Company Filing History:
1 out of 6 
1 out of 1,102 Years Active: 1999-2000
Title: Innovations by James E. Robertson
Introduction
James E. Robertson is a notable inventor based in South Glastonbury, CT (US). He has made significant contributions to the field of nuclear power with his innovative patents. With a total of 2 patents, Robertson's work focuses on enhancing the efficiency and safety of pressurized water reactors.
Latest Patents
Robertson's latest patents include a feedwater control system designed for pressurized water reactor steam generating systems. This system utilizes first and second output signals to manage feedwater pumps and valves, ensuring optimal water flow to the steam generator. The first output signal is derived from a combination of input signals, including downcomer feedwater flow differential pressure and reactor power level. The second output signal, based on steam generator water level, automatically controls startup feedwater control valves under specific power conditions.
Another significant patent involves pump selection logic for nuclear steam supply systems. This system allows operators to manually select the number of main feedwater pumps for reactor operation. The associated logic circuit ensures that the reactor's power output can be adjusted safely, depending on the number of pumps selected and their operational status.
Career Highlights
Throughout his career, James E. Robertson has worked with prominent companies in the nuclear power sector, including Abb Combustion Engineering Nuclear Power, Inc. and Combustion Engineering, Inc. His expertise in reactor systems has made him a valuable asset in the industry.
Collaborations
Robertson has collaborated with notable colleagues such as Deva R. Chari and Stephen J. Wilkosz. Their combined efforts have contributed to advancements in nuclear technology and safety.
Conclusion
James E. Robertson's innovative patents and career in nuclear power highlight his significant contributions to the field. His work continues to influence the efficiency and safety of pressurized water reactors.