Company Filing History:
Years Active: 1980
Title: **The Innovative Contributions of James G. Dale in Nuclear Reactor Technology**
Introduction
James G. Dale is a notable inventor based in Stockton-on-Tees, GB, recognized for his significant contributions to the field of nuclear reactor technology. With a focus on improving the design and efficiency of reactors, Dale has made strides in ensuring that these powerful systems operate safely and effectively.
Latest Patents
Dale holds a patent for his work on nuclear reactor constructions, specifically pertaining to the core tank of a liquid metal cooled fast breeder reactor. His innovation involves a design that features thermal insulation cladding the inner wall surface of the core tank. This insulation comprises multiple layers of stainless steel sheet material arranged in vertical and horizontal rows, with closure members in a cruciform shape filling the gaps between adjacent panels. This inventive approach aims to enhance the thermal efficiency and safety of nuclear reactors.
Career Highlights
James G. Dale has been an integral part of the Nuclear Power Company Limited, where he has contributed to various projects that push the boundaries of nuclear energy technology. His expertise and innovative mindset have played a crucial role in advancing the capabilities of modern reactors, making them more efficient and safer than ever before.
Collaborations
Throughout his career, Dale has collaborated with fellow inventors and experts in the field, including Roy S. Howard and Donald Hodgson. These partnerships have allowed him to exchange ideas and refine his inventions, thereby enhancing the overall impact of his work on nuclear reactor technology.
Conclusion
In summary, James G. Dale's contributions to the field of nuclear reactor technology, exemplified by his patent for innovative reactor designs, demonstrate his commitment to advancing the industry. His collaborations with esteemed colleagues further highlight the importance of teamwork in driving innovation in complex fields such as nuclear energy.