RU2205935C1 - Method of multiple hole construction - Google Patents

Abstract

FIELD: construction of multiple holes. SUBSTANCE: method includes successive from top downward drilling of parent and branch holes, casing of parent hole, stabilizing of branch holes. In so doing, parent hole is cased up to producing horizon, and after drilling of each branch hole, it is stabilized with permeable material, for instance, sand, gravel, etc., whose permeability is higher than that of producing bed rocks. After construction of last branch hole, parent hole is drilled down to preset depth and cased with perforated casings or filter with subsequent filling of annular space between filter and parent hole wall with permeable material with size of its particles larger than width of filter slots. EFFECT: reduced specific quantity of metal for construction of multiple hole and reduced time for construction of branch holes. 7 dwg

Description

 The present invention relates to the field of construction of multilateral wells.

 A known method of construction of multilateral wells, including drilling the main trunk, its fastening and subsequent sequential drilling of the sidetracks [A.G. Kalinin. Curvature of boreholes. - M.: Gostoptekhizdat. 1963, p. 140, 141].

 The disadvantage of this method of well construction is the impossibility of long-term operation of the sidetracks in unstable rocks due to collapse of the walls of the well and the subsequent "loss" of the trunks.

 There is also known a method of constructing wells in unstable rocks, including sequential downward drilling of the main trunk and sidetracks, fixing the main trunk with casing pipes, securing the sidetracks [A.G. Kalinin, B.A. Nikitin, K.M. Solodky, B. Z. Sultanov. Drilling of inclined and horizontal wells. - M .: Subsoil. 1997, p. 153, 154, 453].

 The disadvantages of this method are the increased time for fixing the sidetracks by casing pipes and the increased metal consumption of the well structure.

 The objective of the invention is to create in unstable rocks fixed drainage channels in the form of side shafts with a permeability higher than that of the reservoir rocks.

 The technical result of the present invention is to reduce the metal consumption of a multilateral well and reduce the time for the construction of sidetracks.

 The task and technical result is achieved by the fact that the construction of a multilateral well in unstable rocks includes sequential top-down drilling of the main and side shafts, fixing the main trunk with casing pipes, securing the side shafts, in contrast to the known method, the main shaft is fixed with casing pipes to the productive horizon, and after drilling each sidetrack, it is secured with permeable material, such as sand, gravel, etc., whose permeability is higher than that of pores ode of the reservoir. After the construction of the last lateral well, the main well is drilled to a specified depth and secured with perforated casing or filter, followed by filling the annular space between the filter and the wall of the main well with a permeable material with a particle size larger than the width of the filter slots.

 Thus, we can conclude that the invention meets the criterion of "novelty."

 The invention allows to achieve a result that satisfies the problem of manufacturability of the construction of a multilateral well with a decrease in its metal consumption.

 Based on the foregoing, we can conclude that the invention meets the criterion of "inventive step".

 In FIG. 1 shows the recommended design of a multi-hole well; FIG. 2-7, a flow chart of a method for constructing a multilateral well is presented.

 The design of a multilateral well in unstable rocks (Fig. 1) includes a main shaft, the upper part 1 of which is fixed to the productive horizon by casing pipes 2 (the number and size of pipes is determined by the geological conditions of a particular field), and its lower part 3 is fixed by perforated casing pipes or filter 4 and permeable material 5, sidetracks 6 and 7, fixed by permeable material 8, the permeability of which is higher than that of the rocks of the reservoir. Perforated casing or filter 4 is connected to the casing 2 using a suspension device 9. Production of formation fluid is carried out through the elevator pipes 10.

 A method of constructing a well is as follows.

 The upper part 1 of the main wellbore is built to the productive horizon and secured by the casing 2, the lower part 3 of the main well is deepened to the depth of the first lateral well 6, the side well 6 is drilled (Fig. 2) and fastened with permeable material 8, which prevents the collapse of the borehole walls and has a permeability higher than that of the rocks of the reservoir (Fig. 3). The lower part 3 of the main trunk is deepened to the location of the next side trunk (Fig. 4). A sidetrack 7 is drilled (FIG. 5), which is also fastened with permeable material 8 (FIG. 6). As the permeable material 8 can be used sand, gravel, glass balls or other material, the permeability of which is higher than the permeability of the rocks of the reservoir, which achieves an increase in the velocity of the formation fluid to the main trunk. The number of sidetracks and their location may vary depending on the nature and location of the formation or formations.

 After the construction of all the side shafts, the lower part 3 of the main shaft is deepened to the set depth (Fig. 7) and fixed with perforated casing pipes or filter 4, followed by filling the annular space between the wall of the main barrel and the filter with permeable material 5 with a particle size larger than the width of the filter slots . The fluid from the reservoir and sidetracks enters the well through a permeable material 5 with a particle size greater than the width of the filter slots, and through the filter 4 and is removed through the elevator pipes 10.

 Thus, due to the exclusion of casing from the well design for fastening the sidetracks, the metal consumption is reduced and the time required to build multilateral wells in unstable rocks is reduced.

Claims (1)

 A method of constructing a multilateral well in unstable rocks, including sequential top-down drilling of the main and side shafts, fixing the main shaft with casing pipes, securing the side shafts, characterized in that the main shaft is secured with casing pipes to the productive horizon, and after each side shaft is drilled, it is secured permeable material, such as sand, gravel, etc., whose permeability is higher than that of the rocks of the reservoir, while after the construction of the latter drill the main well to the set depth and fix it using perforated casing or filter, followed by filling the annular space between the filter and the wall of the main well with a permeable material with a particle size larger than the width of the filter slots.

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