Company Filing History:
Years Active: 2018-2019
Title: Edward C. Andersen: Innovator in Nuclear Reactor Safety
Introduction
Edward C. Andersen is a notable inventor based in Wilmington, NC (US). He has made significant contributions to the field of nuclear reactor safety, holding 2 patents that focus on innovative cooling and containment systems for Boiling Water Reactors (BWRs). His work is crucial in enhancing the safety and efficiency of nuclear power plants.
Latest Patents
Andersen's latest patents include a "Method and system for external alternate suppression pool cooling for a BWR." This invention provides a cooling system that does not breach the Mark I primary containment, allowing for the pumping of cool water through cooling coils surrounding the suppression pool without the need for normal plant electrical power. This feature is particularly beneficial during plant emergencies.
Another significant patent is the "Containment vent system with passive mode for boiling water reactors (BWRs), and method thereof." This system is designed to vent and scrub gaseous discharges from the primary containment of a BWR over an extended period, especially during serious plant accidents. It operates without the need for monitoring by on-site personnel and does not require external electrical power after initial activation, thereby protecting the integrity of primary containment.
Career Highlights
Edward C. Andersen is currently employed at GE-Hitachi Nuclear Energy Americas LLC, where he continues to develop innovative solutions for nuclear safety. His expertise in reactor systems has positioned him as a key figure in the industry.
Collaborations
Andersen has collaborated with notable colleagues, including Robert Joseph Ginsberg and Robert Henry Cowen. Their combined efforts contribute to advancements in nuclear technology and safety protocols.
Conclusion
Edward C. Andersen's work exemplifies the importance of innovation in the nuclear energy sector. His patents not only enhance safety measures but also demonstrate the potential for technological advancements in reactor design.