Patents Examined by Sharon M Davis
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Patent number: 10720243Abstract: The laser amplification apparatus is provided with a plurality of plate-shaped laser medium components (M1 to M4) which are disposed to be aligned along a thickness direction, and prisms (P1 to P3) which optically couples the laser medium components. Each of the laser medium components is provided with a main surface to which a seed light is incident, and a side surface which surrounds the main surface. An excitation light is incident from at least one side surface of a specific laser medium component among the plurality of laser medium components. The excitation light is incident through the prism to a side surface of the laser medium component adjacent to the prism.Type: GrantFiled: November 18, 2015Date of Patent: July 21, 2020Assignee: HAMAMATSU PHOTONICS K.K.Inventors: Takashi Sekine, Yoshinori Kato, Yasuki Takeuchi, Toshiyuki Kawashima
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Patent number: 10720245Abstract: A Thorium fuel rod assembly is disclosed that includes first and second support elements and a number of Thorium fuel rods positioned between support elements. Each of the Thorium fuel rod includes an outer fuel element containing a solid Thorium an inner core element containing Beryllium that is positioned within an interior cavity defined by the outer fuel element. In an exemplary disclosure, the inner core element also defines an inner cavity such that a beam of high energy particles may be directed into the inner cavity of the inner core element to impinge upon a Beryllium nucleus within the inner core element to produce a (p, n) reaction resulting in the emission of a neutron, where the emitted neutron may interact with a Thorium nucleus in the outer fuel element to cause the Thorium nucleus to fission.Type: GrantFiled: August 29, 2019Date of Patent: July 21, 2020Assignee: Texas Thorium, LLCInventors: Rodolfo Vaghetto, Holloway H. Frost, Yassin A. Hassan, Lin Shao, Trevor D. Parker
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Patent number: 10720248Abstract: In a pressurized water reactor (PWR), emergency core cooling (ECC) responds to depressurization due to a vessel penetration break at the top of the pressure vessel by draining water from a body of water through an injection line into the pressure vessel. A barrier operates concurrently with the ECC to suppress flow of liquid water from the pressure vessel out the vessel penetration break. The barrier may comprise one or more of: (1) an injection line extension passing through the central riser to drain water into the central riser; (2) openings in a lower portion of a central riser to shunt some upward flow from the central riser into a lower portion of the downcomer annulus; and (3) a surge line providing fluid communication between a pressurizer volume at the top of the pressure vessel and the remainder of the pressure vessel which directs water outboard toward the downcomer annulus.Type: GrantFiled: March 17, 2014Date of Patent: July 21, 2020Assignee: BWXT mPower, Inc.Inventors: John D. Malloy, III, Billy E. Bingham, Ronald C. Watson, Jason G. Williams, Matthew W. Ales, James B. Inman, Sean M. Boyle
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Patent number: 10714225Abstract: A continuous wave ion linear accelerator PET radioisotope system is disclosed. The system includes a high brightness H? ion source, a continuous wave RF quadrupole structure, and continuous wave RF interdigital structures to accelerate the ion beam to about 14 MeV. A high energy beam transport system is also described that includes a photo-detachment beam splitter and a magnet lattice for forming the proton beam into a beam having a Waterbag beam profile. The system also includes one or more targets upon which the proton beam is incident. The targets are either a high power metallic target oriented at about 10 degrees or a low thermal conductivity target oriented at about 35 degrees. The invention includes a method of producing PET isotopes by use of the systems described.Type: GrantFiled: February 27, 2019Date of Patent: July 14, 2020Assignee: PN Labs, Inc.Inventor: Robert J. Ylimaki
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Patent number: 10714221Abstract: A protection system is provided for protecting a nuclear reactor positioned on a barge which is floating in the water of a tank. The system includes one or more cones which are positioned on the upper end of the nuclear reactor which will disintegrate and deflect an aircraft or missile striking the same. The system also includes structure which permits the barge to move downwardly in the tank upon an aircraft or missile strike to reduce the impact force of the strike.Type: GrantFiled: November 8, 2017Date of Patent: July 14, 2020Inventor: Palvannanathan Ganesan
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Patent number: 10714222Abstract: A method and apparatus for modifying an existing nuclear reactor moveable in-core detector system to insert and withdraw target specimens from a reactor core during reactor operation without practically impeding the moveable in-core detector system's ability to obtain flux maps of the core throughout the reactor's operation. The apparatus provides a separate drive unit and delivery cable that is independent of the detector drive system, but uses most of the same core delivery conduits to access the core. A specimen holder is remotely detachable from the delivery cable when appropriately positioned and can be remotely reattached for withdrawal after a scheduled period of radiation.Type: GrantFiled: February 3, 2020Date of Patent: July 14, 2020Assignee: Westinghouse Electric Company LLCInventors: Michael D. Heibel, Luke D. Czerniak, Melissa M. Heagy, Jorge V. Carvajal, Matthew D. McArdle, Jeffrey J. Taylor, James L. Yankel
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Patent number: 10706974Abstract: The present invention discloses a passive cooling system of a containment building, to which a plate-type heat exchanger is applied. A passive cooling system of a containment building comprises: a containment building; a plate-type heat exchanger provided to at least one of the inside and the outside of the containment building and comprising channels respectively provided to the both sides of a plate so as to be arranged dividedly from each other such that the plate-type heat exchanger carries out mutual heat exchange between the internal atmosphere of the containment building and a heat exchange fluid while maintaining a pressure boundary; and a pipe connected to the plate-type heat exchanger by penetrating the containment building so as to form the path of the internal atmosphere of the containment building or the heat exchange fluid.Type: GrantFiled: December 2, 2014Date of Patent: July 7, 2020Assignee: KOREA ATOMIC ENERGY RESEARCH INSTITUTEInventors: Young In Kim, Cheon Tae Park, Seung Yeob Ryu, Young Min Bae, Joo Hyung Moon, Soo Jai Shin, Hun Sik Han, Kyung Jun Kang, Young Soo Kim, Tae Wan Kim, Ju Hyeon Yoon, Keung Koo Kim, Jae Joo Ha
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Patent number: 10699815Abstract: A nozzle seal structure hermetically seals an instrumentation nozzle provided in a manner penetrating a reactor vessel from inside to outside and has a support post inserted therethrough. The instrumentation nozzle includes a flange portion projecting outward in a radial direction orthogonal to a nozzle axis direction at an end portion on an outer side of the reactor vessel.Type: GrantFiled: September 1, 2015Date of Patent: June 30, 2020Assignee: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Tadaaki Nishimura, Masaya Yamaguchi
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Patent number: 10685751Abstract: A floating nuclear power reactor is provided and includes a barge floating in a tank filled with water. The reactor includes a self-cooling containment structure and an emergency heat exchange system.Type: GrantFiled: November 8, 2017Date of Patent: June 16, 2020Inventor: Palvannanathan Ganesan
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Patent number: 10672523Abstract: A component cooling water system for a nuclear power plant. In one embodiment, the system includes an inner containment vessel housing a nuclear reactor and an outer containment enclosure structure. An annular water reservoir is formed between the containment vessel and containment enclosure structure which provides a heat sink for dissipating thermal energy. A shell-less heat exchanger is provided having an exposed tube bundle immersed in water held within the annular water reservoir. Component cooling water from the plant flows through the tube bundle and is cooled by transferring heat to the annular water reservoir. In one non-limiting embodiment, the tube bundle may be U-shaped.Type: GrantFiled: October 10, 2017Date of Patent: June 2, 2020Assignee: SMR INVENTEC, LLCInventors: Krishna P. Singh, Joseph Rajkumar
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Patent number: 10665352Abstract: A core plate assembly for a boiling water reactor, and a method of performing work thereon are disclosed. The core plate assembly comprises a core plate having through-going apertures, and a beam structure comprising parallel first beams and parallel second beams being perpendicular to the first beams. The beams enclose a plurality of rectangular areas each enclosing four of the through-going apertures. Control rod guide tubes are aligned with a respective one of the through-going apertures. A transition pieces is received in a respective one of the control rod guide tubes, and has four passages for communicating with a respective fuel assembly. Each passage permits a coolant flow into the respective fuel assembly. A flow inlet is provided for the coolant into each passage. At least one of the flow inlets has a cross-sectional shape deviating from a circular shape.Type: GrantFiled: November 2, 2017Date of Patent: May 26, 2020Assignee: Westinghouse Electric Sweden ABInventors: Sven Perzon, Yann Le Moigne, Henrik Remahl, Tobias Strömgren
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Patent number: 10643754Abstract: Passive reactivity control technologies that enable reactivity control of a nuclear thermal propulsion (NTP) system with little to no active mechanical movement of circumferential control drums. By minimizing or eliminating the need for mechanical movement of the circumferential control drums during an NTP burn, the reactivity control technologies simplify controlling an NTP reactor and increase the overall performance of the NTP system. The reactivity control technologies mitigate and counteract the effects of xenon, the dominant fission product contributing to reactivity transients. Examples of reactivity control technologies include, employing burnable neutron poisons, tuning hydrogen pressure, adjusting wait time between burn cycles or merging burn cycles, and enhancement of temperature feedback mechanisms.Type: GrantFiled: March 13, 2017Date of Patent: May 5, 2020Assignee: Ultra Safe Nuclear CorporationInventors: Paolo Francesco Venneri, Michael John Eades
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Patent number: 10643756Abstract: A mobile heat pipe cooled fast nuclear reactor may be configured for transportation to remote locations and may be able to provide 0.5 to 2 megawatts of power. The mobile heat pipe cooled fast reactor may contain a plurality of heat pipes that are proximate to a plurality of fuel pins inside the reactor. The plurality of heat pipes may extend out of the reactor. The reactor may be configured to be placed in a standard shipping container, and may further be configured to be contained within a cask and attached to a skid for easier transportation.Type: GrantFiled: April 15, 2014Date of Patent: May 5, 2020Assignee: Triad National Security, LLCInventors: Patrick Ray McClure, David Duff Dixon, David Irvin Poston, Richard J. Kapernick, Robert Stowers Reid, Venkateswara Rao Dasari
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Patent number: 10636531Abstract: Provided is an installation structure for installing control rod drive mechanisms and cable sealing units in a nuclear reactor pressure vessel. The installation structure includes: a sealing flange having a ring shape and being hermetically coupled to an upper pressure vessel and a lower pressure vessel of the nuclear reactor pressure vessel; a cylindrical tube extending downward vertically from an internal edge of the sealing flange; and a support plate provided horizontally to block a lower end portion of the cylindrical tube. A plurality of mounting holes that penetrate through the sealing flange horizontally are arranged in the sealing flange with a predetermined interval therebetween along a circumferential direction, the cable sealing units are inserted and mounted in the plurality of mounting holes, and the control rod drive mechanisms are installed on the support plate to be supported.Type: GrantFiled: October 11, 2017Date of Patent: April 28, 2020Assignee: KEPCO ENGINEERING & CONSTRUCTION COMPANY, INC.Inventors: Won Ho Lee, Jin Seok Park, Yong Tae Jang, Myoung Goo Lee, Yeon Ho Cho
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Patent number: 10636530Abstract: A flow distribution device (3) for a reactor, a lower internals (100) of a reactor and a reactor are provided. The lower internals (100) includes: a lower core support plate (2) defining a coolant hole therethrough; a flow distribution device (3) mounted on the lower core support plate (2) and including a distribution annular plate (8) and a distribution bottom plate (9); a vortex suppression plate (7) disposed below the distribution bottom plate (9); a support column (4) defining an upper end connected with the lower core support plate (2) and a lower end passing through the distribution bottom plate (9) to connect with the vortex suppression plate (7); an energy absorption device (5) defining an upper end connected with the vortex suppression plate (7); and an anti-break bottom plate (6) disposed on the lower end of the energy absorption device (5).Type: GrantFiled: January 8, 2014Date of Patent: April 28, 2020Assignees: STATE NUCLEAR POWER TECHNOLOGY CORPORATION LTD., SHANGHAI NUCLEAR ENGINEERING RESEARCH & DESIGN INSTITUTEInventors: Shaoxuan Lin, Yejia Liang, Zonghua Ding, Ming Zhang, Qing Yu, Wei Zhang, Weida Yao, Fan Yu
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Patent number: 10636537Abstract: The invention relates to nuclear engineering and more particularly to controlled reactor start-up. The invention addresses a secondary startup neutron source by creating additional safety barriers between the coolant and the source active part materials. The secondary startup neutron source is designed as a steel enclosure housing an ampule containing antimony in the central enclosure made of a niobium-based alloy unreactive with antimony, with a beryllium powder bed located between the antimony enclosure and the ampule enclosure. An upper gas collector, located above the ampule serves as a compensation volume collecting gaseous fission products. The ampule is supported by a reflector and a bottom gas collector. The gas collectors, reflector, ampule enclosure and washers are made of martensite-ferrite grade steel.Type: GrantFiled: December 1, 2015Date of Patent: April 28, 2020Assignee: JOINT STOCK COMPANY “AKME-ENGINEERING”Inventors: Aleksandr Evgen'evich Rusanov, Viktor Viktorovich Litvinov, Vyacheslav Vasil'evich Popov, Lyudmila Vasil'evna Skurikhina, Aleksandr Dmitrievich Karpin
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Patent number: 10636532Abstract: Sodium-cesium trap systems and methods for the simultaneous removal of both sodium (Na) and cesium (Cs) in gas are provided. The trap system includes a contacting vessel having an inlet and an outlet with carrier gas channeled therethrough. A heating system maintains a temperature gradient across the contacting vessel between a first temperature at the inlet and a second temperature at the outlet such that sodium and cesium contained within the carrier gas are condensed into liquid and the carrier gas exiting the vessel is substantially free of sodium and cesium.Type: GrantFiled: May 19, 2017Date of Patent: April 28, 2020Assignee: TerraPower, LLCInventors: Michael Anderson, Thomas M. Burke, Robert A. Corbin, Christopher M. Regan
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Patent number: 10626312Abstract: A thermal interface material under a high vacuum condition includes a graphite sheet having a thickness of from 9.6 ?m to 50 nm and a thermal conductivity in an a-b surface direction at 25° C. of not less than 1000 W/mK.Type: GrantFiled: June 1, 2017Date of Patent: April 21, 2020Assignee: KANEKA CORPORATIONInventors: Mutsuaki Murakami, Masamitsu Tachibana, Atsushi Tatami
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Patent number: 10629313Abstract: A standoff supporting a control rod drive mechanism (CRDM) in a nuclear reactor is connected to a distribution plate which provides electrical power and hydraulics. The standoff has connectors that require no action to effectuate the electrical connection to the distribution plate other than placement of the standoff onto the distribution plate. This facilitates replacement of the CRDM. In addition to the connectors, the standoff has alignment features to ensure the CRDM is connected in the correct orientation. After placement, the standoff may be secured to the distribution plate by bolts or other fasteners. The distribution plate may be a single plate that contains the electrical and hydraulic lines and also is strong enough to provide support to the CRDMs or may comprise a stack of two or more plates.Type: GrantFiled: October 30, 2017Date of Patent: April 21, 2020Assignee: BWXT mPower, Inc.Inventor: Scott J. Shargots
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Patent number: 10614924Abstract: A system and method for storing multiple canisters containing high level waste below grade that afford adequate ventilation of the spent fuel storage cavity. In one aspect, the invention is a ventilated system for storing high level waste emitting heat, the system comprising: an air-intake shell forming an air-intake cavity; a plurality of storage shells, each storage shell forming a storage cavity; a lid positioned atop each of the storage shells; an outlet vent forming a passageway between an ambient environment and a top portion of each of the storage cavities; and a network of pipes forming her sealed passageways between a bottom portion of the air-intake cavity and at least two different openings at a bottom portion of each of the storage cavities such that blockage of a first one of the openings does not prohibit air from flowing from the air-intake cavity into the storage cavity via a second one of the openings.Type: GrantFiled: September 12, 2017Date of Patent: April 7, 2020Assignee: HOLTEC INTERNATIONALInventor: Krishna P. Singh