Company Filing History:
Years Active: 2001
Title: The Innovative Contributions of Vesna Stanic
Introduction
Vesna Stanic is a notable inventor based in Edmonton, Canada. She has made significant strides in the field of electrochemical processes, particularly in the oxidation of hydrogen sulfide. Her work has implications for both environmental sustainability and energy production.
Latest Patents
Vesna holds a patent for the "Electrochemical oxidation of hydrogen sulfide." This invention relates to a process for gas phase electrochemical oxidation of H₂S to sulfur and water or steam using an electrolysis cell. The process involves passing H₂S-containing gas through an anode chamber to contact a catalytic anode, where it reacts to produce elemental sulfur, protons, and electrons. The protons then pass through a solid proton-conducting membrane to a cathode chamber, where they react with an oxygen-containing gas to produce water or steam. The process operates at a temperature of at least 120°C and an elevated pressure to keep the membrane moist. Sulfur is obtained in liquid or vapor form and is removed from the anode chamber, while water or steam is removed from the cathode chamber. An electric current can be withdrawn from both the anode and cathode, and the cell can also be operated in electrolysis mode to produce sulfur and hydrogen. Vesna has 1 patent to her name.
Career Highlights
Vesna Stanic has established herself as a key figure in her field through her innovative work at Ethyl Tech Inc. Her contributions have not only advanced scientific understanding but also provided practical solutions to real-world problems.
Collaborations
Vesna has collaborated with notable colleagues, including John C. Donini and Karl T. Chuang. These partnerships have enhanced her research and broadened the impact of her inventions.
Conclusion
Vesna Stanic's work in electrochemical oxidation represents a significant advancement in the field, showcasing her innovative spirit and dedication to solving complex challenges. Her contributions continue to inspire future research and development in sustainable technologies.