Company Filing History:
Years Active: 1996-1998
Title: Innovations in Helium Recovery by Joseph S D'Amico
Introduction
Joseph S D'Amico is a notable inventor based in Linthicum, MD (US). He has made significant contributions to the field of helium recovery, holding a total of 4 patents. His work focuses on developing efficient processes for extracting helium from various gas streams.
Latest Patents
D'Amico's latest patents include a process for helium recovery from higher helium content streams. This innovative process utilizes two stages of pressure swing adsorption to efficiently recover helium gas from streams containing about 25 percent by volume or more helium. The first stage increases the helium content to 95 percent by volume or more, while the second stage further concentrates the helium content to over 50 percent by volume.
Another significant patent is for an enhanced helium recovery process that combines membrane separation with pressure swing adsorption. This method can recover helium from source streams containing about 0.5 to 5 percent by volume helium and concentrate it to greater than 98 percent by volume. The process involves a semipermeable membrane that selectively allows helium to pass while rejecting hydrocarbons, followed by two stages of pressure swing adsorption.
Career Highlights
Joseph S D'Amico is associated with Nitrotec Corporation, where he continues to innovate in the field of gas separation technologies. His work has been instrumental in advancing methods for helium recovery, which is crucial given the increasing demand for this valuable resource.
Collaborations
D'Amico has collaborated with notable colleagues such as Kent S Knaebel and Herbert E Reinhold, III. Their combined expertise has contributed to the development of advanced helium recovery technologies.
Conclusion
Joseph S D'Amico's contributions to helium recovery technology highlight his innovative spirit and dedication to advancing gas separation processes. His patents reflect a commitment to efficiency and sustainability in resource recovery.