Analysis of 2D Flow Over an Oscillating Cylinder Using DMD with Control
Guided by
Prof. Andres Goza
Year
2023
My study, advances our understanding of fluid dynamics in aerospace and marine engineering. This paper highlights the application of Dynamic Mode Decomposition with Control (DMDc) to explore the complex vortex dynamics in fluid flow over oscillating cylinders. This innovative approach transcends traditional methods, providing deeper insights into the lock-in phenomena in fluid-structure interactions. The integration of DMDc with control schemes has been pivotal in capturing the nuances of these interactions, offering a new lens to view fluid dynamics.
My research not only sheds light on the complex behaviors of fluid flows but also sets the stage for future engineering innovations. By effectively utilizing DMDc and FFT analyses, the study presents a comprehensive understanding of the stability and dynamics in fluid systems. These findings are crucial for designing more efficient and sophisticated engineering solutions, demonstrating the importance of combining advanced analytical techniques in fluid mechanics. My work exemplifies the potential of modern methodologies to revolutionize our approach to engineering challenges.