RU2291933C1 - Oil installation - Google Patents

Abstract

FIELD: environment protection, particularly to prevent contamination of ground areas adjoining oil installation.

SUBSTANCE: oil installation comprises structures located inside enclosed territory, accidental vessel defined by enclosing structure, ditch formed along territory perimeter between territory enclosing means and accidental vessel and located just near enclosing structure along ditch length. The ditch is in hydraulic communication with water-bearing bed in base thereof. The installation also comprises water supply means, which delivers water to the ditch. Ditch slopes are defined by upper part of enclosing structure at least from accidental vessel side and by upper part of embankment, preferably road embankment, from another ditch side. The accidental vessel is divided into several sections by partitions along accidental vessel length. The ditch is also divided into several parts. Upper partition level is below upper level of enclosing structure, which defines sections near above partition. Each ditch part has length equal to that of accidental vessel section. Accidental vessel is elongated along enclosing means, as defined in plan view. Oil or oil product trapping and utilization devices may be located in accidental vessel section.

EFFECT: increased efficiency of oil leakage prevention from accidental vessel and reduced area occupied by accidental vessel, which is put into operation during oil spill liquidation.

2 cl, 6 dwg, 3 ex

Description

The invention relates to the oil industry, in particular to oil facilities for the exploration, development, transportation and use of oil in various industries.

A well-known oil facility (oil depot), including structures and installations of the main operation with oil or oil products located within the same fenced area and an emergency capacity formed by the enclosing structure (see SNiP 2.11.03.93. “Warehouses for oil and oil products. Fire safety standards”, Gosstroy of Russia, M: GP TSPP, 1993, in particular clause 2.12 and clause 3.6).

The disadvantages of the known oil object are as follows:

- emergency capacity is most often formed by soil protective structures (dams), which, due to the permeability of their bodies and bases, cannot reliably prevent contamination of soil sections adjacent to the oil object during an emergency spill of oil or oil products (see Telegin L.G., Kim B. I., Zonenko V.I. “Environmental protection during the construction and operation of gas and oil pipelines.” M .: Nedra, 1988. P. 52-57);

- spilled oil (oil product) in a volume substantially less than the calculated one, spreading involves in the work and contaminates the soil over almost the entire area of the emergency capacity, which leads to a large amount of work to clean the soil sections inside the oil facility in response to the consequences of an accidental oil or oil product spill;

- the oil facility most often includes facilities for the recovery and recovery of oil (oil traps, sedimentation ponds, reservoirs for collecting leaks, etc.), which themselves often are sources of contamination of adjacent ground areas.

The task to which the invention is directed is to increase the reliability of preventing pollution of soil sections adjacent to an oil object, and to reduce the amount of work to clean up pollution of soil sections located within the territory of an oil object. The technical result from the use of the invention is to completely prevent leakage of oil (oil product) from the emergency tank and from the oil recovery and disposal facilities outside the territory of the oil facility and to reduce the area of the emergency tank involved in the oil spill.

The problem is solved, and the technical result is achieved by the fact that the oil facility, including located within the same enclosed territory of the structure and the installation of the main operation with oil or oil product and the emergency capacity formed by the enclosing structure, according to the invention contains a ditch made along the perimeter of the territory between its fence and emergency a tank, closely adjacent in length to the building envelope of the emergency tank and hydraulically connected to the aquifer in the base, and means for chi of water in the ditch. The slopes of the ditch are formed, at least from the side of the emergency tank by the upper part of its enclosing structure, and on the other hand, by the upper part of the embankment, mainly road. The emergency capacity along the length is divided by partitions into sections, and the ditch is divided into sections, with the mark of the crest of the partition below the mark of the crest of the enclosing structure forming the sections adjacent to it, and the length of the section of the ditch is equal to the length of the corresponding section of the emergency capacity. Additionally, the emergency tank in plan has a shape elongated along the fence, and within the emergency tank section there are facilities for the collection and disposal of oil or oil product.

The essence of the technical solution lies primarily in the fact that in the event of an emergency oil spill (it may never happen) and oil flowing into the emergency tank, the ditch made according to certain rules is filled with water to a level that ensures the formation of the so-called hydraulic curtain (overpressure trenches) . After this, oil leakages from the emergency tank to adjacent soil sections are completely prevented, and then the washing of the soil sections contaminated in the emergency tank begins because the direction of fluid movement in the contaminated soil, after filling the ditch with water, has reversed. Moreover, oil pollution (filling) does not occur in all sections of the emergency tank, but only in their part, depending on the volume of spilled oil, which reduces the area of the emergency tank involved in the work.

The invention is illustrated by the drawings provided in figures 1-6: figure 1 schematically depicts an oil object in the form of a well pad production wells, plan; figure 2 is a section along aa in figure 1; figure 3 - oil facility in the form of a corridor-laid trunk oil pipeline, plan; figure 4 is a section bB in figure 3; figure 5 - oil object in the form of a tank farm, plan; figure 6 - section bb in figure 5.

Example 1 (figures 1 and 2). An oil facility in the form of a cluster pad located in a swampy area includes wells 1 drilled and equipped to extract oil from the developed reservoir (structures and technological equipment are not shown), and well 2 drilled for water supply. The central part of the territory of the cluster site is covered with a pillow 3, sprinkled from quality soil with a thickness of 1-2 meters, and the entire territory of the cluster site is fenced with road embankment 4, along which an earthen shaft 5 is made from the side of the cluster site, which is located in close proximity to road embankment 4 and forms a ditch 6 with it, and with respect to the pillow 3 it is located at a distance and forms an emergency tank 7 with it. Moreover, the shaft 5 with respect to the emergency tank is a building envelope, and the road embankment 4 is relative to the oil facility as a whole - by a fence. The slopes of the ditch 6 are formed on the side of the emergency tank 7 by the shaft 5, and on the other hand, by the road embankment 4, while the ridges of the shaft 5 and the road embankment 4 exceed the calculated liquid level 8 in the emergency tank 7 by a predetermined value "a". The cavity of the ditch 6, naturally or artificially (in the spring), is hydraulically connected to the underlying aquifer 9, which is in a thawed state year-round. Partitions (passages) 10 along the length of the emergency tank 7 are divided into sections, and the ditch 6 is divided into sections, while the crests of the partitions 10 are lower than the shaft ridge 5. In one of the sections of the emergency tank 7 there is a landfill 11 for waste - the landfill facilities are not shown in the drawing . Additionally, in figure 2, the position 12 indicates the water level in the ditch 6.

Drilling of wells 1, their development and operation is carried out after creating cushion 3, tank 7, ditch 6 and the facilities of landfill 11, designed to accommodate, process and render harmless drill cuttings, solid oil-containing waste, oil-containing snow, liquid oil waste and household waste. In the event of an accident, oil is sent to one of the sections of the emergency tank 7, while if the spilled oil does not fit in one section, then after filling it, oil flows through the crest of the partition 10 into the adjacent section. In accordance with the accident response plan, water is supplied from well 2 to the corresponding section of the ditch 6 with an intensity that ensures at least the equality of the water levels 12 in the ditch 6 and the oil level in the corresponding section of the emergency tank 7. Then the ditch 6 works as known hydraulic curtain that prevents the penetration of the liquid phase through it (see USSR author's certificate No. 1030469 A, IPC E 02 B 3/16, published July 23, 1987), which increases the reliability of preventing pollution adjacent to the bush howl site groundwater areas.

The water level 12 in the ditch 6 is maintained after the spilled oil is removed from the emergency tank. In this case, pressure filtration of water from the ditch 6 into the aquifer 9 and from it into the contaminated emergency tank 7 occurs naturally, which ensures smooth displacement (washing out) of oil from the soil into the emergency tank 7 from which the accumulated oil and water mixture is collected and sent to pre-made containers to separate it into oil and water.

Such a hydraulic curtain can be periodically activated not over the entire length of the ditch, but only at the site of the landfill 11, which prevents the spread of leaks from the landfill 11 outside the cluster site with a small amount of water supplied to the ditch. Groundwater condition around the well pad is monitored by observation wells - not shown.

Example 2 (FIGS. 3 and 4). An oil facility in the form of a trunk pipeline, corridor laid along a swampy meadow with light forest. It includes the oil pipeline 13, which is filled up in the trench 14, and the embankments located parallel to it from different sides: road 15 and auxiliary 16, through which transport is also possible. From the side of the oil pipeline 13, along the road embankment 15 and in the immediate vicinity of it, a shaft 17 is made, which together with the road embankment 15 forms a ditch 18. Similarly, along the secondary embankment 16, a shaft 19 is made, which forms a ditch 20. The shafts 17 and 19 form an elongated in terms of emergency capacity 21 and in relation to it are enclosing structures. The embankment road 15 and auxiliary 16 in relation to the pipeline are a fence. The crests of the embankments 15 and 16 and the shafts 17 and 19 exceed the calculated liquid level 8 in the emergency tank 21 by a predetermined value "a". In this case, the cavity of the ditches 18 and 20, in a natural or artificial (spring) way, are in communication with the underlying aquifer 9, which is in a thawed state year-round.

Powders 22 adjacent to the road embankment 15 from the opposite side of the oil pipeline 13 are equipped with power line supports 23. All the facilities of the oil facility are located in the corridor in the land allotment band of width B. Additionally, at the embankment 15, at the distance of 10-20 kilometers from each other, there are soil storage facilities - not shown in the drawing.

In the event of a break in the oil pipeline 13 from the accident site 24 to the emergency tank 21, a significant amount of oil is spilled. According to the source (Lotosh V.E. “Production Technologies in Nature Management.” Yekaterinburg. Publishing House of the Ural State University of Economics, 1999. P.407), 700 major pipeline breaks occur annually in the CIS, with losses reach 7-20% of the extracted oil.

In this case, in the two nearest wells 25, the oil pipeline 13 is closed, and its section is emptied. At the same time, the spreading of the spilled oil along the emergency tank 21 is limited by two partitions, which are made in the form of crossings 26 from previously stored soil and which form the working section 27 of the emergency tank 21. Then from the water source by known means, for example, water trucks, to the channel sections 18 and 20, located between crossings 26, water is supplied with an intensity that ensures at least equal levels of 12 in the ditches 18 and 20 and the oil level in the working section 27. This ensures the creation of a hydraulic curtain that prevents contamination of 27 soil sections adjacent to the working section. Subsequently, oil is removed from the working section 27, and the water level in the ditches 18 and 20 continues to be maintained. The latter provides leaching of oil from the soil to the working section 27, from which the accumulated water-oil mixture is collected and sent for processing.

Example 3 (FIGS. 5 and 6). An oil facility in the form of an oil depot located on a slightly inclined territory (only the lowland part of the territory is shown in the drawing) and including groups of ground reservoirs 28, roads 29, reservoirs 30 and reservoirs 31 for water, an oil trap 32, emergency tank 33 and a fence 34 of the tank farm territory. Each group of reservoirs 28 has a ground cushion 35 at the base. An emergency reservoir 33 is located in the lowering of the relief and is formed by a dirt shaft 36 and a road embankment 37 adjacent to the fence 34. The upper parts of the shaft 36 and road embankment 37 form the slopes of the ditch 38 located between them. the base of the ditch 38 has a filtering filling 39, which provides hydraulic communication of the cavity of the ditch 38 with the aquifer 9. The filling 39 is equipped with a drain pipe 40 with a valve 41. This is necessary for dewatering the filling 39 and preserving such Brasom, its permeability in winter and spring. Other facilities and installations of the tank farm are not shown in the drawing.

Ditch 38 operates similarly to ditches 6 and 18 described in examples 1 and 2, namely: ditch 38, filled with water if necessary, creates a hydraulic curtain that prevents contamination of the soil sections adjacent to the emergency tank 33 and ensures that the soil is flushed with oil contaminated in the emergency tank 33. Soil washing is necessary to prevent the spread of pollution outside the tank farm in the absence of water in the ditch filled with water only in case of emergency oil in the tank 33.

Similarly to examples 1 and 2, the emergency tank 33 in length can also be divided by partitions into sections, and ditches into sections (partitions are not shown in FIG. 5).

The use of the invention will more fully satisfy the ever-increasing demands of industrial ecology at all stages of the use of oil and its products: from oil exploration to the use of produced oil in various industries.

Claims (3)

1. An oil facility, including the facilities located within the same fenced area and the main operation with oil or oil product and the emergency capacity formed by the enclosing structure, characterized in that it contains a ditch made along the perimeter of the territory between its fence and the emergency capacity, adjacent to the length of the enclosing structure of the emergency tank and hydraulically connected with the aquifer in the base, and means for supplying water to the ditch, and the slopes of the ditch are formed, at least At least, from the side of the emergency tank by the upper part of its enclosing structure, and on the other hand, by the upper part of the embankment, mainly the road, while the emergency tank is divided into sections by partitions and the ditch into sections, with the mark of the crest of the partition below the mark of the crest of the enclosing the structure forming the sections adjacent to it, and the length of the ditch site is equal to the length of the corresponding section of the emergency tank. 2. The oil facility according to claim 1, characterized in that the emergency capacity in plan has an elongated shape along the fence. 3. The oil facility according to claim 1, characterized in that within the emergency capacity section there are facilities for the collection and utilization of oil or oil product.

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