Electrically activated downhole valve for drilling applications
Abstract
There is a downhole valve for use in a standpipe. A valve body defines a flow path through the valve body. A valve poppet within the valve body is axially movable in a direction parallel with the standpipe when in use. An electrically activated linear activation system is connected to the valve poppet to move the valve poppet axially. The flow through the flow path varies as the valve poppet is moved axially. There is a method of activating a downhole valve for use in a standpipe. A condition downhole is detected using a sensor. The downhole valve is electrically activated based on the detected condition downhole. The valve and method may be used to turn on and off a vibration tool when a drill string is in the horizontal section of a well.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . An electrically activatable downhole tool for use during a drilling operation, the downhole tool comprising:
a friction-reducing vibration tool for producing axial vibrations in a drill string, the friction-reducing vibration tool comprising:
a rotary driving device;
a rotary valve, the rotary valve comprising:
a rotary component connected to the rotary driving device, the rotary component having one or more openings; and
a stationary component with one or more openings, wherein rotation of the rotary valve varies alignment of the one or more openings of the rotary component relative to the one or more openings of the stationary component; and
a bypass passage defining a flow path around or through the rotary valve; and
an electrically activated assembly operating a bypass valve to vary an amount of flow through the bypass passage, wherein variation of the flow through the bypass passage varies a magnitude of axial vibrations generated by the friction-reducing vibration tool.
2 . The electrically activatable downhole tool of claim 1 , further comprising:
a sensor for detecting a stimulus; and a processor in communication with the sensor configured to operate the bypass valve in response to signals from the sensor indicative of the stimulus being detected.
3 . The electrically activatable downhole tool of claim 2 , wherein the sensor is one or more of: an accelerometer, a magnetometer, a pressure sensor, a flow sensor, or a thermocouple.
4 . The electrically activatable downhole tool of claim 2 , further comprising a battery connected to the sensor and the processor.
5 . The electrically activatable downhole tool of claim 2 , wherein the stimulus is a condition downhole.
6 . The electrically activable downhole tool of claim 5 , wherein the condition downhole is an indication that the drill string is in a horizontal section of a well.
7 . The electrically activatable downhole tool of claim 2 , wherein the stimulus is an activation command.
8 . The electrically activatable downhole tool of claim 7 , wherein the activation command is received while the electrically activatable downhole tool is downhole.
9 . The electrically activatable downhole tool of claim 8 , wherein bypass valve causes the friction-reducing vibration tool to shift between a non-activated state and an activated state.
10 . The electrically activatable downhole tool of claim 9 , wherein the processor is configured to operate the bypass valve to cause the friction-reducing vibration tool to shift into the non-activated state while the electrically activatable downhole tool is downhole.
11 . The electrically activatable downhole tool of claim 9 , wherein the processor is configured to operate the bypass valve to cause the friction-reducing vibration tool to shift into the activated state while the electrically activatable downhole tool is in a horizontal section of a well.
12 . The electrically activatable downhole tool of claim 1 , wherein the rotary driving device is a rotor operating based on principles of a Moineau pump.
13 . The electrically activatable downhole tool of claim 12 , wherein the bypass passage further comprises a bore through the rotor.
14 . The electrically activatable downhole tool of claim 12 , wherein each of flow through the bypass passage and flow which is diverted away from the bypass passage are contained within the drill string.
15 . The electrically activatable downhole tool of claim 1 , wherein the rotary driving device is a turbine.
16 . The electrically activatable downhole tool of claim 1 , wherein the rotary valve has a portion that is always open through a full rotation of the rotary component relative to the stationary component.
17 . The electrically activatable downhole tool of claim 1 , wherein the electrically activated assembly further comprises an electric motor coupled to a ball screw to create linear motion.
18 . The electrically activatable downhole tool of claim 1 , wherein the bypass valve is a poppet valve.
19 . The electrically activatable downhole tool of claim 1 , wherein the electrically activated assembly is a linear activation system.
20 . The electrically activatable downhole tool of claim 19 , wherein the linear activation system further comprises:
an electric motor; and a ball screw.
21 . The electrically activatable downhole tool of claim 1 , wherein the friction-reducing vibration tool is in an activated state when the bypass passage is plugged and wherein the friction-reducing vibration tool is in a non-activated state when the bypass passage is unplugged.
22 . The electrically activatable downhole tool of claim 1 , wherein the bypass valve comprises a first plate rotatable relative to a second plate to vary the flow through the bypass passage.
23 . A method of activating or deactivating a friction-reducing vibration tool for producing axial vibrations in a drill string during a drilling operation, the method comprising:
detecting a stimulus using a sensor; and electrically activating or deactivating the friction-reducing vibration tool based on the detected stimulus, wherein the friction-reducing vibration tool is electrically activated or deactivated by a bypass valve in the drill string, and wherein the friction-reducing vibration tool comprises: a rotary driving device; and a rotary valve, the rotary valve comprising:
a rotary component connected to the rotary driving device, the rotary component having one or more openings, and
a stationary component with one or more openings, wherein rotation of the rotary component varies alignment of the one or more openings of the rotary component relative to the one or more openings of the stationary component, and
a bypass passage defining a flow path around or through the rotary valve, and wherein the friction-reducing vibration tool is electrically activated or deactivated by varying the flow through the bypass passage.
24 . The method of claim 23 , wherein the detected stimulus is a condition downhole, and the condition downhole is indicative that the drill string is in a horizontal section of a well.
25 . The method of claim 24 , wherein the friction-reducing vibration tool is activated when the condition downhole indicates that the drill string is in the horizontal section of the well.
26 . The method of claim 23 , wherein the sensor is one or more of: an accelerometer, a magnetometer, a pressure sensor, or a thermocouple.
27 . The method of claim 23 , wherein the detected stimulus is an activation command.
28 . The method of claim 23 , further comprising deactivating the friction-reducing vibration tool into a non-activated state in response to the detected stimulus while the electrically activatable downhole tool is downhole.
29 . The method of claim 23 , wherein the detected stimulus is a condition downhole, and the condition downhole is indicative that the drill string is in a vertical section of a well.
30 . The method of claim 29 , wherein the friction-reducing vibration tool is deactivated when the condition downhole indicates that the drill string is in the vertical section of the well.
31 . The method of claim 23 , wherein a bypass valve comprising a first plate rotatable relative to a second plate is used to vary the flow through the bypass passage.
32 . The method of claim 23 , wherein a poppet valve is used to vary the flow through the bypass passage.Cited by (0)
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