Patents by Inventor Edward Domit
Edward Domit 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: 11749814Abstract: An electrochemical cell includes a pair of bipolar plates and a membrane electrode assembly between the bipolar plates. The membrane electrode assembly comprises an anode compartment, a cathode compartment, and a proton exchange membrane disposed therebetween. The cell further includes a sealing surface formed in one of the pair of bipolar plates and a gasket located between the sealing surface and the proton exchange membrane. The gasket is configured to plastically deform to create a seal about one of the cathode compartment or the anode compartment. The sealing surface can include one or more protrusions.Type: GrantFiled: November 2, 2020Date of Patent: September 5, 2023Assignee: Nuvera Fuel Cells, LLCInventors: Roger Van Boeyen, Edward Domit, Kevin Beverage, Scott Blanchet, John Stang
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Patent number: 11387470Abstract: An electrochemical cell stack is provided. The electrochemical cell stack has a plurality of electrochemical cells. Each electrochemical cell has a membrane electrode assembly which includes a cathode catalyst layer, an anode catalyst layer, and a polymer membrane interposed between the catalyst layer and the anode layer. Each electrochemical cell also has an anode plate and a cathode plate with the membrane electrode assembly interposed therebetween, and a cathode flow field positioned between the cathode plate and the cathode catalyst layer. The cathode flow field includes a porous structure having a plurality of pores having an average pore size. The plurality of electrochemical cells has a first electrochemical cell positioned at a first end of the electrochemical cell stack. The porous structure of the first electrochemical cell has an average pore size greater than the average pore size of the porous structures of the plurality of electrochemical cells.Type: GrantFiled: January 17, 2019Date of Patent: July 12, 2022Assignee: Nuvera Fuel Cells, LLCInventors: Filippo Gambini, Scott Blanchet, Olga Polevaya, Edward Domit, Andrew Baugher, Patrick Burand
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Patent number: 11302933Abstract: An electrochemical cell stack having a plurality of electrochemical cells stacked along a longitudinal axis. The electrochemical cells include a membrane electrode assembly comprising a cathode catalyst layer, an anode catalyst layer, and a polymer membrane interposed between the cathode catalyst layer and the anode catalyst layer. The electrochemical cells also include an anode plate and a cathode plate with the membrane electrode assembly interposed therebetween, and the anode plate defines a plurality of channels that form an anode flow field facing the anode catalyst layer. The electrochemical cells further include a cathode flow field positioned between the cathode plate and the cathode catalyst layer, wherein the cathode flow field comprises a porous structure.Type: GrantFiled: January 17, 2019Date of Patent: April 12, 2022Assignee: Nuvera Fuel Cells, LLCInventors: Filippo Gambini, Scott Blanchet, Olga Polevaya, Edward Domit, Andrew Baugher
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Publication number: 20210057764Abstract: An electrochemical cell includes a pair of bipolar plates and a membrane electrode assembly between the bipolar plates. The membrane electrode assembly comprises an anode compartment, a cathode compartment, and a proton exchange membrane disposed therebetween. The cell further includes a sealing surface formed in one of the pair of bipolar plates and a gasket located between the sealing surface and the proton exchange membrane. The gasket is configured to plastically deform to create a seal about one of the cathode compartment or the anode compartment. The sealing surface can include one or more protrusions.Type: ApplicationFiled: November 2, 2020Publication date: February 25, 2021Applicant: NUVERA FUEL CELLS, INC.Inventors: Roger VAN BOEYEN, Edward DOMIT, Kevin BEVERAGE, Scott BLANCHET, John STANG
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Publication number: 20210050606Abstract: An electrochemical cell includes a pair of bipolar plates and a membrane electrode assembly between the bipolar plates. The membrane electrode assembly comprises an anode compartment, a cathode compartment, and a proton exchange membrane disposed therebetween. The cell further includes a sealing surface formed in one of the pair of bipolar plates and a gasket located between the sealing surface and the proton exchange membrane. The gasket is configured to plastically deform to create a seal about one of the cathode compartment or the anode compartment. The sealing surface can include one or more protrusions.Type: ApplicationFiled: November 2, 2020Publication date: February 18, 2021Applicant: NUVERA FUEL CELLS, INC.Inventors: Roger Van Boeyen, Edward Domit, Kevin Beverage, Scott Blanchet, John Stang
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Patent number: 10847815Abstract: An electrochemical cell includes a pair of bipolar plates and a membrane electrode assembly between the bipolar plates. The membrane electrode assembly comprises an anode compartment, a cathode compartment, and a proton exchange membrane disposed therebetween. The cell further includes a sealing surface formed in one of the pair of bipolar plates and a gasket located between the sealing surface and the proton exchange membrane. The gasket is configured to plastically deform to create a seal about one of the cathode compartment or the anode compartment. The sealing surface can include one or more protrusions.Type: GrantFiled: July 29, 2014Date of Patent: November 24, 2020Assignee: Nuvera Fuel Cells, LLPInventors: Roger Van Boeyen, Edward Domit, Kevin Beverage, Scott Blanchet, John Stang
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Patent number: 10468691Abstract: The present disclosure is directed towards the design of bipolar plates for use in conduction-cooled electrochemical cells. Heat generated during the operation of the cell is removed from the active area of the cell to the periphery of the cell via the one or more bipolar plates in the cell. The one or more bipolar plates are configured to function as heat sinks to collect heat from the active area of the cell and to conduct the heat to the periphery of the plate where the heat is removed by traditional heat transfer means. The boundary of the one or more bipolar plates can be provided with heat dissipation structures to facilitate removal of heat from the plates. To function as effective heat sinks, the thickness of the one or more bipolar plates can be determined based on the rate of heat generation in the cell during operation, the thermal conductivity (“k”) of the material selected to form the plate, and the desired temperature gradient in a direction orthogonal to the plate (“?T”).Type: GrantFiled: July 6, 2016Date of Patent: November 5, 2019Assignee: Nuvera Fuel Cells, LLCInventors: Scott Blanchet, Benjamin Lunt, Edward Domit, Roger Van Boeyen
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Publication number: 20190221865Abstract: The electrochemical cell stack has electrochemical cells stacked along a longitudinal axis. The electrochemical cells have a membrane electrode assembly (MEA) with a cathode catalyst layer, an anode catalyst layer, and a polymer membrane therebetween. The electrochemical cells have an anode plate and a cathode plate with the MEA interposed therebetween, and a cathode flow field between the cathode plate and catalyst layer. The anode plate or the cathode plates are formed of uncoated 316 stainless steel. Portions of the cathode or anode plate have an arithmetic average roughness from about 5 ?in to about 35 ?in. The cathode flow field is a porous structure. Surface regions on a side of the porous structure facing the MEA are smooth and align with a subgasket of the MEA.Type: ApplicationFiled: January 17, 2019Publication date: July 18, 2019Applicant: Nuvera Fuel Cells, LLCInventors: Filippo Gambini, Patrick Burand, Edward Domit, Andrew Baugher
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Publication number: 20190221868Abstract: An electrochemical cell stack is provided. The electrochemical cell stack has a plurality of electrochemical cells. Each electrochemical cell has a membrane electrode assembly which includes a cathode catalyst layer, an anode catalyst layer, and a polymer membrane interposed between the catalyst layer and the anode layer. Each electrochemical cell also has an anode plate and a cathode plate with the membrane electrode assembly interposed therebetween, and a cathode flow field positioned between the cathode plate and the cathode catalyst layer. The cathode flow field includes a porous structure having a plurality of pores having an average pore size. The plurality of electrochemical cells has a first electrochemical cell positioned at a first end of the electrochemical cell stack. The porous structure of the first electrochemical cell has an average pore size greater than the average pore size of the porous structures of the plurality of electrochemical cells.Type: ApplicationFiled: January 17, 2019Publication date: July 18, 2019Applicant: Nuvera Fuel Cells, LLCInventors: Filippo Gambini, Scott Blanchet, Olga Polevaya, Edward Domit, Andrew Baugher, Patrick Burand
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Publication number: 20190221867Abstract: An electrochemical cell stack having a plurality of electrochemical cells stacked along a longitudinal axis. The electrochemical cells include a membrane electrode assembly comprising a cathode catalyst layer, an anode catalyst layer, and a polymer membrane interposed between the cathode catalyst layer and the anode catalyst layer. The electrochemical cells also include an anode plate and a cathode plate with the membrane electrode assembly interposed therebetween, and the anode plate defines a plurality of channels that form an anode flow field facing the anode catalyst layer. The electrochemical cells further include a cathode flow field positioned between the cathode plate and the cathode catalyst layer, wherein the cathode flow field comprises a porous structure.Type: ApplicationFiled: January 17, 2019Publication date: July 18, 2019Applicant: Nuvera Fuel Cells, LLCInventors: Filippo Gambini, Scott Blanchet, Olga Polevaya, Edward Domit, Andrew Baugher
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Patent number: 10273588Abstract: A method of sealing a multi-component bipolar plate is disclosed. The method may include inserting a first seal between a first component and a second component, wherein the first seal is aligned with a first plurality of protrusions formed on a surface of at least one of the first component and the second component. The method may also include compressing the first component and the second component to cause the penetration of the first plurality of protrusions into the first seal. The method may further include plastically deforming the first seal in order to create a first sealing surface between the first component and the second component.Type: GrantFiled: August 26, 2015Date of Patent: April 30, 2019Assignee: Nuvera fuel Cells, LLCInventors: Edward Domit, Scott Blanchet, Roger Van Boeyen, Kevin Beverage
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Publication number: 20190020051Abstract: In accordance with one embodiment, an electrochemical cell stack compression system may include an integral, hollow frame configured to contain a plurality of electrochemical cells arranged along an axis in a stack configuration. The frame may have a defined shape and may form a continuous border around a periphery of the electrochemical cell stack when inserted. The frame may be formed of a plurality of fibers.Type: ApplicationFiled: September 18, 2018Publication date: January 17, 2019Applicant: Nuvera Fuel Cells, LLCInventors: Scott Blanchet, Edward Domit, Duncan Lawrie
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Patent number: 10109880Abstract: In accordance with one embodiment, an electrochemical cell stack compression system may include an integral, hollow frame configured to contain a plurality of electrochemical cells arranged along an axis in a stack configuration. The frame may have a defined shape and may form a continuous border around a periphery of the electrochemical cell stack when inserted. The frame may be formed of a plurality of fibers.Type: GrantFiled: March 5, 2014Date of Patent: October 23, 2018Assignee: Nuvera Fuel Cells, LLCInventors: Scott Blanchet, Edward Domit, Duncan Lawrie
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Publication number: 20160315333Abstract: The present disclosure is directed towards the design of bipolar plates for use in conduction-cooled electrochemical cells. Heat generated during the operation of the cell is removed from the active area of the cell to the periphery of the cell via the one or more bipolar plates in the cell. The one or more bipolar plates are configured to function as heat sinks to collect heat from the active area of the cell and to conduct the heat to the periphery of the plate where the heat is removed by traditional heat transfer means. The boundary of the one or more bipolar plates can be provided with heat dissipation structures to facilitate removal of heat from the plates. To function as effective heat sinks, the thickness of the one or more bipolar plates can be determined based on the rate of heat generation in the cell during operation, the thermal conductivity (“k”) of the material selected to form the plate, and the desired temperature gradient in a direction orthogonal to the plate (“?T”).Type: ApplicationFiled: July 6, 2016Publication date: October 27, 2016Inventors: Scott Blanchet, Benjamin Lunt, Edward Domit, Roger Van Boeyen
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Patent number: 9413016Abstract: The present disclosure is directed towards the design of bipolar plates for use in conduction-cooled electrochemical cells. Heat generated during the operation of the cell is removed from the active area of the cell to the periphery of the cell via the one or more bipolar plates in the cell. The one or more bipolar plates are configured to function as heat sinks to collect heat from the active area of the cell and to conduct the heat to the periphery of the plate where the heat is removed by traditional heat transfer means. The boundary of the one or more bipolar plates can be provided with heat dissipation structures to facilitate removal of heat from the plates. To function as effective heat sinks, the thickness of the one or more bipolar plates can be determined based on the rate of heat generation in the cell during operation, the thermal conductivity (“k”) of the material selected to form the plate, and the desired temperature gradient in a direction orthogonal to the plate (“?T”).Type: GrantFiled: September 30, 2013Date of Patent: August 9, 2016Assignee: Nuvera Fuel Cells, LLCInventors: Scott Blanchet, Benjamin Lunt, Edward Domit, Roger Van Boeyen
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Publication number: 20160060775Abstract: A method of sealing a multi-component bipolar plate is disclosed. The method may include inserting a first seal between a first component and a second component, wherein the first seal is aligned with a first plurality of protrusions formed on a surface of at least one of the first component and the second component. The method may also include compressing the first component and the second component to cause the penetration of the first plurality of protrusions into the first seal. The method may further include plastically deforming the first seal in order to create a first sealing surface between the first component and the second component.Type: ApplicationFiled: August 26, 2015Publication date: March 3, 2016Applicant: NUVERA FUEL CELLS, INC.Inventors: Edward Domit, Scott Blanchet, Roger Van Boeyen, Kevin Beverage
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Publication number: 20150030957Abstract: An electrochemical cell includes a pair of bipolar plates and a membrane electrode assembly between the bipolar plates. The membrane electrode assembly comprises an anode compartment, a cathode compartment, and a proton exchange membrane disposed therebetween. The cell further includes a sealing surface formed in one of the pair of bipolar plates and a gasket located between the sealing surface and the proton exchange membrane. The gasket is configured to plastically deform to create a seal about one of the cathode compartment or the anode compartment. The sealing surface can include one or more protrusions.Type: ApplicationFiled: July 29, 2014Publication date: January 29, 2015Applicant: NUVERA FUEL CELLS, INC.Inventors: Roger VAN BOEYEN, Edward DOMIT, Kevin BEVERAGE, Scott BLANCHET, John STANG
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Publication number: 20140255817Abstract: In accordance with one embodiment, an electrochemical cell stack compression system may include an integral, hollow frame configured to contain a plurality of electrochemical cells arranged along an axis in a stack configuration. The frame may have a defined shape and may form a continuous border around a periphery of the electrochemical cell stack when inserted. The frame may be formed of a plurality of fibers.Type: ApplicationFiled: March 5, 2014Publication date: September 11, 2014Applicant: Nuvera Fuel Cells, Inc.Inventors: Scott Blanchet, Edward Domit, Duncan Lawrie
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Publication number: 20140099562Abstract: The present disclosure is directed towards the design of bipolar plates for use in conduction-cooled electrochemical cells. Heat generated during the operation of the cell is removed from the active area of the cell to the periphery of the cell via the one or more bipolar plates in the cell. The one or more bipolar plates are configured to function as heat sinks to collect heat from the active area of the cell and to conduct the heat to the periphery of the plate where the heat is removed by traditional heat transfer means. The boundary of the one or more bipolar plates can be provided with heat dissipation structures to facilitate removal of heat from the plates. To function as effective heat sinks, the thickness of the one or more bipolar plates can be determined based on the rate of heat generation in the cell during operation, the thermal conductivity (“k”) of the material selected to form the plate, and the desired temperature gradient in a direction orthogonal to the plate (“?T”).Type: ApplicationFiled: September 30, 2013Publication date: April 10, 2014Applicant: Nuvera Fuel Cells, Inc.Inventors: Scott Blanchet, Benjamin Lunt, Edward Domit