Company Filing History:
Years Active: 2001
Title: The Innovative Contributions of Gregory D. Livermore in Nuclear Reactor Design
Introduction
Gregory D. Livermore, based in Columbia, SC, is a notable inventor recognized for his innovative work in the field of nuclear reactor technology. With a focus on enhancing the efficiency and safety of fuel assemblies, Livermore has made significant strides in engineering solutions that contribute to the advancement of nuclear energy.
Latest Patents
Livermore holds a patent for a "Fretting resistant spring design." This invention introduces a novel spring design for a strap employed in the grid of a nuclear reactor fuel assembly. The design features a pair of ligaments connected to the free portion of a retention plate, positioned at specific distances from the termination of the slots within the strap body. Additionally, the spring incorporates a wider spring contact plate to maximize the surface area in contact with the fuel rod, thereby reducing contact stresses. The embossed spring contact member protruding from the plate plays a crucial role in minimizing frictional stresses during the insertion and removal of the fuel rod, as well as during vibrations.
Career Highlights
Gregory D. Livermore's career is closely associated with Westinghouse Electric Company LLC, where he has contributed to innovative solutions in nuclear technology. His expertise and commitment to engineering excellence have positioned him as a key player in the development of safer and more efficient nuclear reactors.
Collaborations
Throughout his career, Livermore has collaborated with talented individuals such as Paul M. Evans and Quang M. Nguyen. These partnerships have fostered an environment of creativity and innovation, enabling the development of cutting-edge technologies in the nuclear energy sector.
Conclusion
Gregory D. Livermore's contributions to nuclear reactor design, particularly through his patented fretting resistant spring design, demonstrate his dedication to advancing engineering solutions. His work not only enhances the functionality of nuclear fuel assemblies but also underscores the importance of innovation in the pursuit of safe and efficient energy sources.