Company Filing History:
Years Active: 1981
Title: The Innovative Contributions of Robert Bennett
Introduction
Robert Bennett is a notable inventor based in Chicago, IL, who has made significant contributions to the field of sterilization technology. His innovative approach to creating a safe and efficient circulation system for biocidal gas has garnered attention in the industry. With one patent to his name, Bennett's work exemplifies the intersection of safety and functionality in sterilization processes.
Latest Patents
Bennett's patent, titled "Circulation system for biocidal gas," addresses the challenges associated with the treatment of articles using sterilant gases such as alkylene oxide. The invention features a gas circulating system that is completely devoid of electrical contacts, switches, and motors, which are potential ignition sources for explosive sterilant gases. The system includes a fluid-driven turbine-like impeller that is isolated from the sterilant gas, coupled with a fan blade that effectively circulates and recycles the gas throughout the treatment chamber. This innovative design enhances safety while maintaining efficiency in sterilization processes.
Career Highlights
Bennett is currently employed at Griffith Laboratories U.S.A., Inc., where he continues to develop and refine technologies related to sterilization and biocidal applications. His work at Griffith Laboratories has positioned him as a key player in advancing sterilization methods that prioritize safety and effectiveness.
Collaborations
Bennett has collaborated with notable colleagues, including Donald E. Alguire and Norbert Kotulla, who have contributed to the development and implementation of innovative solutions in the field. Their combined expertise has fostered a collaborative environment that encourages the advancement of sterilization technologies.
Conclusion
Robert Bennett's contributions to the field of sterilization technology through his innovative patent demonstrate his commitment to safety and efficiency. His work continues to influence the industry, making significant strides in the treatment of articles with biocidal gases.