Patents by Inventor David L. Stucker
David L. Stucker 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: 20240170168Abstract: Disclosed is a passively cooled nuclear reactor, comprising a heat exchanger and a nuclear reactor core disposed proximal to the heat exchanger. The nuclear reactor core comprising a fuel rod, a heat pipe located proximate to the fuel rod and extending from the nuclear reactor core into the heat exchanger, a moderator monolith configured to house and space the fuel rod and the heat pipe, and a thermal bond material disposed internally throughout the moderator monolith to surround the fuel rod and the heat pipe with the thermal bond material and to facilitate heat transfer from the nuclear reactor core to the heat exchanger.Type: ApplicationFiled: November 19, 2022Publication date: May 23, 2024Applicant: Westinghouse Electric Company LLCInventors: David L. STUCKER, Yuriy ALESHIN, Cory STANSBURY, Yasir AFARAT, Alex LEVINSKY, Jurie J. VAN WYK
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Publication number: 20240047088Abstract: Provided herein is a nuclear fuel assembly for a pressurized water reactor. The nuclear fuel assembly comprises: a plurality of nuclear fuel rods configured to contain a fissile material, wherein the nuclear fuel assembly is configured such that a hydrogen to uranium ratio for the fuel assembly, when coolant and the fissile material are present under operating conditions, is at least 4.0. Also provided herein is a method for refueling a pressurized water nuclear reactor comprising a nuclear fuel assembly of the present disclosure.Type: ApplicationFiled: December 7, 2021Publication date: February 8, 2024Applicant: Westinghouse Electric Company LLCInventors: David L. STUCKER, Ho Q. LAM
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Publication number: 20220244200Abstract: A method of processing a nuclear material for use as a nuclear fuel in a nuclear reactor is disclosed herein. The nuclear material includes a complex isotope vector including a plurality of isotopes including a targeted isotope and a non-targeted isotope.Type: ApplicationFiled: February 2, 2021Publication date: August 4, 2022Applicant: Westinghouse Electric Company LLCInventor: David L. STUCKER
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Publication number: 20220215972Abstract: A fuel assembly for use in a nuclear reactor comprising a fuel bundle, a plenum header connection positioned on the fuel bundle, a mast extending from the fuel bundle, and a common fission gas plenum extending from the mast is disclosed. The reactor includes a vessel and coolant situated within the vessel. The fuel bundle comprises a plurality of fuel elements including nuclear fuel material positioned therein. The plenum header connection comprises a plurality of passageways defined therein that are in fluid communication with the nuclear fuel material. The elongate mast comprises an internal passage connecting the common fission gas plenum to the plurality of passageways of the plenum header connection such that the common fission gas plenum is configured to receive an amount of fission gas generated by the nuclear fuel material during operation. The common fission gas plenum is positioned in an otherwise unused portion of the vessel.Type: ApplicationFiled: April 27, 2020Publication date: July 7, 2022Applicant: Westinghouse Electric Company LLCInventors: Cory A. STANSBURY, David L. STUCKER
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Patent number: 10838087Abstract: An apparatus and method are described which enable real time measurements to measure the margin to criticality in a process for manufacturing fissile materials. An exemplary apparatus includes a neutron source capable of being modulated, an optional moderator to reduce the thermal energy of neutrons from the neutron source, a collimator for controlling the direction of any neutrons emanating in use from the target, a plurality of detector arrays positioned in predetermined locations relative to a process vessel for detecting process variables and for sending signals representative of the process variables in real time to a processor for receiving the signals and converting the detected process variables into margin to criticality measurements.Type: GrantFiled: December 20, 2018Date of Patent: November 17, 2020Assignee: Westinghouse Electric Company LLCInventor: David L. Stucker
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Patent number: 10699819Abstract: The invention relates to UF6 transport and process containers to store UF6 enriched up to 20 percent by weight 235U in amounts up to 1,500 kg U. The containers include a shell, which has an integral heat exchanger positioned between the exterior and interior surfaces/substrates of the shell. The integral heat exchanger is composed of metal passage voids to pass heat transport fluid. The shell forms an inner chamber, and a partition configuration is positioned within the inner chamber, extending longitudinally along the length of the container, to form a plurality of individual compartments within the inner chamber to store the UF6. The containers may be produced by additive manufacturing methods.Type: GrantFiled: May 6, 2019Date of Patent: June 30, 2020Assignee: Westinghouse Electric Company LLCInventor: David L. Stucker
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Publication number: 20200200926Abstract: An apparatus and method are described which enable real time measurements to measure the margin to criticality in a process for manufacturing fissile materials. An exemplary apparatus includes a neutron source capable of being modulated, an optional moderator to reduce the thermal energy of neutrons from the neutron source, a collimator for controlling the direction of any neutrons emanating in use from the target, a plurality of detector arrays positioned in predetermined locations relative to a process vessel for detecting process variables and for sending signals representative of the process variables in real time to a processor for receiving the signals and converting the detected process variables into margin to criticality measurements.Type: ApplicationFiled: December 20, 2018Publication date: June 25, 2020Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventor: DAVID L. STUCKER
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Patent number: 10658087Abstract: A detection apparatus is usable to detect the neutron absorption capability of a control element of a nuclear installation and includes a neutron radiograph apparatus and a robot apparatus. The neutron radiograph apparatus includes a neutron emission source of variable strength, a detector array, a mask apparatus and a positioning robot all under the control of a central processor and data acquisition unit. The neutron emission source is advantageously switchable between an ON state and OFF state with variable source strength in the ON state, which avoids any need for shielding beyond placing the neutron emission source in an inspection pool at the nuclear plant site including but not limited to the spent fuel or shipping cask laydown pools. The neutron emission source is situated at one side of a wing of the control element and generates a neutron stream, the detector array is situated on an opposite side of a wing, and the neutron emission source and detector array are robotically advanced along the wing.Type: GrantFiled: April 17, 2019Date of Patent: May 19, 2020Assignee: Westinghouse Electric Company LLCInventor: David L. Stucker
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Publication number: 20190341161Abstract: The invention relates to UF6 transport and process containers to store UF6 enriched up to 20 percent by weight 235U in amounts up to 1,500 kg U. The containers include a shell, which has an integral heat exchanger positioned between the exterior and interior surfaces/substrates of the shell. The integral heat exchanger is composed of metal passage voids to pass heat transport fluid. The shell forms an inner chamber, and a partition configuration is positioned within the inner chamber, extending longitudinally along the length of the container, to form a plurality of individual compartments within the inner chamber to store the UF6. The containers may be produced by additive manufacturing methods.Type: ApplicationFiled: May 6, 2019Publication date: November 7, 2019Applicant: Westinghouse Electric Company LLCInventor: David L. Stucker
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Patent number: 10446281Abstract: A detection apparatus is usable to detect the neutron absorption capability of a control element of a nuclear installation and includes a neutron radiograph apparatus and a robot apparatus. The neutron radiograph apparatus includes a neutron emission source of variable strength, a detector array, a mask apparatus and a positioning robot all under the control of a central processor and data acquisition unit. The neutron emission source is advantageously switchable between an ON state and OFF state with variable source strength in the ON state, which avoids any need for shielding beyond placing the neutron emission source in an inspection pool at the nuclear plant site including but not limited to the spent fuel or shipping cask laydown pools. The neutron emission source is situated at one side of a wing of the control element and generates a neutron stream, the detector array is situated on an opposite side of a wing, and the neutron emission source and detector array are robotically advanced along the wing.Type: GrantFiled: August 15, 2017Date of Patent: October 15, 2019Assignee: Westinghouse Electric Company LLCInventor: David L. Stucker
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Publication number: 20190244720Abstract: A detection apparatus is usable to detect the neutron absorption capability of a control element of a nuclear installation and includes a neutron radiograph apparatus and a robot apparatus. The neutron radiograph apparatus includes a neutron emission source of variable strength, a detector array, a mask apparatus and a positioning robot all under the control of a central processor and data acquisition unit. The neutron emission source is advantageously switchable between an ON state and OFF state with variable source strength in the ON state, which avoids any need for shielding beyond placing the neutron emission source in an inspection pool at the nuclear plant site including but not limited to the spent fuel or shipping cask laydown pools. The neutron emission source is situated at one side of a wing of the control element and generates a neutron stream, the detector array is situated on an opposite side of a wing, and the neutron emission source and detector array are robotically advanced along the wing.Type: ApplicationFiled: April 17, 2019Publication date: August 8, 2019Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventor: David L. Stucker
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Publication number: 20190057787Abstract: A detection apparatus is usable to detect the neutron absorption capability of a control element of a nuclear installation and includes a neutron radiograph apparatus and a robot apparatus. The neutron radiograph apparatus includes a neutron emission source of variable strength, a detector array, a mask apparatus and a positioning robot all under the control of a central processor and data acquisition unit. The neutron emission source is advantageously switchable between an ON state and OFF state with variable source strength in the ON state, which avoids any need for shielding beyond placing the neutron emission source in an inspection pool at the nuclear plant site including but not limited to the spent fuel or shipping cask laydown pools. The neutron emission source is situated at one side of a wing of the control element and generates a neutron stream, the detector array is situated on an opposite side of a wing, and the neutron emission source and detector array are robotically advanced along the wing.Type: ApplicationFiled: August 15, 2017Publication date: February 21, 2019Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventor: David L. STUCKER
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Patent number: 9984779Abstract: An advanced initial core fuel configuration is for improving the fuel management efficiency and thus economics for a nuclear reactor. The advanced initial core fuel configuration includes a plurality of fuel assemblies having different average enrichments of uranium 235 and arranging the fuel assemblies in an initial core configuration structured to emulate a known equilibrium reload cycle core at least in terms of spatial reactivity distribution. The resulting average enrichment within the initial core ranges from below about 1.0 percent weight of uranium 235 to about 5.0 percent weight of uranium 235. An advanced lattice design is also disclosed.Type: GrantFiled: December 2, 2015Date of Patent: May 29, 2018Assignee: Westinghouse Electric Company LLCInventors: David L. Stucker, Robert J. Fetterman, Jeffrey L. Bradfute
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Publication number: 20160111174Abstract: An advanced initial core fuel configuration is for improving the fuel management efficiency and thus economics for a nuclear reactor. The advanced initial core fuel configuration includes a plurality of fuel assemblies having different average enrichments of uranium 235 and arranging the fuel assemblies in an initial core configuration structured to emulate a known equilibrium reload cycle core at least in terms of spatial reactivity distribution. The resulting average enrichment within the initial core ranges from below about 1.0 percent weight of uranium 235 to about 5.0 percent weight of uranium 235. An advanced lattice design is also disclosed.Type: ApplicationFiled: December 2, 2015Publication date: April 21, 2016Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventors: DAVID L. STUCKER, ROBERT J. FETTERMAN, JEFFREY L. BRADFUTE
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Patent number: 9293228Abstract: An advanced initial core fuel configuration is for improving the fuel management efficiency and thus economics for a nuclear reactor. A method of implementing such an initial core involves providing a plurality of fuel assemblies having different average enrichments of uranium 235 and arranging the fuel assemblies in an initial core configuration structured to emulate a known equilibrium reload cycle core at least in terms of spatial reactivity distribution. The resulting average enrichment within the initial core ranges from below about 1.0 percent weight of uranium 235 to about 5.0 percent weight of uranium 235. An advanced lattice design is also disclosed.Type: GrantFiled: April 19, 2012Date of Patent: March 22, 2016Assignee: Westinghouse Electric Company LLCInventors: David L. Stucker, Robert J. Fetterman, Jeffrey L. Bradfute
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Patent number: 8873694Abstract: A neutron emitting assembly, which is useful in nuclear reactors and other industrial applications, is made of a major amount of beryllium encapsulating a minor amount of 252Cf, which can be placed in a capsule having end plugs and a holding spring.Type: GrantFiled: October 7, 2010Date of Patent: October 28, 2014Assignee: Westinghouse Electric Company LLCInventor: David L. Stucker
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Patent number: 8532246Abstract: A control rod having a lower tip absorber material which exhibits substantially lower irradiation induced swelling than a second absorber material which extends above the lower tip absorber material. The lower tip absorber material having a substantially lower reactivity worth than the second absorber material, extends from a lower end plug of the control rod to an elevation just above a dashpot in a thimble guide tube in a nuclear fuel assembly when the control rod is fully inserted within the thimble guide tube.Type: GrantFiled: August 17, 2007Date of Patent: September 10, 2013Assignee: Westinghouse Electric Company LLCInventors: Radu O. Pomirleanu, Michael J. Hone, C. Joseph Long, Michael C. Misvel, David L. Stucker
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Publication number: 20120294406Abstract: An advanced initial core fuel configuration is for improving the fuel management efficiency and thus economics for a nuclear reactor. A method of implementing such an initial core involves providing a plurality of fuel assemblies having different average enrichments of uranium 235 and arranging the fuel assemblies in an initial core configuration structured to emulate a known equilibrium reload cycle core at least in terms of spatial reactivity distribution. The resulting average enrichment within the initial core ranges from below about 1.0 percent weight of uranium 235 to about 5.0 percent weight of uranium 235. An advanced lattice design is also disclosed.Type: ApplicationFiled: April 19, 2012Publication date: November 22, 2012Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventors: David L. Stucker, Robert J. Fetteman, Jeffrey L. Bradfute
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Publication number: 20120087454Abstract: A neutron emitting assembly, which is useful in nuclear reactors and other industrial applications, is made of a major amount of beryllium encapsulating a minor amount of 252Cf, which can be placed in a capsule having end plugs and a holding spring.Type: ApplicationFiled: October 7, 2010Publication date: April 12, 2012Applicant: WESTINGHOUSE ELECTRIC COMPANY LLCInventor: David L. Stucker
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Publication number: 20090095615Abstract: The present invention is directed to a method of isotope separation of one or more isotopes of a metal having a valence of two or more, comprised of selecting a ligand, such as BH4, BD4, CH3BH3 or CD3BD3, for attachment to one or more isotopes of the metal, ionically attaching the ligand to the one or more isotopes of the metal, and separating the one or more isotopes of the metal by an isotope separation technique. Suitable isotope separation techniques that can be used in the methods of the present invention include centrifuge, gaseous diffusion, gaseous distillation or molecular laser isotope separation techniques.Type: ApplicationFiled: October 11, 2007Publication date: April 16, 2009Inventors: Edward J. Lahoda, David L. Stucker