Brief communication: A fast vortex-based smearing correction for the actuator line
<p>The actuator line is a lifting line representation of aerodynamic surfaces in computational fluid dynamics applications but with non-singular forces, which reduces the self-induced velocities at the line. The vortex-based correction by <span class="cit" id="xref_text.1&quo...
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Copernicus Publications
2020-03-01
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| Series: | Wind Energy Science |
| Online Access: | https://www.wind-energ-sci.net/5/349/2020/wes-5-349-2020.pdf |
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doaj-d644c84c2b894f029e70b8f51277ef7c2020-11-25T02:56:41ZengCopernicus PublicationsWind Energy Science2366-74432366-74512020-03-01534935310.5194/wes-5-349-2020Brief communication: A fast vortex-based smearing correction for the actuator lineA. R. Meyer ForstingG. R. PirrungN. Ramos-García<p>The actuator line is a lifting line representation of aerodynamic surfaces in computational fluid dynamics applications but with non-singular forces, which reduces the self-induced velocities at the line. The vortex-based correction by <span class="cit" id="xref_text.1"><a href="#bib1.bibx5">Meyer Forsting et al.</a> (<a href="#bib1.bibx5">2019</a><a href="#bib1.bibx5">a</a>)</span> recovers this missing induction and thus the intended lifting line behaviour of the actuator line. However, its computational cost exceeds that of existing tip corrections and quickly grows with blade discretization. Here we present different methods for reducing its computational cost to the level of existing corrections without jeopardizing the stability or accuracy of the original method. The cost is reduced by at least 98 %, whereas the power is maximally affected by 0.8 % with respect to the original formulation. This accelerated smearing correction remains a dynamic correction by modelling the variation in trailed vorticity over time. The correction is openly available <span class="cit" id="xref_paren.2">(<a href="#bib1.bibx6">Meyer Forsting et al.</a>, <a href="#bib1.bibx6">2019</a><a href="#bib1.bibx6">b</a>)</span>.</p>https://www.wind-energ-sci.net/5/349/2020/wes-5-349-2020.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
A. R. Meyer Forsting G. R. Pirrung N. Ramos-García |
| spellingShingle |
A. R. Meyer Forsting G. R. Pirrung N. Ramos-García Brief communication: A fast vortex-based smearing correction for the actuator line Wind Energy Science |
| author_facet |
A. R. Meyer Forsting G. R. Pirrung N. Ramos-García |
| author_sort |
A. R. Meyer Forsting |
| title |
Brief communication: A fast vortex-based smearing correction for the actuator line |
| title_short |
Brief communication: A fast vortex-based smearing correction for the actuator line |
| title_full |
Brief communication: A fast vortex-based smearing correction for the actuator line |
| title_fullStr |
Brief communication: A fast vortex-based smearing correction for the actuator line |
| title_full_unstemmed |
Brief communication: A fast vortex-based smearing correction for the actuator line |
| title_sort |
brief communication: a fast vortex-based smearing correction for the actuator line |
| publisher |
Copernicus Publications |
| series |
Wind Energy Science |
| issn |
2366-7443 2366-7451 |
| publishDate |
2020-03-01 |
| description |
<p>The actuator line is a lifting line representation of aerodynamic surfaces in computational fluid dynamics applications but with non-singular
forces, which reduces the self-induced velocities at the line. The vortex-based correction by <span class="cit" id="xref_text.1"><a href="#bib1.bibx5">Meyer Forsting et al.</a> (<a href="#bib1.bibx5">2019</a><a href="#bib1.bibx5">a</a>)</span>
recovers this missing induction and thus the intended lifting line behaviour of the actuator line. However, its computational cost exceeds that of
existing tip corrections and quickly grows with blade discretization. Here we present different methods for reducing its computational cost to the
level of existing corrections without jeopardizing the stability or accuracy of the original method. The cost is reduced by at least 98 %, whereas
the power is maximally affected by 0.8 % with respect to the original formulation. This accelerated smearing correction remains a dynamic
correction by modelling the variation in trailed vorticity over time. The correction is openly available <span class="cit" id="xref_paren.2">(<a href="#bib1.bibx6">Meyer Forsting et al.</a>, <a href="#bib1.bibx6">2019</a><a href="#bib1.bibx6">b</a>)</span>.</p> |
| url |
https://www.wind-energ-sci.net/5/349/2020/wes-5-349-2020.pdf |
| work_keys_str_mv |
AT armeyerforsting briefcommunicationafastvortexbasedsmearingcorrectionfortheactuatorline AT grpirrung briefcommunicationafastvortexbasedsmearingcorrectionfortheactuatorline AT nramosgarcia briefcommunicationafastvortexbasedsmearingcorrectionfortheactuatorline |
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