RU118679U1 - DESIGN OF A GAS WELL FOR THE DEVELOPMENT OF LOW-AMPLIFIED DEPOSITS - Google Patents

Abstract

The design of a gas well for the development of low-amplitude deposits consists of a cased vertical wellbore perforated throughout the entire thickness of the productive formation, sidetracks of a smaller diameter directed to the zones of distribution of rocks with the highest productivity, and a production string run into the well to the upper sidetrack, the upper sidetrack is cased in the zone of the productive formation and is perforated, its lower end is located in the immediate vicinity of the gas-water contact at a distance of at least 2-5 m, the lower lateral wellbore is equipped with a filter liner, made with an entry angle into the productive formation of 80-90º, the overlying sidetracks, except upper, are also equipped with liner-filters, the entry angles into the productive formation of these boreholes are in the range from 60 to 45º with a decrease in values with the depth of sidetracking, while the filter parts of the sidetracks are filled with proppant.

Description

The design of a gas well for the development of low-amplitude deposits relates to the oil and gas industry, namely, to well designs that combine the simultaneous exploration and production of gas from a reservoir with a limited size and a small gas-bearing floor.

Known design of a gas well described in US Pat. RF №2205935.

The disadvantage is the inability to use this design to optimize gas production from a reservoir with a limited area and a low gas content floor.

The technical result achieved as a result of creating a utility model consists in creating a gas well design for optimizing gas production from low-amplitude deposits with a limited area and a low gas content floor, which provides simultaneous exploration and production of gas from it.

The technical result is achieved by the fact that the design of a gas well for the development of low-amplitude deposits consists of a cased, perforated throughout the thickness of the reservoir, a vertical trunk, sidetracks of smaller diameter directed into the zones of rock distribution with the highest productivity, and an elevator column lowered into the well to the top the lateral trunk, the upper lateral trunk is cased in the zone of the reservoir and perforated, its lower end is located in close proximity to the gas-water ntact at a distance of at least 2-5 m, the lower side trunk is equipped with a filter shank, made with an angle of entry into the reservoir of 80-90 degrees, the overlying side trunks, except the upper one, are also equipped with filter shanks, the angles of entry into the reservoir of these trunks are in the range from 60 to 45 degrees with decreasing values with the depth of cut of the side trunks, while the filter parts of the side trunks are filled with proppant.

In FIG. depicts the inventive design of a gas well for the development of low-amplitude gas deposits with limited size and with a low gas content floor.

The design of the inventive well comprises a vertical main shaft 1, several sidetracks 2 of smaller diameter and an elevator column 3. The vertical main shaft 1 is cased with production casing 4, in which perforations 5 are made over the entire thickness of the reservoir 6. The upper side shaft 2 is cased and perforated into zone of the reservoir 6, its lower end is located in the immediate vicinity of the gas-water contact 7 at a distance of not less than 2-5 m. The lower side barrel 2 is equipped with a filter shank 8, made with an angle of entry into the reservoir of 80-90 degrees, the overlying side trunks 2, except for the upper one, are also equipped with filter shanks 8. The angles of entry into the reservoir of these trunks are in the range from 60 to 45 degrees with decreasing values with the depth of cut of the side trunks 2 At the same time, the filter parts of the sidetracks 2 are filled with proppant.

The lateral shafts 2 are directed radially relative to the main trunk 1, into the rock propagation zones of the formation 6 with the highest productivity and are located in the upper subroofing of the productive formation 6 with a distance of at least 2-5 m from the gas-water contact 7. The lift string 3 is placed in the production casing 4 of the main barrel 1 with the location of the shoe column above the upper side barrel 2.

Well construction is as follows.

Initially, the vertical main shaft 1 is drilled, cased by production casing 4 and perforated throughout the thickness of the productive formation 6 with the formation of perforation holes 5. Geophysical and gas-dynamic studies are carried out in the well, according to the results of which zones of the formation 6 with the highest productivity are determined. Side trunks 2. are drilled radially from the main barrel 1 into these zones. The lower side trunks 2 are equipped with filter shanks 8 in the lower part, and the upper side barrel 2 is perforated to form perforations 5. The filter parts of the side trunks 2 are filled with proppant to prevent sand removal. After completion of the drilling of the last upper lateral wellbore 2, an elevator string 3 is lowered into the well. The shoe of the elevator string 3 is placed above the upper lateral wellbore 2. During the operation of the well, the main wellbore 1 is gradually filled with sand that is carried along with the gas stream, which due to the difference in gas flow rates in production casing 4 and lift casing 3 is separated from the gas stream and settles on the bottom of the well. After the inflow is called, gas from the reservoir 6 enters the day surface. The proppant filling of the filter sections of the sidetracks 2 prevents the ingress of sand during the destruction of the bottom-hole zone of the formation 6 into the gas stream, prevents abrasive wear of the downhole equipment. Placing the bottom of the side shafts 2 away from the gas-water contact 7 prevents premature flooding of the well. The equipment of the side shafts 2 with filter shanks 8 prevents the destruction of the bottom-hole zone of the formation 6 that occurs during perforation. The implementation of the perforation holes 5 instead of the filter shanks 8 in the upper side barrel 2, located at the closest distance from the gas-water contact 7, allows, when it approaches the shoe of the upper side barrel 2, stepwise, in parts, to eliminate the flooded part of this side barrel.

The inventive design of the well ensures the reliability and safety of operation while maintaining the productive characteristics of the formation, allows combining exploration of the reservoir with simultaneous production of gas from the most productive part without premature flooding and removal of sand to the surface, and reduces the cost of developing the reservoir.

High suspension of the elevator column allows for repair work in the main and side shafts, to reduce the cost of operation, maintenance and repair, ”to reduce the time the well is inactive and to obtain additional volumes of produced gas.

Claims (1)

The design of a gas well for the development of low-amplitude deposits consists of a cased vertical hole perforated over the entire thickness of the reservoir, sidetracks of smaller diameter directed to the rock propagation zones with the highest productivity, and an elevator string lowered into the well to the upper sidetrack, the upper sidetrack is cased in the zone of the reservoir and is perforated, its lower end is located in close proximity to the gas-water contact at a distance of at least 2-5 m, the lower the trunk is equipped with a filter shank, it is made with an angle of entry into the reservoir of 80-90º, overlying side trunks, except for the upper one, are also equipped with shanks of filters, the angles of entry into the reservoir of these trunks are in the range from 60 to 45º with decreasing values with depth side trunks inserts, while the filter parts of the side trunks are filled with proppant.