A plurality of PODs for a lower marine riser package (LMRP) is disclosed. At least a first subsea electronics module (SEM) and a second SEM are provided in a first POD of the plurality of PODs. At least a third SEM and a fourth SEM are provided in a second pod. The third SEM is redundant with the first SEM and the fourth SEM is redundant with the second SEM. At least one selector circuit is provided to transmit an SEM select signal that electrically activates or electrically deactivates the first SEM separately from the third SEM. As a result, each of the SEMs in the plurality of PODs may be separately activated or deactivated without a need to turn off fluid provided to hydraulic valves in the first and the second PODs that are controlled by corresponding SEMs.

A tubular string for a subterranean well comprises a first string that is located in the well and that can access or traverse horizons of interest, such as during drilling, completion, or workover. A second tubular string is assembled above this first tubular string and is selected so that only this second tubular string normally traverses a blow out preventer during periods when there is an elevated risk that the blow out preventer will be actuated. The second tubular string is made of a more easily shearable material than the first tubular string, such as a titanium alloy, an aluminum alloy, or a composite material. A third or further tubular strings may be assembled above the second tubular string, such as in subsea applications.

A blowout preventer and method of closing a wellbore. The blowout prevented has a main body containing a wellbore, a passage transverse to the wellbore, a shearing device located in the passage; and a charge that, when activated, propels the shearing device along the passage and across the wellbore to close the wellbore and prevent a blowout.

A blind shear ram includes an upper carrier including an upper blade and a lower carrier including a lower blade. The upper carrier and the lower carrier are positionable in a first position in which the upper carrier and the lower carrier are spaced apart and a second position in which the upper carrier and the lower carrier seal a wellbore. The upper blade and the lower blade are configured to cut at least one pipe and at least one cable when the upper carrier and the lower carrier move between the first position and the second position. At least one of the upper blade and the lower blade includes a textured surface configured to induce friction between the at least one cable and the blade.

A Compact Bonnet Booster (CBB) housing is monolithically formed to include an operating piston chamber, a booster piston chamber and two BOP bonnet end caps. When the CBB is assembled, the two BOP bonnet end caps contain bonnet hydraulic assemblies utilized to open and close the CBB housing with respect to a central BOP housing interior to change out the shear members. The CBB housing also defines therein hydraulic lines to open and close the wellbore utilizing the shear members as well as to operate the bonnet hydraulic assemblies. The CBB housing also incorporates a lifting pad eye near a center of gravity of said BOP. The CBB assembly also comprises a monolithically formed operating piston and corresponding shaft as well as a monolithically formed booster piston and corresponding shaft.

A system includes one or more processors configured to provide one or more control signals to cause supply of electric power from a power supply to one or more electric actuators. The one or more electric actuators are configured to adjust one or more components of a cable pressure control equipment (PCE) stack.

A system includes a blowout preventer (BOP) including a shear ram assembly. The shear ram assembly includes a first shear ram block having a first forward end, a first blade having a first forward face and extending from the first shear ram block, a face bolt passage extending into the forward end of the shear ram block, a face bolt positioned within the face bolt passage configured to couple the first blade to the first shear ram block, and a first seal containment encapsulated by the first shear ram block.

Fracturing systems having rams for controlling flow through fracturing trees are provided. In one embodiment, a fracturing system includes a frac stack mounted on a wellhead. The frac stack can include a flow control device having a housing and a single ram for opening and closing a bore of the housing. The single ram can form a seal with the housing around the bore without seats. Additional systems, devices, and methods for fracturing are also disclosed.

A subsea processor may be located near the seabed of a drilling site and used to coordinate operations of underwater drilling components. The subsea processor may be enclosed in a single interchangeable unit that fits a receptor on an underwater drilling component, such as a blow-out preventer (BOP). The subsea processor may issue commands to control the BOP and receive measurements from sensors located throughout the BOP. The subsea processor may relay information to the surface for recording or monitoring. The subsea processor may also be programmed with a model from which to base operation of the BOP, such as in emergency conditions.

A system including a shearing gate valve system including a shearing gate valve including a flow control element configured to move axially and block a flow of fluid through the shearing gate valve, a cutting blade coupled to the flow control element and configured to shear a tubular, a first seat configured to form a seal with the flow control element to block the flow of fluid, and a second seat with an open end configured to block the shearing gate valve from shearing the tubular member at two locations.