Abstract: Methods comprise deactivating pathogens within a nostril of a nose of a living individual as the living individual breathes air through the nostril.

Abstract: Body-worn air-treatment devices include a body that is configured to be selectively coupled proximate to a respiratory tract inlet of a living individual, and a pathogen-deactivating mechanism that is supported by the body. Methods include deactivating pathogens proximate to a respiratory tract inlet of a living individual.

Abstract: Methods for repurposing thermal hydrocarbon recovery operations where the reservoir, which has been previously treated with steam for hydrocarbon mobilization, is further treated with an oxidizer to induce one or more of thermal cracking (thermolysis), gasification, water-gas shift, and aquathermolysis reactions to generate synthesis gas within the reservoir, which synthesis gas or its constituent components can then be produced to surface.

Abstract: Body-worn air-treatment devices include a body that is configured to be selectively coupled proximate to a respiratory tract inlet of a living individual, and a pathogen-deactivating mechanism that is supported by the body. Methods include deactivating pathogens proximate to a respiratory tract inlet of a living individual.

Abstract: Body-worn air-treatment devices include a body that is configured to be selectively coupled proximate to a respiratory tract inlet of a living individual, and a pathogen-deactivating mechanism that is supported by the body. Methods include deactivating pathogens proximate to a respiratory tract inlet of a living individual.

Abstract: A geothermal reservoir induces gasification and water gas shift reactions to generate hydrogen. The hydrogen or protons are produced to surface by using hydrogen-only or proton-only membranes in production wells. Energy from the reservoir is produced to surface as protons or hydrogen.

Abstract: A hydrocarbon reservoir is treated with heat to induce gasification, water-gas shift, and/or aquathermolysis reactions to generate gases including hydrogen. The hydrogen alone is produced to the surface by using hydrogen-only membranes in the production wells.

Abstract: Body-worn air-treatment devices comprise a body that is configured to be selectively coupled proximate to a respiratory tract inlet of a living individual, and a pathogen-deactivating mechanism that is supported by the body. Methods comprise deactivating pathogens proximate to a respiratory tract inlet of a living individual.

Abstract: A process to treat fines tailings generated from mining operations, wherein tailings material is sprayed onto a solid substrate as a thin layer and allowed to dry. The spray may be re-applied on top of the dried tailings film leading to multiple layers of dried tailings solids. The method may yield a solid, dry, and consolidated tailings material.

Abstract: A hydrocarbon reservoir is treated with heat to induce gasification, water-gas shift, and/or aquathermolysis reactions to generate gases including hydrogen. The hydrogen alone is produced to the surface by using hydrogen-only membranes in the production wells.

Abstract: A method and system to treat and dry fines tailings generated from mining operations, comprising spraying the tailings material into a vacuum chamber operated at less than atmospheric pressure to separate evaporated water from the residual solid materials.

Abstract: A petroleum reservoir is treated with heat to induce gasification, water-gas shift, and/or aquathermolysis reactions to generate synthesis gas comprising hydrogen gas. The synthesis gas is produced to the surface using one or more production wells.

Abstract: A geothermal reservoir induces gasification and water gas shift reactions to generate hydrogen. The hydrogen or protons are produced to surface by using hydrogen-only or proton-only membranes in production wells. Energy from the reservoir is produced to surface as protons or hydrogen.

Abstract: A method is provided that uses acoustic energy propagating within the formation to contribute to hydrocarbon mobilization and/or increasing the permeability of the formation for producing such hydrocarbons, in part due to some degree of heating as well as due to vibration of the surrounding environment. An acoustic standing wave process can be used as a primary recovery process, during start up, or subsequent to another hydrocarbon recovery process. By selectively operating acoustic resonators in areas or zones within a pay region until that area or zone is energized, production can progress in stages in an efficient manner to avoid operating the acoustic resonators longer than is necessary to sufficiently energize the targeted area. In this way, the amount of equipment required to mobilize and produce the hydrocarbon in the pay region can be reduced.

Abstract: A process to treat fines tailings generated from mining operations, wherein tailings material is sprayed onto a solid substrate as a thin layer and allowed to dry. The spray may be re-applied on top of the dried tailings film leading to multiple layers of dried tailings solids. The method may yield a solid, dry, and consolidated tailings material.

Abstract: Computer input devices include a detector adapted to detect relative movement of an input member in x-, y-, and z-dimensions relative to a base point in a base plane, and a controller adapted to send a signal to an associated computing device based at least in part on the relative movement of the input member. Associated computing devices, software, and methods are also disclosed.

Abstract: Computer input devices include a detector adapted to detect relative movement of an input member in x-, y-, and z-dimensions relative to a base point in a base plane, and a controller adapted to send a signal to an associated computing device based at least in part on the relative movement of the input member. Associated computing devices, software, and methods are also disclosed.

Abstract: Computer input devices include a detector adapted to detect relative movement of an input member in x-, y-, and z-dimensions relative to a base point in a base plane, and a controller adapted to send a signal to an associated computing device based at least in part on the relative movement of the input member. Associated computing devices, software, and methods are also disclosed.

Abstract: Computer input devices include a detector adapted to detect relative movement of an input member in x-, y-, and z-dimensions relative to a base point in a base plane, and a controller adapted to send a signal to an associated computing device based at least in part on the relative movement of the input member. Associated computing devices, software, and methods are also disclosed.

Abstract: Methods of high speed coating a pigment-containing liquid coating material onto a substrate so as to avoid visible pigment separation in the coating material in its as coated state. In the method, a pigment-containing liquid coating material is applied to a substrate, while the substrate is moving at a high line speed of at least about 15.24 m/min., to form a coated layer. The coating material is applied to the substrate along a substantially straight, dynamic wetting line where the coating material first contacts the moving substrate. The coating material is of the type that will exhibit visible pigment separation on its interface surface when the coating material is coated onto the fast moving substrate, without the use of a substantially straight wetting line. The wetting line is substantially straight when a significant amount of visible pigment separation does not occur at the chosen high line speed.