Patents Assigned to Dominion Engineering INC
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Patent number: 11469006Abstract: A method for depositing zinc on the surfaces of a coolant loop of a nuclear power plant includes: providing within a portion of the coolant loop a treatment solution comprising zinc and optionally one or more noble metals and/or reducing agent(s); allowing the treatment solution to remain in the portion for a treatment period; and removing the treatment solution from the portion. According to various embodiments, an average temperature of the treatment solution over the course of the treatment period is less than 150° C. or 100° C. According to various embodiments, an instantaneous temperature of the treatment solution remains below 150° C. or 100° C. throughout the treatment period. The zinc deposition treatment may be applied (1) before the plant is first put into power-generating operation or (2) during an outage following power-generating operation and optionally following a chemical decontamination to remove any oxides formed on surfaces of a coolant loop during prior power operation period(s).Type: GrantFiled: August 3, 2017Date of Patent: October 11, 2022Assignee: DOMINION ENGINEERING, INC.Inventors: Michael J. Little, Charles R. Marks
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Patent number: 11351578Abstract: In a submersible ultrasonic cleaning system for use in highly radioactive environments (e.g., cleaning radiated nuclear fuel assemblies), a bond between energy producing transducers and an radiating wall is strengthened with a polyurethane adhesive such as Permabond PT326, or 3M DP-190 adhesive. In various diagnostic tests, one or more of the transducers are operated in an energy-transmitting mode while one or more other transducers are operated in an energy-detecting mode to detect a weakened transducer/wall bond and/or acoustic conditions of the working fluid.Type: GrantFiled: May 24, 2017Date of Patent: June 7, 2022Assignee: DOMINION ENGINEERING, INC.Inventors: David Arguelles, Abby Margaret Pellman, Florian Weber
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Patent number: 11198630Abstract: A modular water purification system for a nuclear power plant includes a plurality of modules that may be selectively connected together directly or through the use of intermediary adapters in a plurality of arrangements. The modules may include a pump module, a FOSAR module, a particulate filtration module, a cross-flow filtration module, a degasification module, and/or a demineralization module, among other possible modules. The modules may have common interfaces so that they can be interconnected (directly or through intermediary adapters) in a variety of configurations for different purposes within the context of the nuclear power plant (e.g., filtering pool water; collecting large objects via vacuuming). Various modules may have form factors and/or mounting structures that are similar enough to the fuel assemblies of the plant that (1) the plant's fuel assembly handling equipment can grab, move, and reposition the modules, and/or (2) the modules may be stored in the fuel pool's storage rack.Type: GrantFiled: April 19, 2018Date of Patent: December 14, 2021Assignee: Dominion Engineering, Inc.Inventors: David Arguelles, Michael J. Little, Robert D. Varrin, Jr.
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Patent number: 11170904Abstract: A method and system detects failures in nuclear fuel assemblies (600). A water treatment device degasses/removes fission gases from water used in the canister (500) of a vacuum sipping device (30). A sipping procedure then detects a failure in a fuel assembly in the canister. The degassing improves a signal-to-noise ratio of the detector used during the sipping process, and improves the failure detection sensitivity of the system. Additionally and/or alternatively, gas may be recirculated through the canister water before the vacuum is applied so that fission gas concentration in the recirculating gas reaches a baseline equilibrium with the canister water. The vacuum is thereafter applied and the sipping procedure proceeds such that an increase in detected radioactivity over the baseline equilibrium indicates a leak in the fuel assembly.Type: GrantFiled: January 16, 2015Date of Patent: November 9, 2021Assignee: Dominion Engineering, Inc.Inventors: David Arguelles, Robert D. Varrin, Jr.
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Publication number: 20210122653Abstract: A modular water purification system for a nuclear power plant includes a plurality of modules that may be selectively connected together directly or through the use of intermediary adapters in a plurality of arrangements. The modules may include a pump module, a FOSAR module, a particulate filtration module, a cross-flow filtration module, a degasification module, and/or a demineralization module, among other possible modules. The modules may have common interfaces so that they can be interconnected (directly or through intermediary adapters) in a variety of configurations for different purposes within the context of the nuclear power plant (e.g., filtering pool water; collecting large objects via vacuuming). Various modules may have form factors and/or mounting structures that are similar enough to the fuel assemblies of the plant that (1) the plant's fuel assembly handling equipment can grab, move, and reposition the modules, and/or (2) the modules may be stored in the fuel pool's storage rack.Type: ApplicationFiled: April 19, 2018Publication date: April 29, 2021Applicant: DOMINION ENGINEERING, INC.Inventors: David ARGUELLES, Michael J. LITTLE, Robert D. VARRIN, JR.
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Publication number: 20200141734Abstract: A system and method of generating a real-time, crowdsourced visual map summarizing measurements reflecting environmental conditions affecting personnel safety in an industrial facility or work area is provided.Type: ApplicationFiled: March 21, 2018Publication date: May 7, 2020Applicant: Dominion Engineering, Inc.Inventors: Christopher Ramiro CASAREZ, Michael James LITTLE
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Patent number: 10052667Abstract: A method of cleaning a vessel having deposits on an interior surface includes removably bonding an ultrasonic transducer to an external wall of the vessel and using the ultrasonic transducer to produce ultrasonic energy coupled into the vessel wall such that at least a portion of the ultrasonic energy is transmitted to the interior surface.Type: GrantFiled: March 14, 2014Date of Patent: August 21, 2018Assignee: Dominion Engineering, Inc.Inventors: Sotaro Kaneda, Jean E. Collin, Joshua M. Luszcz, Christopher R. Casarez, Marc A. Kreider, Robert D. Varrin, Jr., David J. Gross
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Patent number: 9841184Abstract: A method is provided for evaluating simultaneously the effects of multiple, interdependent heat-exchanger degradation modes for a heat exchanger of a power plant in the context of a series of alternative heat-exchanger remediation strategies. The method includes calculating time-varying predicted future progressions of heat exchanger performance metrics for a plurality of alternative heat-exchanger remediation strategies, and calculating time-varying predicted future progressions of financial metrics describing the accumulated financial benefit of each of the strategies. The calculations may be provided in probabilistic terms. A strategy may then be chosen based, at least in part, on the calculated results.Type: GrantFiled: February 25, 2011Date of Patent: December 12, 2017Assignee: Dominion Engineering, Inc.Inventors: Marc A. Kreider, Robert D. Varrin, Jr., Glenn A. White, Velvet D. Moroney
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Patent number: 9767927Abstract: A particulate removal apparatus and method are used to capture and remove particulates from nuclear reactor core coolant during normal operation. Bottom nozzle, particulate removal apparatus and top nozzle structures form an assembly sized to be installed in place of a nuclear fuel assembly. The particulate removal achieved reduces the inventory of corrosion product deposits, foreign objects and other particulates in the reactor coolant system. This in turn reduces activation or deposition of particulates on fuel cladding, with a corresponding improvement in fuel reliability and reduction in ex-core radiation fields.Type: GrantFiled: December 12, 2012Date of Patent: September 19, 2017Assignee: DOMINION ENGINEERING, INC.Inventors: Robert D. Varrin, Jr., David Arguelles, Michael J. Little
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Publication number: 20170032854Abstract: A method and system detects failures in nuclear fuel assemblies (600). A water treatment device degasses/removes fission gases from water used in the canister (500) of a vacuum sipping device (30). A sipping procedure then detects a failure in a fuel assembly in the canister. The degassing improves a signal-to-noise ratio of the detector used during the sipping process, and improves the failure detection sensitivity of the system. Additionally and/or alternatively, gas may be recirculated through the canister water before the vacuum is applied so that fission gas concentration in the recirculating gas reaches a baseline equilibrium with the canister water. The vacuum is thereafter applied and the sipping procedure proceeds such that an increase in detected radioactivity over the baseline equilibrium indicates a leak in the fuel assembly.Type: ApplicationFiled: January 16, 2015Publication date: February 2, 2017Applicant: DOMINION ENGINEERING, INC.Inventors: David ARGUELLES, Robert D. VARRIN, JR.
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Patent number: 9498802Abstract: An aqueous cleaning solution that has been previously used to remove deposits from a nuclear steam generator (or other vessel) is reused after being transferred from the steam generator into an external vessel. The spent cleaning solution may be reconditioned and reused in a further cleaning of the same steam generator or a different steam generator. The different cleanings being accomplished by the cleaning solution may be of the same type or different types (e.g., iron oxide removal and/or copper removal).Type: GrantFiled: July 25, 2013Date of Patent: November 22, 2016Assignee: DOMINION ENGINEERING, INC.Inventors: Robert D. Varrin, Jr., Michael J. Little
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Publication number: 20130170601Abstract: A particulate removal apparatus and method are used to capture and remove particulates from nuclear reactor core coolant during normal operation. Bottom nozzle, particulate removal apparatus and top nozzle structures form an assembly sized to be installed in place of a nuclear fuel assembly. The particulate removal achieved reduces the inventory of corrosion product deposits, foreign objects and other particulates in the reactor coolant system. This in turn reduces activation or deposition of particulates on fuel cladding, with a corresponding improvement in fuel reliability and reduction in ex-core radiation fields.Type: ApplicationFiled: December 12, 2012Publication date: July 4, 2013Applicant: DOMINION ENGINEERING, INC.Inventor: DOMINION ENGINEERING, INC.
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Patent number: 8459277Abstract: Disclosed are methods and apparatus for cleaning heat exchangers and similar vessels by introducing chemical cleaning solutions and/or solvents while maintaining a target temperature range by direct steam injection into the cleaning solution. The steam may be injected directly into the heat exchanger or into a temporary side stream loop for recirculating the cleaning solution or admixed with fluids being injected to the heat exchanger. The disclosed methods are suitable for removing metallic oxides from a heat exchanger under chemically reducing conditions or metallic species such as copper under chemically oxidizing conditions. In order to further enhance the heat transfer efficiency of heating cleaning solvents by direct steam injection, mixing on the secondary side of the heat exchanger can be enhanced by gas sparging or by transferring liquid between heat exchangers when more than one heat exchanger is being cleaned at the same time.Type: GrantFiled: December 3, 2009Date of Patent: June 11, 2013Assignee: Dominion Engineering, Inc.Inventors: Robert D. Varrin, Jr., Michael J. Little
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Patent number: 8372206Abstract: Provided are a range of ultrasonic cleaning assemblies that include radiating surfaces activated by corresponding arrays of planar transducers configured to increase the power applied to a reduced volume of fluid associated with a fuel assembly, thereby increasing that applied power density for improved cleaning. The individual ultrasonic cleaning assemblies may be arranged in a variety of modules that, in turn, may be combined to increase the length of the cleaning zone and provide variations in the power density applied to improve the cleaning uniformity.Type: GrantFiled: January 14, 2009Date of Patent: February 12, 2013Assignee: Dominion Engineering, Inc.Inventors: David J. Gross, David Arguelles
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Patent number: 8262806Abstract: Provided area cleaning apparatus and an associated method of using the disclosed apparatus wherein the apparatus utilizes one or more nozzles configured to provide a coherent stream of one or more cleaning fluids for removing accumulated fine particulate matter, sludge, from surfaces. The nozzles may be sized, arranged and configured to provide coherent streams that maintain the initial stream diameter for a substantial portion of the maximum dimension of the space being cleaned. The apparatus and method are expected to be particularly useful in the cleaning of heat exchangers incorporating a plurality of substantially vertical and narrowly spaced tubes by directing cleansing streams along a plurality of intertube spaces.Type: GrantFiled: May 16, 2011Date of Patent: September 11, 2012Assignee: Dominion Engineering, Inc.Inventors: Jean Collin, Ryan Jones, Joshua Luszcz, Marc Kreider, Aaron Pellman, Robert D. Varrin, Jr., David Arguelles
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Publication number: 20110303247Abstract: Disclosed are methods and apparatus for cleaning heat exchangers and similar vessels by introducing chemical cleaning solutions and/or solvents while maintaining a target temperature range by direct steam injection into the cleaning solution. The steam may be injected directly into the heat exchanger or into a temporary side stream loop for recirculating the cleaning solution or admixed with fluids being injected to the heat exchanger. The disclosed methods are suitable for removing metallic oxides from a heat exchanger under chemically reducing conditions or metallic species such as copper under chemically oxidizing conditions. In order to further enhance the heat transfer efficiency of heating cleaning solvents by direct steam injection, mixing on the secondary side of the heat exchanger can be enhanced by gas sparging or by transferring liquid between heat exchangers when more than one heat exchanger is being cleaned at the same time.Type: ApplicationFiled: December 3, 2009Publication date: December 15, 2011Applicant: DOMINION ENGINEERING, INC.Inventors: Robert D. Varrin, JR., Michael J. Little
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Publication number: 20110271986Abstract: Provided area cleaning apparatus and an associated method of using the disclosed apparatus wherein the apparatus utilizes one or more nozzles configured to provide a coherent stream of one or more cleaning fluids for removing accumulated fine particulate matter, sludge, from surfaces. The nozzles may be sized, arranged and configured to provide coherent streams that maintain the initial stream diameter for a substantial portion of the maximum dimension of the space being cleaned. The apparatus and method are expected to be particularly useful in the cleaning of heat exchangers incorporating a plurality of substantially vertical and narrowly spaced tubes by directing cleansing streams along a plurality of intertube spaces.Type: ApplicationFiled: May 16, 2011Publication date: November 10, 2011Applicant: DOMINION ENGINEERING, INC.Inventors: Jean COLLIN, Ryan Jones, Joshua Luszcz, Marc Kreider, Aaron Pellman, Robert D. Varrin, JR., David Arguelles
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Patent number: 8052879Abstract: A filter system and associated methods of filtering utilize a combination of ultrasonically enhanced backwashing and a modified filter media configurations for increasing the specific loading on a portion of the filter media, thereby tending to increase the total particulate holding capacity of the improved filter. Depending on factors such as the filter configuration, the particulate size distribution and the differential pressure that can be maintained across the filter, it is expected that the particulate holding capacity can be more than doubled relative to a conventional filter having similarly configured filter media.Type: GrantFiled: May 30, 2008Date of Patent: November 8, 2011Assignee: Dominion Engineering, Inc.Inventors: David J. Gross, David Arguelles
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Patent number: 7967918Abstract: Provided area cleaning apparatus and an associated method of using the disclosed apparatus wherein the apparatus utilizes one or more nozzles configured to provide a coherent stream of one or more cleaning fluids for removing accumulated fine particulate matter, sludge, from surfaces. The nozzles may be sized, arranged and configured to provide coherent streams that maintain the initial stream diameter for a substantial portion of the maximum dimension of the space being cleaned. The apparatus and method are expected to be particularly useful in the cleaning of heat exchangers incorporating a plurality of substantially vertical and narrowly spaced tubes by directing cleansing streams along a plurality of intertube spaces.Type: GrantFiled: June 29, 2007Date of Patent: June 28, 2011Assignee: Dominion Engineering, Inc.Inventors: Jean Collin, Ryan Jones, Joshua Luszcz, Marc Kreider, Aaron Pellman, Robert Varrin, Jr., David Arguelles
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Publication number: 20110079243Abstract: An improved scale conditioning composition and method is disclosed that results in improved dissolution and disruption of tube scale, hardened sludge and other deposits composed primarily of highly densified magnetite such as those found in heat exchange vessels, particularly steam generators. After treatment with the advanced scale conditioning composition, these magnetite rich deposits are more easily removed using known and commercially available high pressure hydro-mechanical cleaning techniques. The present invention further provides effective cleaning in a short period of time and at relatively low temperatures, while reducing the amount of waste produced and reducing the resulting corrosion of carbon and low alloy steel components within the steam generator during the cleaning process.Type: ApplicationFiled: December 13, 2010Publication date: April 7, 2011Applicant: Dominion Engineering, Inc.Inventors: Robert D. VARRIN, JR., Sotaro Kaneda, Naonobu Sasada