Company Filing History:
Years Active: 1983-1987
Title: Harold L. Nelson: Innovator in Nuclear Fuel Assembly Technology
Introduction
Harold L. Nelson is a distinguished inventor based in San Jose, CA, known for his contributions to nuclear fuel assembly technology. With a total of 3 patents to his name, he has made significant advancements in the field, particularly in enhancing the safety and efficiency of nuclear reactors.
Latest Patents
Among his latest patents, one notable invention is the "Nuclear fuel assembly with large coolant conducting tube." This innovation features a relatively flexible mounting member that secures a large coolant conducting tube to the lower tie plate. This design helps to avoid excessive side forces on the fuel rod spacers during lateral displacement of the fuel assembly, such as during seismic events. Another significant patent is the "Flow channel to nozzle attachment for nuclear fuel assembly." This invention addresses the challenges posed by materials with different thermal coefficients of expansion. It includes tapered bars secured to the lower inner ends of the flow channel, which fit into similarly tapered grooves in the nozzle, allowing for temperature-induced movement without bending or stressing the channel.
Career Highlights
Harold L. Nelson has built a successful career at General Electric Company, where he has been instrumental in developing innovative solutions for nuclear energy applications. His work has not only contributed to the safety of nuclear reactors but has also paved the way for more efficient energy production.
Collaborations
Throughout his career, Nelson has collaborated with notable colleagues, including Thomas G. Dunlap and Eric B. Johansson. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Harold L. Nelson's contributions to nuclear fuel assembly technology exemplify his commitment to innovation and safety in the energy sector. His patents reflect a deep understanding of the complexities involved in nuclear reactor design and operation. Nelson's work continues to influence the field, ensuring safer and more efficient energy solutions for the future.