Company Filing History:
Years Active: 2004
Title: The Innovations of Thomas Kuhlbusch
Introduction
Thomas Kuhlbusch is a prominent inventor based in Duisburg, Germany. With a focus on improving aerosol particle removal technology, he has made significant contributions to the field, specifically through his invention of a gas particle partitioner.
Latest Patents
Kuhlbusch holds a patent for his innovative Gas Particle Partitioner (GPP). This device is designed to remove particles from aerosols with high efficiency while ensuring minimal changes to the thermodynamic conditions and chemical composition of the gas phase of the aerosol. The GPP features a permeable grid electrode that surrounds a corona wire, creating a separation between the corona discharge area and the aerosol charging zone. Additionally, a particle-free fluid washes the corona discharge area, reducing the potential transport of gas components produced by the corona discharge to the aerosol. The charged particles within the aerosol are then deflected by an electric field within a fractionator, selectively producing a particle-free sample stream, which is separated by a flow splitter from the aerosol.
Career Highlights
Kuhlbusch is currently affiliated with the Rupprecht & Patashnick Company, Inc., where he continues to develop and refine technologies surrounding aerosol particle removal. His work has had a substantial impact on industries that require stringent air quality standards and contamination control.
Collaborations
Throughout his career, Kuhlbusch has collaborated with notable colleagues such as Heinrich Fissan and Frank Jordan. Their combined expertise has furthered advancements in aerosol technology and paved the way for innovative solutions in environmental control and air quality management.
Conclusion
Thomas Kuhlbusch stands out as an inventive mind dedicated to improving aerosol particle removal technologies. With his innovative Gas Particle Partitioner and a collaborative approach to research and development, Kuhlbusch continues to influence advancements in aerosol science and environmental engineering.