Location History:
- Evanston, IL (US) (1976)
- Farmington, ME (US) (1978)
Company Filing History:
Years Active: 1976-1978
Title: The Innovative Contributions of John C. Sharer
Introduction
John C. Sharer is a notable inventor based in Evanston, Illinois, recognized for his significant contributions to the field of hydrogen production. With a total of four patents to his name, Sharer has made strides in developing processes that enhance the efficiency of producing hydrogen and oxygen from water.
Latest Patents
Sharer's latest patents focus on innovative processes for producing hydrogen and oxygen from water. One of his patents describes a method that involves forming ferric chloride from ferriferrous oxide through a reaction with a chloride ion yielding substance. This process includes thermally reducing the ferric chloride to produce ferrous chloride, which is then reduced to metallic iron. The metallic iron is oxidized with water to generate hydrogen. Additionally, this patent outlines two specific reactant regenerative closed cycle systems that utilize this process for efficient hydrogen and oxygen production. Another patent presents a similar process, emphasizing the reduction of ferric chloride with a reducing agent to produce ferrous chloride, followed by oxidation of either the ferrous compound or metallic iron with water to yield hydrogen. This patent also details four specific reactant regenerative closed cycle systems designed for high energy efficiency in hydrogen production.
Career Highlights
Throughout his career, John C. Sharer has worked with prominent organizations such as the American Gas Association and the Institute of Gas Technology. His work in these institutions has contributed to advancements in gas technology and energy production.
Collaborations
Sharer has collaborated with notable colleagues, including Jon B. Pangborn and Robert H. Elkins, who have also made significant contributions to the field of gas technology.
Conclusion
John C. Sharer's innovative work in hydrogen production showcases his commitment to advancing energy efficiency and sustainability. His patents reflect a deep understanding of chemical processes and their applications in real-world scenarios.