RU2154150C2 - Method of isolation of producing formation overlapped by flow string - Google Patents

Abstract

FIELD: oil-and-gas industry. SUBSTANCE: method is used in well abandonment on deposits whose hydrocarbon material contains high percentage of aggressive components. The method includes installation of cement bridging plugs. One cement bridging plug is installed in cap rock of well producing formation. Preliminarily, wellbore is freed from flow string and cement ring by milling within interval of installation of cement bridging plug. Cement ring is drilled and wellbore is expanded for 10-15 mm from initial size. EFFECT: higher reliability of producing formation isolation. 2 cl, 1 dwg

Description

The invention relates to the oil and gas industry and can be used in the liquidation of wells in fields in the hydrocarbon raw materials which contain a high percentage of aggressive components - H ₂ S, CO ₂ .

 It is known that during the operation of wells, complications often arise in the form of flows of a gas-condensate mixture in an annular space due to leaks in casing strings or cement rings.

 As the results of the study show, leakage occurs due to corrosion of casing or the destruction of cement stone in the annular space under the influence of aggressive components.

 A method of isolating the reservoir is needed.

A known method of isolating the reservoir during well cementing, which involves the installation of a bale device under the sole and over the roof of the reservoir. This method cannot be applied, because the specified equipment is exposed to corrosion in carbon dioxide (H ₂ S + CO ₂ ) and the tightness condition will be violated, which is unacceptable.

 A known method of installing a dividing bridge in the well according to ed. St. N 1615333, E 21 B 33/134; 33/13.

The specified method does not solve the problem of isolating the reservoir and considers only the installation of a bridge in the wellbore. To improve the adhesion of cement stone to rock, it is proposed to process the walls of the well in a grouting environment. The above improves the solution to the problem, but does not significantly affect the result, since the previous diameter of the well remains. In addition, if the bridge is installed at a great depth, where there is a high temperature - 100 - 110 ^o C, work in cement mortar is impossible, because may lead to sticking pipes.

 The method according to ed. St. N 1659627, E 21 B 33/13 provides for the installation of only a dividing bridge in the well.

 At a predetermined interval of the well, grouting mortar is poured. Then, holes are drilled in the machine tools by successive explosions of cumulative charges in the grout during the solidification period of the grout. The resulting holes are immediately filled with grouting, filtering of the unbound mixing fluid into the rock mass begins. Improving the quality of the cement bridge due to perforation by cumulative charges of the walls of the well cannot be achieved, since the surface of the walls of the well remains unchanged.

In wells with high temperatures - above 100 ^o C and a depth of 3000 - 4000 m, the option of perforation in a cement mortar is not possible, since the descent of perforators into the cement mortar is not feasible due to the long descent - the cement mortar will lose mobility. In addition, the liquidation bridge must be installed in the tire, which consists of impermeable rocks - clay, mudstones, so filtering will not happen.

 A method of isolating a productive formation with a crumpled production casing according to the "Instructions on the procedure for liquidation, conservation of wells and equipment of their mouths and shafts", RD-08-71-94, M., NPO OBT, 1994, p. 3, 4, s . 15, is performed after elimination of collapse by milling the column by subsequent cementing of the annular space and installation of cement bridges in the intervals of perforation and crushing of the column with a height of at least 100 meters from the upper perforation holes.

 With this method, reliable isolation is impossible to achieve, since the production casing remains in the well, the cement ring is not updated, and the production casing is milled only at the place of collapse, which can be confined to any interval of the well.

 The closest analogue of the invention to the proposed invention is a method of isolating a blocked production casing of a productive formation, including the installation of cement bridges in a production casing of a well (see, for example, “Instructions on the procedure for liquidation, conservation of wells and equipment of their mouths and shafts”, RD-08- 71-94, M., NGO OBT, 1994, p. 3.3, p. 15.

 The known method involves the restoration of cement behind the column and the installation of a cement bridge in the column.

 The above does not solve the problem of isolation, since the column, cement ring and wellbore above the reservoir are retained. The material of the pipe pipes and cement stone in the annular space corrode and collapse. Thus, all these methods do not provide for the restoration of the tires of the reservoir, which is crucial for reliable insulation.

 The technical result of the invention is to increase the reliability of isolation of a productive formation covered by a production string by restoring a tire (natural screen) and increasing the degree of adhesion of cement stone to rock.

 The required technical result is achieved by the fact that in the method of isolating a production reservoir blocked by production casing, including installing cement bridges in the production casing of the well, according to the invention, one of the cement bridges is installed in the cover of the production reservoir of the well, for which the borehole is previously released in the interval of installation of the cement bridge from production casing and cement ring by milling the production casing and drilling a cement ring, and l wells extend to 10 - 15 mm in the direction from the initial hole size.

 In addition, when installing the bridge, non-shrinking, or corrosion-resistant, or expanding materials are used.

 The drawing illustrates the method of isolation of the reservoir 1. First, install a cement bridge 5 in the interval of the reservoir to the bottom mark milling columns. Then, in the interval of the tire 2, the column 3 is milled, the cement ring 4 is drilled, the wellbore is expanded by 10 - 15 mm to the side of the original size, and a high-strength, corrosion-resistant sealed bridge based on a heat-resistant material, cementitious, for example, slag sand is installed. Above the bridge in the tire, the cement bridge 5 is built up to the required mark.

The proposed method restores the cover of the reservoir, which is crucial for the reliable isolation of reservoirs containing highly toxic components H ₂ S, CO ₂ .

Claims (2)

 1. A method of isolating a productive formation blocked by a production casing, including installing cement bridges in a production casing of a well, characterized in that one of the cement bridges is installed in the casing of the productive formation of a well, for which the wellbore is previously freed from the production casing and cement rings by milling the production string and drilling a cement ring, and the wellbore is expanded by 10 - 15 mm to the side of the original the size of the trunk.  2. The method according to claim 1, characterized in that when installing the bridge use non-shrinking, or corrosion-resistant, or expanding materials.