Flow rate dependent flow control device and methods for using same in a wellbore
First Claim
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1. An apparatus for completing a well, comprising:
- a tool having an upper bore and a lower bore, the tool being configured to have a first flow path in a first position and a second flow path in a second position, each flow path allowing fluid flow, and wherein;
(i) the first flow path includes at least a port coupling the upper bore to a lower annulus surrounding the tool, the lower bore in communication with the lower annulus, a mechanically static and bi-directional flow passage and at least one channel connecting the lower bore with an upper annulus surrounding the tool, wherein a valve element blocks flow from the at least one channel to the lower bore via the valve element;
(ii) the second flow path includes at least a first branch wherein the port couples the upper annulus to the upper bore; and
a second branch wherein the mechanically static and bi-directional flow passage and the at least one channel couple the upper annulus to the lower bore, wherein the valve element permits flow from the lower bore into the at least one channel via the valve element; and
a valve selectively occluding the upper bore from the lower bore, and wherein the mechanically static and bi-directional flow passage and the valve element split fluid flowing from the lower bore such that the fluid has two separate flow paths to the upper annulus and around the valve.
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Abstract
An apparatus for performing a wellbore operation, such as a gravel packing, includes a tool body, a flow passage formed in the tool body, the flow passage connecting a first space with a second space; and a flow control device positioned along the flow space. The flow control device may include a valve element configured to allow uni-directional; and a flow control element configured to allow flow in bi-directional flow. The valve element and the flow control element may be arranged to form a split flow path between the first space and the second space.
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Citations
8 Claims
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1. An apparatus for completing a well, comprising:
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a tool having an upper bore and a lower bore, the tool being configured to have a first flow path in a first position and a second flow path in a second position, each flow path allowing fluid flow, and wherein; (i) the first flow path includes at least a port coupling the upper bore to a lower annulus surrounding the tool, the lower bore in communication with the lower annulus, a mechanically static and bi-directional flow passage and at least one channel connecting the lower bore with an upper annulus surrounding the tool, wherein a valve element blocks flow from the at least one channel to the lower bore via the valve element; (ii) the second flow path includes at least a first branch wherein the port couples the upper annulus to the upper bore; and
a second branch wherein the mechanically static and bi-directional flow passage and the at least one channel couple the upper annulus to the lower bore, wherein the valve element permits flow from the lower bore into the at least one channel via the valve element; anda valve selectively occluding the upper bore from the lower bore, and wherein the mechanically static and bi-directional flow passage and the valve element split fluid flowing from the lower bore such that the fluid has two separate flow paths to the upper annulus and around the valve. - View Dependent Claims (2, 3, 4)
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5. A method for completing a well using a tool disposed in the well, the method comprising:
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positioning a tool in the well, the tool having an upper bore and a lower bore, the tool being configured to have a first flow path in a first position and a second flow path in a second position, each flow path allowing fluid flow, and wherein; (i) the first flow path includes at least a port coupling the upper bore to a lower annulus surrounding the tool, the lower bore in communication with the lower annulus, and a mechanically static and bi-directional flow passage and at least one channel connecting the lower bore with an upper annulus surrounding the tool, wherein a valve element blocks flow from the at least one channel to the lower bore via the valve element; (ii) the second flow path includes at least a first branch wherein the port couples the upper annulus to the upper bore; and
a second branch wherein the mechanically static and bi-directional flow passage and the least one channel couple the upper annulus to the lower bore, wherein the valve element permits flow from the lower bore into the at least one channel via the valve element; and(iii) a valve selectively occluding the upper bore from the lower bore, and wherein the mechanically static and bi-directional flow passage and the valve element split fluid flowing from the lower bore such that the fluid has two separate flow paths to the upper annulus and around the valve; flowing a gravel slurry through the first flow path; and flowing a cleaning fluid through the second flow path, wherein the cleaning fluid flow in the mechanically static and bi-directional flow passage generates a back pressure to divert fluid to the port. - View Dependent Claims (6, 7, 8)
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Specification