Company Filing History:
1 out of 832,961 Years Active: 2022
Title: The Innovative Mind of Ashley A. Cephas
Introduction
Ashley A. Cephas, an inventive mind based in Clayton, Delaware, has made significant contributions to the field of biomaterials with her groundbreaking patent. With a patent portfolio that showcases her expertise, she focuses on the separation and processing of commingled biomass streams to create valuable nutritional products.
Latest Patents
Her sole patent, titled "Separation and further processing of commingled biomass streams containing highly variable protein and fat concentrations," introduces a novel process for isolating digestible proteins and fats from biomass matter. The method utilizes a pH adjustment of a slurry derived from both animal and plant-based feedstock. This innovative approach efficiently separates the constituents without solely relying on protein solubilization, allowing her to produce two valuable streams: a highly digestible protein component suitable for animal feed and a fat component that can serve as biofuels, greases, or specialty chemicals.
Career Highlights
Throughout her career, Ashley has demonstrated a commitment to advancing the understanding and utility of biomass in various applications. Her research highlights the importance of harnessing the potential of commingled biomass streams, which traditionally presented challenges due to their variability.
Collaborations
Ashley A. Cephas collaborates with notable colleagues Kenneth L. Laubsch and Lucas Wangen, contributing to a collaborative environment that fosters innovation and progress in their field. The synergy among these professionals enhances their research capabilities and expands the potential impact of their work.
Conclusion
In conclusion, Ashley A. Cephas stands out as a pioneering inventor with her patented process that not only addresses the complexities of biomass streams but also adds substantial value across various industries. Her work exemplifies the power of innovation in transforming materials into useful products, ultimately contributing to sustainability and efficiency in resource utilization.