Litcius/Paper detail

Study of Airfoil Characteristics on NACA 4415 with Reynolds Number Variations

Waridho Iskandar, James Julian, Fitri Wahyuni, Ferdyanto Ferdyanto, Hamonangan Kinantan Prabu, Fayza Yulia

2022International Review on Modelling and Simulations (IREMOS)14 citationsDOI

Abstract

This study uses computational methods to analyze fluid flow characteristics NACA 4415 in ultra-low, low, and moderate Reynolds number categories. The turbulence model chosen is the standard k-ε. The ultra-low Reynolds number used is 5×10^3, while the Reynolds number for the low category is 4.17×10^4. For the moderate category, the Reynolds number is 3×10^6. The variation of the grid being tested is the grid with the number of elements 5×10^4, 10^5 and 2×10^5. The grid with the number of elements 2×10^5 gives the best results. At the ultra-low Reynolds number, there is no stall condition. The stall condition at the low Reynolds number is AoA=12°. At the moderate Reynolds number, the stall occurs at AoA=18°. The largest Cl is in the moderate Reynolds number. Meanwhile, the smallest Cd is at the ultra-low Reynolds number. Based on the analysis of pressure contours, velocity contours and velocity streamlines, the fluid flow patterns seen are not much different. However, there is a significant difference in their values.

Topics & Concepts

Reynolds numberTurbulenceMathematicsMagnetic Reynolds numberMechanicsStall (fluid mechanics)AirfoilReynolds equationStreamlines, streaklines, and pathlinesReynolds decompositionReynolds-averaged Navier–Stokes equationsPhysicsAerodynamics and Fluid Dynamics ResearchTurbomachinery Performance and OptimizationRadiative Heat Transfer Studies