Company Filing History:
Years Active: 2010
Title: Gilbert V. Whitten: Innovator in Hot Direct Reduced Iron Charging Technology
Introduction
Gilbert V. Whitten is a notable inventor based in Mooresville, NC (US). He has made significant contributions to the field of metallurgical engineering, particularly in the charging of hot direct reduced iron (HDRI) into melters or finishers. His innovative approach has the potential to enhance efficiency in the iron and steel production process.
Latest Patents
Whitten holds a patent for a "Method and apparatus for charging hot direct reduced iron from hot transport vessels into a melter or finisher." This invention provides a systematic method for transferring HDRI from hot transport vessels (HTVs) into a melter or finisher. The apparatus includes a charging stand with multiple bays designed to receive and support HTVs, each equipped with an outlet port that connects to an inlet port via a telescoping seal. This design ensures a substantially air-tight seal, facilitating the efficient movement of HDRI to an electric arc furnace or similar equipment. The system also incorporates load cells for weighing the HTVs and HDRI, allowing for precise control of the feed rate into the melter or finisher.
Career Highlights
Whitten is associated with Midrex Technologies, Inc., where he has applied his expertise in developing innovative solutions for the iron and steel industry. His work has contributed to advancements in the efficiency and effectiveness of metallurgical processes.
Collaborations
Throughout his career, Whitten has collaborated with esteemed colleagues, including James M. McClelland, Jr. and Stephen Craig Montague. These collaborations have fostered a productive environment for innovation and development in their field.
Conclusion
Gilbert V. Whitten's contributions to the field of metallurgical engineering, particularly through his patented technology for charging HDRI, exemplify his commitment to innovation. His work continues to influence the efficiency of iron and steel production processes.