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Methods to produce high purity tritium gas

TS-067793 — The technology is a device and method for producing high purity tritium gas by irradiating a lithium composition within a gas cell that selectively allows tritium to diffuse while blocking other byproducts, ensuring efficient and direct collection of pure tritium without extensive purification. This system is designed to enhance the purity, efficiency, and scalability of tritium production for various industrial and research applications.

The production of high purity tritium gas is critical for applications in nuclear fusion, radioluminescent devices, and scientific research. Current methods for tritium production often result in contaminants like helium and other gases, requiring additional purification processes that are costly …

College: College of Engineering (COE)
Inventors: Cao, Lei Raymond; Van Zile, Matthew
Licensing Officer: Zinn, Ryan

Revolutionary Modular Nuclear Reactor Core for Space Exploration

TS-066252 — Rotating Fuel Core with Fuel Strip(s) ("ROFFUS") is an innovative modular nuclear reactor core designed to provide reliable and scalable power for advanced space missions.

Future space missions require dependable, high-output energy sources to support operations such as material processing, transportation, and thermal conditioning, particularly in challenging environments like the lunar poles where sunlight is scarce. This advanced nuclear reactor core features a…

College: College of Engineering (COE)
Inventors: Smidts, Carol; Aldemir, Tunc; Cao, Lei Raymond; Horack, John; Khafizov, Marat
Licensing Officer: Zinn, Ryan

Containment System for Heating and Off-Gassing

TS-065424 — Due to environmental concerns and the decreasing supply of fossil fuels, there is substantial demand for nuclear-based energy production. Nuclear energy now provides about 10% of the world's electricity from about 440 power reactors and is the second largest source of low-carbon power. In addition, over 50 smaller countries utilize nuclear energy in about 220 research-size reactors. These reactors are used to produce medical and industrial isotopes and several other purposes.

It is essential to meet the safeguard requirements in liquid-fueled molten salt reactors, fuel salt transportation, and fuel cycle processes and to develop effective methods for measuring and monitoring the mass of molten fuel salt or coolant salt. However, due to the complex and dynamic nature o…

College: College of Engineering (COE)
Inventors: Van Zile, Matthew; Cao, Lei Raymond; Kauffman, Andrew
Licensing Officer: Zinn, Ryan

Device for Measuring Tritium Production Rates of Lithium Salts

TS-063979 —

In the realm of nuclear technology, the demand for high-purity tritium gas is escalating, driven by the requirements of fusion applications and portable neutron generators. Determining the yield of tritium is important for designing a tritium gas production facility and for conducting safety analy…

College: College of Engineering (COE)
Inventors: Cao, Lei Raymond; Maier, Andrew
Licensing Officer: Zinn, Ryan

Detector for Ultra-Sensitive Tritium Gas Detection

TS-062714 — A metal hydride and gas (MEGA) activated proportional counter for ultra-senitive tritium gas detection

In 2022, the Intelligence Advanced Research Projects Activity (IARPA) introduced a Broad Agency Announcement (BAA) for the establishment of a gaseous radioisotope in-situ analysis laboratory (GRAIL). This initiative aims to address a challenge that current commercial products on the market have no…

College: College of Engineering (COE)
Inventors: Cao, Lei Raymond; Co, Anne; Kandlakunta, Praneeth
Licensing Officer: Zinn, Ryan