The NACA Airfoil Optimization app allows for the computation of the lift and drag forces on a fully parameterized NACA airfoil. Let’s get started… The Capabilities of the NACA Airfoil Optimization App A force known as lift holds airplanes aloft by opposing the weight of the airplane, thus enabling these machines to soar high above the ground.īy being able to easily compute lift and drag forces on an NACA airfoil with a customized simulation app, we can optimize these designs for aeronautical applications. While modern airplanes may fly much farther than the Wright brothers’ plane, they still obey the same laws of physics. Since that time, we have continued to take to the air, with airplanes growing in size and strength. The Wright brothers were aviation pioneers, flying the first powered airplane in 1903. This groundbreaking moment marked the world’s first successful powered flight. Orville Wright took control of the plane and, making history, flew for 12 seconds across a distance of 120 feet. On a windy December morning in 1903, the Wright brothers prepared to make an attempt at flight in Kitty Hawk, North Carolina.
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Lifting off the Ground and into the Skies In this blog post, we discuss how the app can be used for production applications and how you can benefit from using the Application Builder to enhance your own models and apps.
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To accurately compute lift and drag forces and optimize any airfoil following the NACA naming convention, COMSOL Multiphysics version 5.2 includes a new example, the NACA Airfoil Optimization app.