RU2132452C1 - Method and device for liquidation of paraffin-crystallohydrate plug in wells - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: invention is applicable to wells which are equipped with immersed sucker rod pumps, electric heaters, production pipe string, pump-compressor pipes, rod string with polished rod, and Christmas tree. According to method, electric links are broken between polished rod and sucker rod pump, also between sucker rod pump, polished rod and Christmas in sealing gland part, and also between Christmas and discharge line. Electric power is brought to polished rod and it is disconnected from grounding. Before supply of electric power, additionally broken are electric links over metal between well and grounding circuit. Used is double-electrode galvanic circuit. Applied in function of electrodes are electrically insulated well and closely located grounding member. Liquidation of paraffin-crystallohydrate plug is carried out by intervals. Initially plug is removed from heated part of rod string. Rod string is unscrewed and lifted from well. Then lowered into well is rod string with electric resistance less than in gripped rod string. This rod string is connected with gripped part of rod string and operation is repeated until complete freeing of rods from paraffin-crystallohydrate plug, Used in function of closely located grounding member is adjacent well. Device for realization of aforesaid method has following components: production string of pipes 1, pump-compressor pipes 2, immersed sucker rod pump 4, rod string 3, and polished rod 6. Device additionally has auxiliary rod string with electrically insulated external surface made of material with electrical resistance lower than in gripped rod string. Polished rod 7 is sectional and is made up of dielectric part 21, current conducting contact part 22, and current conducting part 23 with insulated external surface. Rods 18 of auxiliary rod string are made hollow and with left-hand thread. Rods of auxiliary rod string and current conducting parts of polished rod 6 are made of alloy including aluminium, copper, magnesium. Application of aforesaid method and device widens area of use, gives larger depth for heating of rods and enhances safety of operations in liquidation of plugs in wells. EFFECT: higher efficiency. 4 cl, 3 dwg

Description

 The invention relates to the oil industry, in particular, to methods and devices for eliminating paraffin and crystalline hydrate plugs in wells equipped with sucker rod pumps using electric heating.

 A known method of preventing paraffin formation in wells, implemented using a device containing a power source and a cable connected to it. The cable is made in the form of a core covered by a pillow under the armor, and two-layer armor from steel round wires.

 Alternating voltage from a single-phase network is applied to the core core and armor of the cable lowered into the borehole pipes to a depth, which should ensure the prevention of paraffin deposits and hydrate formation [1].

 The disadvantages of this method are: the need for preliminary descent into the borehole pipes of a specially made cable; the method is not applicable for wells equipped with sucker rod pumps.

 A known method of preventing the formation of paraffin deposits in producing wells, including the descent into a cased well of a string of tubing equipped with insulators and a pump on a rod string, in which electric current is supplied through the cable through the cable entry and an electrical sleeve isolating the wellhead from the pump compressor pipes. At the bottom of the tubing string, a contactor is installed through which the electric current is closed to the casing. A fiberglass rod is installed on top of the rod string to prevent the tubing string from shorting to the wellhead.

 Passing through the tubing string, an electric current heats the tubing string.

 By heating the tubing string to a temperature equal to or higher than the temperature of oil saturation with paraffin, which is achieved by the input current power, deposition of paraffin crystals on the walls of the tubing is prevented [2].

 The disadvantage of this method is that it involves the preliminary installation of insulators along the entire length of the tubing string, a contactor at the bottom of the tubing string, an electrical coupling, in the upper part of the tubing and fiberglass rods in the upper part of the rod string. If the sticking of the rod string occurred in a well not equipped with these elements, then the application of this method becomes impossible.

 The closest to the proposed technical essence and the achieved result is a method of dewaxing wells cased with a production string and equipped with tubing, a deep rod pump, a rod column with a polished rod and fountain fittings, including breaking electrical connections between the polished rod and the pumping unit, polished rod and fountain fittings in the stuffing box, fountain fittings and flow line, the supply of electrical energy to polished w current and its removal from the casing string [3].

 The specified method was adopted by us as a prototype.

 The disadvantages of the prototype are: the need for preliminary equipment of the well with rods with insulators and a contact lamp; if the sticking of the rod string occurs in a well not equipped with the indicated elements, then the method is not applicable; small depth of heating of the rods due to the large electrical resistance of the steel rods; increased danger due to the high potential difference between the polished rod and fountain fittings.

 The objective of the proposed method is to expand the scope, increase the depth of heating of the rods and increase the safety of work.

 To solve this problem in a known method, including breaking the electrical connections between a polished rod and a rocking machine, a polished rod and a fountain in the stuffing box, a fountain and a flow line, supplying electric energy to the polished rod and removing its ground electrode before applying electric energy additionally break electrical connections for metal between the well and the ground loop, and two-electrode galvanization is used to eliminate paraffin-crystalline hydrate plugs circuit, and as an electrode, an electrically insulated well and a closely located ground electrode system are used, while paraffin-crystalline hydrate plugs are eliminated at intervals, first part of the rod string is removed from the plug, it is turned and lifted from the well, then an auxiliary rod string with electrical resistance is lowered into the well, smaller than the stuck column, connects it to the stuck part of the rod string and repeat the operation until the rods are completely freed from paraffin-cree steel hydrate plugs, while a neighboring well is used as a closely located ground electrode system.

 The operation to break the electrical connection between the well and the ground loop will allow you to change the electrical circuit of the method for eliminating paraffin-crystalline hydrate plugs in the well. As a result of a change in the electrical circuit, we get a two-electrode galvanic circuit, where a well is used as one electrode, and a closely located ground electrode is used as the second one. A neighboring well may be used as a ground electrode.

 According to the new scheme, the current will pass through the rod string and will flow along the contacts between the rods and tubing, tubing and the siege column and, then, mainly through the perforation interval, the underlying rocks will flow to the surface ground electrode. The current flowing along the rod column will heat it to the melting point of paraffin or decomposition of the hydrate.

 Interval elimination of paraffin-crystal hydrate plugs will reduce the time of work and save energy consumption. This is due to the fact that the exact length of the formed paraffin-crystalline hydrate plug is unknown, and the heat generation on the rods decreases with depth. In addition, the interval elimination of paraffin-crystalline hydrate plugs will increase the depth of heating of the rods.

 We do not know how to eliminate paraffin-crystalline hydrate plugs in wells that have a combination of the above characteristics, which means that the proposed method meets the requirements for inventions.

 Closest to the proposed device in terms of technical nature and the achieved result is a device for eliminating paraffin-crystalline hydrate plugs in wells cased with a production string, including tubing, a deep-well pump, a rod string and a polished rod [3].

 A disadvantage of the known device is the need for preliminary equipment of the well with rods with insulators and a contact lamp, a small depth of heating of the rods, as well as an increased risk of electric shock, due to the high potential difference between the polished rod and the fountain fittings.

 The task to which the invention is directed is to expand its scope, increase the depth of heating of the rods and increase the safety of work.

 To solve this problem, the known device for the elimination of paraffin-crystalline hydrate plugs in wells cased by a production string, containing tubing, a sucker rod pump, a sucker rod and a polished rod, further comprises an auxiliary sucker rod with an electrically insulated outer surface made of material with electric resistance less than the stuck rod column, and the polished rod is made combined, consisting of dielectric Second, a conductive contact and conductive with insulated outer surface portions, wherein the auxiliary rods are hollow rod string with left threaded rod and the auxiliary rod string and the conductive portion of the polished rod made of aluminum alloy - medmagny (Al - Cu - Mg).

 The purpose of the auxiliary rod column is the transfer of electrical energy to the column of stuck rods with minimal losses with an extended paraffin-crystalline hydrate plug.

 The design of the rod string with insulators of a material with a lower specific electrical resistance than steel and with an electrically insulated outer surface will significantly reduce the loss of electricity during the passage of electric current through them, regardless of the environment.

 The execution of the polished rod combined, consisting of dielectric, conductive contact and conductive with an insulated outer surface of the parts will increase the safety of work during the elimination of deep-lying paraffin-crystalline hydrate plugs due to more reliable isolation of the surface of the polished rod from the lift and from the fountain fittings. This makes practical sense, because, as a result of using a rod column with insulators, the potential difference between the polished rod and the fountain fittings, the polished rod and the lift will be increased.

 The execution of rods with a left-handed thread will allow, after thawing part of the paraffin-crystalline hydrate plug, to turn the steel rods with their subsequent rise to the surface and thereby ensure the interval elimination of the paraffin-crystalline hydrate plug.

 The execution of the hollow rods will allow flushing of the connection point and unimpeded connection before connecting to the stuck rod string.

 The manufacture of the rod string and the conductive parts of the polished rod from heat-treated aluminum alloy A1-Cu-Mg, GOST 21488 - 76 will allow, in addition to reducing the electrical resistivity, to have high strength characteristics that provide the lifting of the underlying column of steel rods.

 We are not aware of devices for eliminating paraffin-crystalline hydrate plugs in wells that have a combination of the above characteristics, which means that the proposed device meets the requirements for inventions.

 In FIG. 1 is a schematic diagram of a method for eliminating paraffin-crystalline hydrate plugs in a well equipped with sucker rod pumps; in FIG. 2 is a circuit diagram of a method; in FIG. 3 - auxiliary rod column and combined polished rod.

 Tubing 2, a rod string 3 and a downhole pump 4 were lowered into a well cased by production string 1 to conduct oil production. As a result of the formation of paraffin-crystalline hydrate plug in the well, a rod string was stuck with the pump. The supply of electric current from the transformer 5 to the polished rod 6 of the rod string 3 is carried out through the control unit 7 via a flexible power cable 8 through the current lead 9. The dielectric gland device 10, mounted on the fountain fittings 11, isolates it from the polished rod 6. The dielectric insert 12 isolates the polished the rod 6 from the rocking machine 13, and the dielectric insert 14 is a gushing 11 from the flow line 15. The production column 1 has a perforation interval 16, along which the current flows into the rock and through ground Only 17 enters the electric power equipment. The auxiliary rod column (Fig. 3) consists of rods 18 with insulators 19 made of a material with lower electrical resistance than steel rods and with an insulated outer surface 20. The rods 18 are hollow with a left-hand thread and the bottom of the rods is equipped with a connecting device, for example rod head, providing mechanical connection with the sticky rods remaining in the well and good electrical contact. Combined polished rod consists of a dielectric 21, conductive contact 22 and conductive with an insulated outer surface of 23 parts. The auxiliary rod column and the conductive parts of the polished rod can be made, for example, of heat-treated aluminum alloy Al-Cu-Mg 21488-76.

Rods made of this alloy have a resistivity of 1.029 ohm mm ² / m, while steel rods have 0.13 ohm mm ² / m. Thus, the energy loss during transportation along aluminum alloy rods will be 0.1 3 / 0.029 = 4.5 times less.

 To carry out the operation to eliminate paraffin-crystalline hydrate plugs, power equipment is installed, including a power transformer 5 and a control unit 7, strapping it with a ground loop (not shown in the drawing) and with a power line, unwinding flexible power cables 8 ("phase" and " zero "). Then, electrical insulation is carried out on the thawed well, namely: breaking the electrical connection between the polished rod 6 and the rocking machine 13 by installing a dielectric sleeve 12; breaking the electrical connection between the polished rod 6 and the fountain fittings 11 by installing a dielectric sebaceous device 10; breaking the electrical connection between the well and the pipe 15 by installing a dielectric insert 14; a break in the electrical connection between the well and the ground loop.

 It is well known that for combining the grounding devices of various electrical installations, it is recommended to use one common grounding device, that is, connect all equipment to a single grounding device, while using all available natural, in particular long conductors. It is also well known that in the oil fields casing strings are used as natural grounding conductors of deep-pump installations (see, for example, the book: Electrical Equipment for Oil and Gas Wells. B. M. Plyushch et al., M .: Nedra, 1965, p. 306 -307). Rocking machines are usually grounded to the casing of the wells using metal rods ("wire rods") with a diameter of more than 15 mm and a length of less than 1 m. A break in the electrical connection between the well and the ground loop, in this case, means a break in these metal rods.

 After all the above operations are completed, flexible power cables 8 of the power transformer 5 and the control unit 7 with a polished rod 6 and a surface ground electrode are strapped 17. Then voltage is applied to the polished rod 6. The current from the power cable ("phase") 8 through the current lead 9 flows to polished rod 6 and then passing along the rod string 3 and spreading over the contacts formed by the rod column 3 with tubing 2 heats the rods due to the "Joule heat", melting paraffin-crystalline atnuyu plug. Next, the current flows to the casing 1, then, mainly through the perforation zone 16, through the underlying rocks to the surface ground electrode 17 and by means of a flexible cable ("zero") 8 returns to the power transformer 5. The heating time of the rod 3 to a depth of several hundred meters - no more than 5 hours.

 With an extended paraffin-crystalline hydrate plug, further work on its thawing is carried out at intervals, producing a lapel and lifting of the heated part of the rod string. Then, an auxiliary rod string is lowered into the well, consisting of rods 18 with insulators 19, while the rods are made of material with lower electrical resistance than steel and with an electrically insulated surface. The bottom of the lowering rods is equipped with a connecting device, for example, a rod head, which ensures their mechanical connection with the stuck rods remaining in the well and good electrical contact. Before connecting the columns of the rods, a combined polished rod is installed.

 After connecting the rod columns, the cables of the power transformer 5 are connected with the conductive contact part 22 of the polished rod and the surface ground electrode 17, and voltage is applied to the rod column. The current from the power transformer 5, through the power cable ("phase") 8, through the current lead 9, an electrically insulated rod column 18 with insulators 19, a connecting device (rod head), is supplied to the stuck rod column 3. Further, the current flows in the same way as with heating columns of steel rods starting from the surface.

 In the event that after repeated electric heating of the rods, the rod column remains tacked, the heated part of the rod column is flap. After lifting the turned-off steel rods, operations to thaw a new interval of paraffin-crystalline hydrate plugs are repeated until it is completely eliminated.

 This method will allow within no more than 2 days to eliminate the paraffin-crystalline hydrate plug and release the rod string in the range of 0-1000 m, and if the depth of the paraffin-crystalline hydrate plug is not more than 400 m, the thawing is carried out in one step and a well is introduced within 12 hours into operation.

 The tests confirmed the usefulness and industrial feasibility of the proposed method.

 So, in well. N 6753 of the Povkhovskoye field, Vatieganneft association, as a result of the deposition of paraffin-crystalline hydrate plugs, seizure of downhole equipment - rod string and pump lowered to a depth of 1465 m. According to the above, a supplied power of 120 kW was supplied through a flexible power cable. After 5 hours, the movement of the rods was observed, which testified to their release from the paraffin-crystalline hydrate plug. Pumps were turned on, circulation was restored, and the well was put into operation.

Sources of information
1. Copyright certificate of the USSR N 1839043 class. E 21 B, 36/04 with a priority of 1990. 04/20/96.

 2. US patent N 4716960, CL. E 21 B 36/00 with a priority of 1988.

 3. P.P. Galonsky. Fighting paraffin in oil production. Theory and practice. M .: GOSTOPTEHIZDAT, 1955, p. 104 - 106 [prototype].

Claims (5)

 1. A method for eliminating paraffin-crystalline hydrate plugs in wells cased by a production string and equipped with tubing, a deep-well rod pump, a rod string with a polished rod and fountain fittings, including breaking electrical connections between a polished rod and a rocking machine, a polished rod and a fountain fittings in the stuffing box, fountain fittings and flow line, the supply of electric energy to the polished rod and removing it from the ground electrode, characterized in that by supplying electric energy, the electrical connections between the well and the ground loop are additionally broken, moreover, a two-electrode galvanic circuit is used to eliminate the paraffin-crystalline hydrate plug, and an electrically insulated well and a closely located ground electrode are used as electrodes, while the paraffin-crystalline hydrate plug is eliminated at intervals, first release the heated part of the rod string from the cork, turn it away and lift it from the well, then into the wells y supporting rod string is lowered electric resistance is lower than a tack-welded rod string, connect it with the stuck part of the rod string and repeating the operation until the release rod from paraffin-crystalline hydrate plugs.  2. The method according to claim 1, characterized in that a neighboring well is used as a closely located ground electrode system.  3. A device for eliminating paraffin-crystalline hydrate plugs in wells cased by a production string, including tubing, a deep rod pump, a rod string and a polished rod, characterized in that it further comprises an auxiliary rod string with an electrically insulated outer surface made of material with an electrical resistance less than a stuck rod column, and a polished rod is made combined, consisting of a dielectric current leading contact and conductive with an insulated outer surface of the parts.  4. The device according to claim 3, characterized in that the rods of the auxiliary rod string are hollow with left-hand thread.  5. The device according to claim 3, characterized in that the rods of the auxiliary rod column and the conductive parts of the polished rod are made of an aluminum-copper-magnesium alloy.

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