RU2721616C1 - Composition for sealing voids in rock - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil and gas industry, in particular, to blocking compositions, which make it possible to isolate and disconnect zones of absorption of process liquids during drilling and well fixation in intervals of intensive movement of formation water. Composition contains a reagent dispersed in a dispersion medium containing 35–75 wt% of diatomite earth, 20–60 wt% of ground cellulose fibrous material, 2–15 wt% of chopped fiber with fiber length in range of 2 mm to 18 mm.

EFFECT: high degree of insulating properties of the disclosed composition when isolating absorption intervals of borehole fluids in porous, cavernous, fractured rocks.

4 cl, 3 tbl, 10 ex

Description

The invention relates to the oil and gas industry, in particular to blocking compositions, allowing to isolate and disconnect the absorption zones of process fluids while drilling and fixing wells in the intervals of intense movement of formation water.

Natural resources, such as oil and gas, located in a subterranean formation or zone, are usually extracted by drilling a wellbore. A well is drilled while circulating drilling fluid in it. Mud usually circulates down through the inside of the drill pipe and up through the annular space that is located between the outside of the pipe and the walls of the borehole.

Often when drilling a wellbore, one or more permeable zones are encountered. Permeable zones can be, for example, weakly consolidated formations, voids, natural cracks or induced cracks that occur when weak zones have crack gradients exceeding the hydrostatic pressure of the drilling fluid or cement slurry. During a drilling operation, permeable or fractured zones may result in loss of drilling fluid. Drilling fluid flows into the absorption zone, and does not return to the surface, which leads to loss of drilling fluid. In some cases, there is a drop in the static level in the well, which leads to a drop in pressure on the open formation and can potentially lead to a catastrophic loss of control over the well.

At present, several types of liquidation of mud losses can be distinguished: mud formulations using fractions of various sizes; polymersible compositions, sols; curable compositions.

Although there are many materials and compositions that have been proposed to prevent loss of circulation, there is still a need for even more versatile and more advanced compositions and methods for preventing and reducing loss of circulation.

Known blocking composition for isolating absorption zones during drilling and workover (see patent RU 2670298 C1 of 10.22.2018), containing 0.6-1.0 wt. % water-soluble anionic high molecular weight polyacrylamide (PAA), 7.0-7.4 wt. % chrysotile (a fibrous mineral of the class of silicates) as a filler and water.

A disadvantage of the known composition is the use for choking cracks only chrysotril. This makes the composition narrowly focused, that is, only small cracks will clog.

A well-known grouting composition for isolating areas of intense absorption (see patent RU 2542063 C1 of 02.20.2015), including Portland cement, semi-aquatic gypsum, clay, foaming agent and water, calcium chloride, hydroxyethyl cellulose and an inert additive, while the composition contains palygorskite as clay, or montmorillonite, or kaolin thermomechanically activated clay powder, as an foaming agent - anionic or amphoteric surfactant surfactant, as an inert additive contains polypropylene fiber, or asbestos fiber, or marble flour.

A disadvantage of the known composition is the use of fine powders and fibers of the same type as fillers. This composition can only be used to block a narrow range of cracks. In addition, the composition includes components such as gypsum and cement, which creates technological difficulties in use, namely the risk of the composition becoming un pumpable after an indefinite time.

Known suspension to prevent absorption of drilling fluid (see patent EP 2398866 B1 dated 03/04/2015), comprising a base fluid of 1.4 g / dm ³ to 28 g / dm ³ (0.5 to 10 ppb) of at least one fibrous structure, at least one weighting agent and many particles of calcium silicate. As the base fluid, water or an oily liquid is used. As the fibrous structure - cellulose or synthetic fibers. The synthetic fiber structure may contain polyester, acrylic, polyamide, polyolefin, polyaramide, polyurethane, vinyl polymer, glass fibers, carbon fibers, regenerated cellulose (viscose), or mixtures thereof. Calcium silicate can be in the form of CaSiO ₃ , CaSiO ₄ , Ca ₂ SiO ₄ , Ca ₃ SiO ₇ , Ca ₃ (Si ₃ O ₉ ) and Ca ₄ (H ₂ Si ₄ O ₁₃ ) with different percentage of crystallization water, and may to be both natural and synthetic. Natural calcium silicate minerals are known under various names, including larnite, gillebrandite, foshagit, afvillit, foshallasit, gellebaite, grammit, table spar, wollastonite, xonaltite, xonotlite, eaclite and calcium pectolite. Valostonite is the preferred calcium silicate in the known invention. Additionally, the suspension may contain a bridging agent.

A disadvantage of the known suspension is the use of finely dispersed powders and fibers of the same type as fillers, which allows only small cracks to clog.

The closest in essence and the technical result achieved is an absorbent composition for sealing cracks (patent US 8739872 B1 from 06/03/2014), containing:

- material in the form of particles containing from 45 to 60 wt. % particles of diatomaceous earth, from 5 to 15 wt. % graphite material, from 5 to 15 wt. % shell nuts and from 5 to 15 wt. % pulverized fibrous cellulosic material;

- fibrous material - from 5 to 15 wt. % synthetic chopped fibers;

- cement-free curable composition - from 10 to 20 wt. % hemihydrate of calcium sulfate and from 2 to 12 wt. % sodium metasilicate.

The walnut shells used are walnut shells, peanut shells, almond shells, cashew nutshells, Brazil nutshells, chestnutshells, pistachio nutshells and pecanshells. Synthetic chopped fibers are polypropylene fibers, viscose fibers, carbon fibers, silicon carbide fibers, fiberglass fibers, acrylic polyester fibers, polyamide fibers, aromatic polyamide fibers, polyolefin fibers, polyurethane fibers, polyvinyl chloride fibers and polyvinyl alcohol fibers. Synthetic chopped fibers have an average length of about 0.5 to 13 mm. The known composition effectively seals pores and stops the loss of drilling fluid due to large cracks, such as those having a size of about 200 microns or more, and in some embodiments, the implementation of cracks having a size of about 200 microns to about 4000 microns, and in other embodiments cracking, having a size of from about 500 microns to about 2500 microns, while at the same time demonstrating resistance to high temperatures, such as in some embodiments from about 70 ° F (20 ° C) to about 400 ° F (204 ° C) and in other embodiments, from about 150 ° F to about 250 ° F.

The main disadvantage of this composition is the impossibility of clogging cracks with a size of more than 4000 microns (4 millimeters). This imposes restrictions on the use of the composition in the intervals with the presence of absorbing cracks of wide openness, in particular in the fields of the Republic of Tatarstan, Samara and Orenburg region.

The objective of the invention is to provide a composition for sealing voids in the rock, able to reliably clog cracks from 2 to 10 mm without injecting a large volume of the clogging pack.

The technical result achieved by the implementation of the claimed invention is to increase the degree of insulating properties of the proposed composition when isolating the intervals of absorption of well fluids in porous, cavernous, fractured rocks.

The task and the specified technical result is achieved by the fact that get a composition for sealing voids in the rock containing dispersible in a dispersion medium reagent containing diatomaceous earth, chopped fibrous cellulosic material, chopped fiber with a fiber length in the range from 2 mm to 18 mm, with the following the ratio of components,% wt:

Diatomaceous earth 35-75 Ground fibrous cellulosic material 20-60 Chopped fiber (fiber) with a fiber length in the range from 2 mm to 18 mm 2-15

The content of the reagent in the dispersion medium is from 18 to 35% mass.

The following materials are used to prepare the claimed composition for sealing voids in the rock.

Diatomaceous earth. It is a light powdery mineral of white, gray and yellowish color, consisting of microscopic siliceous shells of algae (diatoms). Diatomaceous earth and ground fibrous cellulosic material are dispersed materials and provide rapid defluidization of the compositions. The fiber increases the shear strength obtained in the absorption zone of the thick filter cake.

As the fiber can be used steel fiber, flexit fiber, cord fiber, silk fiber, fiberglass fiber, polypropylene fiber, nylon fiber, dederon fiber, basalt fiber, dacron fiber, viscose fiber, fiber fiber, nylon fiber, fiber yarn based on them with a fiber length of 2 to 18 mm. Most preferred are steel fiber, lurex fiber, pararamide fiber, flexabit fiber and basalt fiber.

Reinforcing composition with fiber. The main principle of the composition is the removal of excess fluid from the composition into the rock around the absorption interval and the formation of a dense crust in the absorption zone. Moreover, after the operation to eliminate the absorption formed crust can be washed out by the flow of the drilling fluid during drilling and the re-occurrence of absorption of the drilling fluid. The use of fiber in the composition allows to prevent the washout of the resulting crust from the absorption zone by the mud flow, significantly increase the resistance of the obtained crust to pressure drops.

The carrier fluid for the fast filtration formulation may be water, a base oil, or a salt solution. In some embodiments, the reagent is added to the carrier fluid in an amount up to about 300 kg / m3. In addition, in accordance with some variants of implementation, the composition can be prepared by adding barite, salt, calcium carbonate or other conventional weighting agents in the liquid to achieve the desired density.

In accordance with some variants of implementation of the present invention, an improved composition for plugging cracks includes dispersed material for the rapid dehydration of the liquid composition, fibrous material to increase the shear strength of the compacted composition obtained in the crack.

A distinctive ability of the developed composition is the reliable clumping of cracks from 2 to 10 mm without injecting a large volume of the clogging bundle, in contrast to standard compositions with fast filtration.

The achievement of the specified technical result is ensured by a selected mixture of fillers, using a number of new materials, such as steel, flexabit, para-aramid fiber. When using the proposed composition due to the synergistic effect of its components, maximum colmatization of different sized voids in the rock is ensured (crack opening from 2 mm and above).

Next will be given the most preferred embodiment of the invention, which, however, does not limit other possible embodiments explicitly following from the materials of the application and understood by a specialist.

At the factory, reagent is manufactured. Directly at the work site, a reagent is prepared from the reagent to seal the voids in the rock using mineral oil, brine or fresh water (hereinafter referred to as fluid) as a dispersion medium.

In accordance with some embodiments, the reagent for preparing the composition for sealing voids in the rock includes a combination of several materials to obtain a composition that allows you to put a solid, stationary mass in the fracture of the formation to prevent loss of circulation of the drilling fluid, in which the composition cannot be squeezed out from the crack in whole or in part due to pressure fluctuations.

The composition for sealing voids in the rock acquires both compressive strength and shear strength when the material is defluidized in the absorption zone.

In accordance with some embodiments of the present invention, the composition effectively stops drilling fluid loss from large fractures having a size of about 2000 microns, while at the same time demonstrating resistance to low / high temperatures, such as from about 0 ° C to about plus 180 ° C. .

A reagent for preparing a composition for sealing voids in a rock is obtained by simply mixing the ingredients. The content of the components is presented as a percentage of the weight of the dry composition. In accordance with some variants of implementation of the present invention, the reagent for the preparation of a composition for sealing voids in the rock includes the following components: about 35-75% by weight of diatomaceous earth, about 20-60% by weight of crushed fibrous cellulosic material, about 2-15% by weight chopped fibers (fiber) with fiber lengths ranging from 2 mm to 18 mm.

The following ingredients are used to prepare the reagent:

1. Basalt fiber — for example, commercially available material from Sudaglass Fiber Technology.

2. Steel fiber — for example, commercially available material from VULKAN HAREX STEELFIBER INC.

3. Para-aramid fiber - for example, commercially available material from Teijin Aramid.

4. Polypropylene fiber - for example, commercially available material from the company "Art-plast".

5. Shredded fibrous cellulosic material - for example, wood flour in accordance with GOST 16361-87 “Wood flour”.

6. Diatomaceous earth - for example, the commercially available CLARCEL material from Chemviron.

The following ingredients are used as a dispersion medium to prepare the composition from the reagent:

1. Industrial water provided at the work site in a wide range of mineralization (from fresh to saline solution).

2. Mineral oil — for example, the commercially available Rosneft Drilltec B2 material from RN-Lubricants LLC.

The concentration of the reagent in the carrier fluid (dispersion medium) is from 18 to 35%. In addition, in accordance with some variants of implementation, the composition can be prepared by adding barite, salt, calcium carbonate or other conventional weighting agents in the liquid to achieve the desired density.

After the composition has been pumped into the absorption zone, the compression pressure from the surface causes the composition to quickly lose fluid into the permeable formation or into the permeable network of cracks. The resulting fixed mass acquires both compressive and shear strength, and being in place in the fractured zone overlaps it. The filter cake quickly turns into a rigid sealant, which is practically impervious to the entire drilling fluid, so that the minimum amount of subsequent drilling or processing fluids passes into the crack.

The following examples illustrate reagent compositions and methods described above.

Table 1 shows data on the content of components in the investigated compositions.

The prepared formulations are prepared on various types of liquids. Table 2 shows the data on the use of the composition in the preparation of a colmatizing pack using water or mineral oil (where Example No. 0 is a prototype).

A defluidization time at a pressure drop of 100 psi is obtained by pouring the composition in a volume of 300 ml into a standard cell of a low-temperature filter press without using filter paper (only base metal mesh). To assess the maximum size of plugged cracks, a permeability tester with a set of perforated disks (with round holes with a diameter of 2, 3, 5, and 10 mm, with slit-shaped holes with a length of 27 mm and a width of 1.5; 2.5; 3 and 5 mm) is used. The pressure drop during the determination of the clogging ability was 1000 psi. The volume of the composition for determining the clogging ability is 450 ml, the hole is considered to be colmated at the beginning of the expiration of the transparent filtrate.

The resulting colmatizing characteristics are shown in table 3.

Example 1

Fresh water is used as a dispersion medium for the reagent. Basic recipe without fiber. Due to the absence of fiber in the composition, it is allowed to be pumped through the layout of the bottom of the drill string with the presence of a telesystem, a bit. The composition shows a high filtration rate, however, only a slit-like opening with a width of 1.5 mm is clogged, while it demonstrates the leakage of a large amount of the composition until the moment of colmatization.

Example 2

Fresh water is used as a dispersion medium for the reagent. Basic recipe using basalt fiber. Due to the presence of basalt fiber, the composition is able to clog holes of both a slit-like shape and a circular cross section with an openness of up to 3 mm.

Example 3

Fresh water is used as a dispersion medium for the reagent. Formulation using basalt fiber 12 mm long. Thanks to this, a colmatizing ability is achieved - the composition is able to clog openings of both a slit-like shape and a circular cross-section with an openness of up to 5 mm.

Example 4

Fresh water is used as a dispersion medium for the reagent. A recipe using fiber with a combination of basalt fiber of various lengths, an increased proportion of diatomaceous earth. Due to this, a high colmatizing ability is achieved - the largest holes (round cross-section 10 mm and slit-shaped 5 mm wide) with minimal loss of composition before the clogging of the holes.

Example 5

Fresh water is used as a dispersion medium for the reagent. Formulation using basalt fiber 18 mm long. Thanks to this, the clogging ability is achieved - the largest hole of circular cross section 10 mm, however, when evaluating the clogging ability on slit-shaped holes, clogging was obtained only for a width of 1.5; 2.5; 3 mm.

Example 6

Fresh water is used as a dispersion medium for the reagent. Formulation using steel fiber 12 mm long. Steel fiber is the toughest fiber available. Thanks to this, the clogging ability is achieved - the largest holes (circular cross section 10 mm and slit-shaped 5 mm wide). However, in comparison with example 4, where more flexible types of fibers were used, to achieve a colding effect through the holes, it is necessary to pump substantially more composition.

Example 7

Fresh water is used as a dispersion medium for the reagent. Recipe using para-aramid fiber 12 mm long. Due to this, the colmatizing ability is achieved - the largest hole is slit-shaped, 5 mm; however, when evaluating the colmatizing ability at round holes, colmatting is obtained only for a width of 2; 3; 5 mm, which is associated with the use of only one type of flexible fiber

Example 8

Mineral oil is used as a dispersion medium for the reagent. Formulation using fibers of various types with a combination of basalt and para-aramid fibers of various lengths. Thanks to this, the clogging ability is achieved - the largest holes (circular cross-section 10 mm and slit-shaped 5 mm wide) with minimal loss of composition before the clogging of the holes. In this case, the composition consumption before clogging cracks in comparison with example 4, where fresh water was used as a medium for dispersing the reagent, is higher.

Example 9

Fresh water is used as a dispersion medium for the reagent. Basic formulation using polypropylene fiber 12 mm long. Due to the presence of polypropylene fiber, the composition is able to clog openings of both a slit-like shape and a circular cross section with an openness of up to 3 mm.

Example 10

The formulation of the reagent is identical to the formulation of the reagent from example 4, however, other proportions were used in the direct preparation of the composition, in particular, the concentration of the reagent was reduced from 30% to 20% by weight. This achieves the same effectiveness of the composition when collating cracks when assessing the size of the holes. However, the amount of composition required for colmatization is slightly larger.

Claims (5)

1. Composition for sealing voids in the rock, containing a dispersant dispersible in a dispersion medium, containing diatomaceous earth, ground fibrous cellulosic material, chopped fiber with a fiber length in the range from 2 mm to 18 mm, in the following ratio, wt.%: Diatomaceous earth 35-75 Ground fibrous cellulosic material 20-60 Chopped fiber (fiber) with a fiber length in the range from 2 mm to 18 mm 2-15 2. The composition according to p. 1, in which as the dispersion medium using water, saline water or oil. 3. The composition according to p. 1, in which the content of the reagent in the dispersion medium is from 18 to 35 wt.% 4. The composition according to p. 1, in which as a chopped fiber with a fiber length in the range from 2 mm to 18 mm use para-aramid fiber, basalt fiber, steel fiber.