RU2317401C1 - Downhole heater - Google Patents

Abstract

FIELD: induction heating devices, particularly to heat downhole liquids, particularly paraffinaceous oil and highly-viscous mixtures directly in wells.

SUBSTANCE: downhole heater is made as cylindrical tubular body oriented in well direction and provided with removable lids connected to tubular body ends. Upper lid of cylindrical tubular body has sealed current lead for electrical cable connection coupling and holder arranged on outer surface thereof. Holder end is flanged flow string coupling adapted to receive fastening bolts and provided with current lead orifices. Conical bush pressed with flow string coupling is arranged from cylindrical tubular body side. One section of flow string suspension means is coaxially arranged inside cylindrical tubular body and has outer surface provided with spaced apart induction cylindrical reels brought to connection cable along the tube. Cross-sectional tube dimensions in heater area may be aligned with flow string suspension tubes for oil transportation from well beyond the heater.

EFFECT: prevention of asphalt-tar-paraffin and hydrate deposit forming in flow strings of production wells developed by natural and artificial lift methods for a long time.

4 cl, 2 dwg, 1 ex

Description

The invention relates to induction heating devices and can be used to heat well fluids, in particular, paraffin oil and high viscosity mixtures directly in wells.

Known induction fluid heater [German patent 329131, priority 1918].

Induction-immersion type fluid heaters are also known: [RU 2002383; RU 2002384; SU 1811038; SU 4602140; FR 2565059]. All of them are characterized by the presence of an induction winding, in the cavity of which a magnetic circuit is placed. All heaters of this type are enclosed in a housing, usually vertically elongated. It is a secondary short-circuit winding and is a heating element.

It is also known "Induction heating device" [patent RU 2264695], containing at least one induction cylindrical coil located around the heated body coaxially with it, connected to an AC source and equipped with an external magnetic circuit enclosing it. The external magnetic circuit is designed so that its longitudinal size exceeds the longitudinal size of the induction coil, and the edges of the external magnetic circuit protrude beyond the edges of the induction coil by at least half the size of the air gap between the internal surface of the magnetic circuit and the external surface of the heated body. An induction heating device may contain at least two cylindrical coils, while the distance between the end parts of adjacent magnetic cores is at least twice the size of the air gap between the inner surface of the magnetic circuit and the outer surface of the heated body.

Also known as "Downhole electric heater" [patent RU 2249096]. It contains a current lead with a tubular body mounted beneath it. A long heating element is placed on the surface of the tubular body - a cable with low electrical resistance. The cable is installed in a ferromagnetic tube along the tubular body with the possibility of the formation of a closed loop and supply from the source of supplying alternating voltage to it through the current lead. The lengthy heating element is arranged in the form of a multi-way sequence of parallel lengthy heating elements. The ferromagnetic tube is made divided into sections. An oil resistant cable is used as a long heating element. The ferromagnetic tube is welded to the tubular body with an intermittent seam. A layer of insulating material is applied over the lengthy heating element to enhance heating.

However, this downhole electric heater has a very small power and large transverse dimensions, which makes it impossible to use it in directional wells, the design of such a downhole electric heater allows it to be lowered only at the end of the tubing suspension, which is not always technological.

The closest analogue of the proposed solution is "Downhole electric heater" [ed. testimonial. SU 935853]. It consists of a tubular housing with an electric heating element placed in it in the form of a winding placed on an insulator. The electric heater is equipped with an additional heating element placed in the housing coaxially with it and made in the form of a cylinder with a twisted core of electrical steel installed on it with washers at the ends. A heat insulator is installed between the insulator and the core. The tubular body is made of steel.

However, this downhole electric heater cannot provide efficient heating of wells with difficult-to-recover oils or their mixtures due to their low power. This downhole heater is designed to perform local tasks for a short period of time, as it is made in the form of a device, lowered on a wireline cable, and cannot solve the problem of the inventive downhole heater.

The objective of the proposed downhole heater is the prevention of asphalt-resin-paraffin (AFS) and hydrated deposits in tubing of production wells developed by fountain or mechanized methods for a long period of time longer than the overhaul period of submersible equipment ..

The essence of the claimed invention. The downhole heater is characterized in that it has a cylindrical tubular body oriented in the direction of the length of the well with removable covers on the end sides, with a hermetically separable current lead element to the electrical connection cable in the top cover, seals in each of the covers and a holder mounted on the outer surface of the top cover, the end of the holder is a tubing coupling (tubing) on the flange through which the mounting bolts are passed and holes are made under current leads, from the lower side of the housing there is a conical sleeve pressed by a tubing coupling; inside the casing, coaxially to it, there is a section of the tubing suspension pipe, on the outer surface of which along the pipe there are spaced apart induction cylindrical coils brought out to the connecting cable, and the pipe dimensions in cross section at the heater section are adapted to interface with the tubing suspension pipes for oil transport from the well outside the heater.

The downhole heater with the foregoing features is also characterized in that the pipe, including at the heater site, is made of steel.

In addition, the downhole heater with the above characteristics is also characterized by the fact that the cylindrical tubular body is made of thermobar-resistant material.

The downhole heater with the aforementioned features is also characterized in that it has safety limiters for an additional connecting electrical cable on the outer surface of the housing.

The technical result consists in the fact that for the first time, the placement of the heater directly on the transport pipe for lifting oil from the wells for its heating is carried out. Unlike all well-known downhole oil heaters, the principle of product heating was carried out directly by the pipe section from the tubing suspension with a sufficient heating area. This technical solution - to organize precisely the section of the working pipe to eliminate the urgent problem of producing difficult oils - to heat up a sufficiently large surface area evenly from all sides of the transport pipe, is embodied in a specific version of the organization of both mechanical and electrical devices and assemblies, and is stated in this application and her formula.

The inventive borehole heater is illustrated with the help of figure 1, figure 2, which shows the borehole heater in General and in terms of its installation in the well for operation, where the positions 1-12 indicate the elements of the heater, 13-16 additionally shown elements illustrating the description downhole heater and its operation: 1 - housing; 2 - pipe section from the tubing suspension; 3 - induction cylindrical coils; 4 - detachable current lead element; 5 - connecting electric cable; 6 - holder; 7 - tubing coupling; 8 - cover; 9 - a sealant; 10 - bolted connection; 11 - sleeve; 12 - conical sleeve; 13 - fixing collars; 14 - control station; 15 - submersible pump; 16 - production casing.

The inventive downhole heater, shown in figure 1, figure 2, is designed to work directly in the well and consists of a metal casing 1, having a streamlined shape and is an external magnetic circuit. This form allows you to freely lower it as part of the tubing suspension into the well to the desired depth. Inside the housing 1, coaxially to it, there is a pipe section 2 from the tubing suspension, on which three induction cylindrical coils 3 from a rectangular copper wire with fiberglass insulation are wound, arranged in series and spaced apart at a certain distance to eliminate the mutual influence of the coils 3, connected through a detachable current lead element 4, connecting cable 5 of the type KPBP (flat armored cable submersible) into a three-phase electric network. The inner part of the inventive downhole heater - section 2 of the pipe from the tubing suspension is a load-bearing component of the entire structure, as well as a heating element. The inventive heater can be installed, if necessary, anywhere on the tubing suspension as a component of it using the holder 6 and the coupling 7 of the tubing. The heater body 1 at the ends is hermetically sealed with removable covers 8 in the form of flanges with gaskets 9 made of oil-and-petrol-resistant rubber compound, which works for a long time at high temperature conditions. The sealing of rubber products is carried out as a result of tightening in the lower and upper parts of the heater bolt joints 10 located evenly through 45 ° around the circumference of the end face of the housing. In the upper cover 8 there is a detachable element of the current lead 4, made in a sealed version and allowing for quick connection of the current leads of the heater, which end the induction cylindrical coils 3 with the current conductors of the connecting electric cable 5. To the pipe section 2 from the tubing suspension, coaxially located to the housing 1, the holder 6 is screwed from the upper end, which is a tubing sleeve 7 on the flange. On the flange side, to the holder 6 through the cover 8 and the seal 9, the case 1 is fastened to the sleeve 11 by screwing the sleeve 11 into the sleeve 11, screwed into the body. The tubing sleeve 7 is screwed on and through the conical sleeve 12 it compresses the case. A robust, airtight construction is achieved.

To connect the inventive heater to the connecting electric cable 5, a three-phase sealed detachable element of the current lead 4 is provided. Along the housing 1 of the downhole heater, safety limiters can be provided for laying one or two supply cables in them to power the submersible pump and for the second downhole heater located below, if necessary. The latter forms a heating module.

The tubing suspension includes a number of elements of the downhole equipment, which includes a submersible pump 15, lowered onto the tubing into the production casing 16 of the well, from which, to the wellhead, along the tubing suspension, a connecting electric cable 5 is attached with fixing clamps 13.

The collapsible design of the inventive downhole heater provides for the rapid replacement of rubber products, which will allow reuse of this device. The advantage of this heater is the ability to install it directly into the tubing suspension as an integral element.

The operation of the downhole heater is ensured by a power source located at the top of the surface, outside the well. When AC voltage is supplied through the connecting electric cable 5 and the detachable element of the current input 4 to the induction cylindrical coils 3 in section 2 from the tubing suspension, induced alternating magnetic fluxes induce currents that can be considered as eddy currents or as a short circuit current of the secondary winding of a transformer having one turn . This current heats section 2 of the tubing suspension, from which heat is removed from the flowing oil to be heated. If necessary, additional power, you can use a modular design of several of the claimed downhole heaters. Using the ground control station 14, electrical parameters are monitored for each phase of the downhole heater, it is turned off in case of overheating, leakage of short circuit current, the indicated parameters are recorded with a predetermined time interval, and the oil temperature at the outlet of the well is monitored. All of the above data can not only be recorded on the surface of the Earth, but also, if necessary, transmitted via the existing communication channels to the office of oil producing enterprises.

Example.

In the manufacture of the tested well heater, typical pipes were used for transporting oil from the well in the form of a tubing section 73 7-10 m long, with a wall thickness of 5.5 mm. The heater body is made of tubing 114 with a wall thickness of 6 mm. The turns of the primary winding are made of rectangular copper wire PSDKTL brand, size 2.36 × 5.6 mm. The parts to be manufactured are the holder, the conical sleeve, the sleeve screwed into the housing, the current lead, the covers are made of X40 steel. Sealing rubber products - from high temperature, oil and petrol resistant rubber compound. As the insulating material used fiberglass and fluoroplastic. The control device that provides the specified operating parameters is the controller "Electon". This downhole heater showed high results at a pressure of 12 MPa. The inventive heater has been tested since the second half of 2005 at one of the oil producing enterprises of the Tyumen region. It assumes smooth operation for the entire period until the well is repaired, i.e. about 300 working days. During well repair, a preventive inspection of the heater is provided, and if necessary, replacement of worn seals and other parts. Dismantling and installation of pipes, at least one of which is the basis of the heater, is carried out in the usual way - by unscrewing and, after prophylaxis, twisting into a sealed system - a lifting and transport pipe.

Claims (4)

1. A downhole heater, characterized in that it is made in the form of a cylindrical tubular body oriented in the direction of the length of the well, with removable covers on the end sides, with a hermetically separable current lead element to the electrical connection cable in the top cover, seals in each of the covers and a holder mounted on the outer surface of the top cover, the end of the holder is a tubing sleeve (tubing) on the flange through which the mounting bolt is passed and formed under the hole current leads, with the bottom side of the housing arranged cone sleeve is urged clutch tubing; inside the casing, coaxially to it, there is a section of the tubing suspension pipe, on the outer surface of which along the pipe there are spaced induction cylindrical coils output to the connecting cable, and the pipe dimensions in cross section at the heater section are adapted to interface with the tubing suspension pipes for oil transport from the well outside the heater. 2. The downhole heater according to claim 1, characterized in that the pipe, including in the area of the heater, is made of steel. 3. The downhole heater according to claim 1, characterized in that the cylindrical tubular body is made of heat and pressure resistant material. 4. The downhole heater according to claim 1, characterized in that it has on the outer surface of the housing safety limiters for an additional connecting electrical cable.

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