Company Filing History:
Years Active: 2001
Title: Innovations of Vinay Kumar Bhatia in Mass Transfer Technology.
Introduction
Vinay Kumar Bhatia is a notable inventor based in Fredensborg, Denmark. He has made significant contributions to the field of mass transfer technology, particularly through his innovative methods and apparatuses. His work focuses on enhancing the efficiency of mass transfer processes, which are crucial in various industrial applications.
Latest Patents
Vinay Kumar Bhatia holds a patent for a mass transfer method and apparatus. This invention relates to a method for transferring mass between a flow of a first fluid, preferably a gas phase such as combustion flue gas, and a flow of a second fluid, preferably a liquid phase. The first fluid is contacted with the outer surface of porous membranes, such as Polytetrafluoroethylene (PTFE, Teflon®) membranes, in the form of hollow fibers. These membranes are characterized by specific porosity and mass transfer coefficients, allowing for efficient gas-liquid interactions. The invention also includes an apparatus designed for this mass transfer, featuring a tubular conduit with hollow tubular members that facilitate the flow of the gas phase.
Career Highlights
Vinay Kumar Bhatia is associated with Fls Miljo A/S, where he applies his expertise in mass transfer technologies. His innovative approach has led to advancements in the efficiency of processes involving gas and liquid interactions. His work is recognized for its potential to improve industrial applications, particularly in environmental and chemical engineering.
Collaborations
Vinay collaborates with Steen Brummerstedt Iversen, contributing to the development of innovative solutions in their field. Their partnership enhances the research and application of mass transfer technologies.
Conclusion
Vinay Kumar Bhatia's contributions to mass transfer technology exemplify the importance of innovation in industrial processes. His patent and ongoing work continue to influence the efficiency of gas-liquid interactions, showcasing the potential for advancements in this critical area.