RU2102430C1 - Method of biologically restoring fertile lands polluted with oilfield formation waters in steppe, forest-steppe, and desert zones (versions) - Google Patents

Abstract

FIELD: environmental protection. SUBSTANCE: method consists in gradual, several years lasting, agricultural-engineering and plant-reclamation treatment of lands involving water retention and water accumulation, introducing chemical meliorants, and sowing salt- resistant grasses. Depending on pollution degree, annually, a series of technical operations corresponding to each individual year are conducted including agricultural-engineering and plant-reclamation operations in a predetermined succession. EFFECT: improved fertility of lands. 3 cl, 3 tbl

Description

 The invention relates to the protection of the environment, in particular to the biological reclamation of fertile lands, to varying degrees, contaminated with oil reservoir waters, and can be used in the oil industry and agriculture. A known method of biological reclamation of fertile land "Temporary recommendations for the reclamation of lands contaminated with oil reservoir waters. Agro-Industrial Committee of the Tatar Autonomous Soviet Socialist Republic. Kazan Order of Lenin" Badge of Honor "Gorky Agricultural Institute, Kazan, 1987, including such technological operations as desalinization namely, the implementation of moisture-accumulating agricultural methods in the form of deep plowing, retention of melt water, washing with water, desalinization by applying chemical ameliorant to the soil, sowing salt-tolerant crops. However, the method carried out by this method does not have a clear, consistent technology for the work, not taken into account the degree of contamination and the time of the technological operations depending on the start of work in the seasons, there is no relationship between the stages of work and the types and sequence of agricultural practices and phyto-reclamation measures, there are no such necessary technological operations as the application of mineral and organic fertilizers, the scrubbing of green mass on the side At the same time, land cultivation by sorbents, optimal salt tolerant crops were not selected, some operations require large economic costs. The known method provides a slow and ineffective restoration of fertile lands contaminated with oil reservoir waters. The technical task of the proposed invention is desalinization and desalinization of contaminated lands with the displacement from the soil-absorbing complex of exchangeable sodium with its replacement with calcium.

The problem for the biological reclamation of fertile lands contaminated with oil field water to a weak degree of 3 l / m ² is solved due to the fact that in the method of biological reclamation of fertile lands, including phased, agrotechnical and phytomeliorative land cleaning by means of water retention, moisture accumulation , making chemical ameliorant, sowing salt-tolerant crops, in the first year, plowing is carried out to a depth of 25-27 cm, after plowing deep loosening to a depth of 0.5-0.7 m, introduced chemical ameliorant is carried out after deep loosening, followed by plowing to a depth of 18-20 cm, in the second year in April, a cover harrowing is carried out, then mineral fertilizers are applied, cultivation is carried out after mineral fertilizers are applied, then salt-resistant crops are sowed, followed by rolling crops, then green weight on green manure, in the third year in April, cover harrowing is carried out with subsequent cultivation, after cultivation, salt-resistant herbs are sown, followed by prik tyvaniem crops, then make organic fertilizer, organic fertilizer after plowed green mass green manure to a depth of 25-27 cm. Biological remediation fertile land contaminated oilfield formation water in the average degree of 15 l / m ^2, comprising a phased, within several years agrotechnical and phytomeliorative reclamation of lands by means of water retention, moisture accumulation, chemical ameliorant application, sowing of salt tolerant crops, in the first year, plowing is carried out to a depth of 25-27 cm after plowing and deep loosening by 0.5 m, then the lands are washed with sprinkling followed by chemical improvers, after chemical improvers are re-plowed to a depth of 25-27 cm, followed by cultivation monthly until October, in the second year in April, cover harrowing is carried out, followed by mineral fertilizers, carry out cultivation followed by sowing of salt-tolerant crops and rolling crops, then green mass is plowed on green manure to a depth of 25-27 cm, in the third year in April, a cover harrow is carried out cultivation followed by the introduction of organic fertilizers, cultivation is carried out after fertilizing, then salt-resistant grasses are sown, followed by rolling crops, and at the beginning of flowering of grasses, green mass is scented on green manure to a depth of 25-27 cm. For biological reclamation of fertile lands contaminated with oil field waters in strong degree of 30 l / m ^2, comprising a phased, within several years agrotechnical and lands phytomeliorative purification by water retention, vlagonakopleniya, introduced chemical ameliorants, sowing salt-tolerant crops, in the first year they carry out plowing to a depth of 25-27 cm, after plowing, deep loosening is carried out by 0.5-0.7 m, after which they are washed in strips and furrows, followed by chemical ameliorant, then plowing to a depth of 25-27 cm, followed by cultivation every month until October, in the second year, plowing is carried out to a depth of 25-27 cm in April, then deep loosening to a depth of 0.5-0.7 m, followed by washing by sprinkling after washing, make fertilizers with subsequent cultivation After cultivation, salt-tolerant crops are sown with subsequent rolling of crops, when sweeping panicles from grasses, they green the green mass to siderat to a depth of 25-27 cm, in the third year in April, cover harrowing is carried out, followed by the introduction of organic fertilizers, after applying organic fertilizers, they cultivate followed by sowing of salt tolerant herbs and rolling in the crops, then green mass is plowed on green manure to a depth of 25-27 cm.

 This method is illustrated by technological schemes that reflect the essence of the method, expressed in tables.

Table 1 The technological scheme of biological reclamation of fertile lands contaminated with oil fields to a weak degree of 3 l / m ² .

Table 2 The technological scheme of biological reclamation of fertile lands contaminated with oil fields in an average degree of 15 l / m ² .

Table 3 The technological scheme of biological reclamation of fertile lands contaminated with oil reservoir waters to a large extent - 30 l / m ² .

 Immediately after the accident, the bulk of the salts contained in the oil reservoir waters accumulate in the upper horizon of 0-40 cm. The occurrence of technogenic salt marshes and solonchak soils occurs. The main harmful effect of oil field formation water is due to the replacement of excess sodium in the composition of the soil-absorbing complex of agrobiologically valuable calcium. After the liquidation of the emergency spill of oil reservoir water, the boundaries and degree of contamination of fertile lands are established. Depending on this, a certain technological sequence of operations, the type and sequence of agricultural practices at certain stages of biological reclamation of fertile lands are used.

If contaminated oilfield formation water fertile lands to a slight extent of 3 l / m ² in the first year of plowing carried out to a depth of 25-27 cm in order to preserve and moisture accumulation, due to the concentration of salts generally to a depth of 27 cm, a depth of plowing less than 25 cm will not form the optimal downward water-salt flow, which removes soluble salts from the root layer, and plowing to a depth of more than 27 cm will not provide optimal preservation and accumulation of moisture, after plowing, deep loosening is carried out to Framing a kind of screen for lifting moisture and salts along the soil capillaries. Plowing, followed by deep loosening, is carried out after contamination of the land and liquidation of the accidental spill of oil reservoir water. After deep loosening, chemical ameliorant is introduced at the beginning of work in the spring in summer and winter in September, in the autumn after loosening. Then plowing is carried out to a depth of 18-20 cm. Plowing to a depth of less than 18 cm and more than 20 cm does not provide an optimal decrease in alkaline reaction and salinization of land.

Agrotechnical measures in the first year of biological reclamation lead to the release of contaminated land from the bulk of the salts. Their concentrations fall 7-8 times in the upper horizons (0-20, 0-40) cm and 3-5 times in the lower (60-80, 80-100) cm. At this stage, intense desalination occurs
exemption from water-soluble salts along the entire soil profile and the formation of slightly saline (residually saline land differences). The sodium content in the absorption complex is reduced to 15-18%. In the second year after cover harrowing in April, fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha are applied, then cultivation is carried out and salt-resistant crops are sown, for example Sudanese 30 kg / ha, followed by rolling in the crops, then the green mass is plowed on green manure to a depth of 25-28 cm. The smell of green mass on green manure to a depth of less than 25 cm and more than 28 cm reduces its effectiveness as organic fertilizer on lands contaminated with oil fields mi waters. In the second year of biological reclamation of fertile lands, residual salt concentrations do not prevent the beginning of restoration of vegetation cover. A geochemical situation is created in which the impact of remediation measures leads to the displacement of sodium from the absorption complex, its content decreases to 5%. The cultivation of salt tolerant crops and their subsequent scenting on green manure contributes to some enrichment of the soil with organic matter and its structuring, which creates certain conditions for microbiological activity and biological activity. In the third year in April, cover harrowing is carried out, after harrowing, cultivation is carried out, after cultivation, salt-resistant grasses are sown, for example, alfalfa, 16-20 kg / ha, followed by rolling crops and at the beginning of flowering grasses, organic fertilizers of 40 t / ha are introduced. Then green mass is plastered on green manure to a depth of 25-27 cm. In the third year of biological reclamation, almost complete displacement of sodium from the absorbing complex of lands occurs. Microbiological processes are normalized and the natural reaction of soil solutions is restored over the entire root profile.

For biological reclamation of fertile lands contaminated with oil reservoir waters of an average degree of 15 l / m ² , plowing is carried out in the first year to a depth of 25-27 cm, followed by deep loosening to a depth of 0.5-0.7 m. Loosening to a depth of less 0.5 and more than 0.7 m will not contribute to the optimal formation of a kind of screen for the reverse rise of moisture and salts along the soil capillaries. After loosening, washing is carried out by sprinkling with 1000 m ² / ha. A special rinse with fresh water is carried out in order to more quickly release the land from excess salts. Flushing may be performed by flooding or sprinkling. After washing, chemical ameliorants are added in the form of gypsum, phosphogypsum, etc. This ensures a decrease in the alkaline reaction of the earth, prevents and reduces the solonetzation of the earth, which creates favorable water, air, heat and food conditions in the soil. The rate of application of chemical improvers is determined by the formula:
D 0.086 H d (Na 0.1 t),
where D is the rate of application of chemical improver, t / ha,
H is the power of the chemical improver layer,
d volumetric mass of a layer of chemical improver, g / cm ³ ,
Na exchangeable sodium content, mg ECV per 100 g of soil,
T is the sum of exchangeable cations mg EQS per 100 g of soil,
0.1 permissible sodium content (a fraction of the amount of exchangeable cations).

 Before spreading the chemical ameliorant, the field is prepared (ravines, breakup grooves, etc. are leveled).

 The greatest effect is achieved when gypsum is applied in autumn under autumn plowing. In this case, due to the autumn-spring precipitation, the gypsum has time to completely dissolve and noticeably soil the soil by the spring of next year. After applying the chemical improver, plowing is carried out to a depth of 25-27 cm, then cultivation is carried out monthly until October.

In the second year after cover harrowing in April, mineral fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha are applied. The introduction of mineral fertilizers allows you to compensate for the lack of organic matter in saline soils and to intensify the processes of humus formation and humus accumulation, provides favorable conditions for the functioning of plants. After fertilizing, cultivation is carried out followed by sowing of salt tolerant crops, for example, Sudanese 30 kg / ha. Then the crops are rolled up and when panicles are swept from grasses, green mass is sowed onto green manure to a depth of 25-27 cm. In the third year in April, cover harrowing is carried out, after harrowing, organic fertilizers N 40 t / ha are applied, after fertilizing, cultivation is carried out, then salt-resistant grasses are sown, for example, alfalfa 16-20 kg / ha, followed by rolling crops. Then they plow the green mass on the siderat to a depth of 25-27 cm
3. For biological reclamation of fertile lands contaminated with oil reservoir waters to a strong degree of 30 l / m ² , in the first year after cultivating the sorbent, plowing is carried out to a depth of 25-27 cm, then deep loosening by 0.5 m, after loosening, washing is carried out in strips and furrows of 300 m ³ / ha, after washing, chemical ameliorants are added and plowed to a depth of 25-27 cm, then monthly cultivation is carried out until October. In the second year in April, plowing is carried out to a depth of 25-27 cm, followed by deep loosening to a depth of 0.5-0.7 m in May. After loosening, washing is carried out by sprinkling with 1000 m ³ / ha, after washing mineral fertilizers N 80 kg / ha, P 60 kg / ha, K 40 kg / ha are added, followed by cultivation, after cultivation salt-resistant crops are sown, for example, Sudanese with a sowing rate of 30 kg / ha followed by rolling crops. When sweeping panicles from 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, 40 t / ha organic fertilizers are applied after harrowing, cultivation is carried out after fertilizing, salt-resistant herbs are sown after cultivation, for example , alfalfa with a sowing rate of 16-20 kg / ha, followed by rolling crops, at the beginning of flowering of grasses, smell green mass on green manure to a depth of 25-27 cm. This method of biological reclamation of fertile lands contaminated by oil fields and formation waters to varying degrees contribute to the desalinization and desalinization of contaminated lands with displacement of exchange sodium from the soil-absorbing complex with its replacement with calcium, which provides a complete cycle of cleaning contaminated lands with oilfield reservoir waters and restoration of fertility, making cleaning more efficient and reliable .

Claims (3)

 1. The method of biological reclamation of fertile lands contaminated with oil reservoir waters in the steppe, forest-steppe, semi-desert zones, including the phased several years agrotechnical and phytomeliorative reclamation of lands by moisture retention, moisture accumulation, chemical reclamation, sowing salt tolerant crops, the first one characterized in that a year after cultivating the soil with sorbents, plowing is carried out to a depth of 25 27 cm, after plowing, deep cultivation is carried out to a depth of 0.5 0.7 m, chemical reclamation is introduced Antes are carried out after deep loosening, followed by plowing to a depth of 18 20 cm, in the second year in April, cover harrowing is carried out, then mineral fertilizers are applied, cultivation is carried out after mineral fertilizers are applied, then salt-resistant grasses are sown, followed by rolling crops, then green mass is plowed onto green manure 25 27 cm, in the third year in April, cover harrowing is carried out with subsequent cultivation, after cultivation, salt-resistant grasses are sown, followed by rolling by sowing crops, then organic fertilizers are applied, after applying organic fertilizers, the green mass is scented on green manure by 25 27 cm.  2. A method for the biological reclamation of fertile lands contaminated with oil field water in the steppe, forest-steppe, semi-desert zones, including the phased several years agrotechnical and phytomeliorative reclamation of land by means of water retention, moisture accumulation, chemical reclamation, sowing salt tolerant crops, the first one characterized in that a year after cultivating the land with a sorbent, plowing is carried out to a depth of 25 27 cm, after plowing, deep loosening is performed at 0.5 0.7 m, then the land is washed with doge cultivation followed by chemical ameliorants, after chemical ameliorants are plowed to a depth of 25 27 cm, followed by cultivation every month until October, in the second year in April, cover harrowing is carried out, followed by mineral fertilizers, after mineral fertilizers are cultivated, followed by sowing of salt tolerant crops and rolling crops, then 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, followed by Eseniya organic fertilizers, cultivation is carried out after application, then seeded with salt tolerant grass crops, followed by rolling, and in the beginning of flowering grasses plowing produce green mass green manure to a depth of 25 27 cm.  3. A method for the biological reclamation of fertile lands contaminated with oil field water in the steppe, forest-steppe, semi-desert zones, including stage-by-stage agrotechnical and phyto-reclamation land cleaning by moisture retention, moisture accumulation, chemical reclamation, sowing salt-tolerant crops, the first one characterized in that a year after cultivating the land of sorbents, plowing is carried out to a depth of 25 27 cm, after plowing, deep cultivation is carried out by 0.5 m, after cultivation, sowing in strips and furrows, followed by chemical ameliorants, then plowing to a depth of 25 27 cm, followed by cultivation monthly until October, in the second year, plowing to a depth of 25 27 cm in April, then deep loosening to a depth of 0.5 0, 7 m, followed by washing by sprinkling, mineral fertilizers are added after washing, followed by cultivation, salt-resistant crops are sown after cultivation, followed by rolling crops, when panicles are swept from grasses flax mass on green manure to a depth of 25 27 cm, in the third year in April, cover harrowing is carried out with the subsequent application of organic fertilizers, after organic manure is applied, cultivation is carried out followed by sowing of salt tolerant herbs and rolling crops, then green mass is plowed on green manure to a depth of 25 27 cm .

Images