SU1240112A1 - Method of increasing rock permeability - Google Patents

Abstract

one.

Description

K9

4 The invention relates to mining useful7; fossil through drilling wells. The aim of the invention is to increase the efficiency of increasing the permeability of sedimentary rocks. The drawing shows a diagram of the proposed method of treating rocks by increasing their permeability. As shown in the drawing, the generator 1 waves upper end connected to the feeding device (cylinder) 2, which, in turn, is attached to the movable frame 3. The feeding device 2 provides the generator along the axis of the well to the value A, the lower end of the generator 1 ends with waveguide-emitter 4 with a radiating end 5, which enters a well cased in pipe 6, and is filled with technological solution 7. Acoustic reflector 8 located in the zone of ore heat 9 moves along the axis of the well. 8 is provided with a bevel plane 10. Filter 11 is located in the ore body 9 zone. The acoustic reflector 8 moves along the well axis and is held in the desired zone with the help of cable 12. The compression wave propagates from the end of waveguide 5 along the well axis shown by arrows 13, and from the plane of the bevel 10 along the treated formation - by arrows 14, Dp of air outlet from under the radiator end there is a through hole 15 in it, the process is carried out in the following sequence. The ore body 9 is opened by a grid of technological wells through which the technological solution is supplied. After that, depending on the permeability of the ore T & ria and the surrounding rocks, the following effects on the massif are carried out. The casing 6 is withdrawn above the wellhead or is expanded using a cilia 5 casing extension, the well inside the casing and in the annulus is filled with process solution 7. The wave generator 1 is positioned above the well head and its axis is aligned with the axis of the casing 6, Emitter-waveguide 4 is inserted inside the casing. Include the feed mechanism 2 and in this way create pressure to press the end of the radiator to the liquid waveguide-technological solution 7, which filled the well. The generator 1 includes power waves, and the waves from the end 5 are emitted into the technological solution in the form of compression waves 33, which, having reached the bevel 10 at the end of the reflector 8, create a reflected compression wave 14 of a given directionality. Depending on the geometry of the bevel 10, this may be a wave of circular radiation or a sector, well-chosen acoustic coupling of the fluid waveguide with the surrounding array contributes to the high efficiency of the wave effect on the array. Under the action of a pulse pressure reaching 300 MPa and more, the technological solution penetrates into the cracks, expanding them and forming new cracks in accordance with the nature of the fatigue crack formation. The time required to ensure a given permeability of the array is determined by the number of heating cycles before destruction in accordance with the curve of fatigue failure of the array. For each breed, such a curve is constructed experimentally by. After reaching the specified permeability of the array, the process of descaling can proceed in a natural way, t, e, without wave action on the array. The repeated wave effect on the massif can be caused by two circumstances: clogging of i wells (filters) or insufficient overall permeability of the formation. To break up the formation, the well is treated with waves according to the technology described above for a short time (from several minutes to several tens of minutes, with a pulse frequency of 2000 per minute), Bi if the ore body is represented by loose sedimentary rocks, the surrounding rocks have the same structure. The array is subjected to wave action as follows. First of all, the layers, which do not contain minerals, are surrounded by wave fields with an amplitude of waves exceeding the elastic limit of the bone mass for a period of time that ensures a reduction in the permeability of the formation by 10 ... 15 times. For rocks of the type of compacted sands, the effect of waves with a pressure amplitude of up to 300 MPa provides a predetermined decrease in their permeability for 10 minutes at a pulse frequency of 2000 per minute. In this treatment, the near-wellbore zone of the massif is permeable to the crushing phase, only the ore formation remains.

With good permeability of the ore formation, it is periodically affected for a short time only to combat clogging. In this case, the time of impact on the array does not exceed 10 minutes with the amplitude of the pressure pulses not exceeding the elastic limit of the bone mass and the pulse frequency of about 2000 min.

Claims (1)

With good permeability of the ore bed, periodically lift it up • 'L /', ' only briefly to combat colmatization. In this case, the exposure time to the array does not exceed 10 min at an amplitude of pressure pulses not exceeding the elastic limit of the core of the array and the pulse repetition rate of about 2000 V '' -. "'min." - -' /. -