Company Filing History:
Years Active: 2003
Title: Celebrating the Innovations of Luis A. Rosales
Introduction
Luis A. Rosales, an accomplished inventor based in Moorpark, California, has made significant strides in the field of turbine technology. His innovative work has led to the development of a patented design that enhances the performance and durability of turbine blades.
Latest Patents
Rosales holds a patent for fluid-cooled turbine blades. This innovation comprises a blade structural member that is designed to withstand various loads while maintaining structural integrity. Surrounding the structural member is a heat-transfer sheath that plays a critical role in cooling. A network of coolant passages is strategically formed between the structural member and the heat-transfer sheath. When coolant flows through these passages, it absorbs heat from the sheath, which, in turn, is heated by hot gases passing through the turbine. This effective cooling mechanism contributes to improved turbine efficiency and longevity.
Career Highlights
Luis A. Rosales is currently employed by The Boeing Company, where he contributes his expertise to advancing aerospace technologies. His work at Boeing exemplifies his commitment to innovation and his ability to tackle complex engineering challenges. With only one patent to his name, Rosales's contributions have already made an impact in the aerospace sector.
Collaborations
Throughout his career, Rosales has collaborated with esteemed colleagues such as Mark David Horn and James R. Lobitz. These partnerships have provided valuable opportunities for sharing knowledge and developing cutting-edge solutions in turbine technology.
Conclusion
Luis A. Rosales is a noteworthy inventor whose work on fluid-cooled turbine blades represents a significant advancement in turbine technology. His innovative approach not only improves turbine performance but also underscores the importance of collaboration in fostering groundbreaking inventions. As technology continues to evolve, Rosales's contributions will undoubtedly play a vital role in shaping the future of aerospace engineering.