Company Filing History:
Years Active: 1980-1991
Title: Horst Streitberger: Innovator in Chemical Processes
Introduction
Horst Streitberger is a prominent inventor based in Altotting, Germany. He holds three patents that focus on innovative processes in the field of chemical engineering. His work significantly contributes to advancing technologies related to solvent removal and the purification of chemical compounds.
Latest Patents
Streitberger's latest patents showcase his expertise in developing processes for the removal of solvent mixtures from gas streams. One notable patent describes a method for extracting polar and nonpolar solvents by contacting a gas stream with an absorption liquid. This innovative technique employs glycol di-n-butyl ethers, offering an effective solution for solvent absorption.
Additionally, he has developed a process for obtaining pure 2-(perfluoroalkyl)-ethanols from their respective iodides. This involves extracting high-purity ethyl compounds from a mixture of perfluoroalkyl derivatives using specific alkanols or monoalkyl ethers during distillation. These advancements highlight his commitment to improving efficiency and purity in chemical manufacturing.
Career Highlights
Horst Streitberger's professional journey is closely associated with Hoechst Aktiengesellschaft, a major player in the chemical industry. Throughout his career, he has focused on research and development, striving to innovate within the field and address the complexities of chemical processing.
Collaborations
During his tenure, Streitberger has collaborated with notable colleagues, including Inge Konig and Ulrich Schwenk. These partnerships have fostered a dynamic exchange of ideas, bolstering innovation in their shared projects and contributing to the success of their endeavors.
Conclusion
Horst Streitberger’s contributions to the field of chemical processes stand as a testament to his inventive spirit and dedication to innovation. His patents reflect significant advancements in solvent removal and chemical purification, reinforcing the importance of continued research in these areas. As he moves forward, his work will likely inspire further developments in chemical engineering and process efficiency.