In motorsport, the ability to accurately model and simulate the transient flow features around high-speed vehicles is critical for improving performance and speed. Detached Eddy Simulation (DES) is a hybrid technique that combines the accuracy of Large Eddy Simulation (LES) with the computational efficiency of Reynolds-Averaged Navier-Stokes (RANS) models. This approach has become increasingly important in the industry, particularly in motorsport, where small gains in performance can make a significant difference in lap times and race results.
At Simulitica Ltd, we recognize the importance of DES for CFD simulations in motorsport, particularly in the context of Formula One (F1). Our long-sighted vision is to provide the most efficient and accurate DES methods to help F1 cars develop faster, ultimately improving their performance on the track. Our team of experts has extensive experience in developing and implementing DES simulations for a variety of applications, including motorsport.
We understand the complex and ever-changing demands of motorsport, and our innovative DES methods enable us to model and simulate the transient flow features around F1 cars with exceptional accuracy and efficiency. By providing our clients with the most efficient DES methods, we help them to gain a competitive advantage and achieve their performance goals. At Simulitica Ltd, we are committed to delivering the highest quality services and solutions to our clients, helping them to succeed and excel in the world of motorsport.
Here are the main reasons why our clients choose our DES package for the development of their F1 cars: