Company Filing History:
Years Active: 2000-2003
Title: The Innovations of Bruce P. Pelrine
Introduction
Bruce P. Pelrine is an accomplished inventor based in Ewing, NJ, with a focus on innovative chemical processes. He holds two patents that showcase his expertise in catalysis and hydroprocessing technologies. His work has significant implications for the production of valuable chemical products.
Latest Patents
Pelrine's latest patents include a groundbreaking method for the catalytic direct production of hydrogen peroxide from hydrogen and oxygen feeds. This process involves using a supported noble metal phase-controlled catalyst and a suitable organic liquid solvent. The reaction occurs under specific conditions, allowing for the efficient production of hydrogen peroxide, which can be further utilized in chemical synthesis.
Another notable patent involves the development of iron-based ionic liquid catalysts for hydroprocessing carbonaceous feeds. This highly dispersed catalyst demonstrates high catalytic activity and is useful for hydrocracking and hydrogenation reactions. The catalyst is produced through aqueous precipitation and can be modified to enhance its performance, making it suitable for processing various carbonaceous materials.
Career Highlights
Pelrine is associated with Hydrocarbon Technologies, Inc., where he applies his innovative ideas to advance chemical processing technologies. His contributions to the field have been recognized for their potential to improve efficiency and sustainability in chemical production.
Collaborations
Throughout his career, Pelrine has collaborated with notable colleagues, including Lap-Keung Lee and Alfred G. Comolli. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and advancements in their respective fields.
Conclusion
Bruce P. Pelrine's contributions to the field of chemical engineering through his patents and innovative processes highlight his role as a significant inventor. His work continues to influence the development of efficient chemical production methods.