RU2081307C1 - Method for action upon bottom-hole zone of pool - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: method can be used for intensification of liquid inflow into well. It implies use of gas for displacement of liquid level in annular space of well between production string and tubing string. Then performed is well relieving through aforesaid annual space for creation of depression on pool. In well relieving at moment of creating depression on pool, powder charge is fired which is preliminarily installed at bottom hole of well. EFFECT: high efficiency.

Description

 The invention relates to the field of oil production and can be used to intensify the flow of fluid into the well.

A known method of thermogasochemical treatment of a formation, including fracturing and heating it due to the energy of the gases generated during the combustion of a powder charge at the bottom of a well [1]
The disadvantage of this method is that cooling paraffins, resins and asphaltenes again clog the formation. In the presence of mechanical impurities at the bottom and the formation is scalded, the effect of exposure is significantly reduced.

A known method of developing wells by creating depressions on the reservoir. The method involves the displacement of the liquid level by gas in the annulus of the borehole with simultaneous withdrawal of fluid through the tubing string and subsequent discharge of the borehole through the annular space [3]
The method is not effective enough. In the best case, it helps to restore the initial permeability of the formation in the bottomhole zone, but does not increase it. To obtain the effect, as a rule, repeated exposure to the formation is required.

 The technical problem solved by the invention is to increase the effectiveness of the impact on the bottom hole zone of the well.

 To solve the problem when exposed to the bottom-hole zone of the formation, including the displacement by gas of the liquid level in the annular space between the production and tubing strings and the subsequent discharge of the well, during discharge, the powder charge pre-installed on the bottom of the well is blown up.

Powder pressure accumulators for wells are used as a charge [2]
The effectiveness of the method increases due to the complete removal of suspended matter from the formation during the depressive effect and the formation of cracks in the cleaned formation. The impact of water hammer becomes more effective, since the water hammer is directed towards the flow of formation fluid to the bottom of the well.

 To implement the method, a powder charge is lowered to the interval of the treated formation through a well selected for the impact through the tubing string on the wireline.

 Compressed gas is supplied to the annular annular space, and the liquid displaced during this process is taken through the tubing string. When the fluid is pushed to the minimum level, the compressor is turned off, and then the well is discharged into the flow line. When the pressure on the reservoir is reduced to a minimum or close to it (with maximum depression on the reservoir), a burst of powder charge is produced.

 For example, in a well with a depth of 2000 m and a reservoir pressure of 20 MPa, the fluid is displaced by 1000 m and discharged, while the back pressure on the formation is reduced by 10 MPa. Since the liquid level in the annular space was reduced, a liquid column of not more than 500 1000 m remains over the charge and when the charge is detonated, a gas bubble with a significant pulsation amplitude is formed, which provides multiple impact on the formation. When the pressure pulse from the explosion of the powder charge is about 20 MPa, the amplitude of the gas bubble oscillations will be 150 200 m. Within a short time, 5 6 cycles of exposure to compression and rarefaction waves will be carried out on the formation.

 After the pulsation attenuation, the annular space is closed and the well is put into operation through the tubing string.

 The explosion of the powder charge at the time of maximum depression on the reservoir enhances the filtration flow due to cleaning and opening of cracks.

Claims (1)

 A method of influencing the bottom-hole zone of a formation, including displacing a liquid level by gas in the annular space of the well between production and tubing strings and subsequent discharge of the well through its annular space to create a depression on the formation, characterized in that before displacing the liquid level in the annular space of the gas through the tubing string, the powder charge is lowered to the bottom of the well in the interval of the treated formation and the powder charge is blown up in the mine so creating pressure drawdown during discharge hole through its annulus.