Patents by Inventor Jeffery F. Latkowski
Jeffery F. Latkowski 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: 10665356Abstract: Configurations of molten fuel salt reactors are described that utilize neutron-reflecting coolants or a combination of primary salt coolants and secondary neutron-reflecting coolants. Further configurations are described that circulate liquid neutron-reflecting material around an reactor core to control the neutronics of the reactor. Furthermore, configurations which use the circulating neutron-reflecting material to actively cool the containment vessel are also described.Type: GrantFiled: May 2, 2017Date of Patent: May 26, 2020Assignee: TerraPower, LLCInventors: Ryan Abbott, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter, Robert C. Petroski, Joshua C. Walter, Jesse R. Cheatham, III, Anselmo T. Cisneros, Jr., Ken Czerwinski, Bassem S. El-Dasher, Daniel Flowers, Charles Gregory Freeman, Mark A. Havstad, Christopher J. Johns
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Publication number: 20200118698Abstract: A molten salt reactor includes a nuclear reactor core for sustaining a nuclear fission reaction fueled by a molten fuel salt. A molten fuel salt control system removes a volume of the molten fuel salt from the nuclear reactor core to maintain a reactivity parameter within a range of nominal reactivity. The molten fuel salt control system includes a molten fuel salt exchange system that fluidically couples to the nuclear reactor core and exchanges a volume of the molten fuel salt with a volume of a feed material containing a mixture of a selected fertile material and a carrier salt. The molten fuel salt control system can include a volumetric displacement control system having one or more volumetric displacement bodies insertable into the nuclear reactor core. Each volumetric displacement body can remove a volume of molten fuel salt from the nuclear reactor core, such as via a spill-over system.Type: ApplicationFiled: October 7, 2019Publication date: April 16, 2020Applicant: TerraPower, LLCInventors: Jesse R. Cheatham, III, Anselmo T. Cisneros, JR., Jeffery F. Latkowski, James M. Vollmer, Christopher J. Johns
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Publication number: 20200027590Abstract: A reflector assembly for a molten chloride fast reactor (MCFR) includes a support structure with a substantially cylindrical base plate, a substantially cylindrical top plate, and a plurality of circumferentially spaced ribs extending between the base plate and the top plate. The support structure is configured to encapsulate a reactor core for containing nuclear fuel. The MCFR also includes a plurality of tube members disposed within the support structure and extending axially between the top plate and the bottom plate. The plurality of tube members are configured to hold at least one reflector material to reflect fission born neutrons back to a center of the reactor core.Type: ApplicationFiled: March 12, 2019Publication date: January 23, 2020Applicant: TerraPower, LLCInventors: Anselmo T. Cisneros, JR., Charles Gregory Freeman, Kevin Kramer, Jeffery F. Latkowski
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Patent number: 10438705Abstract: A molten salt reactor includes a nuclear reactor core for sustaining a nuclear fission reaction fueled by a molten fuel salt. A molten fuel salt control system removes a volume of the molten fuel salt from the nuclear reactor core to maintain a reactivity parameter within a range of nominal reactivity. The molten fuel salt control system includes a molten fuel salt exchange system that fluidically couples to the nuclear reactor core and exchanges a volume of the molten fuel salt with a volume of a feed material containing a mixture of a selected fertile material and a carrier salt. The molten fuel salt control system can include a volumetric displacement control system having one or more volumetric displacement bodies insertable into the nuclear reactor core. Each volumetric displacement body can remove a volume of molten fuel salt from the nuclear reactor core, such as via a spill-over system.Type: GrantFiled: December 28, 2015Date of Patent: October 8, 2019Assignee: TERRAPOWER, LLCInventors: Jesse R. Cheatham, III, Anselmo T. Cisneros, Jr., Jeffery F. Latkowski, James M. Vollmer, Christopher J. Johns
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Publication number: 20180137944Abstract: This disclosure describes various configurations and components of a molten fuel fast or thermal nuclear reactor for managing the operating temperature in the reactor core. The disclosure includes various configurations of direct reactor auxiliary cooling system (DRACS) heat exchangers and primary heat exchangers as well as descriptions of improved flow paths for nuclear fuel, primary coolant and DRACS coolant through the reactor components.Type: ApplicationFiled: November 15, 2017Publication date: May 17, 2018Applicant: TerraPower, LLCInventors: Ryan Abbott, Anselmo T. Cisneros, Daniel Flowers, Charles Gregory Freeman, Mark A. Havstad, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter, John R. Suyes, III
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Publication number: 20180068750Abstract: Configurations of molten fuel salt reactors are described that utilize neutron-reflecting coolants or a combination of primary salt coolants and secondary neutron-reflecting coolants. Further configurations are described that circulate liquid neutron-reflecting material around a reactor core to control the neutronics of the reactor. Furthermore, configurations which use the circulating neutron-reflecting material to actively cool the containment vessel are also described.Type: ApplicationFiled: October 13, 2017Publication date: March 8, 2018Applicant: TerraPower, LLCInventors: Anselmo T. Cisneros, Charles Gregory Freeman, Kevin Kramer, Jeffery F. Latkowski
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Publication number: 20170316840Abstract: Configurations of molten fuel salt reactors are described that allow for active cooling of the containment vessel of the reactor by the primary coolant. Furthermore, naturally circulating reactor configurations are described in which the reactor cores are substantially frustum-shaped so that the thermal center of the reactor core is below the outlet of the primary heat exchangers. Heat exchanger configurations are described in which welded components are distanced from the reactor core to reduce the damage caused by neutron flux from the reactor. Radial loop reactor configurations are also described.Type: ApplicationFiled: May 2, 2017Publication date: November 2, 2017Applicant: TerraPower, LLCInventors: Ryan Abbott, Anselmo T. Cisneros, JR., Daniel Flowers, Charles Gregory Freeman, Mark A. Havstad, Christopher J. Johns, Brian C. Kelleher, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter
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Publication number: 20170316841Abstract: Configurations of molten fuel salt reactors are described that include an auxiliary cooling system which shared part of the primary coolant loop but allows for passive cooling of decay heat from the reactor. Furthermore, different pump configurations for circulating molten fuel through the reactor core and one or more in vessel heat exchangers are described.Type: ApplicationFiled: May 2, 2017Publication date: November 2, 2017Applicant: TerraPower, LLCInventors: Ryan Abbott, Anselmo T. Cisneros, JR., Robert A. Corbin, Daniel Flowers, Charles Gregory Freeman, Mark A. Havstad, Christopher J. Johns, Brian C. Kelleher, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter
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Publication number: 20170301421Abstract: Configurations of molten fuel salt reactors are described that utilize neutron-reflecting coolants or a combination of primary salt coolants and secondary neutron-reflecting coolants. Further configurations are described that circulate liquid neutron-reflecting material around an reactor core to control the neutronics of the reactor. Furthermore, configurations which use the circulating neutron-reflecting material to actively cool the containment vessel are also described.Type: ApplicationFiled: May 2, 2017Publication date: October 19, 2017Applicant: TerraPower, LLCInventors: Ryan Abbott, Jesse R. Cheatham, III, Anselmo T. Cisneros, JR., Ken Czerwinski, Bassem S. El-Dasher, Dan Flowers, Charles Gregory Freeman, Mark A. Havstad, Christopher J. Johns, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter, Robert C. Petroski, Joshua C. Walter
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Publication number: 20170301413Abstract: This disclosure describes nuclear fuel salts usable in certain molten salt reactor designs and related systems and methods. Binary, ternary and quaternary chloride fuel salts of uranium, as well as other fissionable elements, are described. In addition, fuel salts of UClxFy are disclosed as well as bromide fuel salts. This disclosure also presents methods and systems for manufacturing such fuel salts, for creating salts that reduce corrosion of the reactor components and for creating fuel salts that are not suitable for weapons applications.Type: ApplicationFiled: May 2, 2017Publication date: October 19, 2017Applicant: TerraPower, LLCInventors: Anselmo T. Cisneros, JR., Ken Czerwinski, Bassem S. El-Dasher, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Robert C. Petroski, Joshua C. Walter
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Publication number: 20170092381Abstract: A dynamic neutron reflector assembly for a “breed-and-burn” fast reactor incrementally adjusts neutron spectrum and reactivity in a reactor core. The composition of materials in the dynamic neutron reflector may be adjusted to change neutron reflectivity levels, or to introduce neutron moderating or absorption characteristics. The dynamic neutron reflector may contain a flowing reflecting liquid of adjustable volume and/or density. Submergible members may be selectively inserted into the flowing reflecting liquid to alter its volume and introduce other neutron modifying effects such as moderation or absorption. Selective insertion of the submergible members allows for concentration of the neutron modifying effects in a selected portion of the reactor core. The flowing reflecting liquid may also act as a secondary coolant circuit by exchanging heat with the molten fuel salt.Type: ApplicationFiled: September 30, 2016Publication date: March 30, 2017Inventors: Anselmo T. Cisneros, Jr., Charles Gregory Freeman, Christopher J. Johns, Kevin Kramer, Jeffery F. Latkowski
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Publication number: 20160189813Abstract: This disclosure describes nuclear fuel salts usable in certain molten salt reactor designs and related systems and methods. Binary, ternary and quaternary chloride fuel salts of uranium, as well as other fissionable elements, are described. In addition, fuel salts of UClxFy are disclosed as well as bromide fuel salts. This disclosure also presents methods and systems for manufacturing such fuel salts, for creating salts that reduce corrosion of the reactor components and for creating fuel salts that are not suitable for weapons applications.Type: ApplicationFiled: December 28, 2015Publication date: June 30, 2016Applicant: TerraPower, LLCInventors: Anselmo T. Cisneros, JR., Ken Czerwinski, Bassem S. El-Dasher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Robert C. Petroski, Joshua C. Walter
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Publication number: 20160189806Abstract: A molten salt reactor includes a nuclear reactor core for sustaining a nuclear fission reaction fueled by a molten fuel salt. A molten fuel salt control system removes a volume of the molten fuel salt from the nuclear reactor core to maintain a reactivity parameter within a range of nominal reactivity. The molten fuel salt control system includes a molten fuel salt exchange system that fluidically couples to the nuclear reactor core and exchanges a volume of the molten fuel salt with a volume of a feed material containing a mixture of a selected fertile material and a carrier salt. The molten fuel salt control system can include a volumetric displacement control system having one or more volumetric displacement bodies insertable into the nuclear reactor core. Each volumetric displacement body can remove a volume of molten fuel salt from the nuclear reactor core, such as via a spill-over system.Type: ApplicationFiled: December 28, 2015Publication date: June 30, 2016Inventors: Jesse R. Cheatham, III, Anselmo T. Cisneros, JR., Jeffery F. Latkowski, James M. Vollmer, Christopher J. Johns
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Patent number: 9171646Abstract: A laser inertial-confinement fusion-fission energy power plant is described. The fusion-fission hybrid system uses inertial confinement fusion to produce neutrons from a fusion reaction of deuterium and tritium. The fusion neutrons drive a sub-critical blanket of fissile or fertile fuel. A coolant circulated through the fuel extracts heat from the fuel that is used to generate electricity. The inertial confinement fusion reaction can be implemented using central hot spot or fast ignition fusion, and direct or indirect drive. The fusion neutrons result in ultra-deep burn-up of the fuel in the fission blanket, thus enabling the burning of nuclear waste. Fuels include depleted uranium, natural uranium, enriched uranium, spent nuclear fuel, thorium, and weapons grade plutonium. LIFE engines can meet worldwide electricity needs in a safe and sustainable manner, while drastically shrinking the highly undesirable stockpiles of depleted uranium, spent nuclear fuel and excess weapons materials.Type: GrantFiled: September 30, 2008Date of Patent: October 27, 2015Assignee: Lawrence Livermore National Security, LLCInventors: Edward I. Moses, Jeffery F. Latkowski, Kevin J. Kramer
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Publication number: 20140286471Abstract: An architecture for a fusion power plant is disclosed. The plant includes a fusion chamber for producing neutrons from a fusion reaction, and a laser system in which lasers are arranged about a vacuum chamber to provide energy to the fusion chamber to initiate the fusion reaction. The beam paths between the lasers and the fusion chamber are configured to prevent neutrons from the fusion chamber from reaching the laser system at a level that would preclude human access to the laser system.Type: ApplicationFiled: November 8, 2011Publication date: September 25, 2014Inventors: Edward I. Moses, Jeffery F. Latkowski, Thomas M. Anklam, Mary L. Spaeth, Anthony Michael Dunne, Richard H. Sawicki, Robert J. Deri, Robin R. Miles, Andrew J. Bayramian, Kenneth R. Manes, Peter A. Amendt, Alvin C. Erlandson
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Publication number: 20130064340Abstract: A method of removing a debris cloud from a fusion reactor includes injecting a fluid jet into the fusion reactor at a first velocity and thereafter, injecting a fusion target into the fusion reactor at a second velocity. The method also includes irradiating the fusion target with laser light and creating a fusion event. The method further includes forming a debris cloud in a vicinity of the fusion event and removing the debris cloud from the fusion reactor. The fluid jet applies a motive force to the debris cloud.Type: ApplicationFiled: September 13, 2012Publication date: March 14, 2013Applicant: Lawrence Livermore National Security, LLCInventors: Jeffery F. Latkowski, Andrew W. Cook, Gregory A. Moses
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Publication number: 20110286563Abstract: A laser inertial-confinement fusion-fission energy power plant is described. The fusion-fission hybrid system uses inertial confinement fusion to produce neutrons from a fusion reaction of deuterium and tritium. The fusion neutrons drive a sub-critical blanket of fissile or fertile fuel. A coolant circulated through the fuel extracts heat from the fuel that is used to generate electricity. The inertial confinement fusion reaction can be implemented using central hot spot or fast ignition fusion, and direct or indirect drive. The fusion neutrons result in ultra-deep burn-up of the fuel in the fission blanket, thus enabling the burning of nuclear waste. Fuels include depleted uranium, natural uranium, enriched uranium, spent nuclear fuel, thorium, and weapons grade plutonium. LIFE engines can meet worldwide electricity needs in a safe and sustainable manner, while drastically shrinking the highly undesirable stockpiles of depleted uranium, spent nuclear fuel and excess weapons materials.Type: ApplicationFiled: September 30, 2008Publication date: November 24, 2011Applicant: LAWRENCE LIVERMORE NATIONAL SECURITY, LLCInventors: Edward I. Moses, Thomas Diaz de la Rubia, Jeffery F. Latkowski, Joseph Farmer, Erik Storm, Ryan P. Abbott
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Publication number: 20110091004Abstract: A fuel particle for use in a fusion-fission nuclear engine includes a fuel kernel and a buffer layer surrounding the fuel kernel. The fuel particle also includes a pyrolytic carbon layer surrounding the buffer layer and a silicon carbide layer surrounding the buffer layer. The silicon carbide is characterized by a stress less than 450 MPa at 95% burn-up. The fuel particle further includes a second pyrolytic carbon layer surrounding the silicon carbide layer.Type: ApplicationFiled: September 30, 2008Publication date: April 21, 2011Applicant: Lawrence Livermore National Security, LLCInventors: Joseph C. Farmer, Magdelana Serrano de Caro, Jaime Marian, Paul P. Demange, Athanasios Arsenlis, Joe H. Satcher, JR., Jeffery F. Latkowski, Ryan P. Abbott, Tomas Dias de la Rubia, Edward I. Moses