the process of degradation of oil hydrocarbons in soils exposed to oil pollution. The essence of the invention: plowing is carried out and brewer's waste yeast is introduced at a concentration of 5-10% per the thickness of the arable layer. Differences in the processing of land with old and fresh pollution are envisaged. In the case of old pollution, plowing is carried out once, fresh - during the growing season of the first year of reclamation work. <2 C.p. f-ly. 1 tab.

oil plowing is carried out once, immediately before the introduction of waste brewer's yeast.

Spent brewer's yeast contains 10-15% of dead cells, 60-80% of glycogen. In addition, they contain compounds of nitrogen, ethyl alcohol, mineral and organic acids, including lactic and acetic, growth substances, vitamins, porphyrins, enzymes.

It is known to use waste brewer's yeast for feeding young animals in agriculture.

For the first time, the use of waste is proposed. brewer's yeast as a universal fertilizer for activating the functional activity of microorganisms present in the soil, participating in the oxidative and co-oxidative processes of oil destruction.

Comparative analysis of the proposed solution with the prototype shows that

1807069 A1 This method differs from the known one in that the technology of processing freshly contaminated soil with oil, the introduction of spent brewer's yeast in an amount of 5-10% to the volume of the arable horizon. Thus, the claimed method meets the criterion of the invention of novelty.

When studying other known technical solutions in this area, the features that distinguish the proposed solution from the prototype were not identified and therefore they ensure that the claimed technical solution meets the criterion of significant differences.

The method is carried out as follows.

For the reclamation of oil-contaminated soils with fresh pollution, loosening should be carried out during one growing season once a month to the depth of the arable layer without turning the layer so that heavy fractions of oil that are difficult to microbiological degradation do not get into the deep layers of the soil, where they can persist for a long time. Loosening is carried out with a VDT-3 heavy disc harrow in a unit with an MTZ-50 tractor. After that, waste brewer's yeast is added at the rate of 5-10% to the volume of the arable horizon.

The next stage is the sowing of perennial grasses of oil-tolerant varieties, which include the hedgehog, timothy grass, white bent, red fescue, straight fire, awnless fire. The seeding rate is increased, the seeding depth is 2.53 cm into the prepared soil. Rolling is carried out before and after planting.

The invention is illustrated by the following examples, the data of which are presented in the table.

Example 1. Plot experiments are carried out under the conditions of model oil pollution at a pollution dose of 24 l / m ² . The experiment was repeated four times. After the introduction of oil, loosening is carried out to the depth of the arable layer once during the growing season. In the second year, brewer's waste yeast is introduced at a concentration of 10% or 30 l / m ² , with simultaneous loosening for the completeness of absorption and prevention of spreading beyond the boundaries of the plot. Ten days after complete absorption and the achievement of optimum soil moisture, an awnless fire is sown with a seeding rate of 30 kg / ha. There are control plots without treatment with spent brewer's yeast. __

In experimental variants, in comparison with the control ones; the content of mobile forms of phosphorus and exchangeable potassium increases by 5-6 times. hydrolytic acidity decreases 1.5 times. Microbiological studies carried out at the end of the growing season showed an increase in the number of heterotrophic bacteria 4 times, spore-forming bacteria - 2 times, bacteria consuming mineral forms of nitrogen - 4 times, actinomycetes - 3 times, fungi - 16 times, hydrocarbon oxidizing bacteria - 2 times.

The action of yeast affects immediately: already in the second year, the yield of raw plant biomass increases by more than 7 times. Awnless fire, growing on a fertilized plot, has a dark green color, the stems reach a height of one meter or more, while in the control plants they are 1.5-2 times lower than the experimental ones and are affected by necrosis. On plots treated with yeast, almost all plants are flowering, while in the control 10-15% are flowering.

A significant increase in grass biomass on fertilized plots helps to cleanse the soil from oil decomposition products, which are more toxic than the oil itself, for example, 3.4benz / a / pyrene. The content of residual oil and 3,4-benzo / a / pyrene at sites with the introduction of beer waste yeast is removed 6 times.

Example 2. The technology of reclamation measures is similar to the above method. The exception is the concentration of the applied waste brewer's yeast, which decreased to 5% by the volume of the arable layer or 15 l / m ² .

Example 3. Differs from examples 1 and 2 by increasing the concentration of spent brewer's yeast up to 12% by the volume of the arable horizon or 36 l / m ² . Experience shows the inexpediency of using increased doses of spent brewer's yeast, since this increases the cost of the reclamation method and does not gain in efficiency.

Example 4. Differs from examples 1, 2 and 3 by reducing the concentration of applied waste brewer's yeast to 3% by the volume of the arable horizon or 9 l / m ² . Experience shows that the effect of this concentration of spent brewer's yeast is lower than at other concentrations.

Example 5. Plot experiments are carried out under the conditions of model oil pollution at a pollution dose of 24 l / m ² .

In the third year after oil pollution (pollution is classified as old), plowing or loosening is carried out and brewer's waste yeast is immediately introduced at a concentration of 5-10% to the volume of the arable horizon. At the onset of the optimal field soil moisture, oil-tolerant grasses are sown. The seeding rate is increased.

The effectiveness of the proposed method in comparison with the prototype is as follows:

the effect is long-term (can be traced for more than 10 years):

the method is effective for the most severe contamination (in the prototype, the method is carried out at a dose of 4.4 l / m ² );

the method is not laborious, excludes the use of other ameliorants:

the method contributes to a significant decrease in the content of 3.4-benzo / a / pyrene.

Claims (1)

Claim 1. A method of remediation of oil-contaminated soils, providing for mechanical treatment of the soil and the introduction of 5 yeast preparation, characterized in that, in order to accelerate the degradation of petroleum hydrocarbons and reduce labor costs. As a yeast preparation, brewer's yeast is used at a concentration of 5-10% to the volume of the layer of the arable horizon of the soil, which is applied after plowing the soil to the depth of the arable horizon, and then sowing oil-tolerant grasses. 15 2. The method according to claim 1 ,. The reason is that the processing of freshly contaminated soils is carried out for two years, and in the first year, plowing is carried out monthly, and brewer's yeast is introduced in the second year. 20 3. The way to pop. 1 with different themes. that the plowing of soils with the old oil pollutant is carried out once and brewer's yeast is immediately introduced. Residual oil content in the arable horizon (0-20 cm) of the soil, in% Option I experiment, oil dose 24 l / m ² 1984 ....... 1985 1986 1987 1988 Control (no oil and fertilizer) Soil + oil Soil + oil + yeast 0.06 2.3 2.4 - 1.9 1.9 1.G 0.0004 1.9 0.3, Content 3,4-benzap irene in the arable soil horizon, in μg / KG Soil + oil Soil + oil + 3199.5 2688.8 121.1 2.2 11.8 yeast - 869.7 49.9 2.8 1.9 | Content of 3,4-benzopyrene in an awnless fire, in μg / kg Soil + oil Soil + oil + yeast No shoots 185.1 36.0 5.9 7.6 10.0 1.6 10.8 Yield of raw biomass of awnless fire, in c / ha Soil + oil Soil + oil + 22.5 ... 27.5 23.7 yeast 10% Soil + oil + 185.0 100.0 130.0 yeast 5% Soil + oil + 135.0 85.0 105.0 yeast 12% 186.0 100.0 130.0