RU2124626C1 - Well completion method - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: according to method, pressure of oil bed in well zone is reduced. Well is then filled with raw degassed dewatered oil taken from given deposit. Perforation procedure is performed in oil medium. Used in completion of well is steam-air mixture at relation of steam and air volumes of 1:(5-15). This steam-air mixture is pumped through starting coupling. Application of aforesaid method enhances efficiency of completing oil wells with retaining their productive capacity. EFFECT: high efficiency.

Description

 The invention relates to the oil industry and may find application in well development.

 A known method of well development, including killing a well with a solution of calcium chloride and subsequent commissioning of the well [1].

 The known method leads to a decrease in the permeability of the bottomhole zone of the well due to the penetration of the kill fluid and changes in permeability.

 Closest to the invention in technical essence and the achieved result is a method of well development, which includes reducing reservoir pressure in the well zone and filling the well with a kill fluid [2].

 The known method allows you to effectively develop wells, however, after development, the productivity of the well decreases compared to the original.

 The proposed invention solves the problem of increasing the efficiency of well development while maintaining its productivity.

 The problem is solved in that in the method of well development, which includes reducing the reservoir pressure in the well zone and filling the well with a kill fluid, according to the invention, degassed dehydrated oil of a given field is used as a kill fluid, perforation is carried out in the oil medium, and a steam-air mixture is used when developing the well the ratio of the volumes of steam and air 1: (5-15), pumped through the starting clutch.

When developing new and repairing existing wells, there is a need for killing, and then development of wells. However, the used killing fluids penetrate into the bottomhole zone of the well, impair the reservoir properties and lead to a decrease in well productivity, and existing development methods do not always lead to a quick and safe commissioning of the well. The proposed invention solves the problem of increasing the efficiency of well development while maintaining well productivity. To solve the problem at the development site, the reservoir pressure is reduced by intensifying fluid withdrawal and / or by restricting the injection of the working agent until the reservoir pressure is 15-30% lower than the initial one. To eliminate contamination of the bottom-hole zone of the well, killing fluid is used to fill the well with crude, degassed, dehydrated oil of a given field acting as a killing fluid. With a well depth of 2200 m and an oil density of 0.85 g / cm ^{3, the} bottomhole pressure becomes 18.5 MPa, and the hydrostatic pressure is 22 MPa. The cumulative action perforator is lowered and the well is perforated in the oil medium. A mixture of steam and air is pumped through the annulus at a volume ratio of 1: (5-15) until the start-up clutch installed on the tubing string at a depth of 700 m is reached and vented to the atmosphere. Downhole pressure becomes 13 MPa, which is usually enough to cause inflow from the well. If the inflow is not achieved, the steam-air mixture is pumped to the starting clutch installed at a depth of 900 m.

 The use of a vapor-air mixture eliminates the formation of an explosive mixture of oil gases with atmospheric air and thus creates a safe working environment.

Example 1. At a development site with an initial reservoir pressure of 22.5 MPa, oil is sampled through 10 production wells without injecting a working agent through injection wells until the reservoir pressure in the zone of the treated well is 16.5 MPa. The well is filled with crude degassed dehydrated oil of a given field. On the bottom of the well, a cumulative-action perforator of the PR-43 brand is lowered and 10 holes per m of the reservoir interval are perforated in the oil medium. Steam is prepared at the wellhead with a temperature of 220 ^{° C.} in a PPU-3M steam generator and is supplied to the wellhead under a pressure of 20 MPa. Compressed air is supplied from the compressor to the wellhead. Steam and air through a tee are mixed in a ratio by volume of 1: 10, respectively, and fed into the annulus of the well. After the vapor-air mixture breaks into the start-up sleeve at a depth of 700 m, the well is communicated with the atmosphere and the vapor-air mixture is vented. The flow rate of the well is 30 tons / day.

 Example 2. Perform, as example 1, but as a vapor-air mixture using a mixture of steam and air in a ratio of 1: 5.

 Example 3. Perform, as example 1, but as a vapor-air mixture using a mixture of steam and air in a ratio of 1: 15.

 The application of the proposed method will improve the efficiency of well development while maintaining its productivity.

Sources of information
1 Ryabokon S.A. and others. Killing fluids for well repair and their effect on reservoir properties. - M.: VNIIOENG, 1989, p. 5.

 2. Blazhevich V.A. and other Repair and insulation work in the operation of oil fields. - M .: Nedra, 1981, p. 194-198 - prototype.

Claims (1)

 A method of developing a well, including reducing the reservoir pressure in the zone of the well and filling the well with a kill fluid, characterized in that the crude dehydrated dehydrated oil of a given field is used as a kill fluid, perforation is carried out in the oil medium, and a steam-air mixture is used when developing the well with a ratio of steam volumes and air 1: (5 - 15), pumped through the start-up clutch.