Data for: Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit (doi:10.18419/darus-3340)

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Document Description
Citation
Title:	Data for: Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit
Identification Number:	doi:10.18419/darus-3340
Distributor:	DaRUS
Date of Distribution:	2023-04-20
Version:	1
Bibliographic Citation:	Gagnon, Louis, 2023, "Data for: Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit", https://doi.org/10.18419/darus-3340, DaRUS, V1
Study Description
Citation
Title:	Data for: Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit
Identification Number:	doi:10.18419/darus-3340
Authoring Entity:	Gagnon, Louis (Universität Stuttgart)
Software used in Production:	OpenFOAM-ESI
Distributor:	DaRUS
Access Authority:	Keßler, Manuel
Depositor:	Gagnon, Louis
Date of Deposit:	2023-02-02
Holdings Information:	https://doi.org/10.18419/darus-3340
Study Scope
Keywords:	Engineering, Cycloidal Rotor, Detached Eddy Simulation (DES), DDES CFD, Computational Fluid Dynamics (CFD), High Performance Computing (HPC), OpenFOAM, Cyclorotor
Abstract:	<strong>This repository releases the 284 million cell case shortly described in the aforementioned paper and consists of a DDES CFD simulation of a cycloidal rotor which was scaled to test the limits of the OpenFOAM software when simulating rotating machinery.</strong> <br> <i>The intent is to provide the community a publicly available testcase to favor further improvements to the OpenFOAM code, especially in terms of <b>HPC scalability</b>.</i> <br> <br> A short user manual is given in the <b><a href="https://darus.uni-stuttgart.de/file.xhtml?fileId=198103">00_README.md</a></b> file. <br> The other files are as follow (switch from table to tree view if you want to see the files sorted into folders): <br> <ul> <li><b>01_ReadyToRunCase.tar:</b> this file allows any user to restart the simulation where it was stopped without necessarily having to decompose the domain or proceed to any preprocessing step</li> <li><b>02_needed_OF_libs-v2206.tar.bz2:</b> these OpenFOAM librairies are needed to run the test case; tested on v2206, but will likely work with other versions as well</li> <li><b>03_generator.tar:</b> files and scripts to build the case from zero</li> <li><b>04_fullBlade0.pw:</b> this is the original blade mesh from Pointwise and can be used to reconstruct the case using the 03_generator.tar archive and running the given scripts</li> <li><b>04_halfBlade0.pw:</b> this is the original HALF blade mesh from Pointwise and can be used, for exemple, to modify the blade mesh before rerunning the case with a different grid resolution</li> <li><b>05_fullBlade0.gg:</b> mesh exported into gridgen format</li> <li><b>05_fullBlade0_struct.cgns:</b> blade exported into structured cgns format</li> <li><b>05_fullblade0_unstruct.cgns:</b> blade exported into unstructured cgns format</li> <li><b>05_fullblade0_withDatabases.gg:</b> blade exported into gridgen format and keeping the blade surface database</li> </ul> <br> Each tar archive is accompanied by a .tar.list file giving a quickly accessible archive content. <br> <br> The simulated rotor has 4 blades, a radius of 84.25 mm and turns at 1695 RPM. The maximum pitch angles of the upper and lower paths are 35° and 38°, respectively, and they occur at position 100° and 277°, respectively. <br> Simulation setups of the same rotor using lower cell counts varying between 12 to 24 million cells and being defined according to the praxis for URANS simulation are available in the following repository: https://doi.org/10.18419/darus-2812 <br> The case is ran using OpenFOAM (pimpleFoam) on the HLRS-Hawk supercomputer. <br><br> A thorougher description of the case is available in the upcoming paper which was submitted to the Journal of the American Helicopter Society, <b>request preprint here:</b> <i>https://www.researchgate.net/publication/369473318_Parametric_Aerodynamic_Study_of_a_3D_Printed_Cycloidal_Rotor_Prototype_Designed_for_the_Best_Figure_of_Merit</i> <br><br> Videos of the simulation are available for: <ul> <li>blade surface pressure: <a href="https://youtu.be/jJQBeXSGawI">https://youtu.be/jJQBeXSGawI</a></li> <li>wake vorticity: <a href="https://youtu.be/_vl5uO_mVVo">https://youtu.be/_vl5uO_mVVo</a></li> </ul>
Methodology and Processing
Sources Statement
Data Access
Other Study Description Materials
Related Publications
Citation
Title:	Gagnon, L., Donners, L., Zimmer, F. and Keßler, M. « Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit », to be submitted to the Journal of AHS, 2023
Bibliographic Citation:	Gagnon, L., Donners, L., Zimmer, F. and Keßler, M. « Parametric Aerodynamic Study of a 3D Printed Cycloidal Rotor Prototype Designed for the Best Figure of Merit », to be submitted to the Journal of AHS, 2023
Other Study-Related Materials
Label:	00_README.md
Text:
Notes:	text/markdown
Other Study-Related Materials
Label:	01_ReadyToRunCase.tar
Text:	this file allows any user to restart the simulation where it was stopped without necessarily having to decompose the domain or proceed to any preprocessing step
Notes:	application/x-tar
Other Study-Related Materials
Label:	01_ReadyToRunCase.tar.list
Text:	list of files in the 01_ReadyToRunCase.tar archive
Notes:	text/plain
Other Study-Related Materials
Label:	02_needed_OF_libs-v2206.tar.bz2
Text:	these OpenFOAM librairies are needed to run the test case; tested on v2206, but will likely work with other versions as well
Notes:	application/x-bzip
Other Study-Related Materials
Label:	02_needed_OF_libs-v2206.tar.bz2.list
Text:	list of files in the 02_needed_OF_libs-v2206.tar.bz2 archive
Notes:	text/plain
Other Study-Related Materials
Label:	03_generator.tar
Text:	files and scripts to build the case from zero
Notes:	application/x-tar
Other Study-Related Materials
Label:	03_generator.tar.list
Text:	files contained in the 03_generator.tar folder archive
Notes:	text/plain
Other Study-Related Materials
Label:	04_fullBlade0.pw
Text:	this is the original blade mesh from Pointwise and can be used to reconstruct the case using the 03_generator.tar archive and running the given scripts
Notes:	application/octet-stream
Other Study-Related Materials
Label:	04_halfBlade0.pw
Text:	this is the original HALF blade mesh from Pointwise and can be used, for exemple, to modify the blade mesh before rerunning the case with a different grid resolution
Notes:	application/octet-stream
Other Study-Related Materials
Label:	05_fullBlade0.gg
Text:	mesh exported into gridgen format
Notes:	application/octet-stream
Other Study-Related Materials
Label:	05_fullBlade0_struct.cgns
Text:	blade exported into structured cgns format
Notes:	application/octet-stream
Other Study-Related Materials
Label:	05_fullblade0_unstruct.cgns
Text:	blade exported into unstructured cgns format
Notes:	application/octet-stream
Other Study-Related Materials
Label:	05_fullblade0_withDatabases.gg
Text:	blade exported into gridgen format and keeping the blade surface database
Notes:	application/octet-stream