Abstract: Hierarchical Power Management (HPM) architecture considers the limits of scaling on a power management controller, the autonomy at each die, and provides a unified view of the package to a platform. At a simplest level, HPM architecture has a supervisor and one or more supervisee power management units (PMUs) that communicate via at least two different communication fabrics. Each PMU can behave as a supervisor for a number of supervisee PMUs in a particular domain. HPM addresses these needs for products that comprise a collection of dice with varying levels of power and thermal management capabilities and needs. HPM serves as a unified mechanism than can span collection of dice of varying capability and function, which together form a traditional system-on-chip (SoC). HPM provides a basis for managing power and thermals across a diverse set of dice.

Abstract: Tamper-resistant and tamper-evident sample bottles for the transport of pressurized well fluid include sensor packages and data recording devices to characterize and track properties of the sample bottle and its contents.

Abstract: A system for serving as a connection interface between a lower landing string and an upper landing string is provided. The system includes a quick union device comprising a first quick union component that is operable to couple to the upper landing string and a second quick union component that is operable to couple to the lower landing string. The first quick union component and the second quick union component respectively include a self-aligning threading interface that provides hydraulic and electrical connections when the first and second quick union components are connected to one another. The quick union device provides real-time feedback via wireless communication transducers that measure pressure and report that the measured pressure is retained in a plurality of hydraulic lines of the second quick union component when the first and second quick union components are disconnected from one another.

Abstract: A system for serving as a connection interface between a lower landing string and an upper landing string is provided. The system includes a quick union device comprising a first quick union component that is operable to couple to the upper landing string and a second quick union component that is operable to couple to the lower landing string. The first quick union component and the second quick union component respectively include a self-aligning threading interface that provides hydraulic and electrical connections when the first and second quick union components are connected to one another. The quick union device provides real-time feedback via wireless communication transducers that measure pressure and report that the measured pressure is retained in a plurality of hydraulic lines of the second quick union component when the first and second quick union components are disconnected from one another.

Abstract: A well system and method for wirelessly communicating in a wellbore. The well system may comprise a coil tubing, a transceiver, a secondary transceiver, and an information handling system, wherein the information handling system is configured to record information from the transceiver. A method for wirelessly communicating in a wellbore may comprise disposing a coil tubing into the wellbore, recording a measurement with the transceiver, communicating the measurement from the transceiver to a secondary transceiver, transmitting the measurement from the secondary transceiver to one or more additional secondary transceivers, and retrieving the measurement from the one or more additional secondary transceivers by an information handling system.

Abstract: A downhole distributor valve includes a housing that includes a housing fluid port therethrough, a mandrel that defines a bore and is positioned radially within the housing, and a fluid chamber radially defined between the housing and the mandrel and configured to contain a fluid at a particular pressure. The mandrel includes a mandrel fluid port therethrough. The mandrel is moveable from a first position with the bore fluidly decoupled from the housing fluid port to a second position with the bore fluidly coupled with the housing fluid port through the mandrel fluid port. The mandrel is moveable based on a hydrostatic pressure in the bore greater than the particular pressure of the pressurized fluid.

Abstract: A method includes introducing a well control fluid at a first viscosity into a downhole portion of a wellbore, where the well control fluid includes an electrorheological or magnetorheological fluid. In response to a wellbore inflow condition, the method includes activating the well control fluid to change the viscosity of the well control fluid to a second, higher viscosity.

Abstract: A downhole distributor valve includes a housing that includes a housing fluid port therethrough, a mandrel that defines a bore and is positioned radially within the housing, and a fluid chamber radially defined between the housing and the mandrel and configured to contain a fluid at a particular pressure. The mandrel includes a mandrel fluid port therethrough. The mandrel is moveable from a first position with the bore fluidly decoupled from the housing fluid port to a second position with the bore fluidly coupled with the housing fluid port through the mandrel fluid port. The mandrel is moveable based on a hydrostatic pressure in the bore greater than the particular pressure of the pressurized fluid.

Abstract: Systems and related methods are disclosed for applying electrorheological fluids in hydro-carbon-producing environments. The systems include a fluid-retaining member having a conductive inner surface and a conductive outer surface. The fluid-retaining member retains a smart fluid. The systems also include a controller that is electrically coupled to a power source and at least one of the conductive inner surface and conductive outer surface of the fluid-retaining member to actuate an electric field or magnetic field across fluid-retaining member. Actuation of the electric field or magnetic field results in a near instantaneous increase in the viscosity of the fluid, causing the fluid to solidify, nearly solidify, gel or otherwise increase in viscosity. The actuated fluid retaining member may be used as a well casing, an isolator, a blowout inhibitor, or in a well insulation system to absorb energy in the event of an explosion.