Research Interest
Bicycle Aerodynamics
My research focuses on cycle aerodynamics, aiming to enhance performance and energy efficiency through advanced experimental and computational methods. The project integrates fluid dynamics, sports engineering, and innovation to optimize cycling systems in real-world conditions.
Airfoil aerodynamics
Airfoil aerodynamics involves the study of airflow behavior over wing-like surfaces to optimize lift, reduce drag, and enhance overall performance. Plasma actuators, as a flow control technology, utilize ionized air generated by high-voltage electric fields to modify boundary layer characteristics. When applied to an airfoil, plasma actuators can delay flow separation, reduce turbulent wake regions, and improve lift-to-drag ratios—offering a lightweight, fast-response, and maintenance-free solution for aerodynamic enhancement.
Future Work
Future research will focus on leveraging emerging technologies—such as AI, IoT, and remote sensing—in agritech to enhance productivity, sustainability, and resource efficiency. The core emphasis will be to enrich people’s lives by developing accessible, data-driven solutions that address real-world agricultural challenges, improve livelihoods, and support resilient, technology-enabled farming communities.
