PSI - Issue 72

Emre Kara et al. / Procedia Structural Integrity 72 (2025) 85–90

90

4. Conclusions This study examines a distinctive approach to visualizing fluid flow, namely Smoke Wire Visualization technique of the flow dynamics through a fluidic thrust vectoring (FTV) system based on Coanda effect. While the final experiment setup in conventional cases is relatively simple, integrating novel systems requires meticulous attention to detail. This presentation outlines the iterative process of conceptualizing, configuring, and refining the Smoke Wire Flow Visualization technique. In the realm of engineering, compromise is inevitable, and this study exemplifies the pursuit of extracting optimal insights from fluid dynamics through innovative visualization methods. Acknowledgements This work is financially supported by the Scientific Research Proj ect Fund (BAP) of GAZİANTEP UNIVERSITY under the project number HUBF.GAP.21.02. The 3D printing and laser cutting processes are completed at the IOM FabLab Application Center, Gaziantep Office. References Deb, D., Shetty, P., Poddar, K., Kumar, S., 2020. Flow induced oscillation of two rigid rectangular plates in a side-by-side configuration. Journal of Fluids and Structures, 99, 103133 Ezersky, A., Cherov, V., Gromov, P., Nazarovsky, A., Soustov, P., Paranthoen, P., 2010. Remote acoustic diagnostics of defects arising in a Kármán vortex street behind a heated cylinder. Fluid Dynamics Research, 43(1), 015503 Hamakawa, H., Nakashima, K., Kudo, T., Nishida, E., Fukano, T., 2008. Vortex shedding from a circular cylinder with spiral fin. Journal of Fluid Science and Technology, 3(6), 787-795 Lim, T. T., 2012. Dye and smoke visualization. Flow visualization: techniques and example İngiltere: Imperial College Press Özkan, G., 2016. Düşük Reynolds sayılı akışlarda kanat üzerinde kararsız aerodinamiğin incelenmesi. D oktora Tezi. Türkiye: Kayseri Erciyes Üniversitesi