Patents by Inventor Michael Krumpelt
Michael Krumpelt 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: 20030042173Abstract: A method for reforming a sulfur-containing carbonaceous fuel in which the sulfur-containing carbonaceous fuel is mixed with H2O and an oxidant, forming a fuel/H2O/oxidant mixture. The fuel H2O/oxidant mixture is brought into contact with a catalyst composition comprising a dehydrogenation portion, an oxidation portion and a hydrodesulfurization portion, resulting in formation of a hydrogen-containing gas stream.Type: ApplicationFiled: May 18, 2001Publication date: March 6, 2003Inventors: Michael Krumpelt, John P. Kopasz, Shabbir Ahmed, Richard Li-chih Kao, Sarabjit Singh Randhava
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Publication number: 20030035991Abstract: The invention provides an ion conducting membrane comprising dendrimeric polymers covalently linked into a network structure. The dendrimeric polymers of the invention have acid functional terminal groups and may be covalently linked via linking compounds, cross-coupling reactions, or copolymerization reactions. The invention also provides methods for producing the ion conducting membranes and fuel cells made from the membranes.Type: ApplicationFiled: March 25, 2002Publication date: February 20, 2003Applicant: The University of ChicagoInventors: Daniel G. Colombo, Michael Krumpelt, Deborah J. Myers, John P. Kopasz
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Patent number: 6521202Abstract: An oxygen ion conducting ceramic oxide that has applications in industry including fuel cells, oxygen pumps, oxygen sensors, and separation membranes. The material is based on the idea that substituting a dopant into the host perovskite lattice of (La,Sr)MnO3 that prefers a coordination number lower than 6 will induce oxygen ion vacancies to form in the lattice. Because the oxygen ion conductivity of (La,Sr)MnO3 is low over a very large temperature range, the material exhibits a high overpotential when used. The inclusion of oxygen vacancies into the lattice by doping the material has been found to maintain the desirable properties of (La,Sr)MnO3, while significantly decreasing the experimentally observed overpotential.Type: GrantFiled: June 28, 1999Date of Patent: February 18, 2003Assignee: University of ChicagoInventors: John Vaughey, Michael Krumpelt, Xiaoping Wang, J. David Carter
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Publication number: 20020193247Abstract: A multi-part catalyst composition having a dehydrogenation portion, an oxidation portion and a hydrodesulfurization portion. The catalyst composition is suitable for reforming a sulfur-containing carbonaceous fuel.Type: ApplicationFiled: May 18, 2001Publication date: December 19, 2002Inventors: Michael Krumpelt, John P. Kopasz, Shabbir Ahmed, Richard Li-chih Kao, Sarabjit Singh Randhava
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Publication number: 20020174603Abstract: A method of generating a H2 rich gas from a fuel includes supplying a mixture of molecular oxygen, fuel, and water to a fuel processor, and converting the mixture of molecular oxygen, fuel, and water in the fuel processor to the H2 rich gas. The fuel has the formula CnHmOp where n has a value ranging from 1 to 20 and is the average number of carbon atoms per mole of the fuel; m has a value ranging from 2 to 42 and is the average number of hydrogen atoms per mole of the fuel; and p has a value ranging from 0 to 12 and is the average number of oxygen atoms per mole of the fuel. The molar ratio of molecular oxygen supplied to the fuel processor per mole of fuel is a value ranging from about 0.5x0 to about 1.5x0, and the value of x0 is equal to 0.312n−0.5p+0.5(&Dgr;Hf, fuel/&Dgr;Hf, water) where n and p have the values described above, &Dgr;Hf, fuel is the heat of formation of the fuel, and &Dgr;Hf, water is the heat of formation of water.Type: ApplicationFiled: March 23, 2001Publication date: November 28, 2002Inventors: Shabbir Ahmed, Michael Krumpelt
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Publication number: 20020172630Abstract: A method of producing a H2 rich gas stream includes supplying an O2 rich gas, steam, and fuel to an inner reforming zone of a fuel processor that includes a partial oxidation catalyst and a steam reforming catalyst or a combined partial oxidation and stream reforming catalyst. The method also includes contacting the O2 rich gas, steam, and fuel with the partial oxidation catalyst and the steam reforming catalyst or the combined partial oxidation and stream reforming catalyst in the inner reforming zone to generate a hot reformate stream. The method still further includes cooling the hot reformate stream in a cooling zone to produce a cooled reformate stream. Additionally, the method includes removing sulfur-containing compounds from the cooled reformate stream by contacting the cooled reformate stream with a sulfur removal agent.Type: ApplicationFiled: March 23, 2001Publication date: November 21, 2002Inventors: Shabbir Ahmed, Sheldon H. D. Lee, John David Carter, Michael Krumpelt
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Publication number: 20020169077Abstract: A monolithic catalyst with micro-scale flow channels and methods of making such a monolithic catalyst are provided. The monolithic catalyst includes a plurality of thin catalyst walls. The walls have a set thickness in a range from 1 to 150 &mgr;m. The thin catalyst walls define a plurality of flow channels. A fugitive material is used to form the flow channels. The flow channels have a set width in a range from 1 to 200 &mgr;m. A flexible strip that includes a layer of catalyst material and a fugitive layer forms the monolithic catalyst. This flexibility allows the strips to be formed into selected shapes as needed for a particular reactor design. For example, strips can be rolled into a spiral cylinder or folded into a planar stack. The flow channels are formed by an organic fugitive material, which burns off during processing.Type: ApplicationFiled: May 9, 2001Publication date: November 14, 2002Applicant: THE UNIVERSITY OF CHICAGOInventors: Joong-Myeon Bae, John David Carter, Michael Krumpelt, Shabbir Ahmed
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Patent number: 6303098Abstract: A method of forming a hydrogen rich gas from a source of hydrocarbon fuel. A vapor of the hydrocarbon fuel and steam is brought in contact with a two-part catalyst having a dehydrogenation powder portion and an oxide-ion conducting powder portion at a temperature not less than about 770°C. for a time sufficient to generate the hydrogen rich. The H2 content of the hydrogen gas is greater than about 70 percent by volume. The dehydrogenation portion of the catalyst includes a group VIII metal, and the oxide-ion conducting portion is selected from a ceramic oxide from the group crystallizing in the fluorite or perovskite structure and mixtures thereof. The oxide-ion conducting portion of the catalyst is a ceramic powder of one or more of ZrO2, CeO2, Bi2O3, (BiVO)4, and LaGaO3.Type: GrantFiled: August 24, 1999Date of Patent: October 16, 2001Assignee: University of ChicagoInventors: Kurt W. Kramarz, Ira D. Bloom, Romesh Kumar, Shabbir Ahmed, Rolf Wilkenhoener, Michael Krumpelt
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Patent number: 6244367Abstract: A partial oxidation reformer comprising a longitudinally extending chamber having a methanol, water and an air inlet and an outlet. An igniter mechanism is near the inlets for igniting a mixture of methanol and air, while a partial oxidation catalyst in the chamber is spaced from the inlets and converts methanol and oxygen to carbon dioxide and hydrogen. Controlling the oxygen to methanol mole ratio provides continuous slightly exothermic partial oxidation reactions of methanol and air producing hydrogen gas. The liquid is preferably injected in droplets having diameters less than 100 micrometers. The reformer is useful in a propulsion system for a vehicle which supplies a hydrogen-containing gas to the negative electrode of a fuel cell.Type: GrantFiled: July 6, 1998Date of Patent: June 12, 2001Assignee: The University of ChicagoInventors: Shabbir Ahmed, Romesh Kumar, Michael Krumpelt
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Patent number: 6110861Abstract: A two-part catalyst comprising a dehydrogenation portion and an oxide-ion conducting portion. The dehydrogenation portion is a group VIII metal and the oxide-ion conducting portion is selected from a ceramic oxide crystallizing in the fluorite or perovskite structure. There is also disclosed a method of forming a hydrogen rich gas from a source of hydrocarbon fuel in which the hydrocarbon fuel contacts a two-part catalyst comprising a dehydrogenation portion and an oxide-ion conducting portion at a temperature not less than about 400.degree. C. for a time sufficient to generate the hydrogen rich gas while maintaining CO content less than about 5 volume percent. There is also disclosed a method of forming partially oxidized hydrocarbons from ethanes in which ethane gas contacts a two-part catalyst comprising a dehydrogenation portion and an oxide-ion conducting portion for a time and at a temperature sufficient to form an oxide.Type: GrantFiled: June 2, 1997Date of Patent: August 29, 2000Assignee: The University of ChicagoInventors: Michael Krumpelt, Shabbir Ahmed, Romesh Kumar, Rajiv Doshi
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Patent number: 5942346Abstract: A partial oxidation reformer comprising a longitudinally extending chamber having a methanol, water and an air inlet and an outlet. An igniter mechanism is near the inlets for igniting a mixture of methanol and air, while a partial oxidation catalyst in the chamber is spaced from the inlets and converts methanol and oxygen to carbon dioxide and hydrogen. Controlling the oxygen to methanol mole ratio provides continuous slightly exothermic partial oxidation reactions of methanol and air producing hydrogen gas. The liquid is preferably injected in droplets having diameters less than 100 micrometers. The reformer is useful in a propulsion system for a vehicle which supplies a hydrogen-containing gas to the negative electrode of a fuel cell.Type: GrantFiled: July 6, 1998Date of Patent: August 24, 1999Assignee: The University of ChicagoInventors: Shabbir Ahmed, Romesh Kumar, Michael Krumpelt
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Patent number: 5939025Abstract: A partial oxidation reformer comprising a longitudinally extending chamber having a methanol, water and an air inlet and an outlet. An igniter mechanism is near the inlets for igniting a mixture of methanol and air, while a partial oxidation catalyst in the chamber is spaced from the inlets and converts methanol and oxygen to carbon dioxide and hydrogen. Controlling the oxygen to methanol mole ratio provides continuous slightly exothermic partial oxidation reactions of methanol and air producing hydrogen gas. The liquid is preferably injected in droplets having diameters less than 100 micrometers. The reformer is useful in a propulsion system for a vehicle which supplies a hydrogen-containing gas to the negative electrode of a fuel cell.Type: GrantFiled: August 23, 1995Date of Patent: August 17, 1999Assignee: The University of ChicagoInventors: Shabbir Ahmed, Romesh Kumar, Michael Krumpelt
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Patent number: 5929286Abstract: A method of forming a hydrogen rich gas from a source of hydrocarbon fuel in which the hydrocarbon fuel contacts a two-part catalyst comprising a dehydrogenation portion and an oxide-ion conducting portion at a temperature not less than about 400.degree. C. for a time sufficient to generate the hydrogen rich gas while maintaining CO content less than about 5 volume percent. There is also disclosed a method of forming partially oxidized hydrocarbons from ethanes in which ethane gas contacts a two-part catalyst comprising a dehydrogenation portion and an oxide-ion conducting portion for a time and at a temperature sufficient to form an oxide.Type: GrantFiled: June 5, 1998Date of Patent: July 27, 1999Assignee: The University of ChicagoInventors: Michael Krumpelt, Shabbir Ahmed, Romesh Kumar, Rajiv Doshi
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Patent number: 5248566Abstract: A propulsion system for a vehicle having pairs of front and rear wheels and a fuel tank. An electrically driven motor having an output shaft operatively connected to at least one of said pair of wheels is connected to a fuel cell having a positive electrode and a negative electrode separated by an electrolyte for producing dc power to operate the motor. A partial oxidation reformer is connected both to the fuel tank and to the fuel cell receives hydrogen-containing fuel from the fuel tank and water and air and for partially oxidizing and reforming the fuel with water and air in the presence of an oxidizing catalyst and a reforming catalyst to produce a hydrogen-containing gas. The hydrogen-containing gas is sent from the partial oxidation reformer to the fuel cell negative electrode while air is transported to the fuel cell positive electrode to produce dc power for operating the electric motor.Type: GrantFiled: November 25, 1991Date of Patent: September 28, 1993Assignee: The United States of America as represented by the United States Department of EnergyInventors: Romesh Kumar, Shabbir Ahmed, Michael Krumpelt, Kevin M. Myles
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Patent number: 5232794Abstract: An electrolyte that operates at temperatures ranging from 600.degree. C. to 800.degree. C. is provided. The electrolyte conducts charge ionically as well as electronically. The ionic conductors include molecular framework structures having planes or channels large enough to transport oxides or hydrated protons and having net-positive or net-negative charges. Representative molecular framework structures include substituted aluminum phosphates, orthosilicates, silicoaluminates, cordierites, apatites, sodalites, and hollandites.Type: GrantFiled: October 17, 1991Date of Patent: August 3, 1993Assignee: The United States of America as represented by the United States Department of EnergyInventors: Michael Krumpelt, Ira D. Bloom, Jose D. Pullockaran, Kevin M. Myles
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Patent number: 5213911Abstract: A solid-oxide electrolyte operable at between 600.degree. C. and 800.degree. C. and a method of producing the solid-oxide electrolyte are provided. The solid-oxide electrolyte comprises a combination of a compound having weak metal-oxygen interactions with a compound having stronger metal-oxygen interactions whereby the resulting combination has both strong and weak metal-oxygen interaction properties.Type: GrantFiled: October 17, 1991Date of Patent: May 25, 1993Assignee: The United States of America as represented by The United States Department of EnergyInventors: Ira D. Bloom, Mark C. Hash, Michael Krumpelt
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Patent number: 4415412Abstract: A process for producing an anhydrous aluminum chloride composition from a water-based aluminous material such as a slurry of aluminum hydroxide in a multistage extraction process in which the aluminum ion is first extracted into an organic liquid containing an acidic extractant and then extracted from the organic phase into an alkali metal chloride or chlorides to form a melt containing a mixture of chlorides of alkali metal and aluminum. In the process, the organic liquid may be recycled. In addition, the process advantageously includes an electrolysis cell for producing metallic aluminum and the alkali metal chloride or chlorides may be recycled for extraction of the aluminum from the organic phase.Type: GrantFiled: October 8, 1981Date of Patent: November 15, 1983Assignee: The United States of America as represented by the United States Department of EnergyInventors: George F. Vandegrift, Michael Krumpelt, E. Philip Horwitz
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Patent number: 4292378Abstract: A system and method for thermally regenerating an electrochemical concentration cell having first and second aluminum electrodes respectively positioned in contact with first and second electrolytes separated by an ion exchange member, the first and second electrolytes being composed of different concentrations of an ionic solvent and a salt, preferably an aluminum halide. The ionic solvent may be either organic or inorganic with a relatively low melting point, the ionic solvent and the salt form a complex wherein the free energy of formation of said complex is less than about -5 Kcal/mole. A distillation column using solar heat or low grade industrial waste heat receives the first and second electrolytes and thermally decomposes the salt-solvent complex to provide feed material for the two half cells.Type: GrantFiled: May 9, 1980Date of Patent: September 29, 1981Assignee: The United States of America as represented by the United States Department of EnergyInventors: Michael Krumpelt, John K. Bates
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Patent number: 4204921Abstract: Deposits of alkali metal ions such as calcium and magnesium on chlor-alkali cathodes and diaphragms are removed by feeding an acid such as hydrochloric acid into the cathode feed in an amount sufficient to reduce the pH below 8 for a time sufficient to remove these deposits and restore the cell to normal operation. The use of this invention allows one to use relatively high hardness water as the cathode feed solution during normal operation of a membrane chlor-alkali cell.Type: GrantFiled: March 19, 1979Date of Patent: May 27, 1980Assignee: BASF Wyandotte CorporationInventors: Wayne E. Britton, Michael Krumpelt
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Patent number: 4175025Abstract: An electrolysis cell assembly of the filter press type having plastic frames and a membrane wherein the membrane is formed to fit between adjacent frames with one or more recesses provided on one or both of the adjacent frames together with sealing gasket means which are formed for effectively controlling electrode spacing and for retaining the membrane in position without membrane damage. The construction not only provides proper sealing and protection of the membrane during use, but also allows for the membrane to be removed, reactivated, and reused.Type: GrantFiled: July 7, 1978Date of Patent: November 20, 1979Assignee: BASF Wyandotte CorporationInventors: Edward D. Creamer, Michael Krumpelt