Patents by Inventor Derek Haas
Derek Haas 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: 20260162841Abstract: The present invention is directed towards systems and methods for converting spent nuclear fuel (SNF) to fluoride salt fuel for use in a molten salt reactor. By utilizing nitrogen trifluoride, the entire content of a SNF solution may be fluorinated and oxidized, such that it is fit for inclusion in a molten salt reactor system. This process avoids drawbacks of traditional reprocessing since separation is avoided. The present invention utilizes a fuel conversion setup to maintain precise thermal conditions to cause fluorination of the constituents of the SNF while minimizing or avoiding volatilization.Type: ApplicationFiled: April 16, 2025Publication date: June 11, 2026Inventors: Derek Haas, Bradley Gladden
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Publication number: 20260142046Abstract: A fission product trap for a reactor system, such as for a pipe connection and/or a pump shaft of a pump of the reactor system, includes a porous container. The porous container may be mounted about the pipe connection and/or pump shaft and include an absorbing material contained therein. The absorbing material may be configured to collect fission products emitted from the pipe connection and/or the pump shaft. The fission product trap further includes an assembly encompassing the porous container and that defines a volume about the porous container and the pipe connection and/or the pump shaft.Type: ApplicationFiled: January 15, 2026Publication date: May 21, 2026Inventors: Timothy Head, Derek Haas
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Publication number: 20260120902Abstract: A deployment system for a molten salt reactor includes a reactor module, a cooling module, a coolant preparation module, a fuel shipping module, and a fuel preparation module. Each of the reactor module, the cooling module, the coolant preparation module, the fuel shipping module, and the fuel preparation module may be supplied to a deployment site. Using the coolant preparation module, a coolant salt held within the reactor module may be transferred to the cooling module. Using the fuel preparation module, a fuel salt held within the fuel shipping module may be transferred to the reactor module.Type: ApplicationFiled: January 23, 2025Publication date: April 30, 2026Inventor: Derek Haas
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Publication number: 20260117625Abstract: Nuclear energy integrated hydrocarbon operation systems include a well site having a subsurface hydrocarbon well configured to produce a produced water output. The system further includes a deployable nuclear reactor system configured to produce a heat output. The system may further include a deployable desalination unit configured to produce a desalinated water output using the produced water output of the subsurface hydrocarbon well and the heat output of the deployable nuclear reactor. The system may further include a deployable off-gas processing system configured to produce an industrial chemical using the off-gas output of the subsurface hydrocarbon well and the heat output of the deployable nuclear reactor.Type: ApplicationFiled: January 23, 2025Publication date: April 30, 2026Inventor: Derek Haas
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Publication number: 20260120901Abstract: A fuel salt shipping system includes an outer container defining an outer containment volume and an inner container disposed within the outer containment volume, and defining an inner volume configured to contain a molten fuel salt. The inner container and the outer container may cooperate to define an annulus region therebetween. The fuel salt shipping system may further include a fuel salt conduit penetrating the outer container and the inner container and fluidically coupling the inner volume to an external environment of the system. The fuel salt shipping system may further include a heating system including a heater disposed in the annulus space and configured to impart a heat output to the molten fuel salt of the inner volume and change a phase of the molten fuel salt held therein from a solid phase to a liquid phase.Type: ApplicationFiled: January 23, 2025Publication date: April 30, 2026Inventor: Derek Haas
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Publication number: 20260074085Abstract: A containment system for an integral molten salt reactor includes a sealed containment structure defining a containment volume. The containment structure includes a fission product adsorbing/absorbing material. The containment system further includes an integral molten salt reactor housed fully within the containment volume of the sealed containment structure. The integral molten salt reactor may permit circulation of a fuel salt therein being heated by fission reactions, and allow for the export of heat from said fuel salt.Type: ApplicationFiled: July 3, 2025Publication date: March 12, 2026Inventor: Derek Haas
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Publication number: 20260066144Abstract: A fuel salt shipping system includes an outer container defining an outer containment volume and an inner container disposed within the outer containment volume, and defining an inner volume configured to contain a molten fuel salt. The inner container and the outer container may cooperate to define an annulus region therebetween. The fuel salt shipping system may further include a fuel salt conduit penetrating the outer container and the inner container and fluidically coupling the inner volume to an external environment of the system. The fuel salt shipping system may further include a heating system including a heater disposed in the annulus space and configured to impart a heat output to the molten fuel salt of the inner volume and change a phase of the molten fuel salt held therein from a solid phase to a liquid phase.Type: ApplicationFiled: July 3, 2025Publication date: March 5, 2026Inventor: Derek Haas
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Patent number: 12562289Abstract: A fission product trap for a reactor system, such as for a pipe connection and/or a pump shaft of a pump of the reactor system, includes a porous container. The porous container may be mounted about the pipe connection and/or pump shaft and include an absorbing material contained therein. The absorbing material may be configured to collect fission products emitted from the pipe connection and/or the pump shaft. The fission product trap further includes an assembly encompassing the porous container and that defines a volume about the porous container and the pipe connection and/or the pump shaft.Type: GrantFiled: January 20, 2023Date of Patent: February 24, 2026Inventors: Timothy Head, Derek Haas
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Patent number: 12555693Abstract: A molten salt reactor system includes a fuel salt system configured to circulate a molten salt through a reactor vessel. The molten salt reactor system further includes an inert gas system fluidically coupled with the fuel salt system and configured to maintain a pressurized volume in a head space of a drain tank by circulating an inert gas along a first inert gas flow path. The molten salt reactor system further includes an equalization system configured to equalize pressure between head spaces of the reactor vessel and the drain tank in response to a reactor shutdown event. The inert gas system is configured to cease maintenance of the pressurized volume in response to the reactor shutdown event.Type: GrantFiled: August 18, 2023Date of Patent: February 17, 2026Assignees: Abilene Christian University, Board of Regents, The University of Texas System, The Texas A&M University SystemInventors: Jonathan Scherr, Timothy Head, Derek Haas, Jack Shoemate, Pavel Tsvetkov, Rusty Towell
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Patent number: 12542220Abstract: A containment system for an integral molten salt reactor includes a sealed containment structure defining a containment volume. The containment structure includes a fission product adsorbing/absorbing material. The containment system further includes an integral molten salt reactor housed fully within the containment volume of the sealed containment structure. The integral molten salt reactor may permit circulation of a fuel salt therein being heated by fission reactions, and allow for the export of heat from said fuel salt.Type: GrantFiled: November 6, 2023Date of Patent: February 3, 2026Assignee: Natura Resources LLCInventor: Derek Haas
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Publication number: 20260015922Abstract: Nuclear energy integrated hydrocarbon operation systems include a well site having a subsurface hydrocarbon well configured to produce a produced water output. The system further includes a deployable nuclear reactor system configured to produce a heat output. The system may further include a deployable desalination unit configured to produce a desalinated water output using the produced water output of the subsurface hydrocarbon well and the heat output of the deployable nuclear reactor. The system may further include a deployable off-gas processing system configured to produce an industrial chemical using the off-gas output of the subsurface hydrocarbon well and the heat output of the deployable nuclear reactor.Type: ApplicationFiled: July 1, 2025Publication date: January 15, 2026Inventor: Derek Haas
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Patent number: 12500006Abstract: A deployment system for a molten salt reactor includes a reactor module, a cooling module, a coolant preparation module, a fuel shipping module, and a fuel preparation module. Each of the reactor module, the cooling module, the coolant preparation module, the fuel shipping module, and the fuel preparation module may be supplied to a deployment site. Using the coolant preparation module, a coolant salt held within the reactor module may be transferred to the cooling module. Using the fuel preparation module, a fuel salt held within the fuel shipping module may be transferred to the reactor module.Type: GrantFiled: December 5, 2023Date of Patent: December 16, 2025Assignee: Natura Resources LLCInventor: Derek Haas
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Publication number: 20250336552Abstract: An integral molten salt nuclear reactor includes a drain tank section configured to hold a volume of fuel salt. The integral molten salt nuclear reactor further includes a reactor section configured to receive the volume of fuel salt from the drain tank and cause fission reactions that heats the molten salt. The integral molten salt nuclear reactor further includes a heat exchange section configured to receive a flow of the heated fuel salt from the reactor section and remove heat therefrom.Type: ApplicationFiled: July 3, 2025Publication date: October 30, 2025Inventors: Derek Haas, Jordan Robison, Steven Biegalski, Timothy Head, Rusty Towell, Kevin Clarno, Bojan Petrovic, Pavel Tsvetkov, Jonathan Scherr, Mark Kimber
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Patent number: 12444514Abstract: A method and system for calibrating nuclear instrumentation of a reactor is disclosed. The system comprises a reactor configured to operate at a low power level and an external heater configured to heat the reactor to its operating temperature and maintain the reactor in a critical state. The reactor maintains its temperature at a steady state by repeating steps of reducing the heater's power and increasing the reactor's power by changing one or more reactivity settings, wherein the reduced heater's power is compensated by using the increased power generated by the reactor itself. The nuclear instrumentation is configured to measure the reactor's output power and compare it with the calculated reactor's power. Based on the discrepancy between the calculated power and the measured power exceeds a threshold; and the nuclear instrumentation is appropriately calibrated by adjusting one or more settings.Type: GrantFiled: August 6, 2024Date of Patent: October 14, 2025Assignees: Abilene Christian University, Georgia Tech Research Corporation, The Texas A&M University System, Board of Regents, The University of Texas SystemInventors: Ryan Kelly, Steven Biegalski, Ryan Brownfield, Kraig Farrar, Jonathan Tyler Gates, Derek Haas, Jonathan Scherr, Jack Shoemate, Pavel Tsvetkov
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Publication number: 20250285775Abstract: A molten salt reactor system includes a fuel salt system and a coolant salt system. The fuel salt system is configured to circulate a molten fuel salt through a molten salt loop. The coolant salt system is configured to circulate a coolant salt through a coolant loop. The molten salt reactor system further includes a heat exchanger arranged along the molten salt loop and the coolant loop. The heat exchanger is configured to transfer heat from the molten fuel salt of the molten salt loop to the coolant salt of the coolant loop. The heat exchanger is configured to permit gravitational draining of at least one of the molten fuel salt or the coolant salt upon a shutdown event.Type: ApplicationFiled: February 26, 2025Publication date: September 11, 2025Inventor: Derek Haas
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Patent number: 12347577Abstract: A fuel salt shipping system includes an outer container defining an outer containment volume and an inner container disposed within the outer containment volume, with the inner container defining an inner volume configured to contain a molten fuel salt. The inner container and the outer container cooperate to define an annulus region therebetween. The fuel salt shipping system further includes a fuel salt conduit penetrating the outer container and the inner container and fluidically coupling the inner volume to an external environment of the system. The fuel salt shipping system further includes a heating system including a heater disposed in the annulus space and configured to impart a heat output to the molten fuel salt of the inner volume and change a phase of the molten fuel salt held therein from a solid phase to a liquid phase.Type: GrantFiled: April 11, 2024Date of Patent: July 1, 2025Assignee: Natura Resources LLCInventor: Derek Haas
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Publication number: 20250191801Abstract: A containment system for an integral molten salt reactor includes a sealed containment structure defining a containment volume. The containment structure includes a fission product adsorbing/absorbing material. The containment system further includes an integral molten salt reactor housed fully within the containment volume of the sealed containment structure. The integral molten salt reactor may permit circulation of a fuel salt therein being heated by fission reactions, and allow for the export of heat from said fuel salt.Type: ApplicationFiled: January 29, 2025Publication date: June 12, 2025Inventor: Derek Haas
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Patent number: 12327648Abstract: A containment system for an integral molten salt reactor includes a sealed containment structure defining a containment volume. The containment structure includes a fission product adsorbing/absorbing material. The containment system further includes an integral molten salt reactor housed fully within the containment volume of the sealed containment structure. The integral molten salt reactor may permit circulation of a fuel salt therein being heated by fission reactions, and allow for the export of heat from said fuel salt.Type: GrantFiled: August 14, 2023Date of Patent: June 10, 2025Assignee: Natura Resources LLCInventor: Derek Haas
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Publication number: 20250182918Abstract: A deployment system for a molten salt reactor includes a reactor module, a cooling module, a coolant preparation module, a fuel shipping module, and a fuel preparation module. Each of the reactor module, the cooling module, the coolant preparation module, the fuel shipping module, and the fuel preparation module may be supplied to a deployment site. Using the coolant preparation module, a coolant salt held within the reactor module may be transferred to the cooling module. Using the fuel preparation module, a fuel salt held within the fuel shipping module may be transferred to the reactor module.Type: ApplicationFiled: December 5, 2023Publication date: June 5, 2025Inventor: Derek Haas
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Publication number: 20250182916Abstract: An integral molten salt nuclear reactor includes a drain tank section configured to hold a volume of fuel salt. The integral molten salt nuclear reactor further includes a reactor section configured to receive the volume of fuel salt from the drain tank and cause fission reactions that heats the molten salt. The integral molten salt nuclear reactor further includes a heat exchange section configured to receive a flow of the heated fuel salt from the reactor section and remove heat therefrom.Type: ApplicationFiled: January 30, 2025Publication date: June 5, 2025Inventors: Derek Haas, Jordan Robison, Steven Biegalski, Timothy Head, Rusty Towell, Kevin Clarno, Bojan Petrovic, Pavel Tsvetkov, Jonathan Scherr, Mark Kimber