Company Filing History:
Years Active: 2002-2005
Title: Innovations by Alexander Haplau-Colan in Heat Exchange Technology
Introduction
Alexander Haplau-Colan is a distinguished inventor based in Hampton, New Hampshire. With a total of two patents to his name, he has made significant contributions to the field of heat exchange technology. His innovative approach to designing heat exchangers is noteworthy, particularly in enhancing efficiency and structural integrity.
Latest Patents
Haplau-Colan's latest patent is the "Dual-density header fin for unit-cell plate-fin heat exchanger." This innovative heat exchange cell is designed specifically for use in recuperators. The invention features top and bottom plates that sandwich a matrix finned member along with a pair of header finned members. Each header finned member includes a curved free edge that follows the contour of an associated manifold opening. The design incorporates a high fin density portion along the free edge, which transitions to a low fin density portion. This dual fin density design not only enhances structural strength but also minimizes pressure drops, making it a significant leap in heat exchange efficiency.
Career Highlights
Currently, Alexander Haplau-Colan is associated with Ingersoll Rand Energy Systems Corporation, where he applies his expertise in developing cutting-edge energy solutions. His work here emphasizes the importance of innovation in creating sustainable energy systems and advancing technology in the field.
Collaborations
Haplau-Colan collaborates closely with his colleague, James S. Nash. Together, they work on various projects aimed at enhancing the performance of energy systems, showcasing their combined expertise in engineering and innovation.
Conclusion
Alexander Haplau-Colan continues to be a pivotal figure in the realm of heat exchange technologies. His latest patents reflect his commitment to innovation and improving efficiency within the energy sector. As he progresses in his career at Ingersoll Rand Energy Systems Corporation, his contributions will likely pave the way for future advancements in heat exchange systems and beyond.