ELECTRICAL POWER DISTRIBUTION METHOD FOR A WIRELINE TOOL STRING DOWNHOLE
The present invention relates to an electrical power distribution method for distributing power between two or more operating units of a wireline tool string downhole performing at least one operation. The electrical power distribution method comprises the steps of recording information (10) indicative of at least one operating condition (15) using one or more sensors comprised in the tool string, comparing the recorded information (20) to a set of predefined intervals (25) of the at least one operating condition (15), defining a power distribution (30) between the two or more operating units based on the comparison of the recorded information (20) and a predefined interval (25) of the at least one operating condition, classifying the set of predetermined intervals (27) in order to ensure a safe operation, such as classifying whether different operating units are classified as no risk, moderate risk or high risk, and controlling the electrical power distribution (40) of the operating units based on the definition of the power distribution and the classification of the set of predetermined intervals. Furthermore, the present invention relates to a wireline system for carrying out the method according to the invention.
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The present invention relates to an electrical power distribution method between two or more operating units of a wireline tool string downhole performing at least one operation. Furthermore, the present invention relates to a wireline system for carrying out the method according to the invention.
BACKGROUND ARTDownhole wireline tool strings are becoming increasingly complex, as they typically consist of several specialised operational tools to perform more complex operations downhole, e.g. operations involving different types of operations such as drilling, closing valves, setting patches, or logging formation or casing characteristics etc.
As the complexity and number of tools increase, the amount of electrical power required in the wireline tool string also increases. In order to provide significant power downhole, typically the voltage applied to the wireline is increased to overcome the huge voltage drop over the long length of a wireline. However, increasing the voltage may lead to dangerous situations such as electrical breakdown, electrical discharge, and is therefore limited. Also, the possible power transmitted through the wireline is limited due to ordinary heat dissipation in a long wire. Therefore, power transmitted through a wireline to provide power to downhole operating tools is inherently limited.
One currently used way of accommodating the increased need for electrical power is to increase the number of conductive wires in the wireline and thus increase the total thickness of the conducting part of the wireline delivering the electrical power. Also, many attempts have been made to make the tools use less electrical power while maintaining their ability to perform the same tasks.
Using a thicker wireline or a wireline containing more conductors increases the weight and cost of the wireline. Furthermore, it increases the power required to transport the wireline, e.g. by use of a tractor, in horizontal parts of a well. This again increases the electrical power required for the tool string, thereby using some or more of the additional power facilitated by the thicker wireline. Minimising energy consumption by the electrical components downhole may be a long and expensive process, since the components used downhole already represent state-of-the-art in respect of minimisation of power consumption due to the inherent shortage of power for power tools and components downhole.
SUMMARY OF THE INVENTIONIt is an object of the present invention to wholly or partly overcome the above disadvantages and drawbacks of the prior art. More specifically, it is an object to provide an improved system able to perform several operations downhole by a normal cable and an improved method for controlling system downhole.
The above objects, together with numerous other objects, advantages, and features, which will become evident from the below description, are accomplished by a solution in accordance with the present invention by an electrical power distribution method for distributing power between two or more operating units of a wireline tool string downhole performing at least one operation, the method comprising the steps of:
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- recording information indicative of at least one operating condition, using one or more sensors comprised in the tool string,
- comparing the recorded information to a set of predefined intervals of the at least one operating condition,
- defining a power distribution between the two or more operating units based on the comparison of the recorded information and a predefined interval of the at least one operating condition,
- controlling the electrical power distribution of the operating units.
By having a method for distributing the electrical power between two or more operating units in the wireline tool based on an operation, it is possible to utilise the limited available electrical power to and in the wireline tool string. By comparing the operating condition to a predefined interval, the recorded operating condition may be detected to determine if the operating condition lies in a dangerous interval for an operating unit and thus affects the electrical power to the operating unit.
The electrical power distribution method as described above may further comprise a step of classifying the set of predefined intervals.
By classifying the predefined intervals of the at least one operating condition according to classification parameters with the same level of importance independent of the predefined intervals, the classification parameter may be linked to the operating condition, and the distribution of the electrical power according to the most important classification parameter of the operating condition is thus distributed in a smarter way than by just comparing the operating condition to a single interval.
Moreover, the step of comparing the recorded information may comprise comparing the recorded information to at least one additional predefined interval.
Also, the electrical power distribution method as described above may further comprise the step of prioritising the operating conditions of two or more operating units and basing the step of defining the appropriate electrical power distribution on the prioritisation of the operating conditions.
Furthermore, by comparing the classification parameters, a better decision on what operating condition to consider and how to distribute the electrical power to the operating unit comprising the operating condition may be made.
By using the information concerning which operating unit is performing an operation, the information may be useful in deciding how to distribute the electrical power if two or more classification parameters from two or more operating units are equal.
Additionally, the operating unit may comprise a plurality of operating conditions.
Further, using the information of a predefined order of the operating units in the system may be useful in terms of how to distribute the electrical power if two or more classification parameters are equal and two or more operating units are performing an operation.
Also, using the information of a predefined order of the rank of the operating units in the system and having the operating conditions in an operating unit to also be ordered according to a predefined rank may be useful in terms of how to distribute the electrical power when using a plurality of operating units and a plurality of operation conditions comprised in the operating unit, if two or more classification parameters are equal and two or more operating units are performing an operation.
By having an operating unit comprising at least one operating condition and by recording, evaluating, deciding and controlling according to the method, a master-slave relationship between the two or more operating may be configured.
The steps of comparing the recorded information, defining the appropriate electrical power distribution and controlling the electrical power distribution of the wireline tool string may be performed uphole at a surface.
The evaluation, decision and control may be performed at the surface by a computer or by human interaction.
Moreover, the steps of comparing the recorded information, defining the appropriate electrical power distribution, controlling the electrical power distribution, evaluating, deciding and/or controlling the wireline tool string may be performed downhole in the wireline tool string.
The evaluation, decision and control may be performed downhole by a computer or logic.
In the electrical power distribution method described above, the operating condition may be a temperature, a pressure, a power, a vibration, a sound, a voltage, a current, a light, an angle, a velocity or a frequency or another operating condition during downhole operations.
Also, the sensor may be a temperature sensor, a pressure sensor, a wattmeter, an accelerometer, a microphone, a voltmeter, an ammeter, a light sensor, an angle measuring tool, a transducer, a laser or other sensors for measuring operating conditions downhole.
Further, the operating unit may be a downhole tractor, a milling tool, a cleaning tool, a stroker tool, a key tool, a capacitance tool, a laser tool, a laser, a computer, a sensor, processing unit, an electrical circuit or other operating units for downhole use.
The present invention also relates to a wireline system for carrying out the method as described above, wherein the wireline system comprises a power distribution unit, two or more operational tools and two or more sensors for measuring operating conditions.
The invention and its many advantages will be described in more detail below with reference to the accompanying schematic drawings, which for the purpose of illustration show some non-limiting embodiments and in which
All the figures are highly schematic and not necessarily to scale, and they show only those parts which are necessary in order to elucidate the invention, other parts being omitted or merely suggested.
DETAILED DESCRIPTION OF THE INVENTIONA first step 10 of the method concerns recording information of at least one operating condition 15 of at least one operating unit. The operating condition 15 is recorded by using one or more sensors comprised in the wireline tool string in order to control the electrical power distribution. The operating condition 15 may be e.g. a temperature in the borehole, a pressure in the borehole, a power usage of an electrical motor, a vibration during drilling, a sound during drilling, a magnitude of a supply voltage, a current, a light, an angle, a frequency or a velocity. The sensor may be e.g. a temperature sensor, a pressure sensor, a wattmeter, an accelerometer, a microphone, a gyroscope, a voltmeter, an ammeter, a light sensor, an angle measuring tool, a transducer, a laser or another appropriate sensor. The operating unit may be a driving unit, such as a downhole tractor, a milling tool, a drilling tool, a cleaning tool, a stroker tool, a key tool, a capacitance tool, a laser tool, a laser, a computer, a sensor, processing unit, an electrical circuit or another operating tool for downhole use.
Thus, the step of recording information may be to measure a temperature in a milling tool. The step of recording information 10 of the operating condition 15 may be performed by the sensor itself or by sending the information to a computing unit. By separating the sensor and the computing unit, the sensor can for example be made more resistant to vibrations as compared to sensors comprising means for recording the information.
A second step 20 of the method, as shown in
When the recorded information has been compared in step 20 to the set of predefined intervals 25, a next step 30 is to define an appropriate electrical power distribution between the two or more operating units. The comparison step 20 of comparing the recorded information and the predefined intervals 25 is used as basis for deciding on an appropriate distribution of the electrical power between operating tools in step 30. For example, if information is recorded which is indicative of a temperature in a drill head, and if the recorded information is found to be within a predefined interval 25 which is e.g. considered to be dangerous for the drilling operation, the electrical power distribution may be re-distributed by changing the distribution of electrical power between the drill bit and a cooling unit, i.e. by decreasing the amount of electrical power for the drill bit and increasing the amount of electrical power for the cooling unit in order to increase the cooling of the drill bit. Due to the limited power available, the cooling unit may only be used when necessary, since the main purpose of the drilling operation is to drill and not to cool the drill bit if not needed.
The last step 40 of the method shown in
An example of a wireline tool string 80 in a casing 78 is shown in
A predefined interval may represent a temperature interval, e.g. T>150° C. When the milling tool drills a hole in the valve, the downhole tractor 66 provides a force by which the drill bit 60 presses against the valve to drill and penetrate the valve. If the temperature in the drill bit 60 reaches 160° C. during the operation because the pressure generated by the downhole tractor 66 is too high when the drill bit 60 is pressed against the valve, the information in the step of comparing the recorded information is found to be within the predefined interval of T>150° C.
The electronic section 72 comprising the processing means defines, based on the comparison and a programmed knowledge, e.g. the predefined interval T>150° C. considered dangerous for the drill bit 60, how to appropriately distribute the electrical power, e.g. by lowering the electrical power to the downhole tractor 66, thus reducing the force by which the drill bit 60 is pressed against the valve. The definition of the appropriate power distribution may also be based on another appropriate power distribution to avoid overheating, e.g. to increase electrical power to a cooling unit, allowing the cooling unit to increase the cooling effect on the drill. Finally, the computing means controls the distribution of electrical power between the operating units, such as the downhole tractor 66 and the cooling unit 63, by distributing less electrical power to the downhole tractor 66 and thus more to the cooling unit 63 and utilise the new available amount of electrical power to perform the operation.
By using the method comprising the steps described above for distributing electrical power between two or more operating units in a wireline tool string 80 performing at least one operation, it may be detected if one or more operations is/are performed on inappropriate or even dangerous operating conditions for the two or more operating units and therefore distribute(s) the power appropriately to avoid problems. The steps of comparing the recorded information, defining an appropriate electrical power distribution and controlling the electrical power distribution of the wireline tool string 80 may be performed uphole by a computer, aided by human interaction, an electronic circuit or similar electrical devices capable of performing the steps mentioned above in part or as a whole. To minimise data transfer over the wireline, the steps may, however, preferably be performed downhole in the wireline tool string 80 by the electronic section 72 comprising the computing means 61 capable of performing the steps mentioned above.
As shown in
Using classification parameters A, B, C, the method of distributing the electrical power to two or more operating units facilitates distribution of the electrical power in a more intelligent way than when only comparing the information of the operating condition to the predefined intervals 25.
The schematic diagram in
By having several operating units each performing the steps of recording information 10, the step of comparing the recorded information 20 and the step of defining an appropriate electrical power distribution 30 for operating conditions 15 of the specific operating units, a master-slave configuration between the two or more operating units may be configured such that a master unit comprises the comparison of classification parameters based on inputs of classification parameters and corresponding appropriate power distributions from each of the operating units, and furthermore, the master unit controls the power distribution.
Basing the power distribution on a comparison of classification parameters may, in some instances, be difficult if e.g. all operating conditions 15 suddenly lie within a high risk interval. However, as shown in
Prioritising the plurality of operating conditions 15 and/or prioritising the plurality of the operating units allows appropriate power distributions during complex operations involving many operational tools and many operating conditions 15.
By a casing is meant any kind of pipe, tubing, tubular, liner, string etc. used downhole in relation to oil or natural gas production.
The downhole tractor may have projectable arms having wheels, wherein the wheels contact the inner surface of the casing for propelling the tractor and the tool forward in the casing. A downhole tractor is any kind of driving tool capable of pushing or pulling tools in a well downhole, such as a Well Tractor®.
Although the invention has been described in the above in connection with preferred embodiments of the invention, it will be evident for a person skilled in the art that several modifications are conceivable without departing from the invention as defined by the following claims.
Claims
1. An electrical power distribution method for distributing power between two or more operating units of a wireline tool string downhole performing at least one operation, the method comprising the steps of:
- recording information indicative of at least one operating condition, using one or more sensors comprised in the tool string,
- comparing the recorded information to a set of predefined intervals of the at least one operating condition,
- defining a power distribution between the two or more operating units based on the comparison of the recorded information and the predefined interval of the at least one operating condition,
- classifying the set of predefined intervals, in order to ensure a safe operation, such as classifying whether different predefined intervals are classified as no risk, moderate risk or high risk, and
- controlling the electrical power distribution of the operating units based on the definition of the power distribution and the classification of the set of predefined intervals.
2. An electrical power distribution method according to claim 1, wherein the step of comparing the recorded information comprises comparing the recorded information to at least one additional predefined interval.
3. An electrical power distribution method according to claim 1, further comprising the step of:
- prioritising the operating conditions of the two or more operating units and basing the step of defining the appropriate electrical power distribution on the prioritisation of the operating conditions.
4. An electrical power distribution method according to claim 1, wherein the steps of comparing of the recorded information, defining the appropriate electrical power distribution, and controlling the electrical power distribution of the wireline tool string are performed uphole at a surface.
5. An electrical power distribution method according to claim 1, wherein the steps of comparing the recorded information, defining the appropriate electrical power distribution, and controlling the electrical power distribution are performed downhole in the wireline tool string.
6. An electrical power distribution method according to claim 1, wherein the operating condition is a temperature, a pressure, a power, a vibration, a sound, a voltage, a current, a light, an angle, a velocity and/or a frequency.
7. An electrical power distribution method according to claim 1, wherein the sensor is a temperature sensor, a pressure sensor, a wattmeter, an accelerometer, a microphone, a voltmeter, an ammeter, a light sensor, an angle measuring tool, a transducer, a laser and/or other sensors for measuring operating conditions downhole.
8. An electrical power distribution method according to claim 1, wherein the operating unit is a downhole tractor, a milling tool, a cleaning tool, a stroker tool, a key tool, a capacitance tool, a laser tool, a laser, a computer, a sensor, processing unit, an electrical circuit and/or other operating units for downhole use.
9. A wireline system for carrying out the method according to claim 1, wherein the wireline system comprises a power distribution unit, two or more operational units and two or more sensors for measuring operating conditions.
10. A wireline system according to claim 9, wherein the operating unit is a downhole tractor, a milling tool, a cleaning tool, a stroker tool, a key tool, a capacitance tool, a laser tool, a laser, a computer, a sensor, processing unit and/or an electrical circuit.
11. A wireline system according to claim 9, wherein the sensor is a temperature sensor, a pressure sensor, a wattmeter, an accelerometer, a microphone, a voltmeter, an ammeter, a light sensor, an angle measuring tool, a transducer and/or a laser.
Type: Application
Filed: Dec 28, 2012
Publication Date: Apr 30, 2015
Applicant: WELLTEC A/S (Allerød)
Inventors: Jørgen Hallundbæk (Graested), Jens Barfoed (Copenhagen SV)
Application Number: 14/365,792
International Classification: E21B 41/00 (20060101); E21B 47/06 (20060101);