123results about How to "Reduce oxygen" patented technology

A metal-air battery is disclosed in one embodiment of the invention as including a cathode to reduce oxygen molecules and an alkali-metal-containing anode to oxidize the alkali metal (e.g., Li, Na, and K) contained therein to produce alkali-metal ions. An aqueous catholyte is placed in ionic communication with the cathode to store reaction products generated by reacting the alkali-metal ions with the oxygen containing anions. These reaction products are stored as solutes dissolved in the aqueous catholyte. An ion-selective membrane is interposed between the alkali-metal containing anode and the aqueous catholyte. The ion-selective membrane is designed to be conductive to the alkali-metal ions while being impermeable to the aqueous catholyte.

A method for making a carbon-metal-nitrogen oxygen reducing cathode catalyst, the method comprising mixing a carbon source with a transition metal precursor to form a metal precursor loaded carbon substrate; adding a nitrogen precursor compound to the metal precursor loaded carbon substrate to form a carbon-metal-nitrogen precursor; and pyrolyzing the carbon-metal-nitrogen precursor in a closed vessel, thereby forming an oxygen reducing cathode catalyst. The carbon-metal-nitrogen catalyst requires no precious metal such as Pt, and also provides benefits such as controlled deposition of catalytically active nitrogenous compounds that can increase the catalytic activity of the catalyst when compared to gaseous deposition of nitrogen to the surface of the carbon support.

A composite electrode for reducing oxygen that provides the quasi four-electron reduction at selectivity of nearly 100% is provided. The composite electrode includes an electrochemical catalyst A that produces hydrogen peroxide by reducing oxygen and a catalyst B that decomposes the produced hydrogen peroxide to oxygen.

The present invention relates to the field of degradation with hyperthermophilic organisms, and in particular to the use of hyperthermophilic degradation to produce heat and energy rich components including hydrogen and ethanol from a biomass. In some embodiments, a biomass is fermented in the presence of hyperthermophilic organisms to produce heat. The heat is used to heat a liquid which is used directly in a heat pump or radiant heat or to produce electricity or drive a steam turbine. In some embodiments, acetate is utilized as a substrate to produce energy by methanogenesis.

Methods and associated apparatus for automatically growing agricultural crops vertically and/or in a continuous fashion throughout each year (Vertical Farm) in combination with contiguous and co-located production of biofuel, food, biomass for the purpose of carbon sequestering (carbon credits), and biomass electric power generation. A process that incorporates vast arrays of continuous-loop conveyors, towering upon vertical framework, which allow potted plants to be transported throughout all stages of maturity in a manner which substantially multiplies yield per acre, allows production to proceed in both natural and artificial light, allows production and harvesting to be automated, and allows production to proceed in conditions which are highly favorable to plants but unfavorable to humans. The entire apparatus can be constructed of lightweight, cost-effective materials which afford mass-production and mass-array into vast automatic growing operations.

The substrate processing apparatus includes a substrate holding unit that holds a substrate horizontally, a substrate rotating unit that rotates the substrate held by the substrate holding unit around a prescribed rotational axis extending along a vertical direction, a processing liquid supply nozzle that moves in a horizontal direction and supplies a processing liquid onto an upper surface of the substrate held by the substrate holding unit, a shielding member that shields an atmosphere between the shielding member and the upper surface of the substrate held by the substrate holding unit from an ambient atmosphere, an inert gas supply unit that supplies an inert gas between the upper surface of the substrate held by the substrate holding unit and the shielding member, and a shielding member rotating unit that rotates the shielding member around the rotational axis. The shielding member includes an annular portion that surrounds the substrate held by the substrate holding unit, and a passage-allowing portion that is provided in the annular portion and allows the processing liquid supply nozzle to pass through the annular portion. The substrate processing apparatus includes a controller that is programmed so as to control the shielding member rotating unit to adjust a position of the passage-allowing portion in the rotational direction such that the processing liquid supply nozzle is to be passed through the annular portion.

A metal-air battery has an anode in which the electrochemically active material is molybdenum. The molybdenum may be in the form of a bulk body of material or it may comprise a particulate material dispersed with or in another material. In some instances, the molybdenum may comprise a member of an alloy or mixture. Also disclosed is a modular battery system which may include the molybdenum-based anode material.

A method for decreasing nitrogen oxide of mixed gas fuel used on pulverized-coal boiler includes dividing gas fuel to be two grades then leading them into pulverized-coal furnace tank, leading in primary gas fuel as combustion-assistant fuel at bottom of master burner at master combustion region to burn it by utilizing gradation air-combustion technique with low air overdose parameter, leading in secondary gas fuel at top of master combustion region to form reducing atmosphere of re-combustion region and leading in burn out air at top of re-combustion region.

The semiconductor device is manufactured by the following method. A first oxide semiconductor film is formed over a first gate electrode and a first insulating film, oxygen is added to the first oxide semiconductor film, and then a second oxide semiconductor film is formed over the first oxide semiconductor film. Then, heat treatment is performed. Next, part of the first insulating film, part of the first oxide semiconductor film, and part of the second oxide semiconductor film are etched to form a first gate insulating film having a projection. Next, a pair of electrodes is formed over the second oxide semiconductor film, and a third oxide semiconductor film is formed over the second oxide semiconductor film and the pair of electrodes. Then, a second gate insulating film is formed over the third oxide semiconductor film, and a second gate electrode is formed over the second gate insulating film.

For use with an electric steelmaking furnace, a briquette is provided which incorporates a suitable binder, a first quantity of carbon fines, and a second quantity of a material in powdered form, the latter material being selected from the group consisiting of lime, dolime, limestone, dolomite, magnesia, magnesium carbonate, other suitable carbonates, and mixtures thereof. The second quantity being large enough to suppress the slippery nature of the carbon fines, and to density the briquette to the extent necessary to cause it to sink into the furnace melt.

Novel packaging, methods of packaging and methods for storing thyroid hormone pharmaceutical compositions, such as levothyroxine (T₄) sodium and liothyronine (T₃) sodium, in reduced oxygen conditions for maintaining the stability and potency of the thyroid hormones during extended shelf life are provided.

Affords gallium nitride crystal growth methods, gallium nitride crystal substrates, epi-wafers, and methods of manufacturing the epi-wafers, that make it possible to curb cracking that occurs during thickness reduction operations on the crystal, and to grow gallium nitride crystal having considerable thickness. A gallium nitride crystal growth method in one aspect of the present invention is a method of employing a carrier gas, a gallium nitride precursor, and a gas containing silicon as a dopant, and by hydride vapor phase epitaxy (HVPE) growing gallium nitride crystal onto an undersubstrate. The gallium nitride crystal growth method is characterized in that the carrier-gas dew point during the gallium nitride crystal growth is −60° C. or less.

Embodiments of methods for purifying a biomass-derived pyrolysis oil are provided. The method comprises the step of contacting the biomass-derived pyrolysis oil with a first deoxygenating catalyst in the presence of hydrogen at first predetermined hydroprocessing conditions to form a first low-oxygen biomass-derived pyrolysis oil effluent. The low-oxygen biomass-derived pyrolysis oil effluent is contacted with an ionic liquid to remove phenolic compounds, nitrogen compounds and other impurities. This ionic liquid step may be followed by a second deoxygenation step or the deoxygenating may be completed and then followed by the ionic liquid purification step.

A stream of primarily water is treated to remove oxygen before injecting the water into an underground hydrocarbon reservoir. The pressure of water moving through a conduit (12) is reduced to a low level to maximize the dissolution of oxygen and other gases that are dissolved in the water. The resulting two phase mixture is separated by centrifugal action caused by rotating the water inside the conduit. The rotation is induced by flowing the water past fixed spin blades (20). The oxygen and any other gases are removed from the center of the conduit through a gas pipe (30) and eventually pass out of the system to the atmosphere via a vacuum pump (50). As an enhancement, nitrogen may be introduced upstream of the centrifuge. The nitrogen injection saturates the water-gas solution to improve the dissolution of oxygen from the low pressure water, and also improves the efficiency of the gas-liquid separation by adjusting the gas volume fraction downstream of the fixed spin blades (20) to an optimal proportion of the total flow.

This invention provides a means for transporting and delivering highly effective, breathable fire fighting inert gases to a fire zone, whereby the normally inert gas is transported to the fire in liquid or compressed form.

Compound-semiconductor-substrate polishing methods, compound semiconductor substrates, compound-semiconductor-epitaxial-substrate manufacturing methods, and compound semiconductor epitaxial substrates whereby oxygen superficially present on the substrates reduced. A compound semiconductor-substrate polishing method includes a preparation step (S10), a first polishing step (S20), and a second polishing step (S30). In the preparation step (S10), a compound semiconductor substrate is prepared. In the first polishing step (S20), the compound semiconductor substrate is polished with a chloric polishing agent. In the second polishing step (S30), subsequent to the first polishing step (S20), a polishing operation utilizing an alkaline aqueous solution containing an inorganic builder and having pH of 8.5 to 13.0 inclusive is performed.

Disclosed herein is an improved anticaking product for use on cheese, especially in the pizza pie industry, wherein the product is economical and has superior functional properties of reducing sticking of chunked, diced or shredded cheeses.