@misc{b1e4699c01d44c9bb9ed106a79ae1428,
title = "Design Space Exploration for Novel Reduced-Vortex Turbine Rotors Using Free Vortex Wake Methods",
abstract = "In this work, we explore the use of mid-fidelity free vortex wake (FVW) tools, namely NREL's cOnvecting LAgrangian Filaments (OLAF) tool, to design and analyze wind turbine rotor blades. The goal of the exercise is to determine whether designs exist that out-perform traditional blade designs, which are optimized using the Blade-Element Momentum (BEM) method. We find that using design of experiments to generate simple modifications of the blade tip, OLAF predicts higher performance in terms of power coefficient for redesigned blades that are non-optimal according to BEM. We then use optimization methods with OLAF in the loop to attempt to automatically find OLAF-optimal designs. We analyze the results of these optimizations, demonstrating that some roadblocks exist before OLAF and FVW tools can be used to automatically find FVW-optimal blade designs that might exceed the performance of BEM-optimal blade designs.",
keywords = "blade design, free vortex wake method, OLAF",
author = "Cory Frontin and Pietro Bortolotti and Emmanuel Branlard and Luis Martinez and Ganesh Vijayakumar and Garrett Barter",
year = "2023",
language = "American English",
series = "Presented at the North American Wind Energy Academy (NAWEA)/WindTech 2023 Conference, 30 October - 1 November 2023, Denver, Colorado",
type = "Other",
}