RU2783837C1 - Method for cleaning bottom sediments and water in streams from oil and oil products - Google Patents

Abstract

FIELD: environmental protection.

SUBSTANCE: invention relates to the field of environmental protection and is intended for cleaning natural and artificial watercourses, the bottom of which is contaminated with oil and oil products. A method for cleaning bottom sediments and water in watercourses from oil and oil products includes washing out bottom sediments with a water-air jet under pressure, raising oil and oil products to the surface of the water, using booms in the area of erosion of bottom sediments, collecting an oil film on the water surface, using sorbent booms, below areas of erosion of bottom sediments on the surface of the watercourse are sequentially installed diagonally, with complete overlap of the channel of the watercourse, the first and second rows of booms, between which along the bottom of the watercourse are placed diagonally, from coast to coast, a means for creating an air-bubble curtain, limiting the area of cleaning the water column; after the second row of booms, in the area of cleaning the water surface from residual dissolved oil and oil products, rows of sorbent booms are installed, each of which is fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the watercourse bank ; before erosion of bottom sediments, an air-bubble curtain is created, which captures secondary oil and oil products, the collection of oil film and secondary oil film on the surface of the water is carried out by mechanical tools for collecting oil and oil products.

EFFECT: improving the efficiency of water treatment by simultaneously reducing the content of oil and oil products in bottom sediments, the water column and on the water surface.

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Description

The invention relates to the field of environmental protection and is intended for cleaning natural and artificial watercourses, the bottom of which is contaminated with oil and oil products.

It is known, for example, from patent documents US20120024782A1 05/18/2011, CN111254894B 03/06/2020 that compressed air is used to blur bottom sediments and to create a water-bubble curtain in order to raise oil and oil products, including aggregates, to the surface of a water body. It is also known the use of booms for the localization of the oil film on the surface of water bodies. There are numerous methods and devices for collecting oil and oil products from the surface of water bodies. However, the unsystematic application of known methods and devices leads to negative, including from an economic point of view, results. Incorrect stages of work and errors in the choice of tools lead to the formation of secondary water pollution, which harms the environment, increases the risk of violation of the MPC of oil and oil products after cleaning, and leads to additional costs for its elimination. Such shortcomings are significant when cleaning up real water bodies polluted with oil and oil products, which, as a rule, are located far from infrastructure and in difficult climatic conditions.

A known method of using air to remove settled oil pollution, described in patent EP2497862A1, 07.05.2010 IPC E02B1/003, including the definition of the working area using a boom so that oil does not enter the working area or does not flow out of the working area; placement of the adsorbent on the oil boom; the introduction of an air jet to the bottom below the surface of the water; forcing compressed air, thereby lifting water and sand or soil together with compressed air, releasing gas from oil settled at the bottom due to the kinetic energy of air bubbles caused by the flow of compressed air to degas the oil; and removal of surfaced oil floating on the surface of the water.

The disadvantage of this method is the secondary pollution of the reservoir (watercourse) with oil products and the uncontrolled movement of oil and oil products in the water column, especially in the presence of a current, which is ineffective and not applicable to water bodies of fishery importance. Also, the flow in watercourses can contribute to the leakage of the oil film through the boom.

Technical task: creation of a method for the complex purification of watercourses, including bottom sediments, the water column and the water surface, from oil and oil products, applicable in difficult climatic conditions.

EFFECT: increasing the efficiency of watercourses purification by simultaneously reducing the content of oil and oil products in bottom sediments, the water column and on the water surface.

The technical result is achieved by the fact that the method of cleaning bottom sediments and water in watercourses from oil and oil products includes washing out bottom sediments with a water-air jet under pressure, raising oil and oil products to the surface of the water, using booms in the area of erosion of bottom sediments, collecting an oil film on the surface water, the use of sorbent booms. Below the area of erosion of bottom sediments on the surface of the watercourse, the first and second row of booms are successively installed diagonally, with complete overlap of the channel of the watercourse, between which, along the bottom of the watercourse, a means for creating an air-bubble curtain is placed diagonally, from coast to coast, limiting the area for cleaning the thickness water. After the second row of booms, in the area of cleaning the water surface from residual dissolved oil and oil products, rows of sorbent booms are installed, each of which is fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the watercourse bank . Before erosion of bottom sediments, an air-bubble curtain is created, which traps secondary oil and oil products, the collection of oil film and secondary oil film on the surface of the water is carried out by mechanical tools for collecting oil and oil products.

In addition, the length of the water column purification zone is increased by alternating the placement diagonally along the bottom of the watercourse, from coast to coast, of an additional means for creating an air-bubble curtain and installation diagonally on the surface of the watercourse, with complete blocking of the watercourse channel, an additional row of booms.

In addition, the length of the area for cleaning the water surface from residual dissolved oil and oil products is increased by installing additional rows of sorbent booms, each of which is fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse.

The essence of the invention is illustrated in Fig. 1, which shows a general view of the implementation of the method and implementation options (top view): 1 - oil collection tank; 2 - transport vessel; 3 - means for erosion of bottom sediments; 4 - the first row of booms; 5 - the second row of booms; 6 - means for creating an air-bubble curtain; 7,8,9,10 - rows of sorbent booms; 19 - additional means for creating an air-bubble curtain; 20, 21 - additional rows of sorbent booms.

The essence of the invention is illustrated in Fig. 2, which shows the stages of the implementation of the method (top view): 1 - oil collection tank; 2 - transport vessel; 3 - means for erosion of bottom sediments; 4 - the first row of booms; 5 - the second row of booms; 6 - means for creating an air-bubble curtain; 7,8,9,10 - rows of sorbent booms; 11 - aggregates of oil and oil products; 12 - air bubbles; 13 - oil film; 14 - secondary oil and oil products; 15 - air-bubble curtain; 16 - secondary oil film; 17.18 - mechanical tools for collecting oil and oil products.

The method of cleaning bottom sediments and water in streams from oil and oil products is implemented as follows.

The watercourse in the direction from the source to the mouth is divided into treatment zones, the length of which is determined depending on the results of a preliminary hydroecological study of the watercourse. Within each treatment zone, the area of erosion of bottom sediments, the area of purification of the water column and the area of purification of the water surface from residual dissolved oil and oil products are determined.

In the area of erosion of bottom sediments on the surface of the water, an oil-collecting tank (1) and a transport vessel (2), a means for erosion of bottom sediments (3) are placed. Below the area of erosion of bottom sediments on the surface of the watercourse, the first row of booms (4) and the second row of booms (5) are successively installed diagonally, with a complete overlap of the channel of the watercourse, between which, along the bottom of the watercourse, a means for creating air bubble curtain (6), limiting the area of cleaning the water column.

After the second row of booms (5) in the area of water surface treatment from residual dissolved oil and oil products rows of sorbent booms (7,8,9,10) are installed, each of which is fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse.

The means for creating an air-bubble curtain (6) is subsequently put into operation, with the help of which the continuous formation of air bubbles of sufficient density is ensured to contain and raise oil and oil products in the water column to the surface of the water. The means for washing out bottom sediments (3) is brought into working condition, using which an air-water jet is introduced under pressure into the bottom sediments and the bottom sediments are washed away. When bottom sediments are washed out, aggregates of oil and oil products (11) are covered with air bubbles (12), acquire positive buoyancy and rise to the surface of the water, where they form an oil film (13), which is delayed by the first row of booms (4).

Secondary oil and oil products (14), which, when rising from bottom sediments, did not reach the surface of the water and, under the action of the current, moved in the water column beyond the area of erosion of bottom sediments, are caught by an air-bubble curtain (15). Secondary oil and oil products (14) form a secondary oil slick (16) on the water surface between the first row of booms (4) and the second row of booms (5). Oil slick (13) and secondary oil slick (16) from the water surface are collected in an oil collection tank (1) using mechanical tools to collect oil and oil products (17, 18). The oil-gathering tank (1) is transported to the onshore platform during filling and emptied. Cleaning the water surface from residual dissolved oil and oil products is carried out by rows of sorbing booms (7,8,9,10).

If necessary, for example, in order to create a reserve air-bubble curtain, increase the length of the water column purification zone, alternating placement along the bottom of the watercourse diagonally, from shore to shore, an additional tool for creating an air-bubble screen (19) and installation diagonally on the surface of the watercourse , with complete blocking of the watercourse, an additional row of booms (20).

If necessary, for example, with an initially high concentration of oil and oil products in bottom sediments, the length of the area for cleaning the water surface from residual dissolved oil and oil products is increased by installing additional rows of sorbent booms (21.22), each of which is fixed in turn on the opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse.

The proposed method for cleaning bottom sediments and water in watercourses from oil and oil products was used to clean a watercourse (stream) 5000 m long, located on the territory of an oil producing enterprise in the North of the Russian Federation. A preliminary hydroecological survey showed that the width of the watercourse varied from 1.00 to 4.00 m, with an average of 2.40 m for the watercourse. The depth of the watercourse varied from 0.10 to 1.50 m with an average value of 0.40 m; The concentration of dissolved oil products in water averaged 0.09 mg/dm ³ . Mineral bottom sediments predominated. The average content of oil products in the bottom sediments of the watercourse before treatment was 15420 mg/kg. The zone for cleaning the bottom of the watercourse was previously divided into sections about 50 m long, and cleaning was carried out in order of priority in the direction from the source to the mouth of the stream. Depending on the degree of pollution of bottom sediments (within MPC up to 1000 mg/kg, average in the range of 1000-30000 mg/kg, high - over 30000 mg/kg), various options were used.

The claimed method for cleaning bottom sediments and water in streams from oil and oil products allows for many design embodiments. The number and volume of oil-gathering tanks can be changed in order to ensure the design performance, while the oil-gathering tank can be installed on a floating platform or on the bank of a watercourse, transported by a transport vessel or manually, depending on the conditions on the watercourse.

As the first and second rows of booms, booms designed to protect against emergency oil spills of inland water bodies, in particular booms of constant buoyancy, can be used.

To form rows of sorbent booms, booms can be used, the filling of which is a sorbent-absorber, for example, thermally split graphite, aluminosilicates, peat, cotton-containing sorbents, polyurethane foam, vegetable waste and other known sorbents, including those containing microorganisms-destructors of oil and oil products. Moreover, it is permissible to use rows of sorbing booms with different types of filling within the same area for cleaning the water surface from residual dissolved oil and oil products.

Known devices or groups of devices can be used as a means for washing out bottom sediments, the functionality of which ensures the supply of a water-air jet under pressure into the bottom sediments of the watercourse and the erosion of bottom sediments. The sediment scourer may be located on the transport vessel or on the bank of the watercourse, depending on the conditions on the watercourse.

Known devices or groups of devices can be used as a means for creating an air-bubble curtain, which provide a continuous supply of compressed air to a channel located along the bottom of a watercourse and the formation of air bubbles of sufficient density to contain and raise oil and oil products in the water column to the surface of the water. .

As mechanical tools for collecting oil and oil products, known devices can be used, characterized by sorbing elements of the working bodies, for example, drum skimmers, brush oil skimmers, belt skimmers, tross mops and others designed to collect oil and oil products manually. The use of mechanical tools for collecting oil and oil products is due to the fact that in difficult climatic conditions, at a considerable distance from the infrastructure, there is a shortage of electricity, and it is also necessary to avoid repairing the tools used, and simple mechanical tools are the most reliable and easily replaceable.

Example 1. Application of a method for cleaning bottom sediments and water in watercourses from oil and oil products in the treatment zone with the concentration of oil and oil products in bottom sediments within the MPC.

In the area of erosion of bottom sediments on the surface of the watercourse, an oil-collecting tank (1) made of polymer and with a volume of 3 m ³ was placed; a fiberglass platform in the form of a boat was used as a transport vessel (2). On the transport vessel (1), a means for washing out bottom sediments (3) was placed, consisting of an electric generator, a compressor, a PVC hose and a sprayer. Below the area of erosion of bottom sediments on the surface of the watercourse, the first row of constant buoyancy booms (4) and the second row of constant buoyancy booms (5) were successively installed diagonally, with a complete overlap of the channel of the watercourse, and were characterized by a diameter of 10 cm and a length of 10 m, between which At the bottom of the watercourse, a means for creating an air-bubble curtain (6), consisting of an electric generator, a compressor, a perforated hose and a weighting agent, was placed diagonally, from coast to coast, limiting the area for cleaning the water column.

After the second row of booms of constant buoyancy (5) in the area of cleaning the water surface from residual dissolved oil and oil products rows of sorbent booms (7,8,9,10) were installed, characterized by a polymer filler, 10 cm in diameter, oil capacity up to 8 kg per product and 10 m long. Each row of sorbent booms (7,8,9,10) was fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse.

The means for creating an air-bubble curtain (6) was successively put into operation, with the help of which the continuous formation of air bubbles of sufficient density was ensured to contain and lift oil and oil products in the water column to the surface of the water. The means for erosion of bottom sediments (3) was put into operation, using which an air-water jet was introduced under pressure into the bottom sediments and the bottom sediments were eroded. During the erosion of bottom sediments, aggregates of oil and oil products (11) were covered with air bubbles (12), acquired positive buoyancy and rose to the surface of the water, where they formed an oil slick (13), which was delayed by the first row of booms of constant buoyancy (4).

Secondary oil and oil products (14), which, when rising from bottom sediments, did not reach the surface of the water and, under the action of the current, moved in the water column beyond the area of erosion of bottom sediments, were caught by an air-bubble curtain (15). Floated oil and oil products (14) formed a secondary oil slick (16) on the water surface between the first row of constant buoyancy booms (4) and the second row of constant buoyancy booms (5). Oil slick (13) and secondary oil slick (16) from the water surface were collected into an oil-collecting tank (1) using mechanical tools for collecting oil and oil products (17, 18), characterized by sorbing elements of the working bodies. The oil gathering tank (1) during filling was transported manually to the onshore platform by hand and emptied by pumping. The water surface was cleaned from residual dissolved oil and oil products by rows of sorbing booms (7,8,9,10). The results are presented in table 1.

Table 1 Example 1 Bottom sediments Water Indicators Oil and oil products, mg/kg weighted
substances, mg / dm ³ Dissolved oxygen, mgO ₂ / dm ³ Cl ^- , mg / dm ³ Oil and oil products, mg/kg Before cleaning 853 ± 213 11.0 ± 1.1 1.89 ± 0.13 94.0 ± 14.0 0.080 ± 0.030 After cleaning 287 ± 72 3.60 ± 0.60 7.0 ± 0.3 45.0 ± 7.00 0.068 ± 0.027

Example 2. Application of a method for cleaning bottom sediments and water in watercourses from oil and oil products in the treatment zone with an average (in the range of 1000-30000 mg/kg) concentration of oil and oil products in bottom sediments.

The method of cleaning bottom sediments and water in watercourses from oil and oil products was carried out similarly to the description from Example 1, while increasing the length of the zone for cleaning the water column by placing diagonally along the bottom of the watercourse, from coast to coast, an additional means for creating an air-bubble curtain (19) and installed on the surface of the watercourse diagonally, with a complete overlap of the channel of the watercourse, an additional row of booms of constant buoyancy (20). The results are presented in table 2.

table 2 Example 2 Bottom sediments Water Indicators Oil and oil products, mg/kg weighted
substances, mg / dm ³ Dissolved oxygen, mgO ₂ / dm ³ Cl ^- , mg / dm ³ Oil and oil products, mg/kg Before cleaning 12038 ± 3010 25.2 ± 2.5 1.06 ± 0.09 101 ± 15.0 0.059 ± 0.024 After cleaning 105±26 2.60±0.50 7.2 ± 0.3 46.0 ± 7.00 0.047 ± 0.019

Example 3. Application of a method for cleaning bottom sediments and water in watercourses from oil and oil products in a treatment zone with a high (over 30,000 mg/kg) concentration of oil and oil products in bottom sediments.

The method for cleaning bottom sediments and water in watercourses from oil and oil products was carried out similarly to the description from Example 1 and Example 2, while increasing the length of the area for cleaning the water surface from residual dissolved oil and oil products, installing additional rows of sorbent booms (21.22), each of which were alternately fixed on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse. Additional rows of sorbent booms (21,22) were characterized by a cotton-containing filler, 10 cm in diameter, up to 8 kg oil capacity per product and 10 m long. The results are presented in Table 3.

Table 3 Example 3 Bottom sediments Water Indicators Oil and oil products, mg/kg weighted
substances, mg / dm ³ Dissolved oxygen, mgO ₂ / dm ³ Cl ^- , mg / dm ³ Oil and oil products, mg/kg Before cleaning 32900±8225 38.0±4.0 1.09 ± 0.09 54.0 ± 8.0 0.150 ± 0.060 After cleaning 99±25 0.86 ± 0.19 6.8 ± 0.3 53.0 ± 8.00 0.030 ± 0.012

Claims (3)

1. A method for cleaning bottom sediments and water in watercourses from oil and oil products, including washing out bottom sediments with a water-air jet under pressure, raising oil and oil products to the surface of the water, using booms in the area of erosion of bottom sediments, collecting an oil film on the water surface, using sorbent booms, characterized in that below the area of erosion of bottom sediments on the surface of the watercourse, the first and second rows of booms are successively installed diagonally, with a complete overlap of the channel of the watercourse, between which, along the bottom of the watercourse, a means for creating an air bubble is placed diagonally, from coast to coast. curtains, limiting the area of cleaning the water column; after the second row of booms, in the area of cleaning the water surface from residual dissolved oil and oil products, rows of sorbent booms are installed, each of which is fixed in turn on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the watercourse bank ; before erosion of bottom sediments, an air-bubble curtain is created, which captures secondary oil and oil products, the collection of oil film and secondary oil film on the surface of the water is carried out by mechanical tools for collecting oil and oil products. 2. The method according to claim 1, characterized in that the length of the zone of purification of the water column is increased, alternating the placement along the bottom of the watercourse diagonally, from coast to coast, of an additional means for creating an air-bubble curtain and installation on the surface of the watercourse diagonally, with a complete overlap of the channel watercourse, an additional row of booms. 3. The method according to claim 1, characterized in that the length of the area for cleaning the water surface from residual dissolved oil and oil products is increased by installing additional rows of sorbent booms, each of which is alternately fixed on opposite banks of the watercourse, shifting relative to each other, with the obligatory overlap of the previous row, at an acute angle to the bank of the watercourse.

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