Company Filing History:
Years Active: 2004
Title: The Innovative Contributions of Thanh Q Hua
Introduction
Thanh Q Hua is an accomplished inventor based in Bolingbrook, Illinois. With a focus on advancements in nuclear technology, he holds a patent that showcases his innovative approach to nuclear fuel processing. His work has substantial implications for the field of nuclear energy, emphasizing safety and efficiency.
Latest Patents
Thanh Q Hua's notable patent is for a Nuclear Fuel Electrorefiner. This invention comprises a vessel containing a molten electrolyte pool that floats atop a cadmium pool. It includes critical components such as an anodic fuel dissolution basket and a high-efficiency cathode, both suspended within the molten electrolyte. The design also features a shroud that isolates a portion of the electrolyte pool, facilitating the effective separation of undesirable noble-metal fission products. In operation, these unwanted materials migrate downward and are collected through a filter assembly, while uranium values are strategically moved to ensure electrolytic deposition at the cathode.
Career Highlights
Thanh Q Hua is affiliated with the United States Department of Energy, where he has contributed significantly to the development of nuclear fuel processing technologies. His expertise in this area not only highlights his innovative thinking but also underscores his commitment to enhancing the safety and efficacy of nuclear energy applications.
Collaborations
Throughout his career, Thanh Q Hua has collaborated with fellow researchers, including Rajesh K Ahluwalia. Their combined efforts reflect a collaborative spirit in the research community, aimed at advancing nuclear technology and addressing contemporary energy challenges.
Conclusion
Thanh Q Hua's contributions through his patent and collaborations represent a vital part of ongoing advancements in nuclear energy technology. His innovative designs not only improve processing methods within the industry but also promote a safer and more efficient approach to nuclear fuel management.