Patents by Inventor Timothy Barckholtz
Timothy Barckholtz 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: 11888187Abstract: Molten carbonate fuel cells (MCFCs) are operated to provide enhanced CO2 utilization. This can increase the effective amount of carbonate ion transport that is achieved. The enhanced CO2 utilization is enabled in part by operating an MCFC under conditions that cause transport of alternative ions across the electrolyte. The amount of alternative ion transport that occurs during enhanced CO2 utilization can be mitigated by using a more acidic electrolyte.Type: GrantFiled: November 26, 2019Date of Patent: January 30, 2024Assignees: ExxonMobil Technology and Engineering Company, FuelCell Energy, Inc.Inventors: Abdelkader Hilmi, Timothy A. Barckholtz, Jonathan Rosen, Heather A. Elsen, Gabor Kiss, Carl A. Willman, Chao-Yi Yuh, Hossein Ghezel-Ayagh, Timothy C. Geary
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Publication number: 20230246215Abstract: Systems and methods are provided for improving the operation of molten carbonate fuel cells that include cathode current collector structures that have reduced contact area with the cathode in order to create increased cathode open surface area. Molten carbonate fuel cells that have cathode collectors with reduced contact area with the cathode can have an increased tendency to suffer structural difficulties during operation, such as formation of gaps between electrolyte and one or both electrodes. Use of a sintered anode in such a fuel cell can reduce or minimize the impact of such structural difficulties. The sintered anode can provide higher pore volume and/or a more stable pore structure and/or increased structural stability in a fuel cell that includes a cathode collector that has a reduced contact area with the cathode. This can maintain a more stable interface between the cathode and electrolyte and/or between the anode and the electrolyte.Type: ApplicationFiled: January 23, 2023Publication date: August 3, 2023Inventors: Jonathan S. ROSEN, Gabor KISS, Timothy A. BARCKHOLTZ, Lu HAN, William A. LAMBERTI, William C. HORN, Abdelkader HILMI, Timothy C. GEARY, Carl A. WILLMAN, Adam W. FRANCO
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Publication number: 20230231169Abstract: Systems and methods are provided for maintaining and/or improving operating lifetime for molten carbonate fuel cells that contain reforming catalyst in the anode when processing cathode input flows that contain sulfur oxides. The systems and methods can include a serial arrangement of molten carbonate fuel cells, where a first fuel cell includes a reduced or minimized amount of reforming catalyst in the anode. A second molten carbonate fuel cell can include reforming catalyst in the anode.Type: ApplicationFiled: January 17, 2023Publication date: July 20, 2023Inventors: Fan HE, Lu HAN, Jonathan Rosen, Timothy A. BARCKHOLTZ
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Publication number: 20220233996Abstract: Systems and methods are provided for regenerating a bed containing absorbed and/or adsorbed CO2 using a low value steam stream. The steam stream can have a pressure of 10 kPa-a to 50 kPa-a and a temperature of 46° C. to 81° C. The steam stream can be used to displace CO2 from the bed, resulting in formation of a low pressure stream including water vapor and CO2. The stream containing water vapor and CO2 is then passed through a liquid ring pump that includes an associated ring cooler. The ring pump provides the suction necessary to draw the low value steam stream through the bed to displace the CO2. Due to the nature of operation of the liquid ring pump, the majority of water in the steam containing H2O and CO2 can be removed within the liquid ring pump, resulting in production of a stream comprising 90 vol % or more of CO2 at a pressure of 90 kPa-a or more.Type: ApplicationFiled: January 7, 2022Publication date: July 28, 2022Inventors: Mohsen S. Yeganeh, John W. Fulton, JR., Sundaresan Narayanan, Timothy A. Barckholtz, Simon C. Weston
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Publication number: 20220002162Abstract: Described herein are methods, systems, and techniques relating to clathrate hydrate formation processes and, particularly, involving reactive metal nucleation substrates for promoting clathrate hydrate formation. The disclosed methods, systems, and techniques allow for improved nucleation rate and yield of clathrate hydrates. In some cases, the disclosed methods, systems, and techniques can also improve or reduce the amount of time needed for obtaining a given quantity of clathrate hydrate phase, for example, in desalination, gas separation and/or gas sequestration processes. The reactive metal nucleation substrate may include reactive metals from Group II, Group I, or Group XIII of the periodic table, for example, in alloyed form with other metals and/or nonmetal elements.Type: ApplicationFiled: July 2, 2021Publication date: January 6, 2022Inventors: Aritra Kar, Palash Acharya, Vaibhav Bahadur, Awan Bhati, Ashish Mhadeshwar, Timothy A. Barckholtz
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Patent number: 11211621Abstract: Systems and methods are provided for operating molten carbonate fuel cells to allow for periodic regeneration of the fuel cells while performing elevated CO2 capture. In some aspects, periodic regeneration can be achieved by shifting the location within the fuel cells where the highest density of alternative ion transport is occurring. Such a shift can result in a new location having a highest density of alternative ion transport, while the previous location can primarily transport carbonate ions. Additionally or alternately, periodic regeneration can be performed by modifying the input flows to the fuel cell and/or relaxing the operating conditions of the fuel cell to reduce or minimize the amount of alternative ion transport.Type: GrantFiled: November 26, 2019Date of Patent: December 28, 2021Assignees: EXXONMOBIL RESEARCH AND ENGINEERING COMPANY, FUELCELL ENERGY, INC.Inventors: Timothy A. Barckholtz, Jonathan Rosen, Carla S. Pereira, Rodrigo F. Blanco Gutierrez, Frank Hershkowitz, Carl A. Willman, Timothy C. Geary
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Publication number: 20200184401Abstract: Aspects of the technology described herein comprise a raw material valuation system that is able to quantify an outcome of various raw material management decisions. Raw material management decisions can include, but are not limited to, purchasing a raw material, selling a raw material, transferring a raw material within a chemical production system, and substituting a proposed purchase of a first raw material with the purchase of a second material. The raw material valuation system can quantify a contemplated changes to a raw material management plan by comparing an optimal reference usage plan to an optimal updated usage plan. The raw material valuation system can calculate a breakeven sale price for a raw material in inventory or a breakeven purchase price for a raw material to be purchased. The raw material valuation system used to generate the reference usage plan and the updated usage plan can use a multi-period optimization model.Type: ApplicationFiled: December 6, 2019Publication date: June 11, 2020Inventors: Dimitri J. Papageorgiou, Francisco Trespalacios, Shivakumar Kameswaran, Myun-Seok Cheon, Timothy A. Barckholtz
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Patent number: 10676799Abstract: In various aspects, systems and methods are provided for operating a molten carbonate fuel cell, such as a fuel cell assembly, with increased production of syngas while also reducing or minimizing the amount of CO2 exiting the fuel cell in the cathode exhaust stream. This can allow for improved efficiency of syngas production while also generating electrical power.Type: GrantFiled: August 15, 2016Date of Patent: June 9, 2020Assignee: ExxonMobil Research and Engineering CompanyInventors: Paul J. Berlowitz, Timothy A. Barckholtz, Frank Hershkowitz
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Publication number: 20200176789Abstract: Molten carbonate fuel cells (MCFCs) are operated to provide enhanced CO2 utilization. This can increase the effective amount of carbonate ion transport that is achieved. The enhanced CO2 utilization is enabled in part by operating an MCFC under conditions that cause transport of alternative ions across the electrolyte. The amount of alternative ion transport that occurs during enhanced CO2 utilization can be mitigated by using a more acidic electrolyte.Type: ApplicationFiled: November 26, 2019Publication date: June 4, 2020Inventors: Abdelkader Hilmi, Timothy A. Barckholtz, Jonathan Rosen, Heather A. Elsen, Gabor Kiss, Carl A. Willman, Chao-Yi Yuh, Hossein Ghezel-Ayagh, Timothy C. Geary
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Publication number: 20200176783Abstract: Cathode collector structures and/or corresponding cathode structures are provided that can allow for improved operation for a molten carbonate fuel cell when operated under conditions for elevated CO2 utilization. A cathode collector structure that provides an increased open area at the cathode surface can reduce or minimize the amount of alternative ion transport that occurs within the fuel cell. Additionally or alternately, grooves in the cathode surface can be used to increase the open area.Type: ApplicationFiled: November 26, 2019Publication date: June 4, 2020Inventors: Jonathan Rosen, Timothy A. Barckholtz, Heather A. Elsen, Gabor Kiss, Lu Han, Thomas M. Smith, Sandipan K. Das, Chao-Yi Yuh, Carl A. Willman, Timothy C. Geary, Keith E. Davis, Abdelkader Hilmi, Lawrence J. Novacco
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Publication number: 20200176793Abstract: Systems and methods are provided for operating molten carbonate fuel cells to allow for periodic regeneration of the fuel cells while performing elevated CO2 capture. In some aspects, periodic regeneration can be achieved by shifting the location within the fuel cells where the highest density of alternative ion transport is occurring. Such a shift can result in a new location having a highest density of alternative ion transport, while the previous location can primarily transport carbonate ions. Additionally or alternately, periodic regeneration can be performed by modifying the input flows to the fuel cell and/or relaxing the operating conditions of the fuel cell to reduce or minimize the amount of alternative ion transport.Type: ApplicationFiled: November 26, 2019Publication date: June 4, 2020Inventors: Timothy A. Barckholtz, Jonathan Rosen, Carla S. Pereira, Rodrigo F. Blanco Gutierrez, Frank Hershkowitz, Carl A. Willman, Timothy C. Geary
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Publication number: 20200176787Abstract: Molten carbonate fuel cell configurations are provided that include one or more baffle structures within the cathode gas collection volume. The baffle structures can reduce the unblocked flow cross-section of the cathode gas collection volume by 10% to 80%. It has been discovered that when operating a molten carbonate fuel cell under conditions for elevated CO2 utilization, the presence of baffles can provide an unexpected benefit in the form of providing increased transference and/or increased operating voltage.Type: ApplicationFiled: November 26, 2019Publication date: June 4, 2020Inventors: Timothy C. Geary, Timothy A. Barckholtz, Jonathan Rosen, Sandipan K. Das, Carl A. Willman, Abdelkader Hilmi, Chao-Yi Yuh
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Patent number: 10622660Abstract: Systems and methods are provided for arranging processing units in a common volume to allow for processing of a fluid flow as part of a mass and/or heat transfer process. Fuel cells are examples of processing units that include separate flow paths for processing two input fluid flows with mass and/or heat transfer between the separate flow paths. The arrangements described herein can allow a gas phase fluid flow to be delivered to a first process flow path of processing units in a common volume. The gas phase fluid flow can be delivered in a relatively uniform manner without the use of an intervening manifold to distribute gas from the common volume into the processing units.Type: GrantFiled: April 6, 2016Date of Patent: April 14, 2020Assignee: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Frank Hershkowitz, Timothy A. Barckholtz, Paul J. Berlowitz, Sandipan K. Das, Thomas A. Badgwell
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Patent number: 10589221Abstract: In various aspects, systems and methods are provided for integrating molten carbonate fuel cells with a fired heater for production of electrical power while also reducing or minimizing the amount of CO2 present in the flue gas generated by the fired heater. The molten carbonate fuel cells can be integrated for use with fired heater so that at least a portion of the flue gas from fired heater flows through cathodes of the fuel cells and at least a portion of the cathode exhaust is returned to a convection section of the fired heater.Type: GrantFiled: April 6, 2016Date of Patent: March 17, 2020Assignee: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Thomas A. Badgwell, Frank Hershkowitz, Timothy A. Barckholtz, Paul J. Berlowitz
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Patent number: 10099972Abstract: Systems and a method are provided for producing an aromatic hydrocarbon and generating electricity from a tail gas stream. The method includes feeding a first stream including a raw natural gas into a reactor. The method includes converting the first stream, at least in part, to a second stream including an aromatic hydrocarbon within the reactor. The method includes separating the second stream into a tail gas stream and a liquid aromatic hydrocarbon stream and combusting at least a portion of the tail gas stream to generate electricity.Type: GrantFiled: November 3, 2014Date of Patent: October 16, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Paul F. Keusenkothen, Timothy A. Barckholtz, J. Tim Cullinane, Robert D. Denton, Frank Hershkowitz, Ian J. Laurenzi
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Publication number: 20170271701Abstract: In various aspects, systems and methods are provided for operating a molten carbonate fuel cell at increased fuel utilization and/or increased CO2 utilization. This can be accomplished in part by performing an effective amount of an endothermic reaction within the fuel cell stack in an integrated manner. This can allow for a desired temperature differential to be maintained within the fuel cell.Type: ApplicationFiled: March 3, 2017Publication date: September 21, 2017Inventors: Paul J. Berlowitz, Timothy A. Barckholtz, Sandipan K. Das
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Patent number: 9755258Abstract: In various aspects, systems and methods are provided for operating a solid oxide fuel cell at conditions that can improve or optimize the combined electrical efficiency and chemical efficiency of the fuel cell. Instead of selecting conventional conditions for maximizing the electrical efficiency of a fuel cell, the operating conditions can allow for output of excess synthesis gas and/or hydrogen in the anode exhaust of the fuel cell. The synthesis gas and/or hydrogen can then be used in a variety of applications, including chemical synthesis processes and collection of hydrogen for use as a fuel.Type: GrantFiled: September 15, 2014Date of Patent: September 5, 2017Assignee: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Paul J. Berlowitz, Timothy A. Barckholtz, Anita S. Lee
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Patent number: 9650246Abstract: In various aspects, systems and methods are provided for integration of molten carbonate fuel cells with a Fischer-Tropsch synthesis process. The molten carbonate fuel cells can be integrated with a Fischer-Tropsch synthesis process in various manners, including providing synthesis gas for use in producing hydrocarbonaceous carbons. Additionally, integration of molten carbonate fuel cells with a Fischer-Tropsch synthesis process can facilitate further processing of vent streams or secondary product streams generated during the synthesis process.Type: GrantFiled: June 16, 2016Date of Patent: May 16, 2017Assignee: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Paul J. Berlowitz, Timothy A. Barckholtz, Frank Hershkowitz
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Patent number: 9556753Abstract: In various aspects, a method for producing electricity by operating two or more turbines in series is provided. The method can include introducing, at least part of, the exhaust from an upstream turbine into a combustion chamber of a downstream turbine. In one aspect, exhaust from the upstream turbine is introduced into the downstream turbine's combustion chamber via the downstream turbine's compression chamber.Type: GrantFiled: September 15, 2014Date of Patent: January 31, 2017Assignee: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Timothy A. Barckholtz, Frank H. Hershkowitz, Paul J. Berlowitz
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Publication number: 20160351931Abstract: In various aspects, systems and methods are provided for operating a molten carbonate fuel cell, such as a fuel cell assembly, with increased production of syngas while also reducing or minimizing the amount of CO2 exiting the fuel cell in the cathode exhaust stream. This can allow for improved efficiency of syngas production while also generating electrical power.Type: ApplicationFiled: August 15, 2016Publication date: December 1, 2016Inventors: Paul J. Berlowitz, Timothy A. Barckholtz, Frank Hershkowitz