Susanne Olsen

Title: Innovations by Inventor Susanne Olsen in Hydrogen Production

Introduction

Susanne Olsen is a notable inventor based in Aberdeen, GB, recognized for her contributions to the field of hydrogen production. With two registered patents under her name, Olsen has made significant strides in developing advanced membrane technologies that could revolutionize the synthesis of hydrogen gas.

Latest Patents

Olsen’s latest patents focus on a membrane apparatus and methods for preparing a membrane and producing hydrogen gas, particularly synthesis gas. The inventions disclose a method and apparatus for the effective production of hydrogen gas. The preferred embodiments involve an alpha alumina membrane treated with a TiO wash coat on one side, combined with an active gamma alumina layer on the other side. Notably, a metal catalyst, preferably rhodium, is deposited within the pores of the alumina. This innovative design allows oxygen to travel through the membrane, where it is activated before contacting methane, leading to the formation of synthesis gas through the partial oxidation of methane. Some advantages of this technology include a remarkable 100% conversion rate of oxygen, the capacity to utilize separate feed streams of methane and oxygen without explosion risk, and the flexibility to adjust feed rates while maintaining product consistency.

Career Highlights

Throughout her career, Susanne Olsen has collaborated with notable organizations, including Gas2 Limited and The Robert Gordon University. Her work in these institutions has furthered her innovations and expanded her understanding of hydrogen production technologies.

Collaborations

Olsen has worked closely with her coworker, Edward Gobina, contributing to the advancements in her patented technologies. Their collaboration has led to productive discussions and explorative research aimed at enhancing membrane production methods.

Conclusion

Susanne Olsen's contributions to the field of hydrogen production, particularly through her patented technologies, highlight the potential for innovative solutions in energy management. Her work not only paves the way for more effective methods of synthesizing gases but also points to future advancements that could enhance efficiency in using resources recovered from remote oil wells. With a keen focus on sustainability and efficiency, Olsen continues to be a pivotal figure in the realm of hydrogen innovation.