Provided is a filter plug, a well system, and a method for fracturing a well system. The filter plug, in one aspect, includes a filtration skeleton. The filter plug according to this aspect further includes a degradable material in contact with the filtration skeleton, the filtration skeleton and degradable material configured to lodge within a port in a wellbore, and thus substantially plug the port when the degradable material remains intact with the filtration skeleton and allow the filtration skeleton to filter particulate matter as fluid passes there through when the degradable material no longer remains intact with the filtration skeleton.

Provided is a filter plug, a well system, and a method for fracturing a well system. The filter plug, in one aspect, includes a filtration skeleton. The filter plug according to this aspect further includes a degradable material in contact with the filtration skeleton, the filtration skeleton and degradable material configured to lodge within a port in a wellbore, and thus substantially plug the port when the degradable material remains intact with the filtration skeleton and allow the filtration skeleton to filter particulate matter as fluid passes there through when the degradable material no longer remains intact with the filtration skeleton.

Apparatuses and method to reduce a pore-water pressure of water within a subsurface formation below a first pressure, include creating a pressure discontinuity in a well for a first period of time. The pressure discontinuity is created using ambient ground water pressure. A ground water flow regulating device (GFRD) is used to create the pressure discontinuity such that the GFRD restricts ground water flow through the well, which causes a pressure below the GFRD to increase. A flow of ground water is released through the well casing after the first period of time under natural ground water pressure. The GFRD releases the flow of the ground water and the pore-water pressure decreases to a second pressure after the ground water is released and the second pressure is less than the first pressure, wherein a first purge cycle is accomplished.

Apparatuses and method to reduce a pore-water pressure of water within a subsurface formation below a first pressure, include creating a pressure discontinuity in a well for a first period of time. The pressure discontinuity is created using ambient ground water pressure. A ground water flow regulating device (GFRD) is used to create the pressure discontinuity such that the GFRD restricts ground water flow through the well, which causes a pressure below the GFRD to increase. A flow of ground water is released through the well casing after the first period of time under natural ground water pressure. The GFRD releases the flow of the ground water and the pore-water pressure decreases to a second pressure after the ground water is released and the second pressure is less than the first pressure, wherein a first purge cycle is accomplished.

Systems and methods for sealing a problem zone of a subterranean well include a wire mesh member with a tubular shape and a plurality of openings. The wire mesh member has an initial orientation with an initial outer diameter that is greater than an inner diameter of the wellbore, a reduced orientation with a reduced outer diameter that is less than the inner diameter of the wellbore and an induced bending stress, and an installed orientation with an installed outer diameter that is generally equal to the inner diameter of the wellbore and a residual bending stress. The wire mesh member is positioned within the problem zone and moved to the installed orientation so that an outer surface of the wire mesh member engages an inner surface of the wellbore. The plurality of openings are plugged to prevent a flow of fluid radially through the wire mesh member.

An internal completion string is anchored within a closed casing valve of a production liner in a wellbore. The internal completion string comprises a packer and a shifting tool. The production liner comprises a casing valve having a port and a moveable member. The annulus defined between the production liner and the internal completion string is sealed, and the shifting tool is remotely operated to move the moveable member away from the port, thereby opening the casing valve.

An internal completion string is anchored within a closed casing valve of a production liner in a wellbore. The internal completion string comprises a packer and a shifting tool. The production liner comprises a casing valve having a port and a moveable member. The annulus defined between the production liner and the internal completion string is sealed, and the shifting tool is remotely operated to move the moveable member away from the port, thereby opening the casing valve.

Hydrocarbon wells including crosslinked polymer granules in sand control structures and/or methods of completing the hydrocarbon wells. The hydrocarbon wells include a wellbore that extends within a subsurface region and a downhole tubular that extends within the wellbore, defines a tubular conduit, and includes a fluid-permeable segment. The hydrocarbon wells also include a sand control structure that is positioned within an annular space that extends between the wellbore and the fluid-permeable segment of the downhole tubular. The sand control structure is configured to restrict migration of formation sands from the subsurface region and into the tubular conduit via the fluid-permeable segment and includes a plurality of crosslinked polymer granules. The methods include positioning a downhole tubular within a wellbore and providing a plurality of crosslinked polymer granules to an annular space that extends between the wellbore and a fluid-permeable segment of the downhole tubular.

Embodiments relate to a hydraulic fracturing system that includes a blender unit. The system includes an auger and hopper assembly to receive proppant from a proppant source and feed the proppant to the blender unit for mixing with a fluid. A first power source is used to power the blender unit in order to mix the proppant with the fluid and prepare a fracturing slurry. A second power source independently powers the auger and hopper assembly in order to align the hopper of the auger and hopper assembly with a proppant feed from the proppant source. Thus, the auger and hopper assembly can be stowed or deployed without use of the first power source, which is the main power supply to the blender unit.

A flow conveyed plugging device for use in a well, the device can include a body, and one or more lines extending outwardly from the body, each of the lines having a lateral dimension that is substantially smaller than a size of the body. A method of plugging an opening in a well can include deploying at least one flow conveyed plugging device into the well, the flow conveyed plugging device including a body and, extending outwardly from the body, at least one of the group consisting of: a) one or more fibers and b) one or more lines, the flow conveyed plugging device being conveyed by flow in the well into sealing engagement with the opening. Another flow conveyed plugging device can include a body, and fibers extending outwardly from the body. The flow conveyed plugging device degrades and thereby permits flow through an opening in the well.