Company Filing History:
Years Active: 1979-1995
Title: Bryce L Fanning: Innovator in Underwater Acoustic Technology
Introduction
Bryce L Fanning is a notable inventor based in Dartmouth, CA. She has made significant contributions to the field of underwater acoustics, holding a total of 3 patents. Her innovative work focuses on enhancing the efficiency and effectiveness of underwater acoustic projectors.
Latest Patents
Fanning's latest patents include groundbreaking technologies that address challenges in underwater acoustics. One of her notable inventions is the Acoustic Gel, which describes a method for reducing cavitation around underwater acoustic projectors. This method involves cleaning the projector with a surfactant and encapsulating it with an aqueous gel containing a polysaccharide polymer, such as a chitosan derivative, a hydrophilic stabilizer, and a biocide. Another significant invention is the Vented-Pipe Projector, which features a piezoelectrically-driven, resonant-pipe design. This projector includes vents that broaden the response of certain cavity resonances and increase the response between these resonances. It exhibits relatively high electroacoustical efficiency and is capable of medium to high power output over the operating band, without being depth dependent or depth limited.
Career Highlights
Bryce L Fanning is currently employed by Her Majesty the Queen in Right of Canada, As Represented by the Minister. Her work in this organization has allowed her to further develop her innovative ideas and contribute to advancements in underwater acoustic technology.
Collaborations
Fanning has collaborated with notable colleagues in her field, including Dennis T Curran and Clive M Elson. These collaborations have likely enriched her research and development efforts, leading to the successful patents she holds today.
Conclusion
Bryce L Fanning is a pioneering inventor whose work in underwater acoustics has led to significant advancements in the field. Her innovative patents demonstrate her commitment to improving acoustic technologies, making her a valuable contributor to the scientific community.