RU2558834C1 - Method for constructing sludge storage pit for well cuttings at oil and gas deposits (versions) - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions is related to the sphere of environment protection and may be used for construction of well bores to store well cuttings. The method includes construction of a basin for sludge storage pit, arrangement of impervious screen at the basin bottom and sides. Before construction of the basin, along its perimeter in recess of 1.0-5.0 m from the edge a narrow trench is made with depth corresponding to height of the basin sides. In the trench protective structure is assembled hermetically from modular panels protruding over the basin sides per 0.1-0.2 m, then the trench is filled evenly with soil used for construction of the sludge storage pit. Upon arrangement of the screen of waterproof material and placement of well cuttings in it as solid phase of bore mud and/or neutralized drill cuttings they are covered with insulating layer of mineral ground up to the level not exceeding 0.3-0.4 m from the basin edge, then they are covered with waterproof layer. Ends of the both waterproof layers are wound up the protruding edge of the supporting structure and deepened per 0.3-0.5 m, thereafter the layer of mineral ground is laid and then recultivating layer of ground with thickness of 0.3-0.4 m. Synthetic material is used for waterproof layer.

EFFECT: increased safety for the environment.

10 cl, 1 dwg

Description

The invention relates to the field of environmental protection and can be used in the construction of prospecting and exploratory and production wells for placement of drill cuttings in the oil and gas fields, where they form, store and store a significant amount of drilling waste for a long time.

The construction of oil and gas wells on land using barn technology, which involves the construction of temporary drilling sludge pits or sludge collectors, is inevitably accompanied by the formation of a significant amount of drilling waste, which is usually located in sludge pits constructed directly on the territory of the drilling site and intended or for temporary storage up to 6 months, and / or placement for a period exceeding 6 months.

Drilling is a critical aspect of the development of the natural hydrocarbon field development process. Given the environmental vulnerability of nature, the presence of territories of traditional nature management and specially protected areas, the search for ways to optimize the environmental safety of work carried out in oil and gas fields is an important task to be solved taking into account environmental protection and rational use of natural resources.

During the construction of wells during mining operations, drilling waste consisting of waste drilling mud (OBR), drill cuttings (BS), and drilling waste water (BSW) is brought to the surface from the well bore.

OBR is a solution used in the technological process and unsuitable for further drilling of a well, as well as a drilling fluid and formation fluid that is thrown to the surface during the manifestations of the well.

Drilled sludge (BS) is a mixture of drill cuttings with drilling fluid, and this mixture enters the waste collector - sludge collector after preliminary treatment in the circulation system of treatment equipment. Drilled rock, which is the main part of the BS volume, is non-toxic in its mineral composition, but dispersed in a drilling fluid treated with chemical reagents, its particles adsorb toxic components on its surface, which as a result become hazardous to the environment.

BSVs are produced during the process of drilling a well, operating and repairing equipment, and are a drilling fluid diluted with process water and precipitation falling into the sludge collector bowl.

The fractional composition of the solid phase of drilling waste varies from several microns (dispersed bentonite clay particles, weighting agents, etc.) to 25 mm (cuttings).

To maintain the required performance of the drilling fluid, it is diluted. Limited volumes of reservoirs (tanks) designed to collect liquid drilling waste, force to dump part of the drilling fluid into the sludge collector, resulting in environmental pollution, including soil, groundwater and surface water, due to the penetration of liquid sources of pollution through the walls and bottom of the sludge collector, especially if damaged. If atmospheric precipitation enters during the backfill of waste after its neutralization, the humidity of the waste increases, there is a risk of squeezing it to the surface and, as a result, leakage of pollutants into the environment.

The contaminating ability of drilling waste is caused, among other things, by the toxicity of chemicals used to process the drilling fluid, which is fed to the bottom of the well and cuttings located on the surface. As a result of washing the treatment devices and diluting the residual drilling fluid with industrial water, drilling wastewater is generated, which, together with the solid phase of the drill cuttings, is placed in sludge collectors. Liquid waste from drilling and oil production are sources of environmental pollution.

The prior art method of constructing an anti-filtration tank for storing production waste, which consists in the fact that when constructing an anti-filtration tank, the bottom and walls of a previously prepared area under the tank are strengthened with grouting mortar, which is used as a loam suspension of the composition, wt.%: Loam suspension 85 -90, cement 9-14, water glass 1-5, the walls are strengthened by installing the formwork and pouring the specified suspension into it, while the height of the formwork pouring gradually increasing as the reservoir can fill waste production (see. №95106563 application for the invention "Method structures impervious reservoir for storing waste products", filing date 24.04.1995, at the date of publication of the application, the 04/27/1997).

The disadvantages of this solution are due to cumbersomeness, laboriousness and material consumption and are associated with the need for phased build-up of formwork, as well as a violation of the soil composition due to the use of cement, which, when interacted with water, for example, precipitation, aqueous solutions of salts and other liquids, forms a plastic mass that then hardens and turns into a stone-like body.

A known method of eliminating a settling-absorption pit, including filling the pit with spent drilling fluid, stratification of the spent drilling fluid into thickened and clarified phases and filling the settling-absorbing pit with mineral soil, the thickened phase is partially cured to form an upper solid layer, and curing is carried out after application an impermeable screen, and before filling with the drilling fluid, the walls and the bottom of the settling-absorption pit are covered with clay paste (see. AS №1188185 «The method of liquidation suck-absorption of the pit", the filing date of 18.07.1983, published on 30.10.1985, the).

The disadvantages are related to the fact that the method is implemented for only one type of drilling waste - the spent drilling fluid with which the foundation pit is filled, and the process is multi-stage and involves, in particular, the separation of the solution into phases: thickened and clarified.

In addition, there is a method of protecting soils and groundwater from contamination by oil and oil products, including the formation of a liquid capillary screen, while natural mineral and / or organic sorbents with water-retaining properties are introduced into the top layer of the soil or soil, followed by moistening of the soil or soil to the state of field moisture capacity, moreover, zeolites, clays or dolomites in the amount of 1-33% of the mass of dry soil are used as mineral sorbents, peat is used as organic sorbents, cellulose, lignin, sawdust, crushed bark, straw, biomass of cultivated and wild plants and rubber crumb, mineral sorbents are applied in the form of a mixture with soil with a layer of 20-25 cm, organic sorbents are applied in a separate layer 5-20 cm thick, which is under the soil layer or a mixture of soil with a mineral sorbent with a thickness of 5-20 cm (see RF patent No. 2361041 for the invention "A method for protecting soils and groundwater from pollution by oil and oil products").

The disadvantages of this solution are related to the dispersion of the substances and chemical compounds used outside the cultivated area, as well as unreliable protection from above, which leads to environmental pollution.

Known antifiltration screen of storages, mainly sludge collectors and ash dumps, including a two-layer waterproof element, and the upper water-retaining layer is made of a mixture of ash and compacted activated sludge in the following ratio of components, wt.%: Ash - 50-75, compacted activated sludge - 25-50, and the lower underlying layer is made of ash and slag mixture (see patent No. 11551 for the utility model “Antifiltration screen of storages”, filing date January 18, 1999, published October 16, 1999).

In addition, there are known methods of constructing antifiltration screens around barns or pits with liquid waste, including creating a pit bowl (sludge collector) and antifiltration screens around it by driving a narrow slit-like trench of a given depth along the perimeter of the pit with its subsequent filling, for example, with clay-clay paste ( see AS No. 1439174 “Thixotropic solution for the construction of impervious diaphragms and the method of its preparation”, filing date 04/30/1987, published 11/23/1988) or elastic shells (see AS No. 1397590 “Device for the formation of an anti-filter curtain from a film”, filing date 07/19/1985, published 05/23/1988).

A known method of construction and operation of a complex of at least two earthen barns-storage of drilling waste and reservoir fluid, including a fragment of a pit in mineral soil, applying a waterproofing layer in the form of clay taking into account the results of engineering and geological surveys and their subsequent filling with waste (see STO 09-0147428-037-89. Technological measures for the construction and operation of drilling waste collection and storage systems. Grozny: SevKavNIPIneft. - 1990. - 68 p.).

A known method of waterproofing liquid toxic storage devices is that, using a vertical hollow cutter with blades for soil rejection and radial holes, soil is selected from the slit around the perimeter of the object, at the same time, water-polymerizing material is pumped into the walls under pressure through the holes in the mill, then the production is fed with compressed hot air, and with the help of a mechanical shovel and a conveyor, the produced soil is fed into the bunker-mixer, where it is mixed with water-polymerizable material, and then vysokotekuchaya the resulting mixture is fed back to the goaf (see. №2473744 RF patent "Method for building waterproofing liquid toxic waste storage", filing date 01.10.2010, published 27.01.2013 g).

The disadvantages of this solution are associated with the use of substances and chemical compounds (compounds) for the trench being processed, the need to use expensive equipment consisting of several paired modules, work at ambient temperature only up to 0 ° C, the need to dispose of the mass of polymerized soil after the disposal of the waste disposal facility .

The closest technical solution to the claimed invention is a method of construction and operation of a complex of at least two earthen barns-accumulators of drilling waste and reservoir fluid, including the creation of a foundation pit in mineral soil, waterproofing its bottom and walls with metal sheets or polymer film , or reinforced concrete slabs, or wooden shields coated with bitumen, or compositions based on clay, lime, cement, after which the bowl is filled with waste (see the Environmental Protection Instructions her environment during the construction of wells for oil and gas on land: RD 39-133-94, M .: NPO "Drilling equipment." - 1994. - 118).

The disadvantages of this method include the use as a material for waterproofing expensive hardware and other building materials that are to be disposed of with drilling waste. In addition, there is no protective upper screen covering the waste and not allowing it to disperse in the surrounding area.

In addition, the creation of pits included in the complex is carried out before the start of drilling, and the operation, for example, of a barn for the accumulation of formation fluid - only with possible oil and gas manifestations and at the final stage of well construction - its development, i.e. while the protective waterproofing layer has already undergone intense meteorological impact, including solar radiation and weathering, as well as destruction by shoots and the root system of plants, which leads to cracking of the protective surface and, as a result, does not provide the necessary protection of groundwater from pollution due to increased accumulation of sediment in the bowl and waterlogging of the soil. At the same time, the waste that accumulates in two barns differs from each other in genesis, toxicity and filtration properties, which means that a protective layer made of only one material, natural clay, is not enough to protect the groundwater from pollution, etc. to. with an increase in the mineralization of solutions due to salts: NaCl and CaCl, the clay permeability coefficient also increases, and the main increase in the permeability coefficient occurs at a salt concentration of 10-30 g / l (see Goldberg V.M., Skvortsov N.P. Permeability and filtration in clay. - M .: Nedra, 1986. - 160 p.).

The technical result, to which the claimed invention is directed, is to create a structure that serves to accommodate drilling waste, with increased safety for the environment.

The specified technical result according to the first embodiment is achieved by the fact that in the method of constructing a sludge collector for disposing of drilling waste from oil and gas fields, including creating a sludge collector bowl, an anti-filter screen on the bottom and sides of the bowl, according to the invention, before creating a sludge collector bowl along its perimeter with a retreat of 1, A narrow trench is laid 0-5.0 m from the outer edge, the depth of which coincides with the height of the sides of the sludge collector bowl, while the bottom of the trench is marked from the ground level of fresh water does not exceed 0.3 m, after which the enclosing structure is mounted in a trench, hermetically assembled from modular panels protruding after installing 0.1-0.2 m above the sides of the bowl, then the trench is evenly filled with the soil used in the construction of the sludge collector, and after the installation of an anti-filter screen made of waterproofing material and placement of drilling waste on it in the form of a solid phase of drill cuttings and / or neutralized drilling waste, they are covered with an insulating layer in the form of mineral soil to a level not shedding 0.3-0.4 m from the outer edge of the bowl, then the waterproofing layer is again laid, while the ends of both waterproofing layers are led beyond the protruding edge of the enclosing structure and deepened by 0.3-0.5 m, after which a layer of mineral soil is laid and then a remediation layer of soil 0.3-0.4 m thick, while synthetic material is used for the waterproofing layer.

The specified technical result according to the second embodiment is achieved by the fact that in the method for constructing a sludge collector for accommodating drilling waste from oil and gas fields, including creating a sludge collector bowl, an anti-filter screen on the bottom and sides of the bowl, according to the invention, before creating a sludge collector bowl along its perimeter with a retreat of 1, A narrow trench is laid 0-5.0 m from the outer edge, the depth of which coincides with the height of the sides of the sludge collector bowl, while the bottom of the trench is marked from the ground level of fresh water does not exceed 0.3 m, after which the enclosing structure is mounted in a trench, hermetically assembled from modular panels protruding after installing 0.1-0.2 m above the sides of the bowl, then the trench is evenly filled with the soil used in the construction of the sludge collector, and after the installation of an anti-filter screen of waterproofing material and placement of drilling waste on it in the form of a solid phase of drill cuttings and / or neutralized drilling waste, they are covered with a waterproofing layer, while the ends of both waterproofing layers lead over the protruding edge of the building envelope and deepened by 0.3-0.5 m, after which a layer of mineral soil is laid and then a remediation layer of soil 0.3-0.4 m thick, while synthetic material is used for the waterproofing layer.

The choice of the distance between the outer edge of the sludge collector bowl and the building envelope depends, inter alia, on humidity and the load-bearing properties of the ground of the site.

The depth of the bottom mark of the trench not higher than 0.3 m from the groundwater level is the minimum mark of the bottom of the sludge collector relative to the groundwater level.

As mineral soil, for example, sand or previously neutralized drilling waste is used not higher than class IV hazard hazard waste.

As a synthetic material for the waterproofing layer, for example, Netva-Teplonit type material, 3 mm thick polyethylene, bentonite mats for waterproofing underground structures like Bentolock-Stroy (Bentolok-Stroy), Voltex (Voltex), Bentomat (Bentomat) or their analogues having the necessary waterproofing properties.

The material used for the remediation layer is, in particular, crushed peat-sand mixture or sand.

The thickness of the restoration layer, equal to 0.3-0.4 m, provides the possibility of planting grass reclamants and the use of cultivators and trailed disc harrows with a diameter of 0.1-0.2 m for their processing. With such a thickness of the applied restoration layer, the applied units do not damage underlying layer of waterproofing material.

After clarification, neutralization and sedimentation of silty particles in the liquid, the liquid phase of drilling waste is pumped into the oil recovery system or transported to the treatment facilities of the field.

The use of a modular enclosing structure avoids the occurrence of frost phenomena that contribute to the deformation and destruction of the waterproofing layer, and in case of their occurrence, the removal of chemical elements that are not background, together with ground and surface waters, into the environment.

The modular panels are provided with tongue-and-groove and / or fixing connections.

In order to compact the sludge before placing it in the sludge collector bowl, a drainage layer (not shown) of crushed stone with a thickness of 5-10 cm can be additionally placed on the anti-filter screen of waterproofing material, which will subsequently serve as the basis for the installation of a textile bag in the form of a pipe, manufactured by technology, for example, Geotech (geotube) or similar and designed for filtration. Crushed stone is laid with a pit. In the filter bag (geotube) made of a permeable fabric of a given size and volume, the retention of solid particles of drill cuttings occurs. The geotube volume is filled with drill cuttings by pumping the appropriate liquid mixtures of a given composition through inlet hoses located at a certain distance from each other. The use of a filter bag allows you to effectively dewater the drill cuttings with significant savings in time and money compared to traditional technologies, while not violating the environment and the natural balance of nature. The liquid that has leaked through the walls of the bag (geotube), using gravimetric drainage and sediment pressure, must be pumped out of the sump and then disposed of. After the process of compacting the sludge from above on top of the geotube containing dehydrated and compacted sludge, apply layers according to the first or second embodiment of the claimed invention.

Technical solutions that coincide with the totality of the essential features of the claimed invention have not been identified, which allows us to conclude that the claimed invention meets such a patentability condition as “novelty”.

The claimed essential features that predetermine the receipt of the specified technical result, do not explicitly follow from the prior art, which allows us to conclude that the claimed invention meets such a patentability condition as "inventive step".

The patentability condition "industrial applicability" is confirmed by examples of specific applications.

The invention is illustrated in the drawing, which presents a front view of the sludge collector in section.

The proposed protection method is as follows.

When implementing the method according to the first embodiment, a narrow trench is laid along the perimeter of the site intended for the construction of the sludge collector, in which it is planned to place drilling waste, at a distance of 1.0-5.0 m from the outer edge of the bowl of the sludge collector, the depth of the bottom marking from the groundwater level is not above 0.3 m. A vertical enclosing structure 1 is installed in the trench, hermetically assembled from modular panels (walls) equipped with a tongue-and-groove connection, providing for reciprocal interaction of the panels with each other, and / or nym compound, such as a bolt. In addition, the panels are equipped with stiffening ribs and slings, made, for example, in the form of loops or through holes. When installing the panels, they are evenly covered with soil used to build the body of the embankment.

Using in the proposed method of building a modular enclosing structure allows according to Art. 1 of the Town Planning Code, attribute this construction project - sludge collector - to capital construction facilities, namely to structures. Moreover, according to p. 23, 24 Art. 2 of Federal Law dated 30.12.2009 No. 384-ФЗ "Technical Regulations on the Safety of Buildings and Structures" in a waste disposal facility that has the features of a capital construction facility, it is allowed, unlike temporary buildings, both the accumulation of waste and its disposal providing for storage or disposal. Thus, constructed in accordance with the claimed method, the construction relates to capital construction.

Inside the predetermined circuit, a pit bowl (sludge collector) is created (dug), the bottom and sides of which are protected by an anti-filter screen 2. In this case, according to the first embodiment, the anti-filter screen 2 is made in the form of a layer of waterproofing material, for example, synthetic material of the type “Net- Teplonit ”, 3 mm thick polyethylene, bentonite mats for waterproofing underground structures like Bentolock-Stroy (Bentolok-Stroy), Voltex (Volteks), Bentomat (Bentomat) or other materials with durable waterproofing properties. The ends of the waterproofing material are led beyond the protruding edges of the enclosing structure 1, the height of which above the surface of the bowl after installation does not exceed 0.1-0.2 m, and is deepened by 0.3-0.3 m, while the waterproofing material: roll or sheet, overlap or its joints, taking into account the properties of the material used, are connected, for example, by heat sealing.

Then drill waste 3 (solid phase) and / or neutralized drilling waste no higher than hazard class IV of waste are placed, which is covered with an insulating layer 4 in the form of natural mineral soil, for example sand, on which the top layer of a waterproofing coating 5 made of the same materials is laid as the waterproofing layer 2. At the same time, the ends of the waterproofing material 5 are also wound beyond the edge of the enclosing structure protruding above the surface of the site and buried by 0.3-0.5 m. A second is applied over the waterproofing layer 5 a layer of mineral soil 6 in the form of sand and then a reclamation layer 7 in the form of a peat-sand mixture 0.3-0.4 m thick, and the reclamation layer consists of a soil layer (base) and an upper layer in the form of a peat-sand mixture, while the height of each layer is in the range of not less than 0.15-0.20 m. The ratio of the components in the peat-sand mixture depends on the brand of peat used and the climatic conditions that ensure the length of the growing season for reclamation plants.

The claimed total thickness of the reclamation layer, which is at least 0.30-0.40 m, allows you to create a durable artificial soil cover for planting grass reclamants and use cultivators and / or trailed disc harrows with a diameter of 0.10 for cultivating and mixing the soil -0.20 m. With such a thickness of the applied restoration layer, the used units do not damage the underlying layer of waterproofing material.

According to the second embodiment of the invention, after drilling cuttings and / or neutralized drilling waste 3 is placed on the waterproofing layer 2 and is not higher than hazard class IV, the upper waterproofing layer 5 is laid, the ends of the material used for layers 2 and 5 being led beyond the edges of the enclosing structure and buried on 0.3-0.5 m. Then apply an insulating layer 6 and then a remediation layer 7.

According to the first and second options, before applying the remediation layer, the total content of the sludge collector should not exceed 0.3-0.4 m from the level of the outer edge of the sludge collector bowl.

For the extraction and transportation of contents for the purpose of its further processing or disposal, the sludge collector is opened in the reverse order. Modular panels are removed for later use, and dismantled waterproofing layers must be disposed of.

Thanks to the proposed method for the construction of a sludge collector, precipitation does not penetrate into the body of the placed drilling waste, but flows outside the outer edge of the enclosing structure, and then is carried outside the site. In addition, groundwater also does not penetrate into the body of the embankment, and, therefore, water-soluble harmful substances are not removed outside the sludge collector.

The claimed method allows you to reuse the building envelope in the construction of other facilities, which significantly reduces the cost of building a new facility for waste disposal.

Claims (10)

1. A method of constructing a sludge collector to accommodate drilling waste from oil and gas fields, including creating a sludge collector bowl, an anti-filter screen on the bottom and sides of the bowl, characterized in that before creating a sludge collector bowl along its perimeter with a deviation of 1.0-5.0 m from a narrow trench is laid on the outer edge, the depth of which coincides with the height of the sides of the sludge collector bowl, while the mark of the bottom of the trench from the groundwater level does not exceed 0.3 m, after which a guard is mounted in the trench a hermetically assembled from modular panels protruding after installing 0.1-0.2 m above the sides of the bowl, then the trench is evenly filled with the soil used in the construction of the sludge collector, and after the anti-filter screen is made of waterproofing material and the drilling waste is placed on it in the form of a solid phase of drill cuttings and / or neutralized drilling waste, they are covered with an insulating layer in the form of mineral soil to a level not exceeding 0.3-0.4 m from the outer edge of the bowl, then waterproofing is again laid layer, while the ends of both waterproofing layers are led beyond the protruding edge of the building envelope and deepened by 0.3-0.5 m, after which a layer of mineral soil is laid and then a restoration layer of soil 0.3-0.4 m thick, while for the waterproofing layer, synthetic material is used. 2. The method according to p. 1, characterized in that, as an insulating layer, for example, previously neutralized drilling wastes of no higher than hazard class IV waste or man-made soils are used. 3. The method according to p. 1, characterized in that, as a synthetic material for the waterproofing layer, use, for example, Netma-Teplonit type material, 3 mm thick polyethylene, bentonite mats for waterproofing underground structures of the Bentolock-Stroy type (Bentolock-Stroy ), Voltex (Voltex), Bentomat (Bentomat). 4. The method according to p. 1, characterized in that the reclamation layer consists of sand. 5. The method according to p. 1, characterized in that before placing the drill cuttings additionally lay a drainage layer made, for example, of crushed stone. 6. A method of constructing a sludge collector for accommodating drilling waste from oil and gas fields, including creating a sludge collector bowl, an anti-filter screen on the bottom and sides of the bowl, characterized in that before creating a sludge collector bowl along its perimeter with a deviation of 1.0-5.0 m from a narrow trench is laid on the outer edge, the depth of which coincides with the height of the sides of the sludge collector bowl, while the mark of the bottom of the trench from the groundwater level does not exceed 0.3 m, after which a guard is mounted in the trench a hermetically assembled from modular panels protruding after installing 0.1-0.2 m above the sides of the bowl, then the trench is evenly filled with the soil used in the construction of the sludge collector, and after the anti-filter screen is made of waterproofing material and the drilling waste is placed on it in the form of a solid phase of drill cuttings and / or neutralized drilling waste, they are covered with a waterproofing layer, while the ends of both waterproofing layers are led beyond the protruding edge of the enclosing structure and buried on 0.3-0.5 m, after which a layer of mineral soil is laid and then a remediation layer of soil 0.3-0.4 m thick, while synthetic material is used for the waterproofing layer. 7. The method according to p. 6, characterized in that as the insulating layer used, for example, previously neutralized drilling waste no higher than class IV hazard hazard or industrial soils. 8. The method according to p. 6, characterized in that, as a synthetic material for the waterproofing layer, use, for example, Netma-Teplonit type material, 3 mm thick polyethylene, bentonite mats for waterproofing underground structures of the Bentolock-Stroy type (Bentolock-Stroy ), Voltex (Voltex), Bentomat (Bentomat). 9. The method according to p. 6, characterized in that the reclamation layer consists of sand. 10. The method according to p. 6, characterized in that before placing the drill cuttings additionally lay a drainage layer made, for example, of crushed stone.

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