RU2569102C1 - Method for removal of deposits and prevention of their formation in oil well and device for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: to the well, to the area of deposits formation, heating system is submerged; the above system comprises a linear heating element made as outer load-bearing steel armour of a logging cable and feeding core, which are circuited in the cable head part by means of a locking element (locker). The locker is a local heater. During running down of the heating system to the well local heating in the head part is performed mainly; to this end high-frequency current is passed through the feeding core, locking element and linear heating element. Current frequency is set at the lowest threshold so that depth of electric field penetration into metal of linear heating element is less than its thickness. At that heat will be generated in the head part mainly. Due to that sections clogged with deposits (plugs) are passed through by running the heating system down the well, at that temperature of the locker and its environment is controlled by temperature sensor and maintained by heating control system within the required range. Upon complete submersion of the heating system to the well mainly by-product heating is performed. For this purpose heating control system redistributes power between linear heating element and locker, which is attained by saturation of the locker ferromagnetic core and simultaneous reduction in inductive resistance of high-frequency wire of the locker. Then, by regulation of current frequency in the heating system, heating of the linear heating element is adjusted. The device comprises power supply and heating control system, heating system comprised of the feeding core and linear heating element made as metal conductor with cross-section selected to withstand weight of the heating system submerged to the well and electric current locker between the above components in the head part of heating system. Temperature sensor is placed in the head part of heating system; it is used to control temperature of the locker and its environment when the heating system is run down to the well. The feeding core is made of twisted and isolated conductors, locker is made as winding of high-frequency wire wound onto ferromagnetic core and placed inside the metal shell, the core by its end parts is closed to this shell.EFFECT: improving reliability and enlarging functional capabilities of the heating system.2 cl, 3 dwg

Description

The invention relates to the oil industry, and in particular to equipment for oil wells, and can be used to eliminate paraffin hydrate plugs and maintain optimal thermal conditions in wells in order to prevent and eliminate paraffin hydrate and asphalt-tar deposits on the inner surface of a tubing (tubing).

There is a known method of heat exposure, in which, in order to prevent the formation of asphalt-resin-paraffin deposits in the well at the depth of formation of deposits, or in the bottom-hole zone, a local electric heater is placed, followed by heating and production of heated products from the well [RU, Patent No. 2379495 from 09/19/2008].

The disadvantage of this method is the fact that the oil lifted through the tubing string can cool to the temperature at which crystallization of paraffin begins, and deposits are formed closer to the wellhead.

Known devices for implementing this method: a local electric heater, consisting of a tubular casing and a heating element located on its surface in the form of a cable with low electrical resistance, installed in a ferromagnetic tube along the tubular casing [RU, patent No. 2249096 from 02.24.2004]; an induction borehole electric heater including a casing, which is simultaneously a magnetic core, a heating element in the form of an induction coil wound on the outer surface of the casing, the casing is a tubing [RU, patent No. 2198284 from 02.19.2001].

Electric heaters are lowered into the well with a tubing string. For this, it is necessary to install them either at the stage of well construction or during overhaul, which is a significant drawback of these devices.

A known method of regulating the thermal regime of the well, providing for the associated heating of the produced fluid using a heating cable located in the tubing [RU, patent No. 2455461 from 11/15/2010].

A device that implements this method contains a heating cable, consisting of coaxially insulated heating elements, and a heating control system connected thereto [RU, Patent No. 2455461 of 11/15/2010].

The disadvantage of this method and device is that before lowering the heating cable into the paraffin well, it needs to be pre-cleaned.

There is a method of starting up a paraffin oil producing well, in which it is heated above 45 ° C before the heating cable is lowered into the well, and then the heated cable is lowered into the paraffin formation zone [RU, Patent No. 2275493 dated 11.11.2004].

A device that implements the method comprises a heating cable wound on a drum of a controlled winch with at least one temperature sensor, and a heating control station connected to this cable [RU, Patent No. 2275493 dated 11.11.2004].

The disadvantage of this method and device is that in the head of the heating cable has a temperature no higher than its entire length, therefore, its descent into the well when passing paraffin plugs is difficult and slow.

A common disadvantage of devices containing a heating cable is the low linear heat dissipation power.

A known method of eliminating and preventing the formation of deposits and plugs in oil and gas wells, in which a heating system consisting of a linear heating element, a supply conductor and a contact between them is immersed in a well to a depth of formation of deposits.

A device that implements this method contains a linear heating element in the form of a tubing string, a submersible contact and a casing string, which is a supply conductor [RU, patent No. 2109927, IPC ЕВВ 36/04, Е21В 43/24 from 04/08/1996].

The disadvantage of this device is the need to exclude possible bridging between the tubing and the casing in places above the location of the submersible contact; for this, insulators must be placed on the tubing that can be damaged when the tubing is lowered into the casing. In addition, isolation of ground equipment is required.

The disadvantages described above are eliminated in the prototype [RU, patent No. 2248442 from 09/10/2003]. A heating system consisting of a linear heating element in the form of a metal conductor supplying the conductors and a current contact between them in the head is immersed in the well to the depth of formation of deposits. The contactor is a local heater, by means of which heating is carried out when the heating system is immersed in the well, which allows the passage of plugs formed by deposits. After immersion, predominantly heating is carried out by closing the current circuit formed by the metal conductor and supplying the core, for this the closing element has a decreasing dependence of the resistance on the temperature increase.

A device that implements the method comprises a heating system consisting of a supply core made of twisted and insulated conductors, a linear heating element in the form of a bare metal conductor and a contactor consisting of a housing, a ferrite core and a winding. A feature of the contactor is that when the ferrite core is heated to the Curie point, it loses its magnetic properties and the resistance of the contactor drops [RU, patent No. 2248442 from 09/10/2003].

The disadvantage of this method and device for its implementation is the need to select a ferrite core for a specific type of deposits having different melting points.

An object of the invention is to increase reliability and expand the functionality of the heating system.

The problem is solved by the method of eliminating and preventing the formation of deposits and plugs in oil and gas producing wells, in which the heating to the depth of formation of deposits is carried out using a heating system containing a linear heating element in the form of a metal conductor immersed in the well, and the core fed into the well, by which pass electric current with ensuring its closure in the head of the heating system to a linear heating element, through the supply core pass an electric current of high frequency and act on the metal of the linear heating element by the high-frequency field of the supply core, while the frequency of the electric current is set on the lower threshold so that the depth of penetration of the high-frequency field into the metal of the linear heating element is less than its thickness, and provide predominant heat emission along the length linear heating element by increasing the frequency of the electric current, shorting the electric current in the head of the heating The connecting system between the linear heating element and the supply core is provided with the use of a closing element, the closing element being made on a ferromagnetic core, the temperature of the closing element and its environment is monitored using a temperature sensor located in the head of the heating system, and is controlled by the control system in the required range for the descent of the heating system into the well, then, after the immersion of the heating system into the well, the control system When heated, it introduces the ferromagnetic core into saturation and heat dissipation occurs predominantly along the length of the linear heating element, since the closing element has a decreasing dependence of the resistance on the saturation of its ferromagnetic core.

The problem is also solved by a device for eliminating and preventing the formation of deposits and plugs in oil and gas producing wells, containing a heating system consisting of a supply core and a linear heating element in the form of a metal conductor with a cross section selected sufficient to support the weight of the heating system immersed in the well, as well as an electrical contactor current between them in the head of the heating system, the supply core is made of twisted and insulated conductors, the contactor ele The tertiary current is made in the form of a winding of a high-frequency wire wound around the core and placed inside the metal shell, the core is closed with end parts to this shell, and a temperature sensor is located in the head of the heating system, by means of which the temperature of the contactor is monitored when the heating system is lowered into the well, ferromagnetic material is used as a core, which is saturated by the heating control system when the heating system is completely submerged into the well.

Installation for the control of paraffin (asphalt-resin-paraffin deposits) (Fig. 1) contains a power supply and heating control 1, a winch with a drum 2, a geophysical cable 3, a contactor 4, a temperature sensor 5. A geophysical cable 3, a contactor 4 and a temperature sensor 5 form a heating the system. The heating system is immersed in the tubing 6 or in the annulus formed by the tubing 6 and the casing 7.

The Littsendrat geophysical cable (Fig. 2) consists of an external load-bearing steel armor 8, which is a linear heating element that feeds the conductors 9, consisting of twisted copper conductors and enclosed in insulation 10, in the space between the conductors - polymer aggregate 11.

When the heating system is immersed in the well (Fig. 3), local heating is carried out in the head part using a contactor 4, which is a local heater, the plugs encountered in the paraffin deposit 12 are melted and the heating system descends down the wellbore.

Induction heating system operates as follows. Geophysical cable 3 is lowered into the well in the formation zone. At the same time, for its descent to the required depth, it is necessary to overcome the tubing clogged sections of the tubing - plugs 12. Therefore, it is important that during the descent more powerful local heating occurs in the head part, and the cable 3, wound on the drum 2, is heated much less. To do this, a local heater 4 is located in the head of the heating system. The local heater is a contact between the supply core 9 and the linear heating element (cable armor 8), which provides the associated heating of the produced fluid. The switch 4 is made in the form of a winding of a high-frequency wire on a ferromagnetic core, placed inside a steel shell, which is the heating element of the local heater.

When the heating system is lowered into the well, the current frequency is set at the lower threshold at which the depth of penetration of the high-frequency field into the metal of the linear heating element will be less than its thickness. In this case, heat dissipation will mainly occur in the contactor 4. The operating temperature of the contactor (above the melting temperature of the deposits, but below the coking temperature) is supported by the power supply and control system for heating 1 and is controlled by a temperature sensor 5 located in the head part. After the heating system is immersed in the well, when the AFS plugs are broken and melted with the help of the contactor, there is no need for strong local heat generation in the head part and for the heating of the well along the way, it is necessary to redistribute the power between the linear heating element and the contactor, which is achieved by introducing the contactor's ferromagnetic core and reducing the inductive resistance of the high-frequency wire of the contactor. Then, by adjusting the frequency of the current in the heating system, the heating of the linear heating element is controlled. There are several ways to saturate a ferromagnetic core. For example, you can increase the current in the winding of the contactor. To do this, the voltage amplitude is increased, and during the immersion of the heating system in the well, the voltage amplitude and current are set such that the core is in a state of pre-saturation, this makes the device more controlled. It is also possible to select a core that will saturate with increasing current frequency.

The proposed heating system has wider functionality from the point of view of applicability in the elimination of paraffin, since it is suitable for controlling deposits with different melting points. Improving the reliability of the proposed heating system is determined by the possibility of using mechanically stronger magnetic materials than ferrites.

Claims (2)

  1. A method of eliminating and preventing the formation of deposits and plugs in oil and gas wells, in which heating to the depth of formation of deposits is carried out using a heating system containing a linear heating element in the form of a metal conductor immersed in the well, and a supply wire immersed in the well, through which electric current with ensuring its closure in the head of the heating system to a linear heating element, an electric current is passed through the supply core high frequency and affect the metal of the linear heating element by the high-frequency field of the supply core, while the frequency of the electric current is set at the lower threshold so that the penetration depth of the high-frequency field into the metal of the linear heating element is less than its thickness, and provide predominant heat generation along the length of the linear heating element by increasing the frequency of the electric current, shorting the electric current in the head of the heating system between linear m the heating element and the supply core provide the use of a closing element, characterized in that the closing element is performed on a ferromagnetic core, the temperature of the closing element and its environment is monitored using a temperature sensor located in the head of the heating system, and is controlled by the control system in the required range at the descent of the heating system into the well, then, after the heating system is completely immersed in the well, the heating control system leads to saturation of the ferromagnetic core, and heat dissipation occurs mainly along the length of the linear heating element, since the closure member has a falling resistance versus saturation its ferromagnetic core. 2. Device for eliminating and preventing the formation of deposits and plugs in oil and gas wells, containing a heating system consisting of a supply core and a linear heating element in the form of a metal conductor with a cross section selected sufficient to support the weight of the heating system immersed in the well, as well as an electric current closure between them in the head of the heating system, the supply core is made of twisted and insulated conductors, nen in the form of a winding from a high-frequency wire wound around the core and placed inside the metal shell, the end faces of the core are closed to this shell, characterized in that a temperature sensor is located in the head of the heating system, by means of which the temperature of the contactor is monitored when the heating system is lowered into the well , ferromagnetic material is used as the core, which is saturated with the heating control system when the heating system is completely immersed in the well Zhin.

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