RU2047542C1 - Method of gathering oil products from contaminated water-bearing beds and hydrogeodynamic trap for oil products - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: to gather oil products from subterranean waters, water depression well is drilled. This well is intended for withdrawal of water from deep portion of water bearing bed. Drainage trench with pit- accumulator is made in zone of depression cone formed when water is taken out. Oil products collected in depression cone are accumulated in drainage trench and then pumped out to the surface. Mounted above depression cone is antiseepage screen made of clay with vertical wall-barrage arranged downwards in direction of subterranean water flow. Mounted in lower portion of water depression well is water intake pump. Used as such pump is air lift pump. Drainage trenches have pit-accumulator made in form of reservoir with bottom and filter and blind projecting pipe to prevent overflow of oil products. Pump to take out oil products is hydraulically coupled with pit-accumulator. EFFECT: enlarged operating capabilities. 13 cl, 2 dwg

Description

 The invention relates to oil production from underground formations, mainly to the collection of leaks of petroleum products, and can be used to produce residual oil after the development of oil-bearing aquifers and the creation of industrial deposits of petroleum products, including from a mixture of gasoline and diesel fuel. It can also be used for cleaning from contamination in emergency situations, as well as for the prevention of oil pollution. The invention is recommended for the capital construction of oil production, petrochemical industries, as well as oil storage facilities.

 It is advisable to consider hydrogeodynamic traps as an integral part of the complex of environmental protection structures during the capital construction of oil depots, which will allow in the future to minimize the consequences of technological disasters associated with the breakthroughs of a large number of oil products.

 There is a method of creating a trap of oil products in aquifers, including drilling wells in an aquifer and the formation of hydrocarbon traps around the bubble backwater by passing water from it from one well to another [1] The disadvantage of this method and device is that they do not provide for the collection of hydrocarbons in case of spreading over the surface of the water.

 A known method of collecting oil from the surface of the groundwater of an aquifer and creating a trap for oil products, including drilling water-reducing wells, equipping them with two pumps, more powerful, located in the deep part of the aquifer, for water intake and less powerful, located near the underground water mirror and designed for pumping petroleum products. Using a water intake from the depth of the aquifer, a depression funnel is created around the wells and oil products are collected into it, thereby forming a lens of oil products. The upper well pump pumps the collected oil products to the surface. A known device for collecting oil products includes a water-reducing well equipped with shafts made of concrete pipes, casing with gravel sprinkling of the filter, a downhole pump for water intake and a pump for pumping oil products in communication with oil pipelines [2] The disadvantages of the known technical solution is the operation of one well in two pumping modes water and oil products, which leads to the possibility of mixing the latter and is characterized by the complexity of the work control, especially with fluctuations in the level and thickness of the layer n petroleum products. The need for strict coordination of the modes of pumping water and oil products leads to a decrease in the rate of intake of the latter, which reduces the efficiency of cleaning from pollution.

 In addition, during a power outage and emergency stops of the pumps, self-spill of oil products to the surface is not excluded, which can lead to fires and poisoning of maintenance personnel.

 The aim of the invention is to increase the efficiency of the collection of petroleum products and simplify process control, as well as improving fire safety and improving working conditions.

 This is achieved by the fact that the method of collecting oil products from underground aquifers involves drilling water-reducing wells into the aquifer, taking water through the wells from the deep part of the formation to create a depression funnel and collecting and localizing oil products in it and pumping them to the surface. New in the method is that drainage trenches are constructed in the zone of the depression funnel, in which the collected oil products are localized, and the latter are pumped out from the drainage trenches, while the lower level of the depression funnel is maintained with water intake not higher than the sole level of the drainage trenches.

 In addition, the surface area of the depression funnel is covered with an anti-filter screen, which has a tooth (barrage) at the ends of the wall located at a distance from the funnel border below the groundwater flow and preventing the flow of contaminants. Exclude the extraction of the lens of the collected oil products and water hammer by pumping oil products continuously and with a constant flow rate. Separate the evacuated water from oil products, purify them by settling in the oil trap tanks, or by flotation, or by filtration on sorbents, or sorption on natural mineral sorbents. Moreover, diatomites or flasks are used as the latter.

 This goal is also achieved by the fact that the hydrogeodynamic trap for oil products, including a water-reducing well with a pump located in its lower part for drawing water and creating a depression funnel, an anti-filter screen and a pump for pumping oil products, is equipped with horizontal drainage trenches with reservoir wells, which are made in the form tanks with bottoms and equipped with filters and protruding blind tubes to prevent self-spillage of oil products, anti-filter An consists of a depression located above the funnel over its entire area of the horizontal part and connected to it at the ends of a vertical wall downward to prevent the spreading of oil products from the depression funnel, and the pump for pumping oil products is hydraulically connected to the reservoir well. In addition, the anti-filter screen is made of clay. The pump for taking water from the well is made in the form of airlift to ensure fire safety. The pump for pumping oil from the drive well is made in an explosion-proof version.

 In FIG. 1 and FIG. Figure 2 shows the hydrogeodynamic trap diagrams in plan and its sectional diagram.

 The following notation is used in the figures: 1 clay antifiltration screen, 2 sandy aquifer, 3 sand-gravel filter, 4 poorly permeable rocks, 5 initial groundwater level, 6 dynamic groundwater level, 7 level of a mixture of petroleum fuels from gasoline and diesel fuel, 8 casing pipes of a well and a storage well, 9 strainer, 10 barrage of an anti-filter screen, 11 hydro gypsum, 12 underground water flow line, 13 aquifer, 14 oil lens circuit, 15 drainage trench, 16 water-reducing well on 17-well drive the pump 18 for the water intake, for the oil pump 19, tube blank 20, 21 mound.

 The device hydrogeodynamic trap of oil products includes a water-reducing well 16, equipped with a casing 8 and a strainer 9, a drainage trench 15 with a well-storage 17, filled with rubble-gravel filter 3. An anti-filtration screen 1 made of clay and having an clay tooth is applied to the depression funnel barrage 10. The water-reducing well is equipped with a pump for pumping water from the deep part of the reservoir 18, and the well reservoir is hydraulically connected to a pump for pumping products 19. On the surface of the earth whether a mound 22 was built at the deaf pipe 21.

 The method is as follows. The location of the pollution zone and its area are determined. The places of accumulation of oil products are designed by collecting them from the surface of groundwater and forming depressions in these places. A hydrogeodynamic trap is created from three main parts: water-reducing wells, horizontal drainage with oil product storage wells and a clay antifiltration screen with a “tooth” barrage. Water-reducing wells are laid in linear aquifers with increased water conductivity. In this case, the regime of water intake from the depth of the aquifer is calculated in compliance with the following requirement: the depression funnel should not be higher than the bottom of the drainage trenches with oil. Otherwise, subsidence is possible due to uneven deformation of clastic soils above rocky soils, which in turn can cause deformation of the bottoms of reservoirs with oil and subsequent environmental contamination.

 In drainage trenches, storage wells with a diameter of about 1 m are laid, while drainage trenches are laid at a distance of not more than 10 m from water-reducing wells. Filters with wood and gravel sprinkling are laid in drainage trenches with a bias towards storage wells. A layer of petrol-resistant insulation is laid on the wood-gravel-dusting dusting, and a clay layer with a thickness of 0.5 m is placed on top of it to reduce evaporation. Wells drives also equip filtrates with wood and gravel sprinkling. From the bottom of the clay screen and above the ground for 2 s, blind pipes are installed with a diameter of at least 1.0 m to prevent oil self-spillage when stopping pumping from drainage wells. Near the mouths of the storage wells, a mound is poured from poorly permeable soil, and on top is a thin layer of wood-gravel.

 A clay antifiltration screen with a tooth (barrage) is designed to capture suspended oil products that are filtered with the flow of groundwater during periods of temporary involuntary cessation of the selection of these immiscible liquids. In addition, this screen prevents the evaporation of light hydrocarbons, which helps to maintain the quality of the mixture of petroleum products. Drainage wells are equipped with a filter with a length of 0.5-1.0 m above the groundwater level to prevent oil spills on the ground.

 At the beginning of treatment, pumping starts from the depth of the underground aquifer of water. In this case, the pumping mode is calculated so that when pumping out, a depression funnel is formed on the surface of the water. During water intake, the oil products are pulled up to the water-reducing well and deposition from the funnel is accumulated in the funnel during pumping. A funnel of depression formed on the surface of the water. During water intake, oil products are pulled up to the water-reducing well and accumulated in a depression funnel. In this case, a lens is formed from petroleum products. Water is pumped out by airlift.

 As the depression funnel is filled, oil products are transferred to drainage trenches and storage wells are filled. After filling them, pumping of oil products from storage wells to the surface begins. Pumping is carried out non-stop with a small flow rate, which eliminates water hammer and oil lens extraction downstream of groundwater into rocks with a larger gravitational capacity.

 If there is no clay screen-barrage downstream from the drainage wells, then the “technical” oil product deposit from a mixture of gasoline and diesel fuel with a thickness of 5-10 m, formed in the center of the depression funnel on the surface of the underground water when pumping stops, can “disappear”, t .e. spread again with a thin layer of 0.1-0.4 m.

 As experience shows, a small layer of oil products appears in the dump of water-reducing wells during pumping out due to the turbulent filtration mode in the near-well zone and due to the flotation effect in the water-oil emulsion. When pumping is stopped, the groundwater level is restored to the initial one, which causes the oil to be squeezed out and spilled to the surface. To prevent this, a filter is installed above the groundwater level.

 Oil products are pumped out by explosion-proof pumps located on the surface in the area of the storage well or trenches. The pumped-out mixture of oil products is defended in order to separate water from it, the content of which can be up to 10%. The pumped-out water from the wells is purified from suspended and dissolved oil products by settling in oil trap tanks, processing on flotation devices and filtering through sorbents. It is economically preferable to purify water from dissolved oil products by sorption on natural mineral sorbents, of which diatomites and apokas are most effective.

PRI me R. The tank farm is located within the granite massif in the Middle Urals. On three sides of the mountain, on the fourth side, a swamp drained by the river. Aramilka. The thickness of the weathering crust is from 0 to 10 m or more in the zone of tectonic fault. Background water conductivity is less than 10 m ² / day, in a linear aquifer along the tectonic fault up to 100 m ² / day. Thalweg of a log extending into a swamp extends along an aquifer. GN was laid in the aquifer linear zone at such a distance from the reservoirs with oil products that the funnel of depression did not reach them, at the place of transition ("mouth") of the log into the swamp. Pumping water was airlift, oil products by explosion-proof centrifugal pumps. During the work period, a total of ≈250 m ³ was pumped out.

Oil pollution was spread over an area of 2 km ² . The average thickness of the layer of oil products 0.3 m. After pumping, the thickness of the layer of oil products decreased to 200 m ² . The infiltration groundwater intake for household water supply in the city of Aramil was practically protected.

 The principal difference of the proposed technical solution is the method of pumping oil products and water when creating depression, the presence and design of drainage wells and the clay screen of the barrage of the groundwater flow, which increase fire safety, reduce the possibility of poisoning of operating personnel with toxic hydrocarbon vapors and practically eliminate the possibility of leakage of suspended oil products outside the trap .

 Field tests proved the most effective use of the invention with a shallow groundwater level (1.5-2.5 m) in the weathering crust of a number of granite massifs of the Urals, which made it possible to collect tens of tons of valuable oil product on the one hand and protect the intake of drinking groundwater on the other from technical pollution by oil products.

Claims (13)

 1. A method of collecting oil products from contaminated aquifers, including drilling of water-reducing wells, taking water through wells from the deep part of the aquifer, creating a funnel for depression and localizing oil products in it, and pumping localized oil products to the surface, characterized in that in the area where the depression is located funnels construct drainage trenches in which accumulated oil products are accumulated, the latter are pumped to the surface from drainage trenches, while the lower level l the funnels of depression support with water intake at a level not higher than the level of the sole of the drainage trenches.  2. The method according to claim 1, characterized in that the surface area above the depression funnel is covered with an anti-filter screen, which passes into a vertical wall-barrage, which is located at a distance from the funnel border downstream of groundwater.  3. The method according to claim 1, characterized in that in order to exclude water hammer, oil products are pumped out continuously with a constant flow rate.  4. The method according to claim 1, characterized in that the evacuated oil products are defended and water is released from them.  5. The method according to claim 1, characterized in that the evacuated water is subjected to purification from oil products by settling in oil traps or by flotation, or by phiotation on sorbents.  6. The method according to claims 1 and 5, characterized in that the post-treatment of the pumped water from dissolved oil products by sorption on natural sorbent minerals is performed.  7. The method according to claims 1 and 6, characterized in that diatomites or flasks are used as natural mineral sorbents for the post-treatment of water.  8. Hydrogeodynamic trap for petroleum products, including a water-reducing well with a pump located in its lower part for taking water and creating a depression funnel, an anti-filter screen and a pump for pumping petroleum products, characterized in that the trap is equipped with horizontal drainage trenches with storage wells, which are made in in the form of tanks with bottoms and equipped with filters and protruding blind pipes to prevent oil spills, the filter screen is made and horizontal on the whole area of the funnel portion and the depression connected thereto at the ends lowered down the vertical wall, and a pump for pumping oil is hydraulically connected to the well-drive.  9. The trap according to claim 8, characterized in that the bottom of the drainage trenches is covered with sand and gravel sprinkling.  10. The trap according to claim 8, characterized in that the filters of the storage wells are made with wood and gravel sprinkling.  11. The trap according to claim 8, characterized in that the anti-radiation screen is made of clay.  12. The trap of claim 8, characterized in that the pump for taking water from the well is made in the form of airlift to ensure fire safety.  13. The trap according to claim 8, characterized in that the pump for pumping oil from the storage well is made in explosion-proof design.

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