RU2004128479A - METHOD FOR PROCESSING THE BOREHING ZONE OF THE LAYER AND CHARGE - Google Patents

Claims (17)

1. A method of processing a near-wellbore zone of a formation, including placing a solid fuel charge in the interval of a productive formation of a well in the form of a group of cylindrical blocks with longitudinal through and / or blind channels and burning a solid fuel charge with the pressure of the gases emitted in the interval of a productive formation above its burst pressure and at a monotonous or stepwise change of this pressure at a speed of at least 10 ³ MPa / s to form a network of branched cracks, while the required formation for fracturing and the volume of the working fluid, the volume of gases released during combustion, is set by the required initial combustion surface of the cylindrical checkers, for which the length of the cylindrical checkers, their cross-section, the total number, the depth of the channels in these checkers, the shape of the channels, their number, size and placement over the body are calculated each of the cylindrical checkers, taking into account the ratios

where S is the initial combustion surface of the cylindrical checker; S _W - the outer surface of the cylindrical checkers; S _to - the combustion surface of the i-th channel of a cylindrical checker; S _section.k is the cross-sectional area of the i-th channel of a cylindrical checker; S _def. - the surface of the cylindrical checker, which is coated with a protective coating; n is the number of channels in a cylindrical checker; m is a coefficient characterizing the implementation of the ith channel of a cylindrical checker (m = 1 when the channel is deaf, m = 2 when performing the channel through),

where S _zar. - the required initial combustion surface of the solid fuel charge; z is the number of cylindrical checkers in a solid fuel charge. 2. The method according to claim 1, characterized in that the solid propellant charge in the form of cylindrical blocks with longitudinal through and / or blind channels is placed in a perforating explosive apparatus for processing the interval of the reservoir. 3. A solid fuel charge, including a group of cylindrical checkers with longitudinal through and / or blind channels and means for initiating the combustion of these checkers, the total number of checkers, length, cross-section, depth of channels in the checkers, the shape of the channels, their number, size and placement the body of each of the cylindrical blocks is designed for the required initial combustion surface, from the conditions of gas evolution, providing a monotonic or stepwise change in pressure in the interval of the reservoir at a rate of at least 10 ³ MPa / s for I form a network of branched cracks in this layer, taking into account the relations

where S is the initial combustion surface of the cylindrical checker; S _W - the outer surface of the cylindrical checkers; S _to - the combustion surface of the i-th channel of a cylindrical checker; S _section.k is the cross-sectional area of the i-th channel of a cylindrical checker; S _def . - the surface of the cylindrical checker, which is coated with a protective coating; n is the number of channels in a cylindrical checker; m is the coefficient characterizing the implementation of the ith channel of the cylindrical checker (m = 1 when the channel is deaf, m = 2 when the channel is through)

where S _zar. - the required initial combustion surface of the solid fuel charge; z is the number of cylindrical checkers in a solid fuel charge. 4. The solid fuel charge according to claim 3, characterized in that the longitudinal channels of the cylindrical checkers are circular in cross section. 5. The solid fuel charge according to claim 3, characterized in that the longitudinal channels of the cylindrical checker are made as part of the annular channels in cross section, each channel being obtained by two concentric circles forming the channel width with centers lying on the central axis of the cylindrical checker, rounded at both ends with a radius equal to half the width of the channel. 6. The solid fuel charge according to claim 3, characterized in that the longitudinal channels of the cylindrical checkers are made in the form of a combination of round and partially annular channels in cross section. 7. Solid fuel charge according to one of claims 3 to 6, characterized in that the cylindrical checkers are made with a central through channel. 8. Solid fuel charge according to one of claims 3 to 6, characterized in that the cylindrical checkers are made with a protective coating. 9. Solid fuel charge according to one of claims 3 to 6, characterized in that the cylindrical checkers are made without a protective coating. 10. The solid fuel charge according to claim 3, characterized in that the cylindrical checkers are made of the same length. 11. Solid fuel charge according to claim 3, characterized in that the cylindrical checkers are made of different lengths. 12. The solid fuel charge according to claim 3, characterized in that the cylindrical checkers are made of the same cross section. 13. The solid fuel charge according to claim 3, characterized in that the cylindrical checkers are made of different sections. 14. The solid fuel charge according to claim 3, characterized in that the blind channels of the cylindrical checker are made of the same depth. 15. The solid fuel charge according to claim 3, characterized in that the blind channels of the cylindrical checker are made of different depths. 16. The solid fuel charge according to claim 3, characterized in that it contains combinations of cylindrical checkers along the depth of the channels in these checkers, the shape of the channels, their number and size in various combinations of the mentioned parameters. 17. The solid fuel charge according to claim 3, characterized in that it contains combinations of cylindrical checkers along the depth of the channels in these checkers, the shape of the channels, their number and size in various combinations of the mentioned parameters and cylindrical checkers with a central through channel and / or without a central through channel.