Company Filing History:
Years Active: 2006-2016
Title: Hyung Soo Lim: Innovator in Fluid Dynamics and Cogeneration Systems
Introduction
Hyung Soo Lim is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the fields of fluid dynamics and energy efficiency through his innovative patents. With a total of 11 patents to his name, Lim's work focuses on enhancing the performance and efficiency of various systems.
Latest Patents
One of Lim's latest patents is for an axial compressor and control method designed to stabilize fluid. This invention includes a fluid stabilizing control method that drives the axial impeller and employs stall control to suppress or prevent stall occurrences during rotation. By supplying highly-pressurized compressed air into the casing through a stall controller, the method effectively minimizes the risk of stall during low-flow high-pressure conditions, thereby achieving economically feasible stall control.
Another notable patent is a cogeneration system and method for controlling it. This system utilizes waste heat from an engine to prevent frost formation on an outdoor heat exchanger. It also enhances the heating performance of an indoor heat exchanger based on ambient temperature conditions. This innovative approach allows the cogeneration system to adapt to varying environmental conditions while maintaining high energy efficiency.
Career Highlights
Hyung Soo Lim has worked with notable companies such as LG Electronics Inc. and the Korea Aerospace Research Institute. His experience in these organizations has contributed to his expertise in developing advanced technologies and systems.
Collaborations
Lim has collaborated with esteemed colleagues, including Seung Tak Kang and Chang Min Choi, further enriching his innovative endeavors.
Conclusion
Hyung Soo Lim's contributions to fluid dynamics and cogeneration systems exemplify his commitment to innovation and efficiency. His patents reflect a deep understanding of complex systems and a dedication to improving energy performance.