Company Filing History:
Years Active: 1991
Title: David A DeMarco: Innovator in Aromatic Conversion Processes
Introduction
David A DeMarco is a notable inventor based in Naperville, IL (US). He has made significant contributions to the field of chemical engineering, particularly in the conversion of wet acetylene-containing streams to aromatic compounds. His innovative approach has implications for various industrial applications.
Latest Patents
David A DeMarco holds a patent for a process titled "Process for converting a wet acetylene-containing stream to aromatics." This process involves the catalyzed conversion of wet acetylene-containing streams into an aromatic product rich in compounds such as benzene, toluene, and styrenes. The method utilizes a promoted catalyst composition that incorporates a major amount of a HAMS-1B crystalline borosilicate molecular sieve, combined with a minor amount of a zinc compound, which is then calcined to form a catalyst containing supported zinc oxide. This innovative process has the potential to enhance the efficiency of aromatic production in various chemical industries.
Career Highlights
David A DeMarco is associated with Amoco Corporation, where he has contributed his expertise in chemical processes. His work has been instrumental in advancing the company's capabilities in aromatic production. With a focus on innovation, he has dedicated his career to developing efficient and effective chemical processes.
Collaborations
David has collaborated with Mark L Winzenburg, working together to enhance the research and development of chemical processes at Amoco Corporation. Their partnership has fostered a productive environment for innovation and technological advancement.
Conclusion
David A DeMarco's contributions to the field of chemical engineering, particularly through his patented process for converting wet acetylene-containing streams to aromatics, highlight his role as an innovator. His work continues to influence the industry and pave the way for future advancements in chemical processes.