A blowout preventer (BOP) for controlling pressure within a wellbore includes an internal cavity and a front side including a door opening, the door opening providing access to the internal cavity. The BOP also includes a door assembly associated with the door opening. The door assembly includes a door, movable between a first position and a second position, the door blocking access to the internal cavity in the first position and enabling access to the internal cavity in the second position. The door assembly also includes a hinge coupled to the door to facilitate movement of the door between the first position and the second position. The door assembly further includes a coupling device associated with the door, the coupling device securing the door to the front side. The BOP also includes a back side including an outlet, the outlet being fluidly coupled to the internal cavity.

A blowout preventer (BOP) for controlling pressure within a wellbore includes an internal cavity and a front side including a door opening, the door opening providing access to the internal cavity. The BOP also includes a door assembly associated with the door opening. The door assembly includes a door, movable between a first position and a second position, the door blocking access to the internal cavity in the first position and enabling access to the internal cavity in the second position. The door assembly also includes a hinge coupled to the door to facilitate movement of the door between the first position and the second position. The door assembly further includes a coupling device associated with the door, the coupling device securing the door to the front side. The BOP also includes a back side including an outlet, the outlet being fluidly coupled to the internal cavity.

A blowout preventer (BOP) for controlling pressure within a wellbore includes a body having a front side and a back side, the front side being opposite the back side. The BOP also includes a door opening extending through the front side. The BOP further includes an operator opening extending through the body, perpendicular to the door opening. The BOP includes an outlet extending from an inner cavity of the body through the back side, the inner cavity being fluidly coupled to both the outlet and the door opening. The BOP also includes a ram passage forming at least a portion of the inner cavity, wherein the ram passage is arranged substantially perpendicular to the door opening.

An improved emergency power system is disclosed for providing electrical power to a load such as a blowout preventer of a petroleum drilling apparatus. The improved emergency power system comprises a thermal battery having an anode and a cathode with a separator containing an electrolyte disposed therebetween. An internal heat layer is located in proximity to the separator containing the electrolyte. A squib is provided for activating the internal heat layer. The thermal battery remains dormant until the squib is energized to ignite the squib enabling the heat layer to render the electrolyte molten thereby activating battery to provide electrical power to the load. The squib may be energized remotely, mechanically or electrically.

Apparatus and methods for a well construction system and a wellsite control system. The construction system is for forming a wellbore at an oil and gas wellsite. The construction system includes rig and well pressure control systems. The rig control system is for selectively moving a drill string within the wellbore, and includes a first actuator for actuating at least a portion of the rig control system. The well pressure control system is for controlling pressure within the wellbore, and includes a second actuator for actuating at least a portion of the well pressure control system. The wellsite control system is communicatively connected with the first and second actuators, and is operable to generate first and second control signals to operate the first and second actuators, respectively. The first control signal is determined based on the computer program code and the second control signal.

A system, includes a first sensor configured to monitor a first characteristic of drilling fluid and generate a first indication based on the monitoring. The system also includes a second sensor configured to monitor a second characteristic of drilling fluid and generate a second indication based on the monitoring. The system further includes a processor configured to correlate the first indication with the second indication to generate a baseline value indicative of a characteristic of a well.

A shear ram system includes an upper block positioned to transition from a first location outside a bore to a second location within the bore, the upper block including a blade control arm having a first contact surface. The shear ram system includes a lower block positioned to transition from the first location outside the bore to the second location within the bore, the lower block including a second contact surface proximate the first contact surface. The shear ram system includes a progressive gap between the first contact surface and the second contact surface larger at a first end than at a second end such that a first gap distance at the first end is greater than a second gap distance the second end.

A tubular string is cut using a severing system deployed from the rig floor inserted through the BOP into the tubular string and landed in a fit-for-purpose wellhead. The cutting operation forms an excess tubular string and a remaining tubular string. Once cut, the excess tubular string is removed through the BOP. The system and its use eliminates the need to perform a cutting operation at the wellhead by personnel under the rig floor and the need for removal of the BOP thus reducing cost, saving time, and eliminating the inherent risk attendant with these operations.

The service life of a packer element, an annular BOP, is estimated using one pressure sensor below the elastomer seal or two pressure sensors positioned above and below the elastomer seal. The pressure variations below the elastomer are monitored versus piston position and used to detect elastomer wear with time/pressure cycles. The pressure variations above the elastomer can be used to detect potential leakage, as well as leak characteristics such as leaking rate or leak geometry.

A ram assembly is disclosed. The ram assembly includes a ram wedge, a blade, and a ram seat. The ram wedge has a tubular cavity therethrough for receiving the tubular. The ram wedge is slidably positionable in the ram channel between a retracted and an extended position, and has rails extending therefrom. The blade is positionable about the tubular cavity, the blade carried by the ram wedge to cuttingly engage the tubular. The ram seat is positionable in the housing about the passage, and has a hole for receiving the tubular therethrough. The ram seat also has an outer surface interlockingly engageable with the rails as the ram wedge moves relative thereto whereby a gap is reduced therebetween.