EA026292B1 - Method of uncovering productive formation - Google Patents

Abstract

The method relates to oil industry and is intended for uncovering productive formations of oil and gas wells after casing cementing. The invention is aimed at preventing destruction of the bottomhole formation, lifting of sand and other mechanical impurities to the ground surface during boreholes operation and enhancing effectiveness of said method due to the improvement of the hydrodynamic bond of the productive formation with the borehole. The assigned task is characterised in that in the method of uncovering a productive formation comprising closing filter holes in a casing string prior to its lowering with plugs of different mass and using material destroyable by a chemical substance, arranging the filter plugs opposite the productive formation, cementing casing string-borehole annulus with a chemically-destroyable material, prior to casing string lowering an additional filtering element is arranged on the filter, the filtering element being made of wire, rolled on support stems and fixed by pressure rings, wherein the ratio of filtering clearance to the wire thickness of the filtering element is 0.05-0.17, and the filtering element has a protective housing made from a chemically-destroyable material. Mud acid is used as a chemically-destroyable material with the following component ratio, wt.%: hydrochloric acid - 10-15, hydrofluoric acid - 3-5, corrosion inhibitor - 0.01-0.1, water - remaining.

Description

The invention relates to the oil industry and is intended for opening productive formations of oil and gas wells after cementing a casing string.

A known method of opening a productive formation, including installing in the interval of the productive formation a filter with openings covered by plugs that are destroyed when exposed to acid, placing rims from a mixture of chalk and cement during cementing, removing plugs and rims by breaking with acid [1].

The disadvantages of the method are the inability to prevent sand in the drilled holes on the casing and the complexity of the process, which consists in installing a packer to wash the rim.

A known method of opening a productive formation, including killing holes on the filter in the casing before it is lowered by plugs of various masses from a material destroyed by a chemical substance, arranging a filter with plugs against a productive formation and cementing the annulus with a material that is destroyed by a chemical substance [2].

The disadvantage of this method is the clogging of the slots of the filter element with solid mechanical particles and cement mortar during descent and during cementing of the casing string. In addition, the possibilities of regulating the filtering area depending on the production and reservoir pressure of the well and ensuring reliable hydrodynamic interaction in the filtration zone between the well and the reservoir were not taken into account.

The objective of the invention is to prevent the destruction of the bottom of the formation, removal of sand and other mechanical impurities on the surface during well operation and increasing the efficiency of the opening method by improving the hydrodynamic connection of the productive formation with the well.

The problem is solved in that in the method of opening the reservoir, including killing the holes on the filter in the casing before it is lowered by plugs of various masses from the material destroyed by the chemical substance, the location of the filter with plugs against the reservoir, cementing the annulus with material that is destroyed by the chemical substances, before lowering the casing string on the filter, an additional filter element is installed, made of wire wound on support rods, and a fixed abutment ring, with the clearance ratio of the filter to the thickness of the wire of the filter element is 0,05-0,17, and the filter element is provided with a protective housing made of material degradable chemical.

As a destructive chemical, clay is used in the following ratio of components, wt.%:

hydrochloric acid - 10-15; hydrofluoric acid - 3-5; corrosion inhibitor - 0.01-0.1; water is the rest.

The essence of the proposed method lies in the fact that before the location opposite the productive formation of the filter with plugs of various masses of material destroyed by a chemical substance, an additional filter element is installed on it, made of wire wound on support rods and fixed by thrust rings.

Unlike the prototype, the total gap area between the turns of the filter element is larger than the total area of all holes on the casing, which creates a maximum flow of fluid and its large passability.

Due to the ratio of the filter gap to the wire thickness of the filter element correctly selected based on the analysis of the granulometric composition of sand, the coarse-grained particle size that is not brought up by the pump or compressor and brought by the stream from the reservoir to the bottomhole zone, which is collected near the installed filter element, is prevented from entering the intrafiltration zone , creates an additional sand filter around it and prevents the destruction of bottom-hole zones formation (due to exclusion of sand or others. solids).

Providing the filter element with a protective casing made of a material that is destroyed by a chemical substance protects it from mechanical damage and clogging with mechanical impurities when running in an open wellbore, prevents its filter gap from clogging during subsequent cementing of the casing. After hardening the cement to break the plugs, the protective casing and the cement stone, the calculated amount of clay acid is pumped into the well as a chemical substance. Filling with clay acid through the first dissolved plugs of the created annular space between the protective casing and the outer surface of the casing with the plugs results in uniform dissolution of the plugs from the inside and outside of the casing, as well as the protective casing simultaneously. Then, the clay acid, opening the channels in the cement stone, creates a hydrodynamic connection between the annular space and the inner annulus. Upon contact of clay with terrigenous rocks, a small amount of carbonate material, reacting with the hydrochloric acid part of the solution, dissolves, and hydrofluoric acid, which slowly reacts with quartz and aluminosilicates, penetrates deep enough into the bottomhole zone of the well, increasing the efficiency of the method. Next, develop the well.

The signs listed above exclude significant hydraulic losses during filtration, increase the throughput of the filter element and, improving the hydrodynamic connection of the reservoir with the well, increase the efficiency of the proposed opening method.

In FIG. 1 shows a well after cementing a casing string.

In FIG. 2 shows section A.

In FIG. 3 shows section B.

The method of opening the reservoir includes plugging the holes 1 on the filter 2 in the casing 3 until it is lowered by plugs of various masses 4 from the material destroyed by the chemical substance, arranging them in order starting from the smaller mass in the direction of the recess; the establishment of the filter element 5, made of wire 6, wound on the support rods 7, while the ratio of the filter gap to the thickness of the wire of the filter element 5 should be in the range of 0.050.17; supplying the filter element 5 with a protective casing 8, also made of a material destroyed by a chemical substance; the location of the filter 2 opposite the reservoir 9 and cementing annular space with material that is destroyed under the influence of a chemical substance; removing plugs of various masses 4 and protective casing 8 with a destructive chemical.

As a destructive chemical, clay is used in the following ratio of components, wt.%:

hydrochloric acid - 10-15; hydrofluoric acid - 3-5%; corrosion inhibitor - 0.01-0.1%; water is the rest.

Such an acid mixture (clay acid) is used to treat wells composed of carbonate rocks or highly carbonized sandstones. In addition, the objects of clay acid processing are dense low-permeability low-productive sandstones with carbonate or clay cement. Upon contact of clay with terrigenous rocks, a small amount of carbonate material, reacting with the hydrochloric acid part of the solution, dissolves, and hydrofluoric acid, which slowly reacts with quartz and aluminosilicates, penetrates deep enough into the bottomhole zone of the well, increasing the efficiency of the method.

The method is carried out in the following sequence. Before running the filter 2 into the well, the filtration holes 1 (perforation density 40 holes / m), staggered along the spiral of the filter 2, are plugged with stoppers of various masses destroyed by a chemical substance 4. Then, filter element 5, which is made with support rods, is put on filter 2 7 with a profile wire winding placed on them (the ratio of the thickness of the wire 6 of the filter element to the filter gap in accordance with the granulometric composition of the productive horizon is 0.05-0.17) and connected using resistance welding at each point of intersection. The end surfaces of the filter element are rigidly fixed by thrust rings 10 onto which the clamp rings 11 are screwed. To prevent cement from getting inside the filter 2 during cementing of the casing, a sealing gasket 12 made of paronite is placed in front of the clamp ring 11. To protect the filter 2 from clogging with mechanical impurities during its descent and subsequent cementing of the casing 3, a protective casing 8 is tightly wrapped on it, made of a material destroyed by a chemical substance.

The assembled filter on the casing 3 is lowered into the specified interval of the well and installed opposite the reservoir 9. Depending on the height of the cement behind the string, the calculated volume of cement mixed with the aluminosilicate microsphere is pumped into the casing with a calculation of 10% by weight of dry cement (Fig. . one). After the cement has hardened, the clay acid is pumped into the pump-compressor pipes down to the lower holes of the filter so that it fills the pipes and the annular space in the filter part of the well. As a result of clay acid treatment of the bottom-hole zone, the production rate of the well increased by 2 times compared with the production rate of a well treated with hydrochloric acid. Such an increase in well production is due to the fact that during clay-acid treatment an effective communication of the bottom-hole zone with highly permeable sections of the formation was achieved.

Then the pipes are raised above the acid level. After injection, the clay acid, reacting with plugs of various masses 4, dissolves them. Then, the clay acid passing through the openings 1 of the filter 2 dissolves the protective casing 8, opens the channels in the cement stone, and creates a hydrodynamic connection between the annular space and the inner annulus. To eliminate significant hydraulic losses and improve the throughput of the filter element 5, the ratio of the filter gap to the thickness of the wire of the filter element should be in accordance with the particle size distribution of the productive horizon in the range of 0.05-0.17.

- 2 026292

During the operation of the well, to ensure optimal filtration of oil from the formation into the well, taking into account the clogging of the wire gap and, as a result, a decrease in the filtering area of the filtering element, the filtering area of the filtering element should be 12-15 times larger than the filtering area of the casing string. It is also necessary to take into account the rock pressure, while bearing in mind that the manufacture of a filter with an elongated filter element is impractical, since if the support rods do not touch the main filter pipe, damage to the filter element is inevitable. Based on the foregoing, as well as considering filtration through sand, the length of the filter element, the coefficient must be selected within 3 m (table).

No. p / p Outer diameter filter Interior diameter filter Length filter Filter rushing gap Thickness wire The ratio of the filter gap to the thickness of the wire of the filter element one 182 171 3000 0.15 2,8 0.05 2 182 171 3000 0.2 2,8 0,07 3 182 171 3000 0.15 1,5 0.10 4 128 116 3000 0.2 1,5 0.13 5 128 116 3000 0.25 A5 0.17

The above values of the ratio of the filter gap to the thickness of the wire of the filter element (0.05-0.17) prevent the removal of sand and other mechanical impurities to the surface. The use of clay acid improves the hydrodynamic communication of the reservoir with the well and provides high efficiency of the proposed method of opening the reservoir.

Information sources.

1. USSR author's certificate No. 1615339, ЕВВ 43/11, 1990.

2. Patent of Azerbaijan I 2002 0055, Е21В 43/11, 2005.

Claims (2)

CLAIM 1. The method of opening the reservoir, including killing holes on the filter in the casing before it is lowered by plugs of various masses from the material destroyed by the chemical substance, the location of the filter with plugs against the reservoir, cementing the annulus with a material that is destroyed by the chemical substance, characterized in that before lowering the casing string, an additional filter element is installed on the filter made of wire wound on support rods and a fixed pack rings, while the ratio of the filter gap to the thickness of the wire of the filter element is 0.050.17, and the filter element is provided with a protective casing made of a material that is destroyed by a chemical substance. 2. The method according to claim 1, characterized in that as a destructive chemical substance, clay is used, in the following ratio of components, wt.%: Hydrochloric acid - 10-15; hydrofluoric acid 3-5; corrosion inhibitor - 0.01-0.1; water is the rest.