Company Filing History:
Years Active: 2011-2017
Title: E Wayne Osborne: Innovator in Fluid Bed Reactor Technology
Introduction
E Wayne Osborne is a notable inventor based in Moses Lake, WA (US), recognized for his contributions to fluid bed reactor technology. With a total of four patents to his name, Osborne has made significant advancements in the field, particularly in enhancing the efficiency and functionality of fluid bed reactors.
Latest Patents
Osborne's latest patents include a probe assembly for a fluid bed reactor. This innovative probe assembly features a fluid bed reactor (FBR) member and a pressure tap that defines a passageway within which the FBR member is located. The embodiments disclosed in this patent aim to reduce or eliminate the need for support rods and rings within the reactor, thereby minimizing component fouling and product contamination. Another significant patent is for segmented silicon carbide liners designed for use in a fluidized bed reactor, specifically for the production of polysilicon-coated granulate material. This patent also includes methods for making and using these liners, as well as non-contaminating bonding materials for joining silicon carbide segments.
Career Highlights
Osborne's career is marked by his role at Rec Silicon Inc., where he has been instrumental in developing innovative solutions for the semiconductor industry. His work has not only advanced the technology but has also contributed to the efficiency of production processes in the field.
Collaborations
Throughout his career, Osborne has collaborated with notable colleagues, including Michael V Spangler and Walter J Stupin. These collaborations have fostered a creative environment that has led to the development of groundbreaking technologies in fluid bed reactors.
Conclusion
E Wayne Osborne's contributions to fluid bed reactor technology exemplify his innovative spirit and dedication to advancing industrial processes. His patents reflect a commitment to improving efficiency and reducing contamination in production methods.