Company Filing History:
Years Active: 2017-2021
Title: Innovations of Andreas Hirschmann in Hydrogenation Processes
Introduction
Andreas Hirschmann is a notable inventor based in Ering, Germany. He has made significant contributions to the field of chemical engineering, particularly in processes involving silicon compounds. With a total of 2 patents, his work focuses on innovative methods for hydrogenating silicon tetrachloride and conducting endothermic gas phase reactions.
Latest Patents
Hirschmann's latest patents include a process for hydrogenating silicon tetrachloride. This invention involves heating a reactant gas containing hydrogen and silicon tetrachloride to temperatures between 850°C and 1600°C using a heating element with a graphite surface. The process is further characterized by the addition of a nitrogen compound to the reactant gas in a specific concentration.
Another significant patent is related to a reactor and process for endothermic gas phase reactions. In this invention, reactant gases are introduced into a reactor and distributed uniformly into a heating zone. The gases are heated to a mean temperature of 500-1500°C before entering the reaction zone, where they react to produce a product gas. The heating elements' temperature is controlled through measurements taken in the reaction zone, ensuring optimal conditions for the reaction.
Career Highlights
Andreas Hirschmann is currently associated with Wacker Chemie AG, a leading company in the chemical industry. His work at Wacker Chemie AG has allowed him to develop and refine his innovative processes, contributing to advancements in chemical manufacturing.
Collaborations
Hirschmann has collaborated with notable colleagues, including Martin Zettl and Uwe Pätzold. These collaborations have fostered a productive environment for innovation and development in their respective fields.
Conclusion
Andreas Hirschmann's contributions to the field of chemical engineering, particularly through his patents, demonstrate his commitment to innovation. His work continues to influence advancements in hydrogenation processes and gas phase reactions.