SU1723315A1 - Method for working near-face zone of hole - Google Patents

Abstract

The invention relates to the field of oil and gas industry and can be used to treat the bottomhole zone of wells with underground equipment with an open circulation channel and non-drilling wells. The goal is to simplify the technology while increasing the phase permeability of the reservoir by eliminating the contact of the squeezing fluid with the treated zone of the reservoir. Acid to the bottom is supplied with energy of the compressed gas of the piping space by communicating the annulus and tubing spaces of the well until pressure in the annulus and tube spaces stabilizes, and then a squeezing fluid is pumped into the well. 1 з.п f-ly, 1 ill. SO with

Description

The invention relates to the oil and gas industry and can be used to treat the bottomhole zone of wells with underground equipment with an open circulation channel and non-steam wells.

A known method for the salt-acid treatment of gas and gas condensate wells, including the killing of wells with propelling fluid and the establishment of circulation. In this method, after killing the well, the prepared hydrochloric acid solution is injected into tubing (tubing). The volume of fluid displaced from the well is measured over the annular space. The amount of the first portion of acid injected into the well is calculated so that it fills the pipes and the annular space from the pipe shoe to the top of the formation. After that, the annulus is closed and pumped

the entire volume of the solution into the well. The acid then enters the formation. The acid remaining in the pipes and in the lower part of the well is then forced into the formation with a squeezing fluid. After the acid has been injected into the formation, the well is closed for the time required for the reaction of the acid to carbonate rocks. P6 after the expiration of time, the well is mastered by aeration and flaring to remove the reaction products and put it into operation.

The disadvantage of this method is that the well is filled with an indentation fluid, resulting in a decrease in the phase permeability of the formations as a result of absorption of the intake fluid, difficulty in removing reaction products and well completion after acid treatment, and the application of the method in wells with abnormally low formation pressures is complicated during the development and call inflow.

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Closest to the present invention is a method for treating the bottomhole zone of an oil and gas formation, in which a buffer gas-liquid mixture is pumped into the well before the injection of the gas-acid solution until the pressure in the pipe and annulus spaces is stabilized. Gas condensate or oil is used as the liquid phase of the buffer gas-liquid mixture. Gas-acid solutions push the gas-liquid mixture with the content of gaseous and liquid phases, ensuring the self-development of the well at the same time through the tubing and annulus spaces.

The disadvantage of this method is that it is laborious, using it requires an ejection device, precise control of the flow rate of the injected liquid and high-pressure gas, the presence of a high-pressure well with a train or condensate or oil station communicating with it.

The purpose of the invention is to simplify the technology with an increase in the phase permeability of the formation by eliminating the contact of the squeezing fluid with the treated zone of the formation.

The goal is achieved by the fact that in the method of processing the wellbore zone of an oil and gas formation, the acid solution is pumped into the tubing with a closed annulus, and the acid solution is pumped to the bottomhole energy by energizing the annular compressed gas by tending the wellbore and tubing space to pressures in the annular and tubular space, after which a squeezing fluid is pumped into the annular and tubular space simultaneously, while the gas is compressed to a pressure equal to the pressure fluid starts filtering into the formation, and pushes the acidic solution in the near wellbore area.

The drawing shows the scheme of the method implementation: a) the process of pumping the acid solution into the well; b) the process of bringing the acid solution to the bottom; c) the process of pushing the acid solution into the bottomhole formation zone.

The diagram shows the acid solution 1, gas 2, the flow liquid 3.

PRI me R. A 5% solution of hydrochloric acid in a volume of 5.8 m was fed into the stopped well at the closed annulus space (a). Then opening the valve (not shown) reloaded the gas from the annulus to the tubing and brought the injected solution

acid to well bottom (b). The fact that the acid solution was brought to the bottom was determined by equalizing the pressure in the tube and annulus space. After that, the valve was closed and the process water was simultaneously pumped into the tube and annulus in a volume of 8.5 m3, it compressed the gas therein to a pressure equal to the pressure of the start of filtration of the acid solution into the reservoir, and pushing the acid solution into the bottom hole zone (c). The flow of process water and the maintenance of the same hydrostatic level in the pipe and annulus are controlled by fittings installed between the flange connections on the reference node (not shown). After the completion of the well, the well was closed and left static. After 12h well

mastered the torch and put into operation. Comparing the results of gasdynamic studies of the well on the productivity before the acid treatment and after the bottomhole zone treatment using the proposed method, it is clear that using the proposed method allowed to increase gas growth up to 78 thousand m3 / day compared to the known one, which is due to the preservation of the phase permeability of the formation

account to avoid contact with squeezing fluid. In addition, the process is greatly simplified, since there is no need to use high pressure gas from outside.

Claims (1)

Invention Formula The method of processing wellbore zone, including injection of the solution acids, in tubing (tubing), delivery of an acid solution to the bottom of a well, injection of squeezing fluid, forcing an acid solution into the reservoir after pressure in the pipe and the annular space of the well and the removal of reaction products from the formation, characterized in that, in order to simplify the technology while increasing the phase permeability of the formation by eliminating the contact of the squeezing fluid with the treated zone of the formation, the acid solution is pumped into the tubing downhole acids are carried out by the energy of the compressed annulus gas by messages of the annular and tubular spaces of the well to stabilize the pressure in the annular and tubular space, after which simultaneously squeezing fluid is pumped into the annular and tubular spaces, while the gas is compressed to a pressure equal to the pressure of the beginning of the filtration of the fluid into the reservoir, and push acid solution in the well bottom zone.