Mark Owen
Mark Owen Brandon, Jr., Audubon, NJ US
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20150345776 | BEVERAGE CONTAINER CONVEYANCE AND ILLUMINATION APPARATUSES AND METHODS - A beverage container conveyance and illumination apparatus configured to convey a plurality of beverage containers which in some embodiments may comprise: a main housing, a user interface, six beverage container receiving surfaces, and an illumination unit which is configured to illuminate one or more portions of the main housing and/or to illuminate one or more beverage container receiving surfaces. The main housing and/or one or more beverage container receiving surfaces may be made from a transparent, substantially transparent, or translucent material allowing an illumination unit to illuminate one or more portions of the main housing, one or more beverage container receiving surfaces, and/or one or more beverage containers placed on a beverage container receiving surface with random patterns of illumination. | 12-03-2015 |
Mark Owen Bublitz, South Slocan CA
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20130149422 | Animal Feed Processing Agents, Animal Feeds and Methods of Processing Animal Feed - Animal feed processing agents containing an azeotrope comprising water, an alcohol, and sodium stabilized by surrounding organized water. Methods of processing animal feed utilizing steam flaking in the presence of added agent comprising an alcohol, and sodium stabilized by surrounding organized water. An animal feed comprising an alcohol and sodium, wherein the grain of the feed is enriched in amylopectin, contains gelatinized starch, contains no added organic acids and is resistant to molds and fungi without added preservatives. | 06-13-2013 |
20150125602 | Methods of Treatment of Ferrous Metal Surfaces and Ferrous Alloy Surfaces - Methods of treating iron-comprising metallic materials by providing an iron-comprising metallic material having one or more surfaces to be treated, contacting the surfaces with a processing agent comprising the processing agent being water-based and containing fee electrons and hydrogen, and allowing electron rich gas from the processing agent to embed into the surfaces to be treated. Methods of inhibiting oxidative electro-chemical corrosion and galvanic corrosion of surfaces of ferrous metal alloys including heating a ferrous metal alloy to produce heated and oil fee surfaces of the alloy, immersing the alloy in an electron rich and hydrogen rich water based treatment agent, and contacting the surfaces of the alloy with gas bubbles comprising electrons generated from the treatment agent. | 05-07-2015 |
Mark Owen Woodthorpe, Sunbury AU
Patent application number | Description | Published |
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20120223019 | LIQUID TREATMENT SYSTEM - A liquid treatment system using gas flotation to separate suspended matter from liquid influent, including a flotation tank into which the liquid influent is fed through an inlet, an outlet conduit through which treated effluent is fed from the flotation tank, a separation conduit for feeding liquid to a bubble release point, means for pressurising the liquid in the separation conduit and dissolving gas in the pressurised liquid, wherein an energy recovery device is used for reducing pressure of the liquid before the bubble release point such that gas bubbles are released into the flotation tank for floating said suspended matter to a surface of the liquid in the tank, and wherein the energy recovery device supplies energy obtained through said pressure reduction of the liquid. | 09-06-2012 |
20120257991 | PRESSURE EXCHANGER - A pressure exchanger for transferring pressure from a high pressure fluid to a low pressure fluid, including a housing and a rotor arranged for rotation within the housing, the rotor having at least one passage extending generally axially through the rotor, the passage having a first opening at one end and a second opening at another end, the openings being mutually spaced along the length of the rotor, the housing having a plurality of ports at one axial portion for communication with the first passage opening and a plurality of ports at another axial portion for communication with the second passage opening, wherein the first passage opening is directed substantially radially such that fluid is directed radially inwardly when entering the first passage opening and radially outwardly when exiting the first passage opening. | 10-11-2012 |