Patents by Inventor Mark R. Hagan
Mark R. Hagan 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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Patent number: 7507384Abstract: According to the present invention, a temperature profile within a preferential oxidation reactor is controlled using a two phase water/steam system to provide a temperature range within the reactor (10) which favors the selective oxidation of CO in a hydrogen rich reformate stream. The reformate is flowed in a mixture with oxygen over a preferential oxidation catalyst (17). The temperature profile is controlled by flowing a stream of water proximate to the preferential oxidation catalyst (17) so as the stream of water and the reformate stream passing over the catalyst (17) are in a heat transfer arrangement. The stream of water is maintained as a two phase stream from a point at which the water reaches its boiling temperature to a point proximate an outlet from which the stream of water exits the reactor (10).Type: GrantFiled: June 13, 2003Date of Patent: March 24, 2009Assignee: Nuvera Fuel Cells, Inc.Inventors: Darryl Pollica, William F. Northrop, Chunming (Frank C.) Qi, Mark R. Hagan, Alexis Smith, Lawrence Clawson
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Patent number: 7367996Abstract: A hydrocarbon fuel processing reactor for generating a hydrogen-enriched reformate from hydrocarbons is disclosed. A plurality of shells are arranged coaxially having a gap defined between each of the successive shells, thereby forming a plurality of coaxial zones. The shells are configured to permit heat transfer from one zone to another. Fluid streams for reactions within the reactor are preheated by heat transfer from adjacent zones.Type: GrantFiled: December 5, 2001Date of Patent: May 6, 2008Assignee: Nuvera Fuel Cells, Inc.Inventors: Lawrence G. Clawson, Mark R. Hagan, Chunming Frank Qi, William F. Northrop
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Patent number: 6921595Abstract: The efficiency of a combination reformer/fuel cell system is significantly improved by recapturing the energy value of heat generated in the fuel cell and producing additional power. The cooling water from the fuel cell is mixed, entirely or in part, with sufficient or excess compressed air, and at least partially evaporates in the compressed air. The air is at least sufficient to support the oxidative reactions in the fuel cell and also to serve as oxidant in a burner that provides heat to reform fuel/steam mixtures into hydrogen-containing reformate. This air/steam mixture, after leaving the fuel cell, is further heated by heat exchange with the reformate stream and reformate-producing modules, and with the exhaust stream of the burner. The steam/air mixture is injected into the burner, optionally after superheating in the burner exhaust, and is reacted with fuel in the burner. The burner exhaust may be used to provide heat to a fuel reforming reaction.Type: GrantFiled: May 30, 2001Date of Patent: July 26, 2005Assignee: Nuvera Fuel Cells, Inc.Inventors: Lawrence G. Clawson, Mark R. Hagan
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Patent number: 6916564Abstract: A hydrogen fuel cell power system having improved efficiency comprises a fuel cell, a source of hydrogen gas, a compressor for creating a pressurized air stream, and a liquid supply which is heated by waste heat form the power system and evaporates into the pressurized air stream to produce a pressurized air and steam mixture. The pressurized air/steam mixture, which is preferably used as the oxidant in the fuel cell, is combusted with fuel in a burner to produce a high-temperature steam-laden exhaust stream. The high-temperature steam-laden exhaust stream drives an expander to produce a power output, and a power take-off from the expander uses the expander power to, for instance, drive an electrical generator, or drive other system components. The evaporation of liquid can take place external to the fuel cell, or can take place directly within the fuel cell, preferably using a cooling liquid that is directly injected into the fuel cell.Type: GrantFiled: December 31, 2002Date of Patent: July 12, 2005Assignee: Nuvera Fuel Cells, Inc.Inventors: Lawrence G. Clawson, Christopher J. O'Brien, Mark R. Hagan
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Patent number: 6861169Abstract: Interconnection layouts are described that are particularly effective in the construction of a steam reformer/fuel cell combination for providing domestic heat and/or hot water as well as electricity. A distinguishing feature of the interconnections is that they permit the operator to optimize the efficiency of operation of the integrated system, and provide a higher efficiency at optimum operation compared to prior art designs. Combinations of reformer/fuel cell systems with conventional furnaces or boilers are also described.Type: GrantFiled: May 8, 2002Date of Patent: March 1, 2005Assignee: Nuvera Fuel Cells, Inc.Inventors: Mark R. Hagan, Matthew H. Dorson, Lawrence G. Clawson, Michael Leschiner
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Publication number: 20040037758Abstract: According to the present invention, a temperature profile within a preferential oxidation reactor is controlled using a two phase water/steam system to provide a temperature range within the reactor (10) which favors the selective oxidation of CO in a hydrogen rich reformate stream. The reformate is flowed in a mixture with oxygen over a preferential oxidation catalyst (17). The temperature profile is controlled by flowing a stream of water proximate to the preferential oxidation catalyst (17) so as the stream of water and the reformate stream passing over the catalyst (17) are in a heat transfer arrangement. The stream of water is maintained as a two phase stream from a point at which the water reaches its boiling temperature to a point proximate an outlet from which the stream of water exits the reactor (10).Type: ApplicationFiled: June 13, 2003Publication date: February 26, 2004Inventors: Darryl Pollica, William F. Northrop, Chunming Qi, Mark R. Hagan, Alexis Smith, Lawrence G. Clawson
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Patent number: 6641625Abstract: A hydrocarbon reformer system including a first reactor configured to generate hydrogen-rich reformate by carrying out at least one of a non-catalytic thermal partial oxidation, a catalytic partial oxidation, a steam reforming, and any combinations thereof, a second reactor in fluid communication with the first reactor to receive the hydrogen-rich reformate, and having a catalyst for promoting a water gas shift reaction in the hydrogen-rich reformate, and a heat exchanger having a first mass of two-phase water therein and configured to exchange heat between the two-phase water and the hydrogen-rich reformate in the second reactor, the heat exchanger being in fluid communication with the first reactor so as to supply steam to the first reactor as a reactant is disclosed. The disclosed reformer includes an auxiliary reactor configured to generate heated water/steam and being in fluid communication with the heat exchanger of the second reactor to supply the heated water/steam to the heat exchanger.Type: GrantFiled: May 2, 2000Date of Patent: November 4, 2003Assignee: Nuvera Fuel Cells, Inc.Inventors: Lawrence G. Clawson, Matthew H. Dorson, William L. Mitchell, Brian J. Nowicki, Johannes Thijssen, Robert Davis, Christopher Papile, Jennifer W. Rumsey, Nathan Longo, James C. Cross, III, Vincent Rizzo, Gunther Kleeburg, Michael Rindone, Stephen G. Block, Maria Sun, Brian D. Morriseau, Mark R. Hagan, Brian Bowers
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Publication number: 20030170518Abstract: A hydrogen fuel cell power system having improved efficiency comprises a fuel cell, a source of hydrogen gas, a compressor for creating a pressurized air stream, and a liquid supply which is heated by waste heat form the power system and evaporates into the pressurized air stream to produce a pressurized air and steam mixture. The pressurized air/steam mixture, which is preferably used as the oxidant in the fuel cell, is combusted with fuel in a burner to produce a high-temperature steam-laden exhaust stream. The high-temperature steam-laden exhaust stream drives an expander to produce a power output, and a power take-off from the expander uses the expander power to, for instance, drive an electrical generator, or drive other system components. The evaporation of liquid can take place external to the fuel cell, or can take place directly within the fuel cell, preferably using a cooling liquid that is directly injected into the fuel cell.Type: ApplicationFiled: December 31, 2002Publication date: September 11, 2003Applicant: Nuvera Fuel Cells, Inc.Inventors: Lawrence G. Clawson, Christopher J. O'Brien, Mark R. Hagan
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Publication number: 20030154655Abstract: A process for converting carbon monoxide and water in a reformate stream into carbon dioxide and hydrogen comprising: generating a reformate by reacting a hydrocarbon via partial oxidation, steam reforming, or both, including autothermal reforming; and promoting a water gas shift in the reformate in the presence of a platinum group metal selected from the group consisting of platinum, palladium, iridium, osmium, rhodium and mixtures thereof, supported on zirconium oxide. The platinum group metal advantageously may be supported directly on a monolithic substrate composed of zirconium oxide.Type: ApplicationFiled: February 24, 2003Publication date: August 21, 2003Inventors: Prashant S. Chintawar, Craig Thompson, Mark R. Hagan
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Publication number: 20030118489Abstract: A housing containing two or more individual operating components called modules is disclosed. The modules themselves are independently contained in one or more vessels with attendant connectivity structures such as pipes, tubes, wires and the like. Each such vessel or device is configured to conduct at least one unit reaction or operation necessary or desired for generating or purifying a hydrogen enriched product gas formed from a hydrocarbon feed stock. Any vessel or zone in which such a unit operation is conducted, and is separately housed with respect at least one other vessel or zone for conducting a unit operation, is considered a module.Type: ApplicationFiled: December 20, 2002Publication date: June 26, 2003Inventors: Mark R. Hagan, William F. Northrop, Jian Lian Zhao
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Patent number: 6524550Abstract: A process for converting carbon monoxide and water in a reformate stream into carbon dioxide and hydrogen comprising: generating a reformate by reacting a hydrocarbon via partial oxidation, steam reforming, or both, including autothermal reforming; and promoting a water gas shift in the reformate in the presence of a platinum group metal selected from the group consisting of platinum, palladium, iridium, osmium, rhodium and mixtures thereof, supported on zirconium oxide. The platinum group metal advantageously may be supported directly on a monolithic substrate composed of zirconium oxide.Type: GrantFiled: May 2, 2000Date of Patent: February 25, 2003Inventors: Prashant S. Chintawar, Craig Thompson, Mark R. Hagan
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Publication number: 20020182457Abstract: A hydrocarbon fuel processing reactor for generating a hydrogen-enriched reformate from hydrocarbons is disclosed. A plurality of shells are arranged coaxially having a gap defined between each of the successive shells, thereby forming a plurality of coaxial zones. The shells are configured to permit heat transfer from one zone to another. Fluid streams for reactions within the reactor are preheated by heat transfer from adjacent zones.Type: ApplicationFiled: December 5, 2001Publication date: December 5, 2002Inventors: Lawrence G. Clawson, Mark R. Hagan, Chunming Frank Qi, William F. Northrop
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Publication number: 20020172846Abstract: Interconnection layouts are described that are particularly effective in the construction of a steam reformer/fuel cell combination for providing domestic heat and/or hot water as well as electricity. A distinguishing feature of the interconnections is that they permit the operator to optimize the efficiency of operation of the integrated system, and provide a higher efficiency at optimum operation compared to prior art designs. Combinations of reformer/fuel cell systems with conventional furnaces or boilers are also described.Type: ApplicationFiled: May 8, 2002Publication date: November 21, 2002Inventors: Mark R. Hagan, Matthew H. Dorson, Lawrence G. Clawson, Michael Leshchiner
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Publication number: 20020004152Abstract: The efficiency of a combination reformer/fuel cell system is significantly improved by recapturing the energy value of heat generated in the fuel cell and producing additional power. The cooling water from the fuel cell is mixed, entirely or in part, with sufficient or excess compressed air, and at least partially evaporates in the compressed air. The air is at least sufficient to support the oxidative reactions in the fuel cell and also to serve as oxidant in a burner that provides heat to reform fuel/steam mixtures into hydrogen-containing reformate. This air /steam mixture, after leaving the fuel cell, is further heated by heat exchange with the reformate stream and reformate-producing modules, and with the exhaust stream of the burner. The steam/air mixture is injected into the burner, optionally after superheating in the burner exhaust, and is reacted with fuel in the burner. The burner exhaust may be used to provide heat to a fuel reforming reaction.Type: ApplicationFiled: May 30, 2001Publication date: January 10, 2002Inventors: Lawrence G. Clawson, Mark R. Hagan