Company Filing History:
Years Active: 2016
Title: Innovations by Brian Gene Thompson: Pioneering Static Dissipation in Pipeline Systems
Introduction
Brian Gene Thompson, based in Bellingham, WA, is an innovative inventor known for his significant contributions to the field of static electricity management in pipeline systems. With a focus on enhancing safety and efficiency in industrial applications, he has been instrumental in developing methods that address the challenges of static electricity accumulation in systems carrying corrosive petroleum products.
Latest Patents
Thompson holds a patent titled "Static Dissipation in Composite Structural Components." This innovative method is designed to prevent the build-up of static electricity within pipe systems. It achieves a total resistance of less than 1 MEG ohms to ground from all points within the pipe system, which consists of at least two pipe sections. Each section includes a structural layer and a corrosion-resistant layer with conductive surfaces that provide an electrical pathway. The joining of these sections is accomplished through tapered ends bonded by a conductive adhesive overlay, which is then connected to a grounding device, facilitating the dissipation of electrostatic charges.
Career Highlights
Currently, Thompson is employed at Chevron U.S.A. Inc., where he continues to apply his expertise to solve complex engineering challenges within the petroleum industry. His career at Chevron has allowed him to work on critical projects aimed at enhancing safety and operational efficiency.
Collaborations
Throughout his tenure at Chevron, Thompson has collaborated with skilled colleagues such as Kyle Warren Schmidt and Randal Joseph Rapoza. These partnerships have fostered a dynamic work environment where innovative ideas can flourish, leading to advancements in pipeline technology and safety measures.
Conclusion
Brian Gene Thompson has made noteworthy contributions to the field of static electricity management in pipeline systems. His pioneering patent techniques not only enhance safety protocols within the petroleum industry but also signify the importance of innovation in engineering. As the industry continues to evolve, Thompson's work serves as a foundation for future advancements in safe and efficient energy transportation.