Patents by Inventor Adam VINCENT
Adam VINCENT has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240047664Abstract: A process for processing an electroactive mesoporous material into a cathode, or an anode or a supercapacitor material using one or more of the steps of: (a) modifying the material to remove impurities or substitute materials in the powder by a hydrothermal process; (b) intercalating the material by injecting the material with the charge carrier ion using a hydrothermal process or supercritical CO2 fluid process where the solvent fluid contains a soluble material of the charge carrier ion; (c) sintering the intercalated material; (d) providing a layer of a conducting material within the material pores; (e) filling the pores and interparticle spaces with an electrolyte generally comprising the charge carrier ion and a solvent; and for solid state materials, (f) polymerizing the solvent to encapsulate the powders.Type: ApplicationFiled: March 3, 2022Publication date: February 8, 2024Inventors: Mark Sceats, Matthew Boot-Handford, Dabin Wang, Lakshmi Vazhapully, Adam Vincent
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Publication number: 20240034672Abstract: A system for the calcination of powder materials comprising a plurality of vertical reactor tubes in which a falling powder is heated about a heating zone by radiation from the externally heated walls of the reactor tubes, in which the calcination process of the powder may be a reaction which liberates a gas, or induces a phase change; wherein the average velocity of the particles of falling powder during its transit through the reactor tubes is 1.0 m/s or less; the powder material flux for each tube is preferably in the range of 0.5-1 kg m-2 s-1, and wherein the length of the heating zone is in the range of 10 to 35 m.Type: ApplicationFiled: October 11, 2021Publication date: February 1, 2024Inventors: Mark Sceats, Adam Vincent, Simon Thomsen, Matthew Gill, Philip Hodgson
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Publication number: 20240018622Abstract: A method for heating a powder material to induce a crystalline phase change in the grains of the particle comprising the steps of: a. preheating the powder from the high temperature streams generated from cooling the phase changed product; b. injecting the powder into a metal tube; c. controlling the gas composition in the metal tube by injecting a gas into the reactor; d. externally heating the first section of the tube by a first furnace segment system; e. externally heating the second section of the tube by a second furnace segment system; f: quickly quenching the powder product temperature in a cold third segment of the tube; g. collecting the processed powder at the base of the tube in a bed ejecting the powder from the tube; h. cooling the powder in a heat exchanger and using the heat to preheat the powder in step a.Type: ApplicationFiled: July 26, 2021Publication date: January 18, 2024Inventors: Mark Geoffrey Sceats, Adam Vincent, Andrew Okely, Matthew Boot-Handford, Dabin Wang, Lakshmi Vazhapully, Terrance Banks
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Publication number: 20230265294Abstract: A formulation for a coating for applications on maritime infrastructure or vessels to inhibit fouling and corrosion that comprises: (a) a nano-active material; and (b) a polymer binder; and (c) additives which include pigments, booster antifoulants, booster anticorrosion materials, solvents, polymerisation activators, viscosity modifiers and fillers, where the nano-active material, the binder and additives provide the coating with the desired most desirable properties of antifoul, anticorrosion, adhesion, and strength, required for the coating application.Type: ApplicationFiled: August 11, 2021Publication date: August 24, 2023Inventors: Mark Geoffrey Sceats, Robert Van Merkestein, Adam Vincent, Philip Hodgson, Andrew Okely
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Patent number: 11717861Abstract: The apparatus and method of the present invention relate to a cleaning cloth, a cleaning cloth system, and a method for cleaning. The present invention contemplates a cleaning cloth that is adapted to operate together with a body to provide for an enhanced cleaning experience, and in at least certain embodiments provides an improved ability to more efficiently and effectively clean in tight spaces, such as for example within a relatively small opening between two adjacent structures.Type: GrantFiled: December 17, 2019Date of Patent: August 8, 2023Inventor: Adam Vincent Rudofski
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Patent number: 11701630Abstract: A method and system for producing nano-active powder materials. The method can be used with a reactor system comprising stages in which input particles flow under gravity progressively through stages of the reactor. A powder injector first stage in which ground input precursor powder is injected into the reactor. An externally heated preheater stage may be in the reactor, in which the precursor powder is heated to a temperature of calcination reaction. An externally heated calciner stage in the reactor, in which primary precursor volatile constituents can be rapidly removed calcination reactions as a high purity gas stream to produce the desired nano-active product. A post-processing reactor stage in which there is a change of the gas stream composition to produce the desired hot powder product by virtue of the nano-activity of the first powder material. A powder ejector stage in which the hot powder product is ejected from the reactor.Type: GrantFiled: August 12, 2022Date of Patent: July 18, 2023Assignee: CALIX LTDInventors: Mark Sceats, Philip Hodgson, Adam Vincent, Simon Thomsen, Matthew Gill, Daniel Rennie
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Publication number: 20230159388Abstract: The invention provides a powder-gas heat exchanger for exchanging heat between a powder stream and a gas stream in counter-current flow comprising a powder stream mass flow rate substantially equal to a gas stream mass flow rate in a vertical shaft heat exchanger. A hot gas stream may be adapted for use in heating a cool solids stream, or a cool gas stream may be adapted for use in cooling a hot solids stream.Type: ApplicationFiled: April 1, 2021Publication date: May 25, 2023Inventors: Mark Geoffrey Sceats, Adam Vincent, Matthew Gill, Simon Thomsen, Phil Hodgson
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Publication number: 20220387951Abstract: A method and system for producing nano-active powder materials. The method can be used with a reactor system comprising stages in which input particles flow under gravity progressively through stages of the reactor. A powder injector first stage in which ground input precursor powder is injected into the reactor. An externally heated preheater stage may be in the reactor, in which the precursor powder is heated to a temperature of calcination reaction. An externally heated calciner stage in the reactor, in which primary precursor volatile constituents can be rapidly removed calcination reactions as a high purity gas stream to produce the desired nano-active product. A post-processing reactor stage in which there is a change of the gas stream composition to produce the desired hot powder product by virtue of the nano-activity of the first powder material. A powder ejector stage in which the hot powder product is ejected from the reactor.Type: ApplicationFiled: August 12, 2022Publication date: December 8, 2022Inventors: Mark Sceats, Philip Hodgson, Adam Vincent, Simon Thomsen, Matthew Gill, Daniel Rennie
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Patent number: 11446621Abstract: A method and system for producing nano-active powder materials. The method can be used with a reactor system comprising stages in which input particles flow under gravity progressively through stages of the reactor. A powder injector first stage in which ground input precursor powder is injected into the reactor. An externally heated preheater stage may be in the reactor, in which the precursor powder is heated to a temperature of calcination reaction. An externally heated calciner stage in the reactor, in which primary precursor volatile constituents can be rapidly removed calcination reactions as a high purity gas stream to produce the desired nano-active product. A post-processing reactor stage in which there is a change of the gas stream composition to produce the desired hot powder product by virtue of the nano-activity of the first powder material. A powder ejector stage in which the hot powder product is ejected from the reactor.Type: GrantFiled: October 27, 2017Date of Patent: September 20, 2022Assignee: CALIX LTDInventors: Mark Sceats, Philip Hodgson, Adam Vincent, Simon Thomsen, Matthew Gill, Daniel Rennie
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Patent number: 11401183Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: GrantFiled: June 22, 2020Date of Patent: August 2, 2022Assignee: Calix LtdInventors: Mark Sceats, Adam Vincent
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Publication number: 20220162097Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: ApplicationFiled: December 29, 2021Publication date: May 26, 2022Inventors: Mark Sceats, Adam Vincent
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Publication number: 20220165998Abstract: An embodiment of the present invention comprising of a conductive top layer with a plurality of terminals enabling battery connections to be made in series. An insulator middle layer with conductive material extending from the top terminals to the bottom terminals. A conductive bottom layer with a plurality of terminals enabling battery connections to be made to the output terminal or terminals. Output terminal or terminals enabling a load or additional lantern battery adapters to be connected either in series or parallel configuration.Type: ApplicationFiled: November 21, 2020Publication date: May 26, 2022Inventor: Adam Vincent Hayball
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Publication number: 20210392879Abstract: The invention discloses a metal and semi-metal oxide powder that, when applied to an environment, inhibits the growth of colonies of microorganisms, wherein the powder includes particles comprising a particle size distribution between 0.1 to 100 microns, which are formulated as a strongly bonded, porous, composite of nano-scale grains of materials wherein the grains have a surface area of 75 to 300 m2/g and which have less than about 10?4% of free radical species by weight, and wherein the powder is adapted to release reactive oxygen species (ROS) burst when the particles come into contact with a microorganism.Type: ApplicationFiled: October 3, 2019Publication date: December 23, 2021Inventors: Mark Sceats, Phil Hodgson, Adam Vincent, Robert Van Merkestein
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Patent number: 10800683Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: GrantFiled: February 21, 2019Date of Patent: October 13, 2020Assignee: Calix LtdInventors: Mark Sceats, Adam Vincent
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Publication number: 20200317549Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: ApplicationFiled: June 22, 2020Publication date: October 8, 2020Inventors: Mark Sceats, Adam Vincent
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Publication number: 20200206784Abstract: The apparatus and method of the present invention relate to a cleaning cloth, a cleaning cloth system, and a method for cleaning. The present invention contemplates a cleaning cloth that is adapted to operate together with a body to provide for an enhanced cleaning experience, and in at least certain embodiments provides an improved ability to more efficiently and effectively clean in tight spaces, such as for example within a relatively small opening between two adjacent structures.Type: ApplicationFiled: December 17, 2019Publication date: July 2, 2020Inventor: Adam Vincent Rudofski
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Publication number: 20190275485Abstract: A method and system for producing nano-active powder materials. The method can be used with a reactor system comprising stages in which input particles flow under gravity progressively through stages of the reactor. A powder injector first stage in which ground input precursor powder is injected into the reactor. An externally heated preheater stage may be in the reactor, in which the precursor powder is heated to a temperature of calcination reaction. An externally heated calciner stage in the reactor, in which primary precursor volatile constituents can be rapidly removed calcination reactions as a high purity gas stream to produce the desired nano-active product. A post-processing reactor stage in which there is a change of the gas stream composition to produce the desired hot powder product by virtue of the nano-activity of the first powder material. A powder ejector stage in which the hot powder product is ejected from the reactor.Type: ApplicationFiled: October 27, 2017Publication date: September 12, 2019Inventors: Mark Sceats, Philip Hodgson, Adam Vincent, Simon Thomsen, Matthew Gill, Daniel Rennie
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Patent number: 10358364Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: GrantFiled: October 15, 2014Date of Patent: July 23, 2019Assignee: Calix LtdInventors: Mark Sceats, Adam Vincent
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Publication number: 20190177194Abstract: A method of manufacture of high-solids hydroxide slurries from caustic calcined carbonate powder is described, whereby the properties of the slurry are its low resistance to shear thinning to facilitate transport, a high stability for transport and storage, ease of reconstitution after long periods of storage, and, as required, a high concentration of chemically reactive species at the particle surface. The method achieves these specifications by mixing caustic calcined carbonate or hydroxide powder with water in an insulated reactor vessel, and agitating the slurry sufficiently such that the hydration reaction causes the water to spontaneously boil, such that the remaining hydration proceeds spontaneously under the fixed conditions of boiling through the water loss. The mixing process is preferably carried out by a shear pump. A viscosity modifier, such as acetic acid, is used to thin the slurry to enable the mixing system to maintain uniform mixing.Type: ApplicationFiled: February 21, 2019Publication date: June 13, 2019Inventors: Mark Sceats, Adam Vincent
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Patent number: 10253616Abstract: A tube for use inside a well. The tube includes a longitudinal body having two threaded ends, the body having a bore; a carrier mechanism located on an exterior of the body, wherein the carrier mechanism has a port and a protecting cover separated from each other by a pre-determined distance (D); and a nut configured to be screwed into the protecting cover.Type: GrantFiled: December 14, 2015Date of Patent: April 9, 2019Assignee: SERCEL-GRC CORP.Inventors: Adam Vincent Buck, Bradley Chandler Holliday, Nicholas Frederick Budler