RU2157887C1 - Method of recovery of operating characteristics of oil and gas-condensate wells - Google Patents

Abstract

FIELD: technology of operation of oil and gas-condensate deposit; applicable in increase of production rate of wells with reduced or discontinued production rate due to bridging of producing formation well zone with viscous depositions or paraffin depositions in well cross-section. SUBSTANCE: method includes treatment of bottom-hole formation zone with hot medium, heating of well walls in zone of producing formation and section with paraffin depositions, heating of circular sections of well walls. Run into well is circular hollow flexible vessel whose circular space is filled with working fluid. The latter is treated with acoustic vibrations, and external convex parts of vessel are pressed to well wall. Internal wall of vessel is subjected to motion along well axis due to connection of its pylons with pull cable at frequency of motion selected within 0.5-1 Hz. EFFECT: considerable increase of efficiency of recovery of well operating characteristics due to more effective treatment of depositions round well walls in zone of producing formation and in wellbore. 2 cl, 5 dwg

Description

 The invention relates to the technology of operation of oil and gas condensate deposits and can be used to restore the characteristics of these deposits.

 At present, the principal directions of solving this technological problem are known, the most representative of which is the process in which the walls of the well are heated using the supplied heated fluid into the cavity of the plastic zone of the well. The closest technical solution of these analogues is a method of restoring the operational characteristics of oil and gas condensate wells, including exposure to a heated medium in the borehole zone of the reservoir, heating the walls of the borehole in the zone of the reservoir and in the paraffin section of the well / 1 /.

 At a certain efficiency, this method has obvious and significant drawbacks, consisting in its basic technological scheme, in which even applying pressure to the working medium does not bring noticeable efficiency in restoring the well flow rate due to the insignificant mechanical and thermal effect of this working medium on the well wall, due to the density and viscosity of coagulated hydrocarbon deposits around the well and in the cavity of the well itself.

 The technical result of this invention is to significantly increase the efficiency of restoration of the operational characteristics of the wells due to a more productive effect on deposits around the walls of the well in the zone of the reservoir and in the cavity of the well itself.

 The specified technical result in the invention is achieved due to the fact that in the method of restoring the operational characteristics of oil and gas condensate wells, including the action of a heated medium on the wellbore zone of the reservoir, heating the walls of the borehole in the zone of the reservoir and on the paraffin section of the borehole, the annular sections of the borehole walls are heated , an annular hollow elastically flexible container filled in its annular space of the working fluid is lowered into the cavity of the well This fluid is subjected to acoustic vibrations, the external convex parts of the reservoir are pressed against the well wall, and the inner wall of the reservoir is displaced along the axis of the well by connecting its pylons to the cable traction cable, and the frequency of these movements of the inner wall of the reservoir is selected in the range 0, 5-1 Hz.

 In this case, the annular sections of the walls of the borehole are heated using a high-frequency current emitter, acoustic influence on the working fluid is carried out in the frequency range of 50-100 Hz at an exposure intensity of 100-150 dB, and deposits are removed from the borehole by an autonomous drilling apparatus ascending to its mouth, creating an upward flow of gas-slurry pulp to the mouth of this restored well.

The described method is illustrated by graphic material, where:
in FIG. 1 shows a device in a general view;
in FIG. 2 shows the autonomous drilling apparatus of FIG. 1;
in FIG. 3 - working resiliently capacity of the device;
figure 4 - detail of the working capacity - "A" in figure 3.

 in Fig. 5 is a view along arrow "B" in Fig. 3.

 This device for implementing the method is lowered into a well having a wellhead 1, a trunk 2 included in the structure of the reservoir 3 (Fig. 1). To perform the operations of the method, the device comprises a working ring-shaped hollow, elastic-flexible tank 4 (hereinafter referred to as the tank) and a working autonomous drilling apparatus 5. The tank 4 has an outer wall 6 (Fig. 3.4), made in the form of an elastic-flexible corrugated element, and also has an inner wall 7 of the same design, while the outer corrugations of the wall 6 are in contact with the wall of the well. In the hollow middle part of the tank 4 are pylons 8 (Fig. 3,5), connected by elastic spring segments of the cables 9 with the inner wall 7 of the tank 4. Pylons 8 in their central part - along the axis coinciding with the axis of the tank and the well, are connected cable a cable 10 with a traction winch located at the wellhead 1 (the winch is not shown in the drawing).

 This cable cable 10 has a multicore and multi-functional design and includes a tube 11 for supplying through it and through the valve 12 a working fluid to the cavity of the container 4. The cable cable also includes a conductor 13 for supplying voltage to the emitter 14 of acoustic vibrations, mainly in the ultrasonic wave range (from 25 to 35 kHz), which is located in the volume of the working fluid 15. In addition, the cable cable also has a conductor 16 for supplying electric current to the emitters 17 of high-frequency currents intended for heating the ring s borehole wall portions as in the producing formation zone 3, and at any zaparafinennom well site.

 A working autonomous drilling apparatus (Fig. 2), shown in general form (without revealing details, since they are not directly related to the method, and due to the popularity of such a device, for example, an apparatus designed by A. Plugin, in particular, RU 2103481 , 1994), contains the main nodes: the generator of the working agent 18, fed by fuel from the container 19; a working drill head 20, a control unit 21 for working offline; the head 20 has downhole nozzles 22 and 23, creating an outflowing working agent the force of rock destruction at the bottom - paraffin section of the well, and - creating the force of removal of drill cuttings from the cavity of the well; nozzles 24, in this case, create a downward feed force of the apparatus.

 The method of restoring the operational characteristics of the wells is as follows. Depending on the state of the well cavity overgrowing with viscous hydrocarbon deposits, along the depth of the well and in the zone of the productive formation, the sequence of using the reservoir 4 and apparatus 5 is chosen. Moreover, if only near-well water of the reservoir is clogged, first lower the reservoir 4 to the formation zone 3 on a cable cable 10 and turn on this multifunctional working capacity: the working fluid is fed into its cavity 15 and the protruding annular sections of the outer wall 6 of the tank are pressed against the well wall, dnovremenno on the volume of the working fluid is applied acoustic waves in the ultrasonic range (25 to 35 kHz), while the emitters 17 is supplied a current which is converted to the emitters of high frequency currents, warming annular portions wellbore by clamping rings vessel 4 to these walls. After that, the pylons 8 are cyclically raised and lowered by a cable 10, thereby subjecting the internal wall 7 of the container to displacement, and since this wall is connected to the wall 6 into a single resilient container, these movements cause additional mechanical stresses on the contact: wall 6 , its convex annular sections, the wall of the well; the frequency of these movements is chosen low, of the order of 0.5-1.0 Hz.

 Such a complex effect on the paraffinized walls of the well leads to the separation of viscous hydrocarbon deposits that accumulate between the corrugations of the outer walls 6 of the tank, and for a more intensive and active separation of these deposits from the walls of the well and the zone of the reservoir in contact with the walls of the reservoir, the working fluid in the cavity 15 of the tank is subjected to acoustic oscillations with a frequency of 50-100 Hz and with an intensity of exposure from 100 to 150 dB, supplying such oscillations from the emitter 14.

 After a cycle of such exposure (for the time taken - about 15 minutes), the tank 4 is raised together with the separated hydrocarbon deposits, cleaned of these deposits, after which it can be reused for the same process.

 The final cleaning of the well cavity in the zone of the productive formation 3 and the cavity of the well 2 in any of its section from hydrocarbon deposits and other unwanted deposits is carried out by using an autonomous drilling apparatus 5, which is lowered into the well by turning on the traction nozzles 24, and the working nozzles 22 and 23 , due to the working agent flowing out of them, the walls of the well are finally cleaned, while the spent working agent creates a lifting force in the ascending stream of the sludge of sediment residues; all sludge from the well cavity is removed to the wellhead 1 and to the surface (to the dump or to the receiving hopper).

 In the process of cleaning and restoring the well, if the thickness of the formation 3 is significant, and the contact area of the filter part of the walls of the well in this zone is also significant, while the overgrowth of the well cavity is also significant, both capacity and apparatus 5 are used to maintain the efficiency of the process, and work apparatus, as described above, create an upward flow of sludge, starting from tank 4, and raise all the separated deposits in this upward flow, cleaning the cavity of the well and restoring its operational character sticks on debit.

 In the process of using capacity 4 and apparatus 5, a violation of the integrity of their structures and a violation of operational functions is not observed, which makes it possible to reuse and reuse this process equipment.

Sources of information
1. Patent of Russia N 2097544, publ. 11/27/1997.

Claims (2)

 1. A method of restoring the operational characteristics of oil and gas condensate wells, including the exposure to a heated medium on the borehole zone of the reservoir, heating the walls of the borehole in the zone of the reservoir and on the paraffin section of the borehole, characterized in that the annular sections of the borehole walls are heated, the ring-shaped cavity is lowered hollow, elastic, flexible container filled in its annular space with a working fluid; acoustic waves act on this fluid By pressing them, the external convex parts of the vessel are pressed against the wall of the well, and the inner wall of the vessel is moved along the axis of the well by connecting its pylons to the cable traction cable, and the frequency of these movements of the internal wall of the vessel is selected in the range 0.5 - 1 Hz.  2. The method according to claim 1, characterized in that the annular sections of the walls of the borehole are heated using a high-frequency current emitter, acoustic influence on the working fluid is carried out in the range of 50-100 Hz at an exposure intensity of 100-150 dB, and deposits are removed from the cavity wells ascending to its mouth by an autonomous drilling apparatus.

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