RU2616302C1 - Method of disposal of well drilling waste into abandoned well - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: invention relates to oil and gas industry, namely to disposal of drilling waste into the abandoned well, in particular in permafrost conditions (PFC). The method of disposing of drilling waste comprises preparing a slurry consisting of drill cuttings (DC) and drilling wastewater (DWW). Then the abandoned well is killed by the prepared pulp by injection into the inner cavity of the production casing into the perforated interval along tubing lowered into the well. Then the cement slurry is injected which is mixed in the water-methanol solution (WMS) or DWW, the well is left for the period of waiting on cement (WOC). After curing of the lower cement plug a new batch of the estimated volume of the pulp is injected, after filling the internal cavity of the production string down to the foot of PFC, above the column of injected part of the pulp the top cement plug is arranged, and on the wellhead either the wellhead assembly with a valve and a blank flange or a concrete pedestal are mounted.

EFFECT: invention consists in improvement of reliability of drilling waste disposal without damaging the environmental safety.

4 cl, 4 dwg

Description

The invention relates to the oil and gas industry, in particular to the disposal of drilling waste into a well that is being liquidated, in particular, located in an inaccessible area.

After well construction, the utmost priority is the disposal of drilling waste, in particular drill cuttings (BS) and drilling wastewater (BSW). Disposal of waste in specially constructed barns is not environmentally friendly, especially since after filling it, it is necessary to carry out work on their disposal and land reclamation. Waste removal in difficult terrain to burial sites is laborious.

A known method of disposal of drilling waste, including the disposal of drilling waste by the method of reagent encapsulation of consolidating material with drilling waste [RU 2413835 C1, IPC 21B 21/06 (2006.01), publ. 2011].

The disadvantage of this method of disposal of drilling waste is the additional cost of neutralizing them.

A known method of disposing of drilling waste into specially constructed barns, including the construction of an earthen barn and filling the barn with drilling waste [RU 2162918 C1, IPC E02D 31/02, B09B 1/00, C09K 7/02 (1999.07), publ. 2001].

The disadvantage of this method of disposal of drilling waste is the additional cost of constructing barns, the construction of an anti-filter screen in them and the need for work to neutralize and bury waste.

A known method of disposing of drilling waste into specially constructed barns, including the construction of an earthen barn and filling the barn with drilling waste and drilling wastewater [RU 2138612 C1, IPC 21B 21/06, C09K 7/02 (1998.07), publ. 1999].

The disadvantage of this method of disposal of drilling waste is the additional cost of constructing barns, the construction of an anti-filter screen in them and the need for work to neutralize and bury waste.

At the end of the development period, wells remain in the field that need to be liquidated for technical or other reasons, while the wells of these wells are cased with casing pipes in accordance with the requirements of safety rules [Federal norms and rules in the field of industrial safety “Safety rules in the oil and gas industry ”, approved 12.03.13 No. 101] must be filled with a clay solution with a density that provides backpressure to the open horizon, or kill fluids. Exploratory and exploratory wells located near the field and fulfilling their purpose are also subject to liquidation.

The problem to which the claimed technical solution is directed is to develop a method for the disposal of drilling waste of hazard class 4 [Federal classifier of hazard classes FKKO 29110000000], formed after the completion of construction of oil and gas producing wells with minimal costs and environmental safety, taking into account the passport from the Customer.

When implementing the claimed technical solution, the problem is solved by achieving a technical result, which consists in the disposal of drilling waste in the well to be eliminated in the tubing cased in the interval between the lower and upper cement bridges without reducing environmental safety and the formation of related neoplasms formed in disposal process if incinerated.

The task and technical result is achieved by the fact that the 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 is characterized in that:

- initially prepare the pulp, consisting of drill cuttings and drilling wastewater;

- a tubing string is lowered into the well into the inner cavity of the production string to a depth below the perforation interval;

- after which the well is plugged with the prepared pulp in an amount equal to the volume of the internal cavity of the production string;

- then into the internal cavity of the production string in the perforation interval (in the interval of the productive formation), cement slurry closed on the process fluid is pumped through the tubing string, with the pulp being squeezed out of the production reservoir interval and the bottom hole in the annulus between the production string and the pump string -compressor pipes;

- raise the tubing string above the level of the injected cement;

- leave the well waiting for the hardening of the cement forming the lower cement bridge, leaving the injected pulp above it;

- carry out the test of the lower cement bridge for strength and tightness;

- then lift the tubing string to the bottom of the permafrost, pumping a new portion of the cement slurry shut on the process fluid through it, squeezing the pulp from the permafrost interval through the annulus between the production string and the tubing string;

- leave the well for the period of waiting for the hardening of the cement forming the upper cement bridge, leaving a pumped portion of the pulp above it;

- carry out a test of the upper cement bridge for strength and tightness;

- raise the tubing string to the roof of permafrost, pump non-freezing fluid through it, using a water-methanol solution taken in the ratio methanol: water equal to 40:60;

- in conclusion, the well is sealed by installing wellhead fittings with a gate valve and a blind flange or a concrete pedestal at the wellhead.

It is possible to use a water-methanol solution (BMP), taken in the ratio of methanol: water equal to 40:60, or drilling wastewater (BSW) as a technological fluid for mixing cement. If necessary, you can add to the volume of pulp prepared for injection 5% hydrocarbon composition - oil, diesel fuel, used oil, as well as a binder composition, which is used as CMC in an amount of not more than 0.2% to 10 m ^{3 of} pulp.

The causal relationship between the claimed technical result and the essential features of the technical solution is as follows.

The injection into the well to be eliminated, into the internal cavity of the production string, of drilling waste ensures their disposal in a shielded space lined with casing pipes, without getting them into the environment (to the surface) or with minimal penetration of pulp into the reservoir, and reliable blocking.

The use of cement mortar for installation of a lower cement bridge sealed on the BMP ensures the creation of an ice-free and gas-tight screen in the interval of the productive formation, which provides reliable blocking of the perforation interval, the productive formation and the bottom-hole zone of the formation with the lower cement bridge, and the permafrost is prevented from thawing by the upper cement bridge rocks.

Placing a wellhead filled with drilling waste, a wellhead valve with a valve (in case of waste collection for other purposes or additional filling) and a blank flange (for sealing from the standpoint of environmental and industrial safety) or installing a concrete pedestal at the mouth ensures reliable sealing of the well.

The use of BMP for mixing cement slurry and as a non-freezing fluid eliminates the conditions of its freezing at negative ambient temperatures (in winter conditions) both on the surface and in the well.

The advantages of the proposed method for the disposal of drilling waste in difficult terrain and the presence of permafrost can include: minimal material and technical resources, in particular, for preparing a kill fluid, which is used as existing drilling waste - BS and BSV, forming a pulp, the ability to fill the trunk wells with drilling waste at low ambient temperatures.

As a water-methanol solution (BMP), a solution taken in a methanol: water ratio of 40:60 is used. It has been experimentally established that just such a proportional ratio provides the required properties of a water-methanol solution and its safety during work.

The inventive method for drilling waste disposal is illustrated by drawings, where in FIG. 1 schematically shows the process of killing a well by pumping pulp 4 into production casing 1 of a well being liquidated; FIG. 2 schematically shows the installation process of the lower cement bridge 7, in FIG. 3 schematically shows a well with an installed upper cement bridge and with sealing by wellhead 13 with a valve 14 and a blind flange 15, FIG. 4 schematically shows a well with a sealing cabinet 16.

The method of disposal of drilling waste is as follows.

Liquid and solid drilling wastes are brought to the location of the well being liquidated, downloaded to a homogenization unit to create a homogeneous mass. At the wellhead, equipped with production casing 1 and intended for liquidation, a pulp 4 is prepared consisting of drill cuttings (BS) and drilling wastewater (BSW), which provides the required viscosity and density depending on reservoir conditions: pressure and temperature. For example, at a pressure of 14 MPa, a temperature of 30 ° C, the pulp density is not more than 1400 kg / m ³ , while the viscosity of the pulp should not exceed 120-140 seconds, which will ensure the preservation of the rheological properties of the injected pulp into the well. To prevent freezing of the drilling fluid during the winter period, the available hydrocarbon composition (oil, diesel fuel, used oil, etc.) can be added to the volume of pulp prepared for injection. To prevent subsidence / delamination of the solid phase of drilling waste, it is possible to treat the pulp with a binder composition (for example, CMC, in an amount of not more than 0.2% to 10 m ^{3 of} pulp).

Then, the tubing string 3 is lowered into the borehole into the inner cavity of the production string 1 to a depth below the perforation interval 2.

After that, the well is plugged with the prepared pulp 4 in a volume equal to the volume of the internal cavity of the production casing 1 (Fig. 1).

Then, in the inner cavity of the production casing 1, in the perforation interval 2 (in the interval of the productive formation 5), cement slurry 6, closed on the process fluid (BMP or BSV), is pumped through the tubing string 3, by forcing it through pulp 4, with the formation of the lower cement bridge 7 ( Fig. 2) and with the extrusion of pulp 4 from the interval of the reservoir 5 and the bottom 8 of the well in the annulus 9 between the production string 1 and the tubing string 3 into a special container (not shown).

After that, the tubing string 3 is raised 1-2 m above the level of the injected cement and the well is left for a period of waiting for the solidification of the cement forming the lower cement bridge 7, leaving the pulp 4 pumped up during the jamming process (Fig. 2).

Then carry out a test of the lower cement bridge 7 for strength and tightness in accordance with known technology.

Next, the tubing string 3 is lifted to the base of permafrost rocks (MMP) 10, cement mortar 6, shut on the process fluid, is pumped through it, the cement mortar is pushed with pulp 4 and extruded through the annulus 9 between the production string and tubing string 3 pulp 4 from the interval MMP 10 in a special container (not shown).

Then, the well is left for a period of waiting for the cement to harden (OZZ), which forms the upper cement bridge 11, leaving behind it the injected pulp 4 used in the sale of cement mortar.

Then carry out a test of the upper cement bridge 11 for strength and tightness (in a known manner).

Next, the tubing string 3 is raised to the roof of the MMP 10 (above the MMP zone), non-freezing fluid 12 is pumped through it, for example, a water-methanol solution taken at a methanol: water ratio of 40:60.

In conclusion, the well is sealed, for example, at the wellhead, wellhead fittings 13 with a valve 14 and a blind flange 15 are placed, or a concrete pedestal 16 is installed on the wellhead in a known manner [RD 08-492-02. Instructions on the procedure for liquidation, conservation of wells and equipment of their mouths and shafts. - M .: GUL "Scientific and Technical Center for Safety in Industry of Gosgortekhnadzor of Russia", 2002].

Using the proposed method for utilizing drilling waste from an oil and gas well under construction will allow utilizing drilling waste received during construction into decommissioned and subject to liquidation wells, shortening the duration of utilization, increasing the environmental safety and efficiency of the utilization process in difficult terrain in the presence of permafrost surrounding oil and gas wells.

The claimed technical solution is intended for the disposal of drilling waste during the construction of oil and gas wells, including in hard-to-reach areas in the presence of permafrost in an abandoned well.

Claims (5)

1. The method of disposal of drilling waste by injection into an oil and gas well equipped with a production casing and located in the presence of permafrost, subject to liquidation, characterized in that the pulp is initially prepared, consisting of drill cuttings and drilling wastewater, and then into the well into the internal cavity production casing lower the tubing string to a depth below the perforation interval, through which the well is jammed with the specified pulp in an amount equal to the volume of of the lower cavity of the production string, then into the borehole into the internal cavity of the production string during the perforation interval along the tubing string, cement slurry closed on the process fluid is pumped with the pulp extruded from the interval of the reservoir and the bottom hole in the annulus between the production string and the pump string -compressor pipes, raise the tubing string above the level of the injected cement, leave the well for the waiting period hardening of the cement forming the lower cement bridge, leaving the injected pulp above it, test the lower cement bridge for strength and tightness, raise the tubing string to the base of permafrost, pump cement grouted on the process fluid through it and extrude it pulps from the permafrost interval along the annulus leave the well for the waiting period for the solidification of cement forming the upper cement bridge, with about by placing pumped pulp above it, they test the strength of the upper cement bridge for tightness and tightness, raise the tubing string to the roof of permafrost, pump non-freezing fluid through it, using a water-methanol solution taken in the ratio of water: methanol equal to 40: 60, then the well is sealed by installing wellhead reinforcement with a gate valve and a blind flange or a concrete cabinet at the wellhead. 2. A method for the disposal of drilling waste according to claim 1, characterized in that said cement mortar is shut on a water-methanol solution taken in a methanol: water ratio of 40:60, or on drilling wastewater. 3. A method for utilizing drilling waste according to claim 1, characterized in that a 5% hydrocarbon composition is added to the volume of pulp prepared for injection. 4. The method of disposal of drilling waste according to claim 3, characterized in that oil or diesel fuel or used oil is used as the hydrocarbon composition. 5. The method of disposal of drilling waste according to claim 1, characterized in that a binder composition is added to the volume of pulp prepared for injection, the CMC is used in an amount of not more than 0.2% to 10 m ^{3 of} pulp.

Images