@inproceedings{fdebccff7646410daa2b9e45686353da,
title = "Enhancing CFD-based design of wind turbine blades",
abstract = "CFD-based shape design is a state-of-the-art approach in wind energy that can lead to novel shape features. High computation costs have, however, until now hindered a widespread use of the approach. To address this issue, this work investigates two ways to enhance a CFD-based design framework, using a shape study of wind turbine blade tips as a test case. First, a quantification of the speed-up factor (× 3.6) achieved through so-called tailored meshes is presented. Then, a comparison of mesh adaptation strategies is given, further speeding up the procedure (× 2.3). The combined speed-up factor reaches above 8, showing that CFD-based shape design procedures may indeed be accelerated using tailored meshes and a correct mesh adaptation strategy.",
author = "{Aa Madsen}, {M. H.} and F. Zahle and S{\o}rensen, {N. N.} and Bottasso, {C. L.}",
year = "2024",
doi = "10.1088/1742-6596/2767/5/052048",
language = "English",
series = "Journal of Physics: Conference Series",
publisher = "IOP Publishing",
number = "5",
booktitle = "The Science of Making Torque from Wind (TORQUE 2024): Modeling and simulation technology",
address = "United Kingdom",
note = "The Science of Making Torque from Wind (TORQUE 2024), TORQUE 2024 ; Conference date: 29-05-2024 Through 31-05-2024",
}