Company Filing History:
Years Active: 1989-1990
Title: The Innovative Contributions of Gerald W Strandberg in Microbial Coal Solubilization
Introduction
Gerald W Strandberg, based in Farragut, Tennessee, is a notable inventor with a focus on innovative methods for coal solubilization. With two patents to his name, Strandberg is making significant strides in the energy sector by utilizing microbial technology to enhance coal's usability.
Latest Patents
Strandberg's latest patents delve into the microbial solubilization of coal. The first patent addresses the solubilization of coal through specific species of Streptomyces, showcasing an extracellular component capable of breaking down coal effectively. The second patent introduces a fluidized-bed bioreactor process designed for the microbial solubilization of coal. This advanced system allows for the continuous or periodic processing of coal and bioreactors to yield microbially solubilized coal products efficiently. It also incorporates an oxidation pretreatment process, which improves the coal's susceptibility to microbial action.
Career Highlights
Throughout his career, Strandberg has been dedicated to developing alternative and sustainable energy sources. His innovative methods present a significant advancement in the coal industry, aiming at making coal a more environmentally friendly energy source.
Collaborations
In his innovative journey, Strandberg has collaborated with several distinguished professionals, including Susan N Lewis and Charles D Scott. This teamwork has contributed to the development and refinement of his patented technologies in microbial coal solubilization.
Conclusion
Gerald W Strandberg exemplifies the spirit of innovation within the energy sector. His groundbreaking patents in microbial solubilization techniques present promising solutions for optimizing coal usage, potentially leading to more sustainable energy practices. His work highlights the importance of continued research and innovation in addressing the challenges of modern energy production.