RU2083069C1 - Method for biological reclamation of fertile soils contaminated with oil-containing sewage water in steppe, forest-steppe and semiarid zones (versions) - Google Patents

Abstract

FIELD: environmental control, in oil industry and agriculture. SUBSTANCE: method involves applying chemical ameliorants (phosphogypsum) and organic fertilizers (manure); effectuating staged reclamation works: during first and subsequent two years, agrotechnical and phytoameliorative operations are effectuated in predetermined sequence and time in predetermined seasons depending on extent of contamination. Fertile soils with 3 l/sq m contamination are considered as low contamination soils, 15 l/sq m - as medium contamination soils and 30 l/sq m - as high contamination soils. EFFECT: increased efficiency, simplified construction and improved quality of reclaimed soils. 3 cl, 3 tbl

Description

 The invention relates to the protection of the environment, in particular, to the biological reclamation of fertile lands contaminated with drilling wastewater, and can be used in the oil industry and agriculture.

Drilling wastewater generated during well construction consists of several components. These are saline solutions, petroleum products and solid minerals suspended in water. The saline solution contains up to 83.3 g per 1 liter of readily soluble salts, the composition of which is mainly represented by sodium chloride. Petroleum products amount to 0.2-0.7 kg / m ³ , solid minerals suspended in water 0.2-0.4 kg / m ³ . Saline solution causes salinization and salinization of soils. Petroleum products inhibit the microbiological and enzymatic activity of soils. Solid minerals do not significantly affect the fertility of land.

 A known method of land reclamation in the zone of boreholes [1] including the discharge of liquid drilling waste into the drainage system (trench) with the preliminary placement of compost in it, consisting of a mixture of manure treated with phosphogypsum and straw. However, this method does not provide for the use of technology of agrotechnical and phyto-reclamation measures, the degree of contamination with drilling wastewater, the beginning of work by the seasons are not taken into account, there are no clear technological schemes for carrying out remediation work in stages.

 An object of the invention is the cleaning of contaminated lands due to the accelerated biological decomposition of petroleum products and removal of excess salts from the root layer.

The stated technical problem for the reclamation of fertile land, of muddy drilling wastewater in a weak degree of 3 l / m ² is achieved in that in the known method, biological reclamation of fertile land, comprising introducing chemical meliorants (fosfogena) and organic fertilizer (manure) remediation operation is performed in stages , in the first year they carry out loosening to a depth of 12-15 cm, a month after loosening they carry out chiseling by 12-15 cm, a month after loosening they carry out plowing by 25-27 cm, followed by deep by loosening by 0.5-0.7 m, a chemical improver is applied in September followed by plowing to a depth of 18-20 cm, in the second year in April, cover harrowing is carried out followed by the application of mineral fertilizers, after applying mineral fertilizers, cultivation is carried out, after cultivation they produce sowing salt-tolerant grasses, followed by rolling the crops, at the beginning of flowering grasses smell green mass on green manure to a depth of 25-27 cm, in the third year in April cover harrowing, organic fertilizers are applied after harrowing, after applying ud shaving is carried out cultivation, after cultivation they carry out the sowing of salt-resistant nitrogen-containing grasses, followed by rolling the crops, at the beginning of flowering of grasses, they green the green mass to a siderat to a depth of 25-27 cm. For biological reclamation of fertile lands polluted with drilling waste water to an average degree of 15 l / m in the method, including the introduction of chemical ameliorants (phosphogypsum) and organic fertilizers (manure), reclamation is carried out in stages, in the first year they cultivate the land with sorbents and carry out loose the soil is poured to a depth of 12-15 cm, a month later, chiseeling is carried out by 12-15 cm, a month after chiseling, plowing is carried out to a depth of 25-27 cm, followed by deep loosening by 0.5-0.7 m, after loosening, washing is carried out by sprinkling , then chemical improvers are added, followed by plowing by 25-27 cm, in the second year in April, cover harrowing is carried out with the subsequent application of mineral fertilizers, after mineral fertilizers are applied, cultivation is carried out, after cultivation, salt-resistant nitrogen-containing herbs are sown, followed by by rolling down the crops, at the beginning of the flowering of grasses, green mass is plowed on green manure to a depth of 25-27 cm, in the third year in April, cover harrowing is carried out, after harrowing, organic fertilizers are applied followed by cultivation, after cultivation, salt-resistant nitrogen-containing grasses are sown, followed by rolling crops , at the beginning of the flowering of grasses, they plow the green mass on green manure to a depth of 25-27 cm. For biological reclamation of fertile lands contaminated with drilling waste water to a high degree of 30 l / m in a person, including the introduction of chemical ameliorants (phosphogypsum) and organic fertilizers (manure), reclamation is carried out in stages. In the first year, the soil is cultivated with sorbents, after cultivating the soil with sorbents, they are cultivated to a depth of 12-15 cm, a month after cultivation, chiseling is carried out to a depth of 12-15 cm, a month after cultivation, plowing is carried out to a depth of 25-27 cm, followed by deep cultivation , after loosening, washing is carried out in strips and furrows with the subsequent application of chemical reclamants, after the application of chemical reclamants, plowing is carried out to a depth of 25-27 cm, after plowing, cultivation is carried out monthly until November, in the second year in In April, plowing is carried out to a depth of 25-27 cm, followed by deep cultivation, after cultivation, washing is carried out by sprinkling, mineral fertilizers are applied after washing, cultivation is carried out after mineral fertilizing is applied, cultivation of salt-tolerant nitrogen-containing herbs is carried out after cultivation, followed by rolling of crops, at the beginning of flowering the grasses are smelled green mass on siderat to a depth of 25-27 cm, in the third year in April, cover harrowing is carried out, after harrowing, organic fertilizers are applied, after applying of fertilizers carry out cultivation, after cultivation they carry out the sowing of salt-tolerant nitrogen-containing herbs, followed by rolling crops, at the beginning of flowering of grasses, green mass is plowed on green manure to a depth of 25-27 cm.

This method is illustrated by technological schemes made in the form of tables: table. 1 technological scheme of biological reclamation of fertile lands contaminated with drilling wastewater to a weak degree -3 l / m ² ; tab. 2 technological scheme of biological reclamation of fertile lands polluted by drilling waste water to an average degree - 15 l / m ² ; tab. 3 technological scheme of biological reclamation of fertile lands contaminated with drilling waste water to a high degree - 30 l / m ² .

 The method is as follows.

Spilled drilling wastewater is removed from the surface of the earth by technical means and using various sorbents. Immediately after the completion of the technical phase, biological reclamation of fertile lands contaminated with drilling wastewater is carried out. When contamination of fertile land drilling wastewater in a weak degree of 3 l / m ² on the first calendar year carried loosening to the depth of 12-15 cm, one month after loosening carried chizelevanie 12-15 cm. Chizelevanie to a depth of at least 12 cm and more than 15 cm will not provide optimal improvement of the air regime of the soil, restoration of microbiological communities and the living conditions of soil animals. A month after chizing, plowing is carried out at 25-27 cm. Plowing to a depth of at least 25 cm will not form a flow, more than 27 cm does not contribute to the conservation and accumulation of moisture after plowing, deep loosening is carried out by 0.5-0.7 m. a depth of less than 0.5 m and more than 0.7 m will not contribute to the optimal formation of a kind of screen for the reverse rise of water, moisture and salts through the soil capillaries; in September a chemical ameliorant is introduced with subsequent plowing by 18-20 cm. After the first year of events, almost complete destruction of tone Second oil film due to its weathering and evaporation. The concentration of salts drops 7-8 times in the horizons 0-20 cm and 20-40 cm, and 3-5 times in the horizons 40-60 cm, 60-80 cm, 80-100 cm. In the second year in April, a coverslip is carried out harrowing, followed by the application of mineral fertilizers N 30 kg / ha, P 60 kg / ha, K 40 kg / ha, after the application of mineral fertilizers, cultivation is carried out, followed by sowing of salt tolerant crops and then the crops are rolled. At the beginning of the flowering of herbs, the green mass is smelled on green manure to a depth of 25-27 cm. The smell of green mass on green manure less than 20 cm and more than 27 cm reduces its effectiveness. After the second year of activities, excess salts are removed from the root layer with a thickness of 1.0-1.5 m to a low degree of salinization. In the third year in April, organic harrowing (manure) of 40 t / ha is applied after harrowing, after cultivation, cultivation is carried out, then salt-tolerant nitrogen-containing grasses are sown, for example, alfalfa with a sowing rate of 16-20 kg / ha, followed by rolling crops, at the beginning of flowering, the green mass is plowed on green manure to a depth of 25-27 cm. After the third year of measures, the excess salts are almost completely removed from the root layer and the growth and maturation of cultivated plants is normalized.

If fertile land is contaminated with drilling waste water to an average degree of 15 l / m ² in the first calendar year after cultivating the land with a sorbent, it is loosened to a depth of 12-15 cm, loosened to a depth of less than 12 cm and more than 15 cm, will not improve the air regime of the soil, restoration of microbiological communities and living conditions of soil animals. After loosening, chiselling by 12-15 cm is carried out in a month. Chiselling to a depth of less than 12 cm and more than 15 cm will not provide optimal improvement of the air regime of the soil, restoration of microbiological communities and the living conditions of soil animals. A month after chiselization, plowing is carried out to a depth of 25-27 cm, followed by deep loosening by 0.5-0.7 m, and after loosening, washing is carried out by sprinkling, followed by the introduction of chemical meliorants, after making chemical meliorants, plowing is carried out to a depth of 25-27 cm. After the first years of events, as well as weak pollution of drilling wastewater, there is almost complete destruction of a thin film of oil products due to its weathering and evaporation. The salt concentration drops 7-8 times in the horizons 0-20 cm, 20-40 cm and 3-5 times in the horizons 40-60 cm, 60-80 cm, 80-100 cm. Covering harrowing is carried out in the second year in April. , then the application of mineral fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha, after the application of fertilizers, cultivation is carried out followed by sowing of salt-resistant nitrogen-containing crops, for example, Sudanese with a sowing rate of 30 kg / ha, then the crops are rolled with the subsequent greening of the green mass on siderat to a depth of 25-27 cm. After the second year of measures, excess salts are removed from the root Ty layer capacity of 1.0-1.5 m to a slight degree of salinity. In the third year in April, cover harrowing is carried out, then mineral fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha are applied, cultivation is carried out after application of fertilizers, and after cultivation, salt-resistant nitrogen-containing herbs, for example, alfalfa, are sown with a sowing rate of 16-20 kg / ha, followed by rolling crops, after sowing, green mass is plowed on green manure to a depth of 25-27 cm. After the third year of measures, the excess salts are almost completely removed from the root layer and growth and maturation of cultivated crops are normalized walls.

When fertile land is contaminated with drilling waste water to a strong degree of 30 l / m ² , the land is treated with sorbents in the first year, after treatment with sorbents, the soil is loosened to a depth of 12-15 cm, a month later, cheeselization is carried out at 12-15 cm. Chizellation to a depth of less than 12 and more than 15 cm will not provide optimal improvement of the air regime of the soil, restoration of microbiological communities and the living conditions of soil animals. Then, after a month, plowing by 25-27 cm is carried out, after plowing, deep loosening by 0.5-0.7 cm after loosening, washing is carried out in strips and grooves with a water norm of 3000 m ³ / ha, after washing, chemical improvers are added, then plowing is carried out on 25-27 cm and monthly until November cultivation. In the second year in April, plowing to a depth of 25-27 cm is carried out, after plowing, deep loosening is 0.5-0.7 m and after loosening, washing is carried out by sprinkling with a water norm of 1000 m ³ / ha, then fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha, then cultivation is carried out, after cultivation, salt-tolerant nitrogen crops are sown, for example, Sudanese with a seed rate of 30 kg / ha followed by rolling crops, then green mass is plowed on green manure depth 25-27 cm. In the third year in April, cover harrowing is carried out, m make organic fertilizers, manure 40 t / ha, cultivate after fertilizing, then sow salt-resistant nitrogen-containing herbs, for example, alfalfa with a seed rate of 16-20 kg / ha, followed by rolling crops, then sow the green mass to green manure to a depth of 25-27 cm. After the first year of measures, as well as after pollution with drilling wastewater and a moderate degree, there is almost complete destruction of the thin film of oil products due to weathering and evaporation, after the second year In the process of taking place, excess salts are removed from the root layer with a thickness of 1.0-1.5 m to a weak degree of salinization. After the third year of activities, the excess salts are almost completely removed from the root layer and the growth and maturation of cultivated plants is normalized. Thus, the sequence and combination of agrotechnical and phytomeliorative operations, their length in time and in seasons, depending on the degree of contamination by drilling waste water of fertile lands, which provides the same biochemical processes and gives the same positive result, is determined. This method of biological reclamation of fertile lands contaminated with drill sewage in the steppe, forest-steppe and semi-desert zones accelerates the biological decomposition of petroleum products and helps to remove excess salts from the root layer with subsequent increase in land fertility.

 The method is effective and reliable. The test results of the method in various geographical points of the steppe, forest-steppe and semi-desert zones showed that over a three-year period the contaminated areas are cleaned and a stable vegetation cover is formed.

Claims (3)

 1. The method of biological reclamation of fertile lands contaminated with drilling wastewater in the steppe, forest-steppe and semi-desert zones, including chemical ameliorants, such as phosphogypsum, and organic fertilizers, such as manure, characterized in that the reclamation is carried out in stages, in the first year they are cultivated to a depth of 12 15 cm, a month after loosening, chiselling by 12 15 cm is carried out, a month after loosening, plowing by 25 27 cm is carried out, followed by deep loosening by 0.5 0.7 m, chemical meliorants are added in September subsequent plowing to a depth of 18 20 cm, in the second year in April, cover harrowing is carried out, followed by the application of mineral fertilizers, after applying mineral fertilizers, cultivation is carried out, after cultivation, salt-resistant nitrogen-containing grasses are sowed, followed by rolling crops, at the beginning of flowering, the green mass is smelled on siderat to a depth of 25 27 cm, in the third year in April, cover harrowing is carried out, organic fertilizers are applied after harrowing, after applying fertilizers, a cultivation is carried out After cultivation, they carry out the sowing of salt-resistant nitrogen-containing herbs, followed by rolling the crops, at the beginning of flowering of the grasses, they green the green mass to the siderat to a depth of 25 27 cm.  2. A method of biological reclamation of fertile lands contaminated with drilling wastewater, including the introduction of chemical ameliorants, such as phosphogypsum, and organic fertilizers, such as manure, characterized in that the reclamation is carried out in stages, in the first year they cultivate the land with sorbents and carry out snow retention, then loosen the earth to a depth 12 15 cm, chiselling by 12 15 cm is carried out in a month, plowing to a depth of 25 27 cm a month after chiselling is carried out, followed by deep loosening by 0.5 0.7 m, after loosening the wire It is washed by sprinkling, then chemical ameliorants are added, followed by plowing to a depth of 25 27 cm, in the second year in April, cover harrowing is carried out, followed by the application of mineral fertilizers, after the application of mineral fertilizers, cultivation is carried out, after cultivation, salt-resistant nitrogen-containing grasses are sowed, followed by rolling crops, at the beginning of flowering of grasses, green mass is plowed on green manure to a depth of 25 27 cm, in the third year in April, cover harrowing is carried out, after harrowing, organic fertilizers are introduced eniya followed by cultivation after cultivation of salt tolerant-seeded grasses nitrogenous followed by rolling crops in early flowering grasses green mass is plowed at a depth of 25 siderate 27 cm.  3. The method of biological reclamation of fertile land contaminated with drilling wastewater, including the application of chemical improvers, such as phosphogypsum, and organic fertilizers, such as manure, the cultivation is carried out in stages, in the first year, the soil is cultivated with sorbents, after cultivation, they are cultivated to a depth of 12 15 cm, one month after loosening, chiselling is carried out to a depth of 12-15 cm, a month after loosening, plowing is carried out to a depth of 25 27 cm, followed by deep loosening of 0.5 0.7 m, after loosening I carry out washing in strips and furrows, followed by the introduction of chemical meliorants, after applying the chemical meliorants, plowing is carried out to a depth of 25 27 cm, after plowing every month till November they are cultivated, in the second year in April, plowing is carried out to a depth of 25 27 cm, followed by deep loosening by 0, 5 0.7 m, after loosening, washing is carried out by sprinkling, mineral fertilizers are added after washing, then cultivation is carried out, after cultivation, salt-resistant nitrogen-containing herbs are sown, followed by rolling by sowing, at the beginning of flowering, the green mass is sown on green manure to a depth of 25 27 cm, in the third year in April, cover harrowing is carried out, organic fertilizers are applied after harrowing, cultivation is carried out after organic fertilizing is applied, after cultivation, salt-resistant nitrogen-containing herbs are sown, followed by by rolling crops, at the beginning of flowering of grasses, they smell green mass on green manure to a depth of 25 27 cm.

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