Company Filing History:
Years Active: 2023
Title: The Innovations of Daniel Kuehler
Introduction
Daniel Kuehler is an accomplished inventor based in Tulsa, OK (US). He has made significant contributions to the field of chemical engineering, particularly in the area of catalyst activation for hydrogenation processes. His innovative work has implications for the production of liquid transportation fuels.
Latest Patents
Kuehler holds a patent titled "Catalyst activation for selective hydrogenation of contaminants in a light olefin stream." This patent describes a process for activating a hydrogenation catalyst that comprises nickel. The process involves contacting the hydrogenation catalyst with a mixed gas that includes hydrogen sulfide and periodically increasing the temperature of the mixed gas. This method facilitates the efficient catalytic hydrogenation of both acetylene and butadiene by the modified catalyst, while maintaining low selectivity for the hydrogenation of ethylene. The patent further claims a process that utilizes the modified catalyst to selectively hydrogenate acetylene and butadiene contaminants in a raw light olefin stream produced by thermal cracking. This innovation extends the useful catalytic lifespan of a downstream oligomerization catalyst that converts the light olefins stream to a liquid transportation fuel or a blend stock thereof.
Career Highlights
Kuehler is currently employed at Phillips 66 Company, where he continues to develop and refine his innovative processes. His work at Phillips 66 has positioned him as a key player in advancing technologies that enhance the efficiency of fuel production.
Collaborations
Kuehler collaborates with Jianhua Yao, a fellow professional in the field. Their partnership has contributed to the development of cutting-edge solutions in catalyst technology.
Conclusion
Daniel Kuehler's contributions to the field of chemical engineering, particularly through his patent on catalyst activation, demonstrate his commitment to innovation. His work not only enhances the efficiency of hydrogenation processes but also plays a vital role in the production of sustainable fuels.