This application claims priority to and the benefit of Great Britain Patent Application No. GB 1212694.2, filed Jul. 17, 2012, the entirety of which is hereby incorporated by reference as if fully set forth herein.
This invention relates to fixed power supply systems in wells, particularly hydrocarbon wells, whereby an electrical submersible pump assembly (ESP) may be lowered to a deployed position and then connected to the power supply via a wet connection, i.e. an electrical connection which can be made and unmade in the fluid environment of the well.
It is desirable for the central bore of the production tubing installed in a hydrocarbon well to be clear of power cabling so as to provide an unobstructed flowpath which can also be used for the introduction of tooling into the well. Therefore it is often preferred to install a fixed power supply comprising cabling which is fixed to tubing (such as the production tubing or well casing), for example, by clamping to the external surface of the tubing, and terminating at a wet connector via which the ESP may be remotely connected to the power supply.
GB2403490 discloses one system of this type, comprising fixed cabling terminating in one or (for three-phase power) an array of three wet connectors which are radially moveable into the central bore of the production tubing. The ESP has a corresponding array of wet connectors and engages an orientation profile inside the production tubing to rotate it to the correct position in which the respective connectors engage together to connect the ESP to each respective conductor of the power supply. In other systems the ESP comprises a radially outwardly moveable connector which engages a fixed connector on the tubing.
Fixed cabling is generally reliable, with most failures occurring in the ESP which can be readily recovered and redeployed. However, if the fixed cabling or wet connector does fail then it cannot be repaired without recovering to surface the tubing to which it is fixed, so systems of this type are critically dependent on the integrity of the fixed components.
It is the object of the present invention to reduce this vulnerability.
In accordance with the present invention there are provided a method and an apparatus as defined in the claims.
An illustrative embodiment will now be described, purely by way of example and without limitation to the scope of the claims, and with reference to the accompanying drawings, in which:
Corresponding reference numerals indicate corresponding parts in each of the figures.
Referring to
Referring also to
Each of the wet connectors may be of any suitable type as well known in the art. Whereas for convenience the wet connectors which are permanently installed in the production tubing are referred to hereinafter as “fixed” so as to distinguish them from the corresponding wet connector on the ESP, it should be understood that they may be moveable, for example, slideable, or extendible from a side pocket into the bore of the tubing so as to engage a static wet connector on the body of the ESP as known in the art, rather than immovably mounted with respect to the tubing wall as shown. In the illustrated embodiment each of the fixed wet connectors 31, 31′ is of a conventional female type, each socket being lined with wiper seals, optionally containing a nonconductive fluid, and housing a spring loaded plunger which normally occupies the socket.
Referring also to
The lower end of the assembly comprises an orientation module 46 having a reduced external diameter, with an orientation element 47 extending radially outwardly from it to form an abutment at one point on its circumference. The assembly also includes a tubular spacer 48 (a hollow component without any functional internal parts) and a wet connection module 49, which carries the respective wet connection assembly 60 comprising a single wet connector 61 having an array of three contacts 62 comprising conductive male probes, each probe having a corresponding conductor 63.
The wet connector 61 may be fixed immovably to the casing of the ESP (in which case the fixed connectors may be arranged to move radially inwardly into the wellbore to connect to it), but in the illustrated embodiment it is deployed in a retracted position 61′ as shown in dotted lines in
The ESP may be reconfigured by disassembling and selectively reassembling it in either the first configuration as shown in
In the first configuration (
In the second configuration (
Referring again to
Referring to
As the orientation element 47 travels down the groove 28 to the deployed position as shown in
In the deployed position, the inlet 43 of the pump is arranged opposite the perforations 29 in the production tubing, and the ESP is sealed in the bore 24 by means of a packer 52 so that the produced fluid is drawn into the pump from the productive formation 6 via the annulus 7 below the packer 8 and through the perforations 29 and inlet 43 and expelled via the outlet 44 through the production tubing to the wellhead. Of course, in alternative embodiments the ESP and production tubing may be configured to produce fluid to surface via the annulus 7 above the packer 8 or in any other convenient way as known in the art.
The ESP is thus powered in the deployed position via the lower fixed wet connector 31 but not the upper fixed wet connector 31′ which provides a redundant wet connection, so that the ESP can be powered in normal use alternatively from either of the fixed wet connectors. Of course, in alternative embodiments, more than two fixed wet connectors may be provided. In the illustrated embodiment, each of the fixed wet connectors is connected to surface via a separate cable 35, 35′ so that the two redundant connections are entirely separate, although in alternative embodiments the two or more fixed wet connectors could be connected to different conductors in the same cable.
Referring to
The ESP is then disassembled at the surface and then reassembled in the second configuration before being redeployed on the wireline to the deployed position as shown, in which the wet connector 61 is re-connected to the upper fixed wet connector 31′ so that the motor is powered normally from the power supply via the interengaged contacts 62, 33′ and not the contacts 33 of the failed lower wet connector 31.
The extension block 65 is removed so that the wet connector 61 enters into the upper window 22′ and engages the upper fixed wet connector 31′ as the orientation element 47 travels down the orientation profile to rest in exactly the same deployed position as in the first configuration. It will be noted that in the second configuration, the distance D2 between the wet connector 61 and the orientation element 47 corresponds to the distance D2′ between the location of the orientation element 47 and the upper fixed wet connector 31′ when the ESP is engaged with the orientation profile in the deployed position as shown.
Advantageously, by rearranging the position of the tubular spacer, the distance D3 from the pump intake to the orientation element also remains the same in the second configuration as in the first configuration, as does the distance D4 from the pump outlet to the orientation element, so that the pump intake is arranged in the same position in the production tubing, and the same ESP can readily be redeployed without requiring any further adaptations and without affecting the flow of produced well fluid, irrespective of the particular flow configuration employed in the well.
In summary, in a preferred embodiment a wet connection system comprises a fixed tubing with an orientation profile and redundant, first and second fixed wet connectors, and an ESP comprising a wet connector and an orientation element for engaging the orientation profile. The ESP can be reconfigured, for example, by interchanging its component modules so as to change the position of its wet connector with respect to the orientation element, whereby the wet connector on the ESP can be engaged alternatively with either one of the fixed wet connectors when the orientation element is engaged with the orientation profile in the same deployed position of the ESP.
Of course, in alternative embodiments, more than two redundant fixed wet connectors may be provided.
Instead of a tubular spacer, one or more functional modules such as a motor protector, a motor or a pump could be selectively arranged in the same position between the wet connection module and the orientation module and removed or rearranged to reconfigure the ESP as described above. Alternatively, the tubular spacer or other selected components could be interchanged with other components of different dimensions. The parts of the ESP could also be selectively reassembled by omitting some parts and inserting other parts into the assembly so as to achieve the second configuration.
In alternative embodiments, the tubing comprising the orientation profile need not necessarily be production tubing; it could be for example the well casing or any other tubing installed in the borehole. The orientation profile could be a ledge, groove or any other feature of helical or any other convenient shape as known in the art.
In the illustrated embodiment the first and second fixed wet connectors 31, 31′ are spaced apart in the direction of the longitudinal axis X1-X1 of the production tubing. In alternative embodiments they may be spaced apart alternatively or additionally in angular relation, i.e. rotationally about the axis X1-X1, in which case the ESP may be reconfigured by separating the respective modules and rotating the wet connector to the required angular position with respect to the orientation element before reassembly. Each wet connection assembly could also comprise more than one wet connector, each wet connector comprising an insulated body with one or more contacts. Of course, instead of the arrangement shown, in alternative embodiments the fixed wet connectors could equally well be male and that on the ESP female.
In alternative embodiments, rather than reassembling the cylindrical parts of the ESP, two alternative mounting positions could be provided for the wet connector so that it could be detached and re-attached in a different position on the outer casing.
In the illustrated embodiment, the wet connection assembly on the ESP comprises a single wet connector which is engaged in the deployed position, in the first configuration with the at least one first (lower) contact 33 but not the at least one second (upper) contact 33′ of the fixed assembly, and in the second configuration with the at least one second (upper) contact 33′ but not the at least one first (lower) contact 33 of the fixed assembly.
In alternative embodiments the wet connection assembly on the ESP could include a first wet connector and a second wet connector disposed in spaced relation to the first wet connector, in which case the first and second wet connectors could be connected simultaneously, respectively to the first and second contacts of the fixed assembly.
In this case the ESP may be selectively configurable by means of an internal switch for selectively connecting the motor to either the first or the second wet connector on the ESP, the switch being operable for example by the presence of a voltage at the second contact of the fixed assembly to disconnect the motor from the first wet connector and reconnect it to the second.
Alternatively for example, the switch could be mechanically operable, for example, by means of a bistable mechanism operating in a conventional way (for example, as generally known in pull-cord light switches). The mechanism could be triggered for example by slidably mounting the orientation element (or another separate abutment element) in the casing of the ESP so that each time the ESP descends to bring the respective element into contact with the orientation profile or some other abutment surface of the tubing, the respective element is moved slidingly upwards to toggle the bistable mechanism between a first position (in which the motor is connected to the first wet connector and disconnected from the second) and a second position in which the connections are reversed. Of course, a bistable electronic switching arrangement could be used instead to toggle the connection between the motor and the two respective wet connectors, and could be operated for example by a signal generated by a sensor each time the ESP passes by a magnet or the like in the tubing.
Alternatively, the ESP could comprise first and second wet connectors which are alternatively and individually connected, respectively to the first and second contacts, for example, by suitable control means for extending them selectively one at a time from a deployed position to a radially outwardly extended position. The control means could be electrically or hydraulically actuated via a suitable conductor in the wireline on which the ESP is deployed. Alternatively it could be mechanical, for example, employing a bistable mechanism of the type mentioned above, whereby the first and second wet connectors are alternatively and respectively restrained or retracted and released or extended. Each connector may be extended or retracted by stored spring force, hydraulic force, an electrically powered solenoid, motor or other element, or by abutment with a sloping internal surface of the tubing as the ESP is raised or lowered, as well known in the art. Again, a nonmechanical sensor could be used to trigger the deployment mechanism so as to restrain one wet connector in the retracted position and extend the other.
Those skilled in the art will readily conceive many further adaptations within the scope of the claims.
Number | Date | Country | Kind |
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1212694.2 | Jul 2012 | GB | national |