Patent application number | Description | Published |
20150292317 | Fluid Velocity Flow Meter for a Wellbore - A method and device to measure production contribution from a zone of a wellbore. The flow device include a first cylindrical portion having a first outer diameter and a second cylindrical portion having a second outer diameter smaller than the first outer diameter. The flow device includes a first pressure sensor configured to measure a first pressure at an exterior of the first portion and a second pressure sensor configured to measure a second pressure at an exterior of the second portion. The flow device is positioned adjacent a zone of a wellbore and the first and second pressures are measured. The fluid flow in the wellbore adjacent to the zone may be determined from the first and second pressures. The flow device diverts substantially all fluid flow in the wellbore around an exterior of the device. The device may include a sensor to measure the conductivity of wellbore fluid. | 10-15-2015 |
20150308255 | Coiled Tubing Downhole Tool - A method and system for determining information about a wellbore with coiled tubing. A downhole device may be positioned within coiled tubing and run down the wellbore to determine diagnostic information about a location with the wellbore. The downhole device may store diagnostic information in a storage device that may be analyzed when the device is returned to the surface. A downhole device may be connected to the end of a string of coiled tubing that includes a diagnostic device and memory sealed in a chamber. A flow path past the chamber is in communication with the coiled tubing string permitting the flow of fluid past the chamber. A downhole device including a diagnostic device may be connected to a recess in an exterior of a coiled tubing string. | 10-29-2015 |
20150361774 | Perforating System for Hydraulic Fracturing Operations - A perforating system for creating perforations that azimuthally circumscribe an inner wall of a wellbore, and that are at substantially the same depth in the wellbore. The perforating system includes perforating assemblies that are housed in a gun body and spaced axially apart. The perforating assemblies have shaped charges positioned at selective angles around an axis of the gun body and at substantially the same axial location in the gun body. Bulkheads are provided between adjacent shaped charges, so that initiating the shaped charges forms angularly spaced apart perforations in a tubular in which the perforating system is inserted. Pressurizing the wellbore with fracturing fluid extends the perforations into fractures, where the fractures are normal to an axis of the wellbore and in a plane of minimum stress. | 12-17-2015 |
20150376968 | Synchronic Dual Packer - A downhole tool having a first packing element and a second packing element configured to synchronically set to selectively hydraulically isolate a portion of the wellbore. The movement of a pin along a j-slot track on a second sleeve sets the second packer in compression and the movement of a pin along a j-slot track on a first sleeve the first packer in tension after the second packer has been set. The j-slot track on the first sleeve has six different pin positions and the j-slot track on the second sleeve has four different pin positions. The pin positions and direction of travel of the j-slot tracks are adapted to permit the synchronized setting of the two packing elements to hydraulically isolate a portion of the wellbore. The wellbore may then be treated by flowing fluid out of a ported sub positioned between the packing elements. | 12-31-2015 |
20150376975 | Synchronic Dual Packer with Energized Slip Joint - A downhole tool having a first packing element and a second packing element configured to synchronically set to selectively hydraulically isolate a portion of the wellbore. The lower packing element may be first set against the well with the upper packing element next being set against the well. A slip joint permits a change in distance between the packing elements during the setting of the packing elements. The slip joint may be energized to apply a force to the lower packing element to prevent the unsetting of the lower packing element during the setting of the upper packing element. A resilient member may be used to energize the slip joint or the slip joint could be hydraulically or pneumatically energized. Once both packing elements are set, the wellbore may then be treated by flowing fluid out of a ported sub positioned between the packing elements. | 12-31-2015 |
20160084056 | Method and System for Hydraulic Fracture Diagnosis with the use of a Coiled Tubing Dual Isolation Service Tool - A hydraulic fracture diagnostic system for reservoir evaluation of a high angle wellbore includes a coiled tubing string that extends from the surface to a location within a wellbore. The system includes a sensor and a pump connected to the coiled tubing string. A tool having at least two packing elements and a port positioned between the packing elements is connected to the coiled tubing string. The coiled tubing string positions the tool adjacent a fracture. The packing elements isolate the fracture and the port is configured to provide communication with the isolated portion of the wellbore. A diagnostic method includes pumping a volume of fluid from the isolated portion of a wellbore using a coiled tubing string and monitoring the pressure within the coiled tubing string. Pressure within the coiled tubing string may also be monitored after injection of fluid into the isolated wellbore through the coiled tubing string. | 03-24-2016 |
20160084078 | Method and System for Hydraulic Fracture Diagnosis with the use of a Coiled Tubing Dual Isolation Service Tool - A hydraulic fracture diagnostic system for reservoir evaluation of a high angle wellbore includes coiled tubing that extends from the surface to a wellbore location. The system includes a sensor and a pump connected to the coiled tubing and a pump and sensor connected to an annulus between the coiled tubing and the wellbore casing. A tool having at least two packing elements and a port positioned between the packing elements is connected to the coiled tubing and is positioned adjacent a fracture. The packing elements isolate the fracture and the port is configured to provide communication with the isolated portion of the wellbore. A diagnostic method includes pumping a volume of fluid into the isolated portion of a wellbore and monitoring the pressure within the annulus via the coiled tubing. The tool may also be used in an openhole portion of a wellbore to diagnose the formation. | 03-24-2016 |
20160123114 | Straddle Packer Equalization and Self Recovery Module - A packer that may be used to isolate a portion of a wellbore and a method of using the packer within the wellbore. The packer includes a body with a central bore, an upper sealing element, a lower sealing element, treatment ports, upper equalization ports, and a sleeve positioned within the central bore. The sleeve may be moved to selectively permit fluid communication through the treatment ports and the upper equalization ports. The packer may include lower equalization ports and the sleeve may be moved to also selectively permit fluid communication through the lower equalization ports. The sleeve may include a closed end and an inner wall that separates a secondary cavity from a main cavity. The sleeve includes a plurality of openings that either permits or inhibits fluid communication through the ports of the packer depending on the position of the sleeve within the central bore of the packer. | 05-05-2016 |