RU2105875C1 - Method for treating down-hole zone of well bed - Google Patents

Abstract

FIELD: operation of oil, gas, water and other wells. SUBSTANCE: treating of down-hole zone of bed is undertaken so as to increase productivity of wells and also to enlarge permeability of rock mass. According to method, chemical reagent is introduced into well perforation interval. Then, lowered into treating zone is subsurface pressure pulse generator for treating by gas mixture in the form of successive pressure pulses at pressure value which exceeds rock pressure by 1.5-2 times. EFFECT: high efficiency. 3 cl

Description

 The invention relates to the operation of oil, gas, water and other wells and can be used to treat the bottom-hole zone of the reservoir in order to increase the productivity of wells and increase the permeability of the rock.

A known method of processing the bottom-hole zone of the wellbore, based on the fact that the increase in well productivity is due to the dissolution of mud and mechanical impurities filling the pore space of the rock of the reservoir under the action of a chemical reagent, injected from the surface into the treatment zone of the well, hydrochloric acid, clay acid treatment and other [one]
The disadvantage of this method is the low effectiveness of the chemical reagent, due to its insignificant penetration into the depth of the reservoir, including due to the relative immobility of the reaction products in the treatment zone.

A known method of processing the bottom-hole zone of the wellbore with surfactants that facilitate the washing out of the fractured and porous media of the remains of the mud and other types of mud in the terrigenous reservoirs [1, p. 59-63]
The effectiveness of this method is also limited by the small depth of penetration of surfactants into the depths of terrigenous low permeability reservoirs.

Closest to the invention is a method of combined treatment, when a higher degree of recovery of well productivity can be achieved by explosion of the explosive charge in the reagent solution inside the filter pipe in a sealed well. As a result of the explosion, not only the destruction and dispersion of sediments occurs under the action of the shock wave, but also the reagent solution is crushed to a considerable depth in the reservoir under the action of pressure generated during the expansion of the vapor-gas bubble and amounting to 5 10 MPa [2]
However, the known method has insufficient efficiency due to the use of explosives, increased fire and explosion hazard, the difficulty of controlling the parameters of the exposure process, the high temperature accompanying the combustion of the explosive and adversely affecting both the reaction rate and the condition of the treatment zone due to the possibility of sintering of colmatant and other reasons. The method can be used only in shallow wells, since a gas bubble pressure of 5-10 MPa is not enough to form additional cracks in the rock in wells deeper than 200 m. In addition, the effectiveness of the method is limited by the exposure once with the gradual attenuation of the energy of the gas bubble.

 The technical result of the invention is to increase the efficiency of processing the bottom-hole zone of the wellbore by controlling the parameters of the exposure process.

 The necessary technical result is achieved by the proposed method for processing the bottom-hole zone of the wellbore, including injecting a chemical reagent into the treatment zone of the well and subsequently acting on the bottom-hole zone of the wellbore with a gas mixture in the form of successive pulses, in which, according to the invention, pressure pulses are applied with a pressure value of 1.5 2 times the mountain pressure.

 In a preferred embodiment, pressure pulses are generated with a duration directly proportional to their number, and the intervals between pulses are equal to the time of complete decay of the shock wave oscillations.

It is advisable to carry out a pulsed exposure to a gas mixture with an oxygen content of not more than 10%
It is also advisable to carry out a pulsed action in the thermoconstant state of the treatment zone.

 This embodiment of the method will significantly increase its efficiency, increasing the flow rate of wells by 3-5 times and providing a duration of the effect, 1.5 to 2 times greater compared to pulsed processing.

The invention is as follows. A chemical reagent is added to the well treatment zone, which dissolves the mud and mechanical impurities in the pore space of the oil and gas saturated formation and helps to increase the permeability of the well formation zone. Then, a submersible generator of pressure pulses is lowered into the treatment zone with a supply of fire-explosion-safe gas mixture with an oxygen content of not more than 10% and a pressure in the generator reservoir that is 1.5 2 times higher than the rock pressure in the treatment zone. In this case, the temperature of the gas mixture in the generator tank is equal to the ambient temperature in the well treatment zone (thermoconstant state of the treatment zone)
After the generator stops in the processing zone, pressure pulses act, generating pressure pulses of duration directly proportional to their number and the interval between them, equal to the time of complete attenuation of the shock wave oscillations.

The method was tested in oil wells with a depth of 2700-3100 m when processing the bottom-hole zone of the BP 14 formation, composed of strong, low-permeability sandstone sandstone. The perforation zone is filled with a reagent containing surfactants that contribute to the intensification of the influx. Mountain pressure in the processing zone is 650-700 kg / cm ² , the temperature is 90 ^o C.

The pressure pulse generator is charged on the surface with a gas mixture with an oxygen content of not more than 10% so that the pressure in the generator tank at a bottom temperature of 90 ^° C rises to 1200-1400 kg / cm ² . After the generator is lowered and stopped in the treatment zone, pressure pulses act, and the pulse duration increases from 0.1 s at the first start up to 0.2 s at the last start of the generator. The interval between starts is equal to the time of complete decay of the shock wave. The temperature of the exhaust gas is equal to the ambient temperature at the bottom.

 After the development and putting the wells into operation, their production rate increased by 3-5 times, and the observed duration of the effect was at least 8 months.

Claims (3)

 1. The method of processing the bottom-hole zone of the wellbore, including the injection of a chemical reagent into the treatment zone and subsequent exposure to the bottom-hole zone of the formation with a gas mixture in the form of successive pulses, characterized in that the pressure pulses are applied with a pressure value of 1.5 to 2 times the pressure pressure.  2. The method according to p. 1, characterized in that the pressure pulses generate a duration directly proportional to their number, and the intervals between pulses are equal to the time of complete decay of the shock wave. 3. The method according to claim 1, characterized in that the pulsed action is carried out by a gas mixture with an oxygen content of not more than 10%
4. The method according to claim 1, characterized in that the pulsed action is carried out at the thermoconstant state of the treatment zone.