35th Wind Energy Symposium 2017
DOI: 10.2514/6.2017-2001
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Fast Multilevel Panel Method for Wind Turbine Rotor Flow Simulations

Abstract: A fast multilevel integral transform method has been developed that enables the rapid analysis of unsteady inviscid flows around wind turbines rotors. A low order panel method is used and the new multi-level multi-integration cluster (MLMIC) method reduces the computational complexity for calculating the wake deformation downstream of the wind turbine rotor from O(N 2) for a conventional approach to O(N). The method discretizes the volume surrounding the configuration with cubes. Each cube contains a grid of n… Show more

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Cited by 11 publications
(5 citation statements)
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“…The accuracy of the selected pressure transducers is well balanced to the prevailing dynamic pressure at the rotating tip of the turbine, whereas the accuracy of experimental pressure data decreases towards the hub. In addition to the results obtained by the ENSOLV numerical solution method the results obtained by a fast multilevel panel method 20,21 that models inviscid, incompressible flow are also shown. Other cases computed with the ENSOLV numerical solution method and compared with experimental data consist of a turbulent wake state (wind speed of 10 m/s, tip speed ratio of 10), a separated flow case (wind speed of 24.12 m/s, tip speed ratio of 4.2) and a standstill condition (wind speed of 29.92 m/s, tip speed ratio 0), the latter only being instructive for the assessment of aerodynamic loads predictions on the rotor in vane position.…”
Section: B Aerospace Aerodynamics and Aeroelasticitymentioning
confidence: 99%
See 2 more Smart Citations
“…The accuracy of the selected pressure transducers is well balanced to the prevailing dynamic pressure at the rotating tip of the turbine, whereas the accuracy of experimental pressure data decreases towards the hub. In addition to the results obtained by the ENSOLV numerical solution method the results obtained by a fast multilevel panel method 20,21 that models inviscid, incompressible flow are also shown. Other cases computed with the ENSOLV numerical solution method and compared with experimental data consist of a turbulent wake state (wind speed of 10 m/s, tip speed ratio of 10), a separated flow case (wind speed of 24.12 m/s, tip speed ratio of 4.2) and a standstill condition (wind speed of 29.92 m/s, tip speed ratio 0), the latter only being instructive for the assessment of aerodynamic loads predictions on the rotor in vane position.…”
Section: B Aerospace Aerodynamics and Aeroelasticitymentioning
confidence: 99%
“…Recent progress 20,21 in reducing the computational burden of the classical panel method for wind turbine applications makes this approach an attractive proposition. Figure 11 shows an example of achieved reductions in integral evaluation time for the newly developed multilevel panel method.…”
Section: Wind Turbine Aerodynamics -Reviving Aerospace Aerodynammentioning
confidence: 99%
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“…In the meantime, in order to have access within the Dorothy code to reliable and more immediate results in terms of loads, a lifting line alternative, named here LL-VPM, has been added to represent the turbines. Lifting line details can be found in (Katz & Plotkin 2001, van Garrel 2003, Shaler et al 2020.…”
Section: Simulation Of the Turbine By Lifting Linementioning
confidence: 99%
“…Approaches aiming at reducing computational costs have been introduced in the literature. Multilevel or fast-multipole algorithms can be used, as shown in [22], [6]. Our approach rather relies on reducing the number of wake elements and GPU acceleration to achieve better performances.…”
Section: Introductionmentioning
confidence: 99%