Patents by Inventor Michael G. McKellar
Michael G. McKellar 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: 11142832Abstract: Methods for producing syngas (e.g., H2 and CO) include introducing a stream comprising H2O and CO2 to a high-temperature co-electrolysis (HTCE) unit. A CO2 sweep gas is also introduced to the HTCE unit. Both H2O and CO2 are reduced in the HTCE unit to form the syngas and to form O2 that is swept away from the HTCE unit by the CO2 sweep gas, and the O2 and CO2 are then introduced to a combustion device (e.g., a gasifier), which may be configured to generate electrical power, as a result of combusting a carbonaceous fuel in the presence of the O2 and CO2. The HTCE unit is powered at least in part by power from an electricity-generating sub-system (e.g., at least one nuclear power plant). Related systems are also disclosed.Type: GrantFiled: February 9, 2018Date of Patent: October 12, 2021Assignee: Battelle Energy Alliance, LLCInventors: James E. O'Brien, Carl M. Stoots, Michael G. McKellar, Richard D. Boardman
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Patent number: 10910116Abstract: A nuclear reactor including a reactor core comprising a plurality of fuel materials and a plurality of heat pipes. The nuclear reactor further includes a heat exchanger coupled to the reactor core defining a flow path in an open volume including at least two heat pipes of the plurality of heat pipes. Methods of operating a nuclear reactor include passing fluid through an open volume in a heat exchanger including at least two heat pipes extending from a reactor core.Type: GrantFiled: March 16, 2017Date of Patent: February 2, 2021Assignee: BATTELLE ENERGY ALLIANCE, LLCInventor: Michael G. Mckellar
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Patent number: 10655911Abstract: A method of liquefying natural gas. The method comprises cooling a gaseous natural gas process stream with a refrigerant flowing in a path isolated from the natural gas process stream. The refrigerant may differ in composition from a composition of the natural gas process stream, and the refrigerant composition may be selected to enhance efficiency of the refrigerant path with regard to a specific composition of the natural gas process stream. The refrigeration path may be operated at pressures, temperatures and flow rates differing from those of the natural gas process stream. Other methods of liquefying natural gas are described. A natural gas liquefaction plant is also described.Type: GrantFiled: June 20, 2012Date of Patent: May 19, 2020Assignee: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar, Dennis N. Bingham, Kerry M. Klingler
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Publication number: 20190376190Abstract: Methods for producing syngas (e.g., H2 and CO) include introducing a stream comprising H2O and CO2 to a high-temperature co-electrolysis (HTCE) unit. A CO2 sweep gas is also introduced to the HTCE unit. Both H2O and CO2 are reduced in the HTCE unit to form the syngas and to form O2 that is swept away from the HTCE unit by the CO2 sweep gas, and the O2 and CO2 are then introduced to a combustion device (e.g., a gasifier), which may be configured to generate electrical power, as a result of combusting a carbonaceous fuel in the presence of the O2 and CO2. The HTCE unit is powered at least in part by power from an electricity-generating sub-system (e.g., at least one nuclear power plant). Related systems are also disclosed.Type: ApplicationFiled: February 9, 2018Publication date: December 12, 2019Inventors: James E. O'Brien, Carl M. Stoots, Michael G. McKellar, Richard D. Boardman
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Publication number: 20180268950Abstract: A nuclear reactor including a reactor core comprising a plurality of fuel materials and a plurality of heat pipes. The nuclear reactor further includes a heat exchanger coupled to the reactor core defining a flow path in an open volume including at least two heat pipes of the plurality of heat pipes. Methods of operating a nuclear reactor include passing fluid through an open volume in a heat exchanger including at least two heat pipes extending from a reactor core.Type: ApplicationFiled: March 16, 2017Publication date: September 20, 2018Inventor: MICHAEL G. MCKELLAR
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Patent number: 9574713Abstract: A vaporization chamber may include at least one conduit and a shell. The at least one conduit may have an inlet at a first end, an outlet at a second end and a flow path therebetween. The shell may surround a portion of each conduit and define a chamber surrounding the portion of each conduit. Additionally, a plurality of discrete apertures may be positioned at longitudinal intervals in a wall of each conduit, each discrete aperture of the plurality of discrete apertures sized and configured to direct a jet of fluid into each conduit from the chamber. A liquid may be vaporized by directing a first fluid comprising a liquid into the inlet at the first end of each conduit, directing jets of a second fluid into each conduit from the chamber through discrete apertures in a wall of each conduit and transferring heat from the second fluid to the first fluid.Type: GrantFiled: November 3, 2010Date of Patent: February 21, 2017Assignee: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar, Lee P. Shunn
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Patent number: 9254448Abstract: A system for vaporizing and sublimating a slurry comprising a fluid including solid particles therein. The system includes a first heat exchanger configured to receive the fluid including solid particles and vaporize the fluid and a second heat exchanger configured to receive the vaporized fluid and solid particles and sublimate the solid particles. A method for vaporizing and sublimating a fluid including solid particles therein is also disclosed. The method includes feeding the fluid including solid particles to a first heat exchanger, vaporizing the fluid, feeding the vaporized fluid and solid particles to a second heat exchanger and sublimating the solid particles. In some embodiments the fluid including solid particles is liquid natural gas or methane including solid carbon dioxide particles.Type: GrantFiled: November 3, 2010Date of Patent: February 9, 2016Assignee: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Michael G. McKellar, Bruce M. Wilding
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Patent number: 9217603Abstract: Heat exchangers include a housing having an inlet and an outlet and forming a portion of a transition chamber. A heating member may form another portion of the transition chamber. The heating member includes a first end having a first opening and a second end having a second opening larger than the first opening. Methods of conveying a fluid include supplying a first fluid into a transition chamber of a heat exchanger, supplying a second fluid into the transition chamber, and altering a state of a portion of the first fluid with the second fluid. Methods of sublimating solid particles include conveying a first fluid comprising a material in a solid state into a transition chamber, heating the material to a gaseous state by directing a second fluid through a heating member and mixing the first fluid and the second fluid.Type: GrantFiled: November 3, 2010Date of Patent: December 22, 2015Assignee: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Michael G. McKellar
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Publication number: 20130340475Abstract: A method of liquefying natural gas. The method comprises cooling a gaseous natural gas process stream with a refrigerant flowing in a path isolated from the natural gas process stream. The refrigerant may differ in composition from a composition of the natural gas process stream, and the refrigerant composition may be selected to enhance efficiency of the refrigerant path with regard to a specific composition of the natural gas process stream. The refrigeration path may be operated at pressures, temperatures and flow rates differing from those of the natural gas process stream. Other methods of liquefying natural gas are described. A natural gas liquefaction plant is also described.Type: ApplicationFiled: June 20, 2012Publication date: December 26, 2013Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar, Dennis N. Bingham, Kerry M. Klingler
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Patent number: 8366902Abstract: Methods and systems are provided for producing syngas utilizing heat from thermochemical conversion of a carbonaceous fuel to support decomposition of at least one of water and carbon dioxide using one or more solid-oxide electrolysis cells. Simultaneous decomposition of carbon dioxide and water or steam by one or more solid-oxide electrolysis cells may be employed to produce hydrogen and carbon monoxide. A portion of oxygen produced from at least one of water and carbon dioxide using one or more solid-oxide electrolysis cells is fed at a controlled flow rate in a gasifier or combustor to oxidize the carbonaceous fuel to control the carbon dioxide to carbon monoxide ratio produced.Type: GrantFiled: March 24, 2008Date of Patent: February 5, 2013Assignee: Battelle Energy Alliance, LLCInventors: Grant L. Hawkes, James E. O'Brien, Carl M. Stoots, J. Stephen Herring, Michael G. McKellar, Richard A. Wood, Robert A. Carrington, Richard D. Boardman
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Publication number: 20120103428Abstract: A vaporization chamber may include at least one conduit and a shell. The at least one conduit may have an inlet at a first end, an outlet at a second end and a flow path therebetween. The shell may surround a portion of each conduit and define a chamber surrounding the portion of each conduit. Additionally, a plurality of discrete apertures may be positioned at longitudinal intervals in a wall of each conduit, each discrete aperture of the plurality of discrete apertures sized and configured to direct a jet of fluid into each conduit from the chamber. A liquid may be vaporized by directing a first fluid comprising a liquid into the inlet at the first end of each conduit, directing jets of a second fluid into each conduit from the chamber through discrete apertures in a wall of each conduit and transferring heat from the second fluid to the first fluid.Type: ApplicationFiled: November 3, 2010Publication date: May 3, 2012Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar, Lee P. Shunn
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Publication number: 20120103012Abstract: A system for vaporizing and sublimating a slurry comprising a fluid including solid particles therein. The system includes a first heat exchanger configured to receive the fluid including solid particles and vaporize the fluid and a second heat exchanger configured to receive the vaporized fluid and solid particles and sublimate the solid particles. A method for vaporizing and sublimating a fluid including solid particles therein is also disclosed. The method includes feeding the fluid including solid particles to a first heat exchanger, vaporizing the fluid, feeding the vaporized fluid and solid particles to a second heat exchanger and sublimating the solid particles. In some embodiments the fluid including solid particles is liquid natural gas or methane including solid carbon dioxide particles.Type: ApplicationFiled: November 3, 2010Publication date: May 3, 2012Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Michael G. McKellar, Bruce M. Wilding
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Publication number: 20120103561Abstract: Heat exchangers include a housing having an inlet and an outlet and forming a portion of a transition chamber. A heating member may form another portion of the transition chamber. The heating member includes a first end having a first opening and a second end having a second opening larger than the first opening. Methods of conveying a fluid include supplying a first fluid into a transition chamber of a heat exchanger, supplying a second fluid into the transition chamber, and altering a state of a portion of the first fluid with the second fluid. Methods of sublimating solid particles include conveying a first fluid comprising a material in a solid state into a transition chamber, heating the material to a gaseous state by directing a second fluid through a heating member and mixing the first fluid and the second fluid.Type: ApplicationFiled: November 3, 2010Publication date: May 3, 2012Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Michael G. McKellar
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Publication number: 20100186446Abstract: Apparatuses and methods are provided for producing liquefied gas, such as liquefied natural gas. In one embodiment, a liquefaction plant may be coupled to a source of unpurified natural gas, such as a natural gas pipeline at a pressure letdown station. A portion of the gas is drawn off and split into a process stream and a cooling stream. The cooling stream may sequentially pass through a compressor and an expander. The process stream may also pass through a compressor. The compressed process stream is cooled, such as by the expanded cooling stream. The cooled, compressed process stream is expanded to liquefy the natural gas. A gas-liquid separator separates the vapor from the liquid natural gas. A portion of the liquid gas may be used for additional cooling. Gas produced within the system may be recompressed for reintroduction into a receiving line.Type: ApplicationFiled: December 29, 2009Publication date: July 29, 2010Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar
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Patent number: 7637122Abstract: Apparatuses and methods are provided for producing liquefied gas, such as liquefied natural gas. In one embodiment, a liquefaction plant may be coupled to a source of unpurified natural gas, such as a natural gas pipeline at a pressure letdown station. A portion of the gas is drawn off and split into a process stream and a cooling stream. The cooling stream may sequentially pass through a compressor and an expander. The process stream may also pass through a compressor. The compressed process stream is cooled, such as by the expanded cooling stream. The cooled, compressed process stream is expanded to liquefy the natural gas. A gas-liquid separator separates the vapor from the liquid natural gas. A portion of the liquid gas may be used for additional cooling. Gas produced within the system may be recompressed for reintroduction into a receiving line.Type: GrantFiled: September 28, 2006Date of Patent: December 29, 2009Assignee: Battelle Energy Alliance, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar
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Patent number: 7594414Abstract: An apparatus and method for producing liquefied natural gas. A liquefaction plant may be coupled to a source of unpurified natural gas, such as a natural gas pipeline at a pressure letdown station. A portion of the gas is drawn off and split into a process stream and a cooling stream. The cooling stream passes through an expander creating work output. A compressor may be driven by the work output and compresses the process stream. The compressed process stream is cooled, such as by the expanded cooling stream. The cooled, compressed process stream is divided into first and second portions with the first portion being expanded to liquefy the natural gas. A gas-liquid separator separates the vapor from the liquid natural gas. The second portion of the cooled, compressed process stream is also expanded and used to cool the compressed process stream.Type: GrantFiled: May 5, 2006Date of Patent: September 29, 2009Assignee: Battelle Energy Alliance, LLCInventors: Bruce M. Wilding, Michael G. McKellar, Terry D. Turner, Francis H. Carney
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Publication number: 20090235587Abstract: Methods and systems are provided for producing syngas utilizing heat from thermochemical conversion of a carbonaceous fuel to support decomposition of at least one of water and carbon dioxide using one or more solid-oxide electrolysis cells. Simultaneous decomposition of carbon dioxide and water or steam by one or more solid-oxide electrolysis cells may be employed to produce hydrogen and carbon monoxide. A portion of oxygen produced from at least one of water and carbon dioxide using one or more solid-oxide electrolysis cells is fed as a controlled flow rate in a gasifier or combustor to oxidize the carbonaceous fuel to control the carbon dioxide to carbon monoxide ratio produced.Type: ApplicationFiled: March 24, 2008Publication date: September 24, 2009Applicant: Battelle Energy Alliance, LLCInventors: Grant L. Hawkes, James E. O'Brien, Carl M. Stoots, J. Stephen Herring, Michael G. McKellar, Richard A. Wood, Robert A. Carrington, Richard D. Boardman
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Patent number: 7591150Abstract: An apparatus and method for producing liquefied natural gas. A liquefaction plant may be coupled to a source of unpurified natural gas, such as a natural gas pipeline at a pressure letdown station. A portion of the gas is drawn off and split into a process stream and a cooling stream. The cooling stream passes through an expander creating work output. A compressor may be driven by the work output and compresses the process stream. The compressed process stream is cooled, such as by the expanded cooling stream. The cooled, compressed process stream is expanded to liquefy the natural gas. A gas-liquid separator separates a vapor from the liquid natural gas. A portion of the liquid gas is used for additional cooling. Gas produced within the system may be recompressed for reintroduction into a receiving line or recirculation within the system for further processing.Type: GrantFiled: May 15, 2006Date of Patent: September 22, 2009Assignee: Battelle Energy Alliance, LLCInventors: Terry D. Turner, Bruce M. Wilding, Michael G. McKellar
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Publication number: 20090145167Abstract: Methods, apparatuses and systems for processing fluid streams having multiple constituents are provided including embodiments utilizing ascending temperature separation processes as well as combined ascending and descending temperature separation processes. For example, in one embodiment, a mixed gas stream may be processed by flowing the stream through multiple heat exchangers, expanding the stream, and then separating the stream into a liquid portion and a vapor portion. The vapor portion, having an increased or decreased concentration of an identified constituent may then pass through the heat exchangers again in reverse order and collected. The liquid portion may then be subjected to further, sequential separation acts which each take place at increasing temperatures. In another embodiment, numerous, sequential separation acts take place in, for example, at decreasing temperatures and, subsequently, at increasing temperatures.Type: ApplicationFiled: December 6, 2007Publication date: June 11, 2009Applicant: Battelle Energy Alliance, LLCInventors: Terry D. Turner, Bruce M. Wilding, Dennis N. Bingham, Michael G. McKellar, Kerry M. Klingler
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Patent number: 7219512Abstract: An apparatus and method for producing liquefied natural gas. A liquefaction plant may be coupled to a source of unpurified natural gas, such as a natural gas pipeline at a pressure letdown station. A portion of the gas is drawn off and split into a process stream and a cooling stream. The cooling stream passes through a turbo expander creating work output. A compressor is driven by the work output and compresses the process stream. The compressed process stream is cooled, such as by the expanded cooling stream. The cooled, compressed process stream is divided into first and second portions with the first portion being expanded to liquefy the natural gas. A gas-liquid separator separates the vapor from the liquid natural gas. The second portion of the cooled, compressed process stream is also expanded and used to cool the compressed process stream. Additional features and techniques may be integrated with the liquefaction process including a water clean-up cycle and a carbon dioxide (CO2) clean-up cycle.Type: GrantFiled: May 5, 2005Date of Patent: May 22, 2007Assignee: Battelle Energy Alliance, LLCInventors: Bruce M. Wilding, Dennis N. Bingham, Michael G. McKellar, Terry D. Turner, Kevin T. Raterman, Gary L. Palmer, Kerry M. Klingler, John J. Vranicar