Company Filing History:
Years Active: 2015
Title: Maliha Williamson: Pioneering Innovations in Gas Conditioning Technologies
Introduction
Maliha Williamson, an innovative inventor based in Antioch, California, has made significant contributions to the field of gas processing technology. Her groundbreaking work has led to the development of inventive processes aimed at improving the efficiency and sustainability of natural gas use.
Latest Patents
Maliha Williamson holds a patent for a "Fuel gas conditioning process using glassy polymer membranes." This patent discloses an innovative method for conditioning natural gas containing hydrocarbons, enabling it to be utilized as a combustion fuel for gas-powered equipment, including gas engines and turbine-driven compressors in gas fields or processing plants. The patented process utilizes glassy polymeric membranes that preferentially permeate methane over hydrocarbons, resulting in a partially purified methane stream. This process operates with a stage cut of at least about 5%, showcasing its efficiency and effectiveness.
Career Highlights
Maliha is a valued member of Membrane Technology and Research, Inc., where she applies her expertise in membrane technology and gas conditioning processes. Her professional journey reflects a commitment to pursuing sustainable energy solutions and enhancing industrial performance through innovative inventions.
Collaborations
Working closely with her colleagues, including Kaaeid A Lokhandwala and Sachin Joshi, Maliha fosters an environment of collaboration and teamwork. Together, they explore new methodologies and research avenues to advance the company's goals and the overall field of gas technology.
Conclusion
Through her dedication and ingenuity, Maliha Williamson exemplifies the spirit of innovation in the gas processing sector. Her contributions not only highlight her skills as an inventor but also pave the way for advancements in gas conditioning technology. As the industry evolves, her work will undoubtedly play a crucial role in shaping the future of energy efficiency and sustainable practices.