RU2746918C2 - Method for elimination of underground reservoirs of formation hydrocarbon raw material with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in natural forming karstic cavities - Google Patents

Abstract

FIELD: environmental protection; oil and gas production industry.

SUBSTANCE: method involves preparation of a recycling product by mixing drilling mud, sand, cement and sorbent at the following ratio of components, wt %: drilling mud 50, cement 2–5, sorbent 2–5, sand—the rest. Prior to pumping, the recycling product is transferred into a movable state with introduction of liquid into it to moisture content of 20–60 %, wherein the working temperature of the obtained recycling product must be not less than 30 °C, and ambient temperature during pumping of recycling product is not lower than 5 °C. Obtained recycling product is pumped into the liquidated underground storage through the first production well bore, after which fluid is displaced from underground storage to second production well, wherein displaced liquid is used during subsequent transfer of recycling product into mobile state, process of underground storage filling is performed before displacement of injected recycling product is started from the second production well. At that, control of underground storage filling quality is carried out, for this purpose on day surface at least two control wells are drilled, after that, pumping process is resumed until complete pumping of pumped recovery product from all drilled wells. Finally, each said well is sealed by grouting of the shafts and bottomhole zones.

EFFECT: similar solution prevents negative impact on environment.

8 cl, 1 dwg, 2 tbl

Description

The invention relates to environmental protection and the oil and gas industry and can be used to eliminate artificially created storage facilities for gas, oil, gas condensate and products of their processing, as well as phenomena associated with the activity of water and expressed in the dissolution of rocks and the formation of voids in them.

There is a known method of disposal of drilling waste by pumping into an oil and gas well equipped with a production casing and located in the presence of permafrost rocks to be eliminated, characterized by the fact that initially a slurry consisting of drill cuttings and drilling wastewater is prepared, and then into the well into the internal cavity of the production the strings lower the tubing string to a depth below the perforation interval, through which the well is killed with the specified slurry in a volume equal to the volume of the production string inner cavity, then cement slurry is pumped into the well into the production string inner cavity in the perforation interval through the tubing string, shut on the process fluid, with the squeezing out of the slurry from the interval of the productive formation and the bottom of the well along the annulus between the production string and the tubing string, raise the tubing string you below the level of the injected cement slurry, leave the well for the period of waiting for the cement to solidify forming the lower cement bridge, leaving the pumped slurry above it, test the lower cement bridge for strength and tightness, raise the tubing string to the bottom of permafrost, pump through it cement slurry, mixed with a process fluid, with squeezing out the slurry from the permafrost interval along the annulus, leave the well for the period of waiting for the cement to solidify, forming the upper cement bridge, leaving the pumped slurry above it, test the upper cement bridge for strength and tightness, raise a string of tubing pipes to the roof of permafrost, pump through it a non-freezing liquid, which is a water-methanol solution taken in a water: methanol ratio of 40:60, then the well is sealed by m installation at the wellhead of wellhead equipment with a gate valve and a blind flange or a concrete pedestal [RU 2616302 C1, B65G 5/00 (2006.01), Е21В 33/13 (2006.01), publ. 04/14/2017].

The disadvantage of this method is the limited scope, disposal of drilling waste is produced by pumping only into an oil and gas well equipped with a production string and located in the presence of permafrost. Another significant drawback of the known method is that there is no information on the passage of the state ecological expertise in accordance with paragraph 5 of article 11 of the Federal Law No. 174-FZ [Federal Law of 23.11.1995 No. 174-FZ (as amended on 03.08.2018) " On ecological expertise "], which indicates the possibility of environmental pollution.

There is a known method of liquidation of underground natural gas storage, including the selection of the active gas volume and the subsequent selection of the buffer gas volume, and the buffer gas volume is taken until it is completely displaced by carbon dioxide or nitrogen, the injection of which is carried out while maintaining a constant overpressure, while the buffer gas volume is taken stationary gas pumping units of the storage, and the simultaneous injection of carbon dioxide or nitrogen - by mobile compressor units [RU 2508445 C1, Е21В 43/00 (2006.01), F17C 5/00 (2006.01), publ. 02/27/2014].

The disadvantage of this method is the limited scope, liquidation is carried out only for underground storage of natural gas.

The technical problem to be solved by the proposed method is the development of a method with wider possibilities of practical application for the elimination of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally-forming karst voids providing at the same time, the elimination of negative impact on the natural environment.

The technical result, the achievement of which the proposed invention is aimed at, is the elimination of negative impact on the natural environment by using in the liquidation of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids of the disposal product for which a positive conclusion of the state ecological expertise issued by the Federal Service for Supervision of Natural Resources was received.

The specified technical result is achieved due to the fact that the method of liquidation of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs built in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids, characterized by the fact that:

- initially prepare the product of disposal by mixing drill cuttings, sand, cement and sorbent, with the following ratio of the components of the masses. %:

drill cuttings fifty cement 2-5 sorbent 2-5 sand rest;

- then, immediately before injection, the disposal product is transferred to a mobile state with the introduction of liquid into it to a moisture content of 20-60%, while the operating temperature of the resulting disposal product should be at least 30 ° C, and the ambient temperature during injection of the disposal product should not be lower than 5 ° FROM;

- then the resulting disposal product is pumped into the liquidated underground storage through the bore of the first production well, after which the liquid from the underground storage is displaced into the second production well, and the displaced liquid is used during the subsequent transfer of the disposal product to a mobile state, the process of filling the underground storage is carried out until start of displacement of the injected disposal product from the second production well;

- monitoring the quality of filling the underground storage, for which at least two control wells are drilled on the day surface;

- after which the injection process is resumed until the injected disposal product is completely displaced from all drilled wells;

- in conclusion, each specified well is sealed by cementing the boreholes and bottomhole zones.

In the production of the utilization product, Portland cement or sulfate-resistant cement or technological lime, ground quicklime can be used as cement, and glauconite or Glaucomin sorbent can be used as a sorbent.

There is an option in which water or brine is used as the injected liquid when transferring the disposal product to a mobile state.

The fluid can be withdrawn from the underground storage through the annulus of the first production well. In the absence of liquid in the underground storage, water is taken from an agreed source.

A variant is possible, in which the pressure during the injection of the utilization product is 1.6 MPa.

If necessary, at low ambient temperatures, a temporary structure is installed at the place of work.

The figure schematically shows the process of liquidation of underground reservoirs of stratal hydrocarbon raw materials, with reservoirs being built in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids.

The figure shows the following positions:

1 - the first production well,

2 - second production well,

3 - control wells,

4 - underground storage.

The proposed method is carried out as follows.

Initially, a disposal product is prepared by mixing by any known method of drill cuttings, sand, cement and sorbent, with the following ratio of the components of the mass. %:

drill cuttings fifty cement or Portland cement or sulfate resistant cement or technological lime, ground quicklime 2-5 sorbent glauconite or sorbent "Glaukomin" 2-5 sand rest.

Then, immediately before injection, the disposal product is transferred to a mobile state with the introduction of liquid into it to a moisture content of 20-60%, for which, for example, water or brine is taken from the annulus of the first production well 1 (Fig.). In the absence of water or brine in the underground storage 4, water is taken from any agreed source. The operating temperature of the resulting disposal product must be at least 30 ° C, and the ambient temperature when injecting the disposal product must be at least 5 ° C. At low ambient temperatures, temporary structures in the form of an arched structure are installed at the place of work, for example, an arched hangar, broken 11.5 × 36 × 5.75, insulated. Next, the resulting disposal product is pumped, for example, under a pressure of 1.6 MPa into the liquidated underground storage 4 through the bore of the first production well 1, using a cementing unit, for example, TsA-320 (ANTs-320, UNB-125 × 32) intended for injection working fluids when cementing wells in the process of drilling and workover, as well as when carrying out other flushing and squeezing operations on oil and gas wells. After that, the displacement of the liquid from the underground storage 4 into the second production well 2 takes place, and the displaced liquid is used during the subsequent transfer of the disposal product to a mobile state, the process of filling the underground storage 4 is performed before the displacement of the injected disposal product from the second production well 2 begins. the quality of filling the underground storage 4 and the release of possible voids, at least two control wells are drilled on the day surface 3. After that, the injection process of the liquidated underground storage 4 is resumed until the injected disposal product is completely displaced from all drilled wells 1, 2 and 3. After implementation of the final stage of injection, each well 1, 2 and 3 is sealed by cementing the boreholes and bottom-hole zones in a known manner [RD 08-492-02. Instruction on the procedure for liquidation, conservation of wells and equipment of their wellheads and shafts. - M .: GUL "Scientific and Technical Center for Safety in Industry of the Gosgortekhnadzor of Russia", 2002].

The process of elimination of karst voids by the product of disposal is carried out similarly to the elimination of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs built in rock salt and other rocks, including permafrost.

Requirement for astringent components that can be used for the production of a disposal product:

- Portland cement grade PC-400-D20 in accordance with GOST 10178;

- sulfate-resistant cement according to GOST 22266;

- cement according to GOST 30515, GOST 31108, GOST 25328;

- technological lime, ground quicklime according to TU 5744-001-42976689-2005. Requirement for a sorbent that can be used for production

product recycling:

- glauconite manufactured according to TU 2164-001-91350088-2011 or Glauomin, produced under the trademark Glaukomin sorbent TU 2165-008-69420589-2016, is used as a sorbent.

Requirement for sand that can be used for the production of a disposal product:

- natural sand or sand from screenings of crushing rocks with a true grain density of 2.0 to 2.8 g / cm ³ in accordance with GOST 8736.

The liquidation of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids, can be performed by another product of disposal obtained from drilling waste by means of their neutralization, if the technology is positive. conclusion of the State Environmental Expertise in accordance with paragraph 5 of Art. 11 of the Federal Law No. 174-FZ [Federal Law No. 174-FZ dated 23.11.1995 (as amended on 03.08.2018) "On Environmental Expertise"].

The proposed method for the elimination of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally occurring karst cavities, can be performed in parallel with the process of disposal, disposal of drilling waste.

The use of the proposed method for the elimination of underground storage facilities of stratal hydrocarbon raw materials, with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids, expands the possibilities of practical application, allows the disposal of drilling waste obtained during the construction of wells, excludes construction landfills for the disposal of drilling waste, eliminates the negative impact on the environment.

Claims (10)

1. A method of liquidation of underground storage facilities of stratal hydrocarbon raw materials with reservoirs constructed in rock salt and other rocks, including permafrost, as well as in naturally occurring karst voids, characterized by the fact that the product of disposal is initially prepared by mixing drill cuttings, sand, cement and sorbent with the following ratio of components, wt%: drill cuttings fifty cement 2-5 sorbent 2-5 sand rest, then, immediately before injection, the disposal product is transferred to a mobile state with the introduction of liquid into it to a moisture content of 20-60%, while the operating temperature of the resulting disposal product should be at least 30 ° C, and the ambient temperature during injection of the disposal product should not be lower than 5 ° C , then the resulting disposal product is pumped into the liquidated underground storage through the bore of the first production well, after which the liquid is displaced from the underground storage into the second production well, and the displaced liquid is used during the subsequent transfer of the disposal product to a mobile state, the process of filling the underground storage is performed before displacement of the injected disposal product from the second production well, while monitoring the quality of filling the underground storage, for which at least two control wells are drilled on the day surface, after which the injection process is resumed until full displacement of the injected disposal product from all drilled wells, in conclusion, each specified well is sealed by cementing the wellbores and bottomhole zones. 2. The method according to claim 1, characterized in that in the production of the utilization product Portland cement or sulfate-resistant cement, or technological ground quicklime is used as cement. 3. The method according to claim 1, characterized in that glauconite or Glaucomin sorbent is used as a sorbent in the production of the utilization product. 4. The method according to claim 1, characterized in that water or brine is used as the injected liquid when transferring the disposal product to a mobile state. 5. The method according to claim 1, characterized in that the fluid is withdrawn from the underground storage through the annulus of the first production well. 6. The method according to claim 1, characterized in that the intake of liquid is made from a coordinated source. 7. The method according to claim 1, characterized in that the pressure during injection of the utilization product is 1.6 MPa. 8. The method according to claim 1, characterized in that at low ambient temperatures, a temporary structure is installed at the work site.

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