E3S Web of Conferences (Jan 2024)
Optimizing NACA2414 airfoil aerodynamics with PARSEC parametrization and Genetic Algorithm
Abstract
This research endeavours to contribute to the broader field of wind turbine aerodynamics by investigating a method to enhance the performance of airfoils, with specific attention to the NACA2414 airfoil at a 15-degree angle of attack. The study explores the airfoil’s performance across a range of -10 to 15 degrees angle of attack. It employs both PARSEC parametrization and Genetic Algorithm optimization, achieving significant advancements. At a 15-degree angle of attack, post-optimization, the lift coefficient for the NACA2414 airfoil exhibits a remarkable increase to 1.5275 at a Reynolds number of 105, surpassing the original airfoil’s performance of 1.2407. This progress highlights the effectiveness of utilizing PARSEC parametrization and Genetic Algorithm optimization, particularly in low-speed wind turbine applications. While emphasizing potential applications in low-wind-speed scenarios, the findings underscore the significance of these techniques in renewable energy production.
