Company Filing History:
Years Active: 2022
Title: George Barac: Innovator in Heat and Mass Transfer Technology
Introduction
George Barac is an accomplished inventor based in Saint Charles, Illinois. He holds a patent that significantly advances the field of heat and mass transfer components. His innovative work focuses on enhancing the efficiency of these components through the use of lubricant-impregnated surfaces.
Latest Patents
George Barac's notable patent is titled "Heat and mass transfer component comprising a lubricant-impregnated surface." This invention features a lubricant-impregnated surface that includes hydrophobic surface features. These features consist of nanostructured surface protrusions that have a hydrophobic species attached. The hydrophobic surface features are impregnated with a fluorinated lubricant, which has a viscosity ranging from about 400 mPa·s to about 6000 mPa·s. The patent outlines a method for fabricating this lubricant-impregnated surface, which involves cleaning a thermally conductive substrate, exposing it to a hot water or hot alkaline solution, depositing a hydrophobic species, and coating the surface with a fluorinated lubricant. This innovative component is designed to exhibit a substantial increase in heat transfer coefficient during hydrocarbon condensation.
Career Highlights
George Barac is affiliated with the University of Illinois, where he contributes to research and development in the field of heat and mass transfer. His work has garnered attention for its potential applications in various industries, particularly those focused on energy efficiency and thermal management.
Collaborations
George has collaborated with notable colleagues, including Nenad Miljkovic and Soumyadip Sett. Their combined expertise enhances the research and development efforts at the University of Illinois.
Conclusion
George Barac is a pioneering inventor whose work in heat and mass transfer technology is making significant strides in improving efficiency. His innovative patent demonstrates the potential for advancements in thermal management solutions.