Company Filing History:
Years Active: 2000-2003
Title: Michael-Dieter Ulbrich: Innovator in Chemical Processes
Introduction
Michael-Dieter Ulbrich is a notable inventor based in Freinsheim, Germany. He has made significant contributions to the field of chemical engineering, particularly in the production of alcohols from hydrocarbons. With a total of 3 patents to his name, Ulbrich's work has implications for both industrial processes and environmental sustainability.
Latest Patents
Ulbrich's latest patents include innovative methods for producing C9-alcohols and a process for the integrated production of C9-alcohols and C10-alcohols. The first method involves a multi-step process that begins with providing a C-hydrocarbon stream containing butene and butane. This stream undergoes oligomerization over an olefin oligomerization catalyst, leading to the creation of an octene-containing stream. The process continues with steam reforming or partial oxidation to generate carbon monoxide and hydrogen, which are then used in hydroformylation to form C-aldehydes. The final step involves the catalytic hydrogenation of these aldehydes to produce C-alcohols. In a variant of this process, some butenes are hydroformylated to form C-aldehydes, which are then subjected to aldol condensation and hydrogenation to yield C-alcohols. This innovative approach allows for the substantial utilization of the C-hydrocarbon stream as material.
Career Highlights
Throughout his career, Ulbrich has worked with prominent companies in the chemical industry, including BASF Aktiengesellschaft and BASF SE Corporation. His expertise in chemical processes has positioned him as a valuable asset in these organizations.
Collaborations
Ulbrich has collaborated with notable colleagues such as Bernd Sachweh and Wolf-Steffen Weissker. These partnerships have likely contributed to the advancement of his innovative projects and patents.
Conclusion
Michael-Dieter Ulbrich is a distinguished inventor whose work in chemical processes has led to significant advancements in the production of alcohols. His innovative methods and collaborations highlight his impact on the industry and the potential for further developments in sustainable chemical engineering.