Smoke Line Geometry Impact on Airfoil Model Flow Visualization
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This study discusses the analysis of airflow visualization on a NACA 4412 airfoil model using a fluid mixture technique with variations in smoke line geometry. The main objectives of this study are to understand the behavior of airflow around the airfoil surface under different test conditions and methodology used involves flow simulation and experimental tests with fluid mixtures that produce flow visualization through various smoke line geometries, such as straight lines, zigzags, and curves. The test results show that variations in the shape of the smoke line produce different flow at the boundaries of the airfoil surface, which significantly affect the pressure distribution and lift coefficient. These findings provide important insights for the development of more efficient airfoil designs and the application of flow visualization techniques in aerodynamic testing.
Abdullah M. Kuraan • O¨ mer Savas,” Smoke streak visualization of steady flows over a spinning cone at angle of attack in flight”, Received: 6 June 2019 / Revised: 11 September 2019 / Accepted: 5 December 2019 / Published online: 18 December 2019 The Visualization Society of Japan 2019.
Ahmed ABOELEZZ*,a,” Low Speed Wind Tunnel Design and Optimization Using Computational Techniques and Experimental Validation”, INCAS BULLETIN, Volume 11, Issue 2/ 2019, pp. 3 – 13 (P) ISSN 2066-8201, (E) ISSN 2247-4528
Alireza Hashem-ol-Hosseini a , Mehran Akbarpour Ghazani b,c , Amirreza Shahsavari a , M. Soltani c,d,e,f,∗,” Experimental investigation of thermal-hydraulic characteristics of finned oval tube bundles in cross-flow arrangements”, International Journal of Heat and Mass Transfer 180 (2021) 121759
