RU2162135C1 - Method of oil-gas well construction - Google Patents

Abstract

FIELD: construction of oil and gas wells, particularly, well washing and protection of fresh water from pollution with drilling mud. SUBSTANCE: method includes mounting of drill, drilling and installation of equipment for wells of service water supply. For construction of oil-gas well, drilling equipment is mounted. Drilling mud is prepared on base of mineralized water. Water is taken from wells of service water supply. Cutting of bottom hole rock of oil-gas well by bit is carried out simultaneously with forcing of drilling mud at pressure to bottom hole. Drilled-out rock is lifted to surface. Fresh water is used for preparing drilling mud for surface well drilling of wells of service water supply and oil-gas well. Water is taken from local open water reservoirs formed with ecologically clean fresh waters coming to day surface. Waters are similar in their qualitative composition to drilled fresh waters. Mineralized water is used for preparation of drilling mud which is used after lowering and fastening of surface casing string of oil-gas well. EFFECT: higher ecological safety of well construction. 2 dwg, 1 tbl

Description

 The invention relates to the construction of oil and gas wells, in particular to their washing and protection of fresh groundwater from contamination by the drilling fluid.

 A well-known method of well construction, including the installation of drilling equipment, the delivery of drilling fluid from previously drilled wells and the reuse of the solution to flush the drilled well (see Bulatov A.I., Makarenko P.P., Shemetov V.Yu. Environmental protection in oil and gas industry.-M .: Nedra, 1997. - S. 296-298).

 However, an analysis of the composition and properties of reused drilling fluids indicates a significant level of contamination. It contains in large quantities dissolved and emulsified oil, polluting organics (COD indicator), mineral salts (dry and calcined residue). The pH of such solutions varies in a significant range from 7.2 to 12.6. Therefore, the reuse of the drilling fluid, although it is in itself an environmental measure, since waste from drilled wells is disposed of, when a new well is drilled leads to the pollution of water-bearing horizons of drinking quality occurring at depths of up to 100 m. The most negative impact on underground fresh water occurs when the drilling fluid is completely absorbed, often noted already from a depth of 20 m, i.e. when drilling a well under a conductor. In addition, the delivery of drilling fluid from the well site with the completed construction of the well to a new drilling point is associated with unavoidable losses and spills along the route and, consequently, environmental pollution (OPS).

 The closest method of the same purpose to the claimed invention in terms of features is a well construction method, including mounting a drilling rig for constructing technical water supply wells (STV), building an oil and gas well, drilling and equipping technical water supply wells, installing drilling equipment for building an oil and gas well, selection from wells for technical water supply of mineralized (technical) water and preparation of a drilling mud based on it, destruction of water with a rock of the bottom hole of an oil and gas well with simultaneous injection of drilling fluid under pressure to the bottom and removal of cuttings to the day surface (see Instructions on the composition, procedure for development, approval and approval of design estimates for the construction of oil and gas wells. VSN 39-86 M.: VNIIOENG, 1987, -155 p.).

 The reasons that impede the achievement of the technical result indicated below when using the known method adopted as a prototype include the fact that a drilling fluid prepared on the basis of industrial water from technical water supply wells, characterized primarily by increased mineralization, leads to contamination when drilling an oil and gas well fresh underground aquifers of drinking quality, intensified by the absorption of drilling fluid while drilling a well under a conductor. The disadvantages of this method is that when drilling STV there is the same risk of contamination of freshwater horizons with drilling fluid, as when drilling an oil and gas well under the conductor.

 The invention consists in the following.

 The problem of the protection of groundwater of drinking quality is very urgent, and it is most acute in the construction of water wells (technical water supply) and oil and gas wells, when there is a real risk of contamination of fresh water lying at a depth of 100 m, due to the ingress of drilling fluid into them or when absorbed.

Water-based drilling fluids are composed of four components:
water (which is the main liquid phase and is used to obtain the initial viscosity of the solution);
reactive fractions to provide greater viscosity and create ultimate shear stress;
inert fractions to create the desired density of the solution;
chemical additives to control the parameters of the drilling fluid.

 Sanitary and environmental services when drilling wells under the conductor is prohibited from treating the drilling fluid with harmful chemicals and oil. At the same time, fresh drinking water is more prone to pollution than water of high and high salinity, which themselves can be a source of pollution. In this regard, even the exclusion from the drilling fluid formulation of harmful chemicals during well drilling under the conductor does not prevent the entry of mineralized (technical) water into the freshwater horizons, which is the basis of the drilling fluid obtained from the technical water supply well. But even when drilling technical water supply wells, carried out before the start of the construction of an oil and gas well, the threat of pollution of freshwater horizons for the same reasons remains quite real.

 The technical result that can be obtained by carrying out the invention is to increase the environmental safety of the construction of oil and gas wells due to the prevention of pollution of fresh underground water while drilling with an STW and an oil and gas well under a conductor.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known method, including the installation of a drilling rig for the construction of technical water supply wells for the construction of an oil and gas well, drilling and construction of technical water supply wells, the installation of drilling equipment for the construction of an oil and gas well, the selection of mineralized technical water supply wells (technical ) water and the preparation of a drilling fluid on its basis, the destruction by a bit of rock bottomhole oil and gas wells With the simultaneous injection of drilling fluid under pressure to the bottom and removal of cuttings to the day surface, the peculiarity is that when drilling technical water supply wells for the construction of an oil and gas well and when drilling an oil and gas well under a conductor, fresh water from local open reservoirs is used to prepare the drilling fluid formed by the exits of environmentally friendly fresh groundwater to a day surface that is identical or close in quality composition is drilled freshwater horizons in the upper part of the geological section, and mineralized (technical) water from technical water supply wells is used to prepare the drilling fluid used after lowering and fixing the oil and gas well conductor - for drilling underlying rocks.

 The use of natural fresh water from local open natural or artificial reservoirs formed by the outcrops of environmentally friendly fresh groundwater on the day surface, for example, by springs that are identical or close in quality to the freshwater horizons of drinking quality drilled in the upper part of the geological section to prepare the drilling fluid used when drilling technical water supply wells for the construction of an oil and gas well and drilling an oil and gas well under cond Ktorov, eliminates the possibility of contamination of underground fresh water even at full absorption of drilling fluid. After drilling, lowering and fixing the CTV casing production string, as well as sinking the upper part of the geological section during the construction of an oil and gas well, lowering and fixing a conductor that reliably isolates freshwater horizons of drinking quality, a drilling fluid is used to drill the underlying rocks (intervals) of the oil and gas well based on mineralized (technical) water from technical water supply wells.

 Implementation of the above actions ensures increased environmental safety of the construction of oil and gas wells and eliminates the pollution of drinking-water-bearing aquifers with harmful substances when drilling a well under a conductor.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, made it possible to establish the absence of a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of significant distinctive features in relation to the applicant’s perceived technical result in the claimed method set forth in the claims.

 Therefore, the claimed invention meets the condition of "novelty."

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention was not revealed from the prior art determined by the applicant to achieve a technical result. In particular, the claimed invention does not provide for the following transformations:
supplementing a known product with any known part (s) attached to it according to known rules in order to achieve a technical result in respect of which the effect of such an addition is established;
the replacement of any part (s) of a known product with another known part to achieve a technical result in respect of which the effect of such a replacement is established;
the exclusion of any part (element, action) of the product with the simultaneous exclusion of the function due to its presence and the achievement of the usual result for such exclusion;
an increase in the number of action elements of the same type to enhance the technical result due to the presence in the tool of precisely such action elements;
the implementation of a known tool or part (s) of a known material to achieve a technical result due to the known properties of this material;
creating a tool consisting of known parts, the choice of which and the connection between them are based on known rules, recommendations and the technical result achieved in this case is due only to the known properties of the parts of this tool and the connections between them.

 The described invention is not based on a change in a quantitative characteristic (s), the presentation of such signs in relationship or a change in its appearance. This refers to the case when the fact of the influence of each of the indicated features on the technical result is known, and new values of these features or the relationship could be obtained on the basis of known dependencies and patterns.

 Therefore, the claimed invention meets the condition of "inventive step".

The method is carried out by the following sequential steps in the order of presentation:
mount a drilling rig for the construction of wells for technical water supply for the construction of an oil and gas well;
fresh water is taken from the nearest open reservoir formed by the exits of environmentally friendly fresh groundwater to the day surface;
drill with fresh water and wash with special wells for technical water supply for the construction of an oil and gas well;
Mount drilling equipment for the construction of an oil and gas well;
fresh water is taken from the nearest open reservoir formed by groundwater freshwater exits to the surface;
prepare a drilling fluid based on fresh water from the nearest open reservoir formed by the exits of environmentally friendly fresh groundwater to the day surface;
drilling an oil and gas well under a conductor by breaking a face rock with a bit while simultaneously injecting drilling fluid prepared in fresh water under pressure into the face to bring the cuttings to the surface;
lower and fix the conductor of the oil and gas well;
prepare a drilling fluid based on technical water from the wells of technical water supply of the construction;
the underlying rocks are drilled until the design depth of the oil and gas well is reached by breaking the bottom of the face with a bit while simultaneously injecting drilling mud prepared with industrial water under pressure into the bottom, with the drill cut to the surface.

 The invention is illustrated by drawings, where in FIG. 1 shows the topographic basis of the drilling area; FIG. 2 - a drilling site for the construction of an oil and gas well.

 On the territory of the land allotment (drilling site) 1, provided for temporary short-term use for the construction period in the Zhirnovsky district of the Volgograd region of an oil and gas well 2 with a depth of 2900 m, a drilling rig of the UGB-50M or URB-2A type (not shown in the drawings) is mounted, for construction two (one working, the other reserve) special wells 3 and 4 of technical water supply for the construction of an oil and gas well 2.

In the vertical of the geological section, several aquifers and complexes are developing. The first aquifer from the surface is confined to the sand formations of the Hauterivian-Barremian stage (K ₁ ^hb ), the depth of which does not exceed 50 m. Environmentally friendly groundwater is confined to the active water exchange zone and has a salinity of less than 1000 mg / dm ³ , flow rate - up to 200 m ³ / day

In the Jurassic sediments, poorly depleted horizons of the sandstones of the Baiossian Stage (J ₂ b) are aquifers. Fresh water with salinity up to 1000 mg / dm ³ .

The aquiferous complex of Permian, Upper and Middle Carboniferous sediments lies in the interval 370-1105 m. The reservoirs are carbonate porous-fractured limestones. The density of water is 1040 mg / dm ³ , mineralization is 5000-20000 mg / dm ³ , the type of water is calcium chloride.

 The source of water used for technical needs in the construction of an oil and gas well is underground saline water and recycled water supply.

Underground mineralized water is taken from the Upper Carboniferous (C ₃ ) aquifer complex + Lower Perm (P ₁ ) horizon of the Permian (P) aquifer complex, occurring in the interval 370-422 m, by means of technical water supply wells drilled to a depth of 410 m. In the construction of an oil and gas well, there are natural outlets of ecologically clean fresh underground waters of the Goteriv-Barrem complex to the day surface in the form of springs 5. Dam 7 built in beam 6 ensured the collection of GOVERNMENTAL water in a pond 8 Yemini.

 The chemical composition of the ecologically clean fresh underground waters of the Goteriv-Barrem horizon, the underground mineralized waters of the Middle Carboniferous deposits, and the surface fresh waters of the Yaminny 8 pond are shown in the table.

 An analysis of the data in the table shows that the qualitative composition of water from the Yaminniy pond 8 is close to the composition of ecologically clean fresh underground waters of the Goteriv-Barrem aquiferous complex from springs 5 and they are compatible. At the same time, the data in the table confirm the conclusion that the drilling fluid prepared on the basis of mineralized water from PTS contaminates environmentally friendly fresh groundwater of the Goteriv-Barrem aquifer when drilling wells 3 and 4 of technical water supply and oil and gas well 2 in the depth interval 0 -50 m.

 Fresh water is taken from the Yaminny pond 8 by a pump (not shown in the drawings) and delivered to tanker 1 by tankers (not shown in the drawings). On the basis of the brought fresh water, a clay (environmentally friendly) solution is prepared using which STV 3 is drilled alternately. and 4 with a depth of 410 m. After completion of the STV drilling, the casing production string with a filter is lowered and wells 3 and 4 are tied up with wellhead equipment (not shown in the drawings).

 At the mouth of the oil and gas well 2, drilling equipment of the BU-3200/200 DGU installation is installed, including a tower unit 9, a drive unit 10, a pump unit 11, a drilling mud cleaning unit 12, a fuel and lubricant storage facility 13 and an earthen slurry storage barn drive 14 of drilling waste are built. Drilling equipment and towers are located outside the sanitary protection zone of 15 technical water supply wells 3 and 4.

 Fresh water is delivered from the Yaminniy pond 8 to the drilling site 1, a drilling fluid is prepared based on it that does not contain oil and toxic chemicals, and an oil and gas well 2 is drilled with a diameter of 490 mm (not shown in the drawings) for a conductor in the interval 0-120 m The conductor is lowered to a depth of 120 m from casing pipes with a diameter of 426 mm and the annulus is cemented to the wellhead 2 — fresh aquifers are isolated.

 Mineralized water is taken from wells 3 and 4 of the technical water supply, a drilling fluid is prepared on its basis, and oil and gas well 2 is drilled to the design depth without the threat of pollution of environmentally friendly fresh groundwater.

Thus, the above information indicates the fulfillment when using the claimed invention (method) of the following set of conditions:
the tool embodying the claimed method in its implementation is intended for use in the construction of wells on land, namely when washing and protecting fresh groundwater from contamination by the drilling fluid;
for the claimed method in the form described in the independent clause of the claims, the possibility of its implementation using methods described in the application or known prior to the priority date is confirmed.

 Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

 A method of constructing an oil and gas well, including mounting a drilling rig for constructing technical water supply wells for building an oil and gas well, drilling and equipping technical water supply wells, installing drilling equipment for constructing an oil and gas well, selecting mineralized water from the technical water supply wells and preparing a drilling fluid based on it, breaking with a chisel bottomhole rocks of an oil and gas well with simultaneous injection of drilling mud under pressure to the bottomhole removal of cuttings to the day surface, characterized in that when drilling technical water supply wells and drilling an oil and gas well under a conductor, fresh water from local open reservoirs formed by the outflows of environmentally friendly fresh groundwater to a day surface identical or close in its use is used to prepare the drilling fluid the qualitative composition of the freshwater horizon drilled in the upper part of the geological section, and the mineralized water from the technical water supply wells Niya is used to prepare the drilling fluid used after lowering and fixing the conductor of the oil and gas well - for drilling the underlying rocks.

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