TERASHIMA Osamu |
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Title | Professor |
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Department | Department of Mechanical Engineering |
Course |
Mechanical Engineering Course |
Research fields
We are conducting foundational, applied, and societal implementation research based on fluid dynamics.
In foundational research, we study turbulence diffusion, pressure diffusion, and flow separation phenomena in fluids through experiments and numerical analysis, addressing longstanding themes in fluid dynamics and fluid engineering that remain partially unexplained. In applied research, we are developing technologies to reduce fluid resistance, noise, and vibration by utilizing porous materials, surface microstructures, and surface stiffness control. Additionally, we are advancing active control techniques for noise and vibration caused by fluid dynamics. Furthermore, as part of our societal implementation research, we collaborate with companies and local governments to develop technologies for monitoring the condition of fluid-related machinery and infrastructure, as well as improving production efficiency. In this field, we actively incorporate artificial intelligence, IoT, machine learning, and data science technologies, aiming to contribute promptly to society.
In this way, we are expanding comprehensive research that integrates insights and technologies across multiple and interdisciplinary fields, centered on fluid dynamics.
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Overview of Our Research | Active Noise Control System for Automotive HVAC |
Research Keywords
Turbulent flow, Flow measurement, Fluid acoustics, Fluid machinery
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