RU2188301C1 - Method of preparation and performance of well servicing - Google Patents

Abstract

FIELD: oil and gas producing industry. SUBSTANCE: preliminarily arranged in space between casing and tubing is additional pipe string. Round-trip operations are performed after disconnection of pump in well and pumping by multiphase pump of well fluid over channel formed by casing and additional pipe string to oil accumulator up to attaining atmosphere pressure in well, with subsequent dismantling of wellhead equipment. Pumping-out of well fluid is carried out during the entire process of round-trip operations. Multiphase pump capacity is above 40 cu.m/h. Additional pipe string is lowered through 1/10 part of well length. Method is used in preparation of well for servicing and workover, for prevention of change of filtering characteristic of bottom-hole formation zone, higher efficiency of well completion after performance of servicing, simplification of repair and restoration work, and acceleration of workover and servicing of well due to reduced time for swell washing. EFFECT: preserved reservoir properties of formation, eliminated repair-restoration operations. 2 cl, 1 dwg

Description

 The present invention relates to the oil and gas industry, in particular to methods for preparing and conducting underground well repairs.

 A known method of killing a well, comprising sequentially injecting into the annulus of the well the calculated volumes of the inverse emulsion and filling fluid (a.s. 1633090, E 21 B 33/10, 1991).

 The disadvantage of this method is the pollution of the bottom-hole zone of the formation, a change in its reservoir properties, as well as the complexity of the technology of preparing the well for repair and restoration work.

 Closest to the proposed invention by technical essence is a method of draining the liquid when lifting pipes from the well, including the location in the upper part of the pipe to be lifted to the end of the hose with a locking member, moving the pipe upward while the flexible hose is stationary and draining from it into the well, the flexible hose being filled fluid, and its free end is located in the annulus of the well (a.p. 1530749, E 21 B 33/08, 1989).

 The known method does not allow to avoid the siphon outflow of fluid from the annulus at high reservoir pressures, when the energy of the reservoir fluid rises to the wellhead.

 In the present invention, the task is to prevent contamination of the bottom hole of the formation with killing fluids, to avoid siphon spout during tripping operations, to accelerate repair and restoration work by reducing the time for flushing the well, simplifying the technology of underground well repair.

 The problem is solved in that an additional pipe string is preliminarily placed in the space between the casing string and tubing, and hoisting operations are carried out after the well pump is turned off and the downhole fluid is pumped from the annulus to the oil reservoir until atmospheric pressure in the annulus is reached, followed by dismantling of the wellhead valves, while pumping downhole fluid is carried out throughout the process of tripping. An additional column is lowered by at least 1/10 of the length of the well.

 The drawing shows a diagram of the implementation of the proposed method for the preparation and conduct of underground repair of a well, where 1 is a well; 2 - casing string; 3 - tubing; 4 - additional column; 5 - pump; 6 - oil collector.

 The method is carried out in the following way.

Before starting the production of underground repair of the well, to prevent emissions into the annulus through a multiphase pump with a capacity of more than 40 m ³ / h, the liquid was pumped out. Pumping can be conducted either continuously or periodically depending on the rate of formation fluid intake. After that, the wellhead valves were dismantled and the deep-well pumping equipment was lifted. The selected fluid enters the oil collector or in the gutter tank (during development).

 An additional string of pipes 4 with a length of 15 m was lowered into the well 1 with a depth of 1,500 m into the intermediate space between the casing 2 and the tubing 3, placing them concentrically. Downhole fluid was pumped out through the channel formed by the casing string and an additional string of pipes until the pressure of the fluid in the borehole was reduced to atmospheric pressure. Then the column head was disassembled and the lifting of the downhole pumping equipment began after the static level in the well was not lower than 10 m from the wellhead, while the fluid was pumped out. After the repair was completed, before starting the deep pump, the equipment was lifted from the well. This method is applicable to wells with various categories of complexity and with a high gas factor.

 Thus, the proposed method allows you to save the reservoir properties of both the formation as a whole and its bottom-hole zone, which, ultimately, leads to an increase in the efficiency of well development after repair and restoration work, to prevent siphon spout during tripping operations, to accelerate repair and restoration work by reducing the time for flushing the well. What is especially important, production of oil (oil) continues with the direct implementation of underground well repairs.

Claims (2)

 1. A method of preparing and conducting underground well repair, including shutting down the downhole pump, carrying out tripping operations and moving the downhole fluid, characterized in that an additional pipe string is placed in the space between the casing and tubing, which is lowered by at least 1 / 10 part of the length of the well, and hoisting operations are carried out after turning off the well pump and pumping the downhole fluid with a multiphase pump along the channel, ar Call casing pipe and further pipe string in the oil-gathering manifold to atmospheric pressure in the well, followed by removing the wellhead valve, wherein the pumping fluid downhole is carried out for the entire process tripping operations. 2. The method according to claim 1, characterized in that a multiphase pump with a capacity of more than 40 m ³ / h is used.