Software Open Access
HZDR Multiphase Case Collection for OpenFOAM
Hänsch, Susann;
Draw, Mazen;
Evdokimov, Ilya;
Khan, Haris;
Krull, Benjamin;
Lehnigk, Ronald;
Liao, Yixiang;
Lyu, Hongmei;
Meller, Richard;
Schlegel, Fabian;
Tekavčič, Matej
DCAT Export
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<dcat:keyword>Multiphase Flow</dcat:keyword>
<dcat:keyword>Numerical Simulations</dcat:keyword>
<dcat:keyword>OpenFOAM</dcat:keyword>
<dcat:keyword>CFD</dcat:keyword>
<dcat:keyword>Baseline model</dcat:keyword>
<dcat:keyword>Multi-field two-fluid model</dcat:keyword>
<dcat:keyword>Eulerian-Eulerian model</dcat:keyword>
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<dct:description><p>HZDR Multiphase Case Collection for OpenFOAM contains simulation setups for the open-source CFD software OpenFOAM with the <a href="https://doi.org/10.14278/rodare.767">HZDR multiphase addon</a>. The simulation setups are separated into polydisperse bubbly flows utilising the HZDR Baseline model set according to Liao et al. (<a href="https://doi.org/10.1016/j.ces.2019.03.007">Chem Eng Sci, 2019, Vol. 202, 55-69</a>) and setups for a hybrid modelling approach (disperse and resolved interfaces) according to Meller et al. (<a href="https://doi.org/10.1002/fld.4907">Int J Numer Meth Fluids, 2021, Vol. 93, 748&ndash;773</a>).</p> <p><strong>Cases using the HZDR Baseline model set</strong></p> <p>baseline/1998_Liu</p> <ul> <li>Reference for experiment: Liu, 3rd Int Conf Multiph Flow (ICMF), Vol. 98, 8-12</li> <li>Reference for case setup: <ul> <li>Rzehak et al., Nucl Eng Des (accepted)</li> <li><a href="https://doi.org/10.3390/fluids1030029">Kriebitzsch and Rzehak, Fluids, 2016, Vol. 1, 29</a></li> </ul> </li> </ul> <p>baseline/2005_Lucas_et_al</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1016/j.ijmultiphaseflow.2005.07.004">Lucas et al., Int J Multiph Flow, 2005, Vol. 31, 1304-1328</a></li> <li>Reference for case setup: Lehnigk et al., AlChE J (submitted)</li> </ul> <p>baseline/2008_Shawkat</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1016/j.ijmultiphaseflow.2008.01.007">Shawkat et al., Int J Multiph Flow, 2008, Vol. 34, 767-785</a></li> <li>Reference for case setup: <a href="https://doi.org/10.3390/fluids1030029">Kriebitzsch and Rzehak, Fluids, 2016, Vol. 1, 29</a></li> </ul> <p>baseline/2009_Hosokawa</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1016/j.ces.2009.09.017">Hosokawa and Tomiyama, Chem Eng Science, 2009, Vol. 64, 5308-5318</a></li> <li>Reference for case setup: Rzehak et al., Nucl Eng Des (accepted)</li> </ul> <p>baseline/2013_Hosokawa_and_Tomiyama</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1016/j.ijheatfluidflow.2013.01.004">Hosokawa and Tomiyama, Int J Heat Fluid Flow, 2013, Vol. 40, 97-105</a></li> <li>Reference for case setup: <ul> <li><a href="https://doi.org/10.3390/fluids1030029">Kriebitzsch and Rzehak, Fluids, 2016, Vol. 1, 29</a></li> <li><a href="https://doi.org/10.1016/j.compfluid.2020.104496">Liao et al., Comp Fluids, 2020, Vol. 202, 104496</a></li> </ul> </li> </ul> <p>baseline/2016_Kim_et_al</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1007/s00348-016-2144-6">Kim et al., Exp Fluids, 2016, Vol. 57, 1432-1114</a></li> <li>Reference for case setup: <a href="https://doi.org/10.1016/j.compfluid.2020.104496">Liao et al., Comp Fluids, 2020, Vol. 202, 104496</a></li> </ul> <p><strong>Cases using the hybrid modelling approach</strong></p> <p>hybrid/wenka/2D-MP3-23</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.5445/IR/200068452">St&auml;bler, Ph.D. thesis, 2007</a></li> <li>Reference for case setup: Tekavčič et al., Nucl Eng Des (accepted)</li> </ul> <p>hybrid/risingBubbleHysingEtAl2009</p> <ul> <li>References for case setup: <ul> <li><a href="https://doi.org/10.1002/fld.1934">Hysing et al., Int J Numer Meth Fluids, 2009, Vol. 60, 1259-1288</a></li> <li><a href="https://doi.org/10.1002/fld.4907">Meller et al., Int J Numer Meth Fluids, 2021, Vol. 93, 748&ndash;773</a></li> <li>Meller et al., Flow Turbul Combust (submitted)</li> </ul> </li> </ul> <p>hybrid/risingBubbleBalcazarEtAl2015</p> <ul> <li>Reference for experiment: <a href="https://doi.org/10.1017/S002211208100311X">Bhaga and Weber, J Fluid Mech, 1981, Vol. 105, 61-85</a></li> <li>Reference for direct numerical simulation: <a href="https://doi.org/10.1016/j.ijheatfluidflow.2015.07.004">Balc&aacute;zar et al., Int J Heat Fluid Flow, 2015, Vol. 56, 91-107</a></li> <li>References for case setup: <a href="https://doi.org/10.1002/fld.4907">Meller et al., Int J Numer Meth Fluids, 2021, Vol. 93, 748&ndash;773</a></li> </ul> <p>hybrid/risingBubbleMellerEtAl2021</p> <ul> <li>Reference for case setup: Meller et al., Flow Turbul Combust (submitted)</li> </ul></dct:description>
<dct:description xml:lang="">This work was supported by the Helmholtz European Partnering Program in the project "Crossing borders and scales (Crossing)".</dct:description>
<dct:description xml:lang="">{"references": ["Meller, R., Schlegel, F., & Lucas, D. (2020). Basic verification of a numerical framework applied to a morphology adaptive multifield two\u2010fluid model considering bubble motions. International Journal for Numerical Methods in Fluids."]}</dct:description>
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- Publication date:
- February 15, 2021
- DOI:
-
- Keyword(s):
- Multiphase Flow Numerical Simulations OpenFOAM CFD Baseline model Multi-field two-fluid model Eulerian-Eulerian model Free Surface
- Related identifiers:
- Identical to:
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