Vortex-Induced Vibration Energy Harvester Using MEMS Oscillator Array for Self-Powered Sensing Applications
Technology Introduction:
This technology is a wind energy harvester combining vortex-induced vibration (VIV) and MEMS-based piezoelectric conversion. It features low wind speed activation, modular design, and high integration. Cylindrical arrays enhance vortex interaction, boosting power output. Suitable for powering IoT sensors in off-grid areas, the device is patented in Taiwan and the U.S., and has potential for green energy modules in smart buildings and environmental monitoring.
Industry Applicability:
This technology suits IoT, smart buildings, and remote monitoring, featuring low wind-speed startup, high integration, and mass production potential. Its compact size fits dense sensor networks, ideal for structural health, agriculture tracking, and environmental sensing. With low wind speed starting, it supports off-grid or hard-to-reach sites and lowers maintenance. Integration with low-power communication modules promotes sustainable, low-carbon smart cities aligned with ESG goals.
National Yang Ming Chiao Tung University (NYCU) was formed in 2021 through the merger of National Yang Ming University and National Chiao Tung University. Located in Hsinchu, Taiwan, NYCU is a leading institution specializing in technology, engineering, medicine, and social sciences. The university is known for its strengths in research and innovation, particularly in areas such as information technology, biomedicine, and artificial intelligence. NYCU fosters interdisciplinary collaboration, global partnerships, and aims to nurture professionals with strong academic foundations and leadership skills to address societal challenges and contribute to technological advancements.
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