RU2183265C2 - Method of segregation of formations in well - Google Patents

Abstract

FIELD: oil producing industry; applicable in cementing of pipe strings in wells with water-oil zone. SUBSTANCE: method includes running of pipe string with device for isolation of formation into well with water-oil zone; segregation of annular space against water-bearing part of formation from its remaining part and cementing of annular space above and below water-bearing part of formation; cementing of annular space against water-bearing part of formation with the help of device for isolation of formations. EFFECT: improved isolation of formation and increased its productivity. 3 dwg

Description

 The invention relates to mining, in particular to the oil industry, and can be used in cementing production casing to separate layers in wells built on water-oil deposits.

 A known method of separating the layers in the well, including lowering the casing and cementing the annulus with grouting, perforation of the productive zone and development of the well with the creation of depression on the formation (see Handbook of a drilling engineer, 1-2 tons, edited by V.I. Mishchevich N.A. Sidorova, Moscow: Nedra, 1974).

 However, when implementing this method of separating the strata from the oil-water zone, further development during depression on the stratum leads to a rapid flooding of products due to the formation of a water cone.

 A known method of isolating the aquifer of the formation by polymer-cement solutions by injecting solutions into the aquifer of the reservoir (see Bulgakov RT and others. Restriction of the influx of formation water into oil wells. M: Nedra, 1976, pp. 74-147).

 And this method has disadvantages. The grouting compositions are injected in a well that has already been built, where the near-wellbore zone of the formation is colmatized during the initial opening with drilling products and cement hydration products during cementing. As a result of this, penetration of the grouting composition into the formation to a great depth is difficult, which leads to insufficient isolation of the latter.

 Another disadvantage of the method is as follows. The formation of the mud screen in the oil-water zone during the construction of the well with equal permeability of the formation in power occurs unevenly, and the depth of the mud screen against the aquifer of the formation is greater. If the mud screen is not opened by perforation to the full depth, then when cementing compositions are injected through the aquifer of the formation during isolation, the resistance to its movement in the radial direction may be higher than in the vertical one. In this case, the oil-bearing part of the formation is clogged with insulating compositions, which inevitably leads to a decrease in the productivity of the formation.

 Another significant drawback of the method is the need for deep perforation against the aquifer of the formation. This raises the problem of ensuring the tightness of the column.

 Closest to the claimed is a method of separation of layers, implemented using the device according to US Pat. RF 2098602, op. 12/10/97, including the descent into the well of a casing equipped with a device for isolating the interval of the productive formation and cementing the wellbore while isolating the productive interval of the formation from the cement slurry. In this case, the absence of contact of the cement slurry with the formation eliminates the clogging of the hydrocarbon-containing part of the formation with cement hydration products. As a result, a decrease in the depression on the formation during development is ensured, which reduces the risk of the rapid formation of a water cone in the formation and water flooding.

 However, this known method does not exclude the formation of a water cone during development of wells with an oil-water zone, since the depth of the effect of depression, although decreasing in magnitude, on the formation and the size of the mud layer against the aquifer of the formation remains the same as in previous methods of separating the formations . Moreover, in the case of insulating work by pumping cement slurries into the aquifer of the reservoir, all the disadvantages of the previous method remain, i.e. insufficient isolation of the formation and a decrease in its productivity due to the mudding of the oil-bearing part of the formation by insulating compositions, as well as the possibility of violating the tightness of the column.

 Thus, the problem arose of the effective separation of formations in wells with a water-oil zone, which ultimately provides an increase in the productivity of the formation.

 This problem can be solved by the proposed method of separating the strata in the well with the oil-water zone, including lowering the casing string equipped with a device for isolating the strata into the well, uncoupling the annulus of the well by means of the said device, and then cementing the annulus, in which, according to the invention, the annulus is previously uncoupled wells corresponding to the aquifer of the reservoir from the annulus part of the well and cementing the annulus above and below the aquifer of the reservoir, and then cement the annulus corresponding to the aquifer of the reservoir by supplying cement slurry through the channels of the specified device to isolate the reservoir.

 Thanks to the preliminary isolation of the aquifer part of the formation, its clogging by the filtrate and cement hydration products is excluded, the zone of formation is formed only during the initial opening of the formation by drilling and much less than in adjacent permeable intervals.

 Thus, the new technical result achieved by the proposed method is to reduce the size of the mud layer against the aquifer of the reservoir. Therefore, the permeability of the near-stem zone against the aquifer of the reservoir remains closer to natural, which causes the penetration of insulating compounds into the aquifer of the reservoir to a greater depth and provides reliable isolation. In addition, there is the possibility of a wide selection of grouting compositions for structural and rheological characteristics.

 In addition, a decrease in the size of the mud layer against the aquifer of the formation helps to create conditions for the radial movement of water-based insulating compounds, which prevents the mud of the aquifer of the reservoir from being clogged with insulating compounds and increases the productivity of the reservoir.

 And, finally, there is no need for deep perforation against the aquifer of the reservoir and, accordingly, the problem of ensuring the integrity of the column.

 Figure 1 and 2 schematically shows the stages of the implementation of the proposed method. Figure 3 - the formed zone of penetration of the cement composition in the aquifer of the reservoir. Figure 1 shows the stage of separation of the aquifer of the reservoir from the rest by separating the annulus with a known device for isolating the formations, where 1 is a casing string, 2 is a device for isolating the reservoir, 3 is a cement stone in the annulus, 4 penetration zone cement filtrate and cement hydration products (mud layer), 5 - zone of penetration of the mud filtrate (mud layer).

 In FIG. 2 shows the final stage of isolation of the aquifer, where 6 is a string of tubing, 7 is an in-line packer, 8 are channels of a device for supplying grouting insulation.

 The method is as follows.

 Open the well of the oil and aquifer of the reservoir. Lower the casing string 1, equipped with a device for isolating the strata 2. Install the device opposite the aquifer of the reservoir and bring it into working position, thereby separating the annulus of the well and separating the aquifer of the reservoir from the rest of it. Then the annulus of the well is cemented above and below the aquifer of the formation. After the time of the OZZ and the formation of cement stone 3 open the channels 8 in the housing of the device 2 and communicate the in-tube space with the annular. Then, the tubing string with a packer is lowered, which is installed at the interface between the oil and aquifer parts of the reservoir and the grouting composition is pumped through the tubing string under pressure. After creating an insulating screen, the channels 8 of the device are blocked by shutters. After time, the OZZ carry out the secondary opening of the oil-bearing part of the reservoir and its operation.

 The proposed method is illustrated by the following specific example.

Cementing is carried out in one step by injection into the annulus through the shoe of a columned 20 m ³ cement mortar with a density of 1850 kg / m ³ . After cementing the annulus above and below the aquifer of the reservoir (the time of the borehole formation time is 24 hours), the tubing is lowered with an intra-column packer and the insulating cement composition - oil-cement mortar in the amount of 3-10 m ³ is pumped through the device channels into the aquifer of the reservoir. Then the tubing with the packer is lifted and the channels are closed. Next, flush the well from the remnants of the insulating paste.

 The proposed method allows you to reliably isolate the aquifer of the reservoir and thereby increase its productivity.

Claims (1)

 A method of separating formations in a well with a water-oil zone, comprising lowering a casing string equipped with a device for isolating a formation into a well, isolating the annulus of the well using the apparatus and then cementing the annulus, characterized in that the annulus of the well corresponding to the aquifer is previously disconnected reservoir from the annulus of the rest of the well and cementing the annulus and above and below the aquifer of the reservoir, and then annulus corresponding to the aquifer of the reservoir is cemented by supplying grouting mortar through the channels of the specified device to isolate the reservoir.

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