Company Filing History:
Years Active: 2010
Title: Scott Feller: Innovator in Grain Processing Technology
Introduction
Scott Feller is a notable inventor based in Dayton, OH (US). He has made significant contributions to the field of grain processing, particularly through his innovative patent that enhances the efficiency of wet milling processes. His work has implications for the agricultural industry, particularly in the recovery and separation of grain components.
Latest Patents
Scott Feller holds a patent for "Processes for recovery and separation of grain pericarp from endosperm." This patent describes an improved wet milling process that allows for the effective separation of seed coat particles from the horny endosperm particles of seeds. The process utilizes soaking and grinding techniques to produce seed coat flake particles and horny endosperm particles. These particles can be separated using the movement of a liquid slurry, which provides hydraulic lift to facilitate the separation of seed coat particles. Notably, the improvements in this process allow for the omission of sulfur compounds, resulting in by-products of wet milling with enhanced properties. He has 1 patent to his name.
Career Highlights
Scott Feller is associated with Corn Value Products, where he applies his expertise in grain processing technology. His innovative approach has positioned him as a key figure in the development of more efficient milling processes. His work not only contributes to the company's success but also advances the field of agricultural processing.
Collaborations
Scott collaborates with talented individuals such as David Paustian and Daniel Hammes. Their combined efforts contribute to the innovative environment at Corn Value Products, fostering advancements in grain processing technologies.
Conclusion
Scott Feller's contributions to grain processing through his innovative patent demonstrate his commitment to improving agricultural practices. His work has the potential to enhance the efficiency and sustainability of grain milling processes.