Publications

The following lists a selection of recent publications:

  1. A Weiner, D Hillenbrand, H Marschall and D Bothe.
    Data-driven subgrid-scale modeling for convection-dominated concentration boundary layers. Chem. Eng. Technol. 42(7):1349–1356, 2019. BibTeX

    @article{Weiner2019,
    	title = "{Data-driven subgrid-scale modeling for convection-dominated concentration boundary layers}",
    	author = "A. Weiner and D. Hillenbrand and H. Marschall and D. Bothe",
    	journal = "Chem. Eng. Technol.",
    	year = 2019,
    	number = 7,
    	pages = "1349--1356",
    	volume = 42,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  2. Tobias Stark, Thomas Kiedrowski, Holger Marschall and Andrés Fabián Lasagni.
    Avoiding starvation in tribocontact through active lubricant transport in laser textured surfaces. Lubricants 7(54):1–18, 2019. BibTeX

    @article{Stark2019,
    	title = "{Avoiding starvation in tribocontact through active lubricant transport in laser textured surfaces}",
    	author = "Stark, Tobias and Kiedrowski, Thomas and Marschall, Holger and Lasagni, Andr\'es Fabi\'an",
    	journal = "Lubricants",
    	year = 2019,
    	number = 54,
    	pages = "1--18",
    	volume = 7,
    	abstract = "Laser texturing is a viable tool to enhance the tribological performance of surfaces. Especially textures created with Direct Laser Interference Patterning (DLIP) show outstanding improvement in terms of reduction of coefficient of friction (COF) as well as the extension of oil film lifetime. However, since DLIP textures have a limited depth, they can be quickly damaged, especially within the tribocontact area, where wear occurs. This study aims at elucidating the fluid dynamical behavior of the lubricant in the surroundings of the tribocontact where channel-like surface textures are left after the abrasion wear inside the tribocontact area. In a first step, numerical investigations of lubricant wetting phenomena are performed applying OpenFOAM®®. The results show that narrow channels (width of 10 μ m ) allow higher spreading than wide channels (width of 30 μ m ). In a second step, fluid transport inside DLIP textures is investigated experimentally. The results show an anisotropic spreading with the spreading velocity dependent on the period and depth of the laser textures. A mechanism is introduced for how lubricant can be transported out of the channels into the tribocontact. The main conclusion of this study is that active lubricant transport in laser textured surfaces can avoid starvation in the tribocontact.",
    	article-number = 54,
    	issn = "2075-4442",
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  3. M Niethammer, H Marschall and D Bothe.
    Robust Direct Numerical Simulation of viscoelastic flows. Chem. Ing. Tech. 91(4):522–528, 2019. BibTeX

    @article{Niethammer2019,
    	title = "{Robust Direct Numerical Simulation of viscoelastic flows}",
    	author = "M. Niethammer and H. Marschall and D. Bothe",
    	journal = "Chem. Ing. Tech.",
    	year = 2019,
    	number = 4,
    	pages = "522--528",
    	volume = 91,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  4. M Niethammer, G Brenn, H Marschall and D Bothe.
    An extended Volume of Fluid method and its application to single bubbles rising in a viscoelastic liquid. J. Comput. Phys. 387:326–355, 2019. BibTeX

    @article{Niethammer2019b,
    	title = "{An extended Volume of Fluid method and its application to single bubbles rising in a viscoelastic liquid}",
    	author = "M. Niethammer and G. Brenn and H. Marschall and D. Bothe",
    	journal = "J. Comput. Phys.",
    	year = 2019,
    	pages = "326--355",
    	volume = 387,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  5. F Jamshidi, H Heimel, M Hasert, Xuan Cai, H Marschall and M Wörner.
    On suitability of phase-field and algebraic Volume-Of-Fluid OpenFOAM® solvers for gasliquid microfluidic applications. Comput. Phys. Commun. 236:72–85, 2019. BibTeX

    @article{Jamshidi2019,
    	title = "{On suitability of phase-field and algebraic Volume-Of-Fluid OpenFOAM® solvers for gasliquid microfluidic applications}",
    	author = {F. Jamshidi and H. Heimel and M. Hasert and Xuan Cai and H. Marschall and M. W\"orner},
    	journal = "Comput. Phys. Commun.",
    	year = 2019,
    	pages = "72--85",
    	volume = 236,
    	howpublished = "{available online, https://doi.org/10.1016/j.cpc.2018.10.015}",
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  6. C \ Pesci, A \ Weiner, H \ Marschall and D \ Bothe.
    Computational analysis of single rising bubbles influenced by soluble surfactant. J. Fluid Mech. 856:709–763, 2018. BibTeX

    @article{Pesci2018,
    	title = "{Computational analysis of single rising bubbles influenced by soluble surfactant}",
    	author = "C. \ Pesci and A.\ Weiner and H.\ Marschall and D.\ Bothe",
    	journal = "J. Fluid Mech.",
    	year = 2018,
    	pages = "709--763",
    	volume = 856,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  7. T Marić, H Marschall and D B.
    An enhanced un-split face-vertex flux-based VoF method. J. Comput. Phys. 371:967–993, 2018. BibTeX

    @article{Maric2018,
    	title = "{An enhanced un-split face-vertex flux-based VoF method}",
    	author = "T. Mari\'c and H. Marschall and D. B",
    	journal = "J. Comput. Phys.",
    	year = 2018,
    	pages = "967--993",
    	volume = 371,
    	owner = "holger",
    	timestamp = "2019.06.28"
    }
    
  8. S Hill, D Deising, T Acher, H Klein, D Bothe and H Marschall.
    Boundedness-preserving implicit correction of mesh-induced errors for VoF based heat and mass transfer. J. Comput. Phys. 352:285–300, 2018. BibTeX

    @article{Hill2018,
    	title = "{Boundedness-preserving implicit correction of mesh-induced errors for VoF based heat and mass transfer}",
    	author = "S. Hill and D. Deising and T. Acher and H. Klein and D. Bothe and H. Marschall",
    	journal = "J. Comput. Phys.",
    	year = 2018,
    	pages = "285--300",
    	volume = 352,
    	comment = "Arxiv-Preprint: https://arxiv.org/abs/1705.11063"
    }
    
  9. S Hill, T Acher, R Hoffmann, J Ferstl, D Deising, H Marschall, S Rehfeldt and H Klein.
    Numerical simulation of two-phase flow and interfacial species transfer in structured packings. Chem. Eng. Trans. 69:337–342, 2018. BibTeX

    @article{Hill2018b,
    	title = "{Numerical simulation of two-phase flow and interfacial species transfer in structured packings}",
    	author = "S. Hill and T. Acher and R. Hoffmann and J. Ferstl and D. Deising and H. Marschall and S. Rehfeldt and H. Klein",
    	journal = "Chem. Eng. Trans.",
    	year = 2018,
    	pages = "337--342",
    	volume = 69,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  10. V Fink, X Cai, A Stroh, R Bernard, B Frohnapfel, H Marschall and M Wörner.
    Drop bouncing by micro-grooves. Int. J. Heat Fluid Flow 70:271–278, 2018. BibTeX

    @article{Fink2018,
    	title = "{Drop bouncing by micro-grooves}",
    	author = {V. Fink and X. Cai and A. Stroh and R. Bernard and B. Frohnapfel and H. Marschall and M. W\"orner},
    	journal = "Int. J. Heat Fluid Flow",
    	year = 2018,
    	pages = "271--278",
    	volume = 70,
    	howpublished = "{Under Review}",
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  11. M Falcone, D Bothe and H Marschall.
    3D direct numerical simulations of reactive mass transfer from deformable single bubbles: An analysis of mass transfer coefficients and reaction selectivities. Chem. Eng. Sci. 177:523–536, 2018. BibTeX

    @article{Falcone2018,
    	title = "{3D direct numerical simulations of reactive mass transfer from deformable single bubbles: An analysis of mass transfer coefficients and reaction selectivities}",
    	author = "M. Falcone and D. Bothe and H. Marschall",
    	journal = "Chem. Eng. Sci.",
    	year = 2018,
    	pages = "523--536",
    	volume = 177,
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  12. D Deising, D Bothe and H Marschall.
    Direct Numerical Simulation of mass transfer in bubbly flows. Computers & Fluids 172:524–537, 2018. BibTeX

    @article{Deising2018,
    	title = "{Direct Numerical Simulation of mass transfer in bubbly flows}",
    	author = "D. Deising and D. Bothe and H. Marschall",
    	journal = "Computers \& Fluids",
    	year = 2018,
    	pages = "524--537",
    	volume = 172,
    	howpublished = "{Under Review}",
    	owner = "holger",
    	timestamp = "2019.06.27"
    }
    
  13. P Weber, H Marschall and D Bothe.
    Highly accurate two-phase species transfer based on ALE Interface-Tracking. Int. J. Heat Mass Transfer 104:759–773, 2017. BibTeX

    @article{Weber2017,
    	title = "{Highly accurate two-phase species transfer based on ALE Interface-Tracking}",
    	author = "P. Weber and H. Marschall and D. Bothe",
    	journal = "Int. J. Heat Mass Transfer",
    	year = 2017,
    	pages = "759--773",
    	volume = 104,
    	howpublished = "{Submitted}",
    	owner = "Administrator",
    	timestamp = "2014.03.21"
    }
    
  14. M Niethammer, H Marschall, C Kunkelmann and D Bothe.
    A numerical stabilization framework for viscoelastic fluid flow using the finite volume method on general unstructured meshes. Int. J. Num. Methods Fluids 82(2):131–166, 2017. BibTeX

    @article{Niethammer2017,
    	title = "{A numerical stabilization framework for viscoelastic fluid flow using the finite volume method on general unstructured meshes}",
    	author = "M. Niethammer and H. Marschall and C. Kunkelmann and D. Bothe",
    	journal = "Int. J. Num. Methods Fluids",
    	year = 2017,
    	number = 2,
    	pages = "131--166",
    	volume = 82
    }
    
  15. M Falcone and H Marschall.
    Explicit Radial-Basis-Function-based Finite-Difference Method for interfacial mass-transfer problems. Chem. Eng. Technol. 40(8):1385–1390, 2017. BibTeX

    @article{FalconeMarschall2017,
    	title = "{Explicit Radial-Basis-Function-based Finite-Difference Method for interfacial mass-transfer problems}",
    	author = "M. Falcone and H. Marschall",
    	journal = "Chem. Eng. Technol.",
    	year = 2017,
    	number = 8,
    	pages = "1385--1390",
    	volume = 40
    }
    
  16. X Cai, M Wörner, H Marschall and O Deutschmann.
    CFD simulation of liquid back suction and gas bubble formation in a circular tube with sudden or gradual expansion. Emiss. Control Sci. Technol. 3(4):289–301, 2017. BibTeX

    @article{Cai2017,
    	title = "{CFD simulation of liquid back suction and gas bubble formation in a circular tube with sudden or gradual expansion}",
    	author = {X. Cai and M. W\"orner and H. Marschall and O. Deutschmann},
    	journal = "Emiss. Control Sci. Technol.",
    	year = 2017,
    	number = 4,
    	pages = "289--301",
    	volume = 3
    }
    
  17. C J Falconi, C Lehrenfeld, H Marschall, C Meyer, R Abiev, D Bothe, A Reusken, M Schlüter and M Wörner.
    Numerical and experimental analysis of local flow phenomena in laminar Taylor flow in a square mini-channel. Phys. Fluids 28(1):012109, 2016. BibTeX

    @article{Falconi2016,
    	title = "{Numerical and experimental analysis of local flow phenomena in laminar Taylor flow in a square mini-channel}",
    	author = {Falconi, C. J. and Lehrenfeld, C. and Marschall, H. and Meyer, C. and Abiev, R. and Bothe, D. and Reusken, A. and Schl\"uter, M. and W\"orner, M.},
    	journal = "Phys. Fluids",
    	year = 2016,
    	number = 1,
    	pages = 012109,
    	volume = 28
    }
    
  18. D Deising, H Marschall and D Bothe.
    A unified single-field model framework for Volume-Of-Fluid simulations of interfacial species transfer applied to bubbly flows. Chem. Eng. Sci. 139:173–195, 2016. BibTeX

    @article{Deising2016,
    	title = "{A unified single-field model framework for Volume-Of-Fluid simulations of interfacial species transfer applied to bubbly flows}",
    	author = "D. Deising and H. Marschall and D. Bothe",
    	journal = "Chem. Eng. Sci.",
    	year = 2016,
    	pages = "173--195",
    	volume = 139,
    	timestamp = "2016.03.22"
    }
    
  19. X Cai, H Marschall, M Wörner and O Deutschmann.
    Numerical study on the wettability dependent interaction of a rising bubble with a periodic open cellular structure. Catalysis Today 273:151–160, 2016. BibTeX

    @article{Cai2016,
    	title = "{Numerical study on the wettability dependent interaction of a rising bubble with a periodic open cellular structure}",
    	author = {X. Cai and H. Marschall and M. W\"orner and O. Deutschmann},
    	journal = "Catalysis Today",
    	year = 2016,
    	pages = "151--160",
    	volume = 273,
    	timestamp = "2016.03.22"
    }
    
  20. T Marić, H Marschall and D Bothe.
    lentFoam - A hybrid Level Set / Front Tracking method on unstructured meshes. Computers & Fluids 113:20–31, 2015. BibTeX

    @article{Maric2015,
    	title = "{lentFoam - A hybrid Level Set / Front Tracking method on unstructured meshes}",
    	author = "T. Mari\'c and H. Marschall and D. Bothe",
    	journal = "Computers \& Fluids",
    	year = 2015,
    	pages = "20--31",
    	volume = 113
    }
    
  21. N Linder, A Criscione, I Roisman, H Marschall and C Tropea.
    3D computation of an incipient motion of a sessile drop on a rigid surface with contact angle hysteresis. Theoretical and Computational Fluid Dynamics 29(5-6):373–390, 2015. BibTeX

    @article{Linder2015,
    	title = "{3D computation of an incipient motion of a sessile drop on a rigid surface with contact angle hysteresis}",
    	author = "N. Linder and A. Criscione and I. Roisman and H. Marschall and C. Tropea",
    	journal = "Theoretical and Computational Fluid Dynamics",
    	year = 2015,
    	number = "5-6",
    	pages = "373--390",
    	volume = 29,
    	timestamp = "2016.03.22"
    }
    
  22. K Dieter-Kissling, H Marschall and D Bothe.
    Direct Numerical Simulation of droplet formation processes under the influence of soluble surfactant mixtures. Computers & Fluids 113:93–105, 2015. BibTeX

    @article{kissling2015b,
    	title = "{Direct Numerical Simulation of droplet formation processes under the influence of soluble surfactant mixtures}",
    	author = "K. Dieter-Kissling and H. Marschall and D. Bothe",
    	journal = "Computers \& Fluids",
    	year = 2015,
    	pages = "93--105",
    	volume = 113,
    	owner = "Administrator",
    	timestamp = "2014.03.17"
    }
    
  23. K Dieter-Kissling, H Marschall and D Bothe.
    Numerical method for coupled interfacial surfactant transport on dynamic surface meshes of general topology. Computers & Fluids 109:168–184, 2015. BibTeX

    @article{kissling2015,
    	title = "{Numerical method for coupled interfacial surfactant transport on dynamic surface meshes of general topology}",
    	author = "K. Dieter-Kissling and H. Marschall and D. Bothe",
    	journal = "Computers \& Fluids",
    	year = 2015,
    	pages = "168--184",
    	volume = 109
    }
    
  24. X Cai, H Marschall, M Wörner and O Deutschmann.
    Numerical simulation of wetting phenomena with a Phase-Field method using OpenFOAM®. Chem. Eng. Technol. 38(11):1985–1992, 2015. BibTeX

    @article{Cai2015,
    	title = "{Numerical simulation of wetting phenomena with a Phase-Field method using OpenFOAM®}",
    	author = {X. Cai and H. Marschall and M. W\"orner and O. Deutschmann},
    	journal = "Chem. Eng. Technol.",
    	year = 2015,
    	number = 11,
    	pages = "1985--1992",
    	volume = 38,
    	timestamp = "2016.03.22"
    }
    
  25. H Marschall, S Boden, C Lehrenfeld, Falconi C J Delgado, U Hampel, A Reusken, M Wörner and D Bothe.
    Validation of Interface Capturing and Tracking techniques with different surface tension treatments against a Taylor bubble benchmark problem. Computers & Fluids 102:336–352, 2014. BibTeX

    @article{Marschall2014,
    	title = "{Validation of Interface Capturing and Tracking techniques with different surface tension treatments against a Taylor bubble benchmark problem}",
    	author = {H. Marschall and S. Boden and C. Lehrenfeld and C. J. Falconi Delgado and U. Hampel and A. Reusken and M. W\"orner and D. Bothe},
    	journal = "Computers \& Fluids",
    	year = 2014,
    	pages = "336--352",
    	volume = 102,
    	owner = "Administrator",
    	timestamp = "2014.08.07"
    }
    
  26. K Dieter-Kissling, M Karbashi, H Marschall, A Javadi, R Miller and D Bothe.
    On the applicability of drop Profile Analysis Tensiometry at high flow rates using an Interface-Tracking method. Colloids Surfaces A 441:837–845, 2014. BibTeX

    @article{dieter2014,
    	title = "{On the applicability of drop Profile Analysis Tensiometry at high flow rates using an Interface-Tracking method}",
    	author = "K. Dieter-Kissling and M. Karbashi and H. Marschall and A. Javadi and R. Miller and D. Bothe",
    	journal = "Colloids Surfaces A",
    	year = 2014,
    	pages = "837--845",
    	volume = 441
    }
    
  27. C Albert, H Marschall and D Bothe.
    Direct Numerical Simulation of interfacial mass transfer into falling films. Int. J. Heat Mass Transfer 69:343–357, 2014. BibTeX

    @article{albert:2013,
    	title = "{Direct Numerical Simulation of interfacial mass transfer into falling films}",
    	author = "C. Albert and H. Marschall and D. Bothe",
    	journal = "Int. J. Heat Mass Transfer",
    	year = 2014,
    	pages = "343--357",
    	volume = 69
    }
    
  28. H Marschall and O Hinrichsen.
    Numerical simulation of multi-scale two-phase flows using a hybrid interface-resolving Two-Fluid Model (HIRES-TFM). J. Chem. Eng. Jpn. 46(8):517–523, 2013. BibTeX

    @article{marschall2012b,
    	title = "{Numerical simulation of multi-scale two-phase flows using a hybrid interface-resolving Two-Fluid Model (HIRES-TFM)}",
    	author = "H. Marschall and O. Hinrichsen",
    	journal = "J. Chem. Eng. Jpn.",
    	year = 2013,
    	number = 8,
    	pages = "517--523",
    	volume = 46,
    	address = "Kanazawa, Japan",
    	booktitle = "{Proceedings of 1st Symposium on Multi-scale Multiphase Process Engineering}"
    }
    
  29. X Chen, H Marschall, M Schäfer and D Bothe.
    A comparison of stabilisation approaches for Finite-Volume simulation of viscoelastic fluid flow. Int. J. Comput. Fluid Dyn. 27(6-7):229–250, 2013. BibTeX

    @article{Chen:2013:CSA:2527113.2527114,
    	title = "{A comparison of stabilisation approaches for Finite-Volume simulation of viscoelastic fluid flow}",
    	author = {X. Chen and H. Marschall and M. Sch{\"a}fer and D. Bothe},
    	journal = "Int. J. Comput. Fluid Dyn.",
    	year = 2013,
    	number = "6-7",
    	pages = "229--250",
    	volume = 27,
    	numpages = 22
    }
    
  30. S Aland, C Lehrenfeld, H Marschall, C Meyer and S Weller.
    Accuracy of two-phase flow simulations: The Taylor Flow benchmark. PAMM 13(1):595–598, 2013. BibTeX

    @article{aland2013,
    	title = "{Accuracy of two-phase flow simulations: The Taylor Flow benchmark}",
    	author = "S. Aland and C. Lehrenfeld and H. Marschall and C. Meyer and S. Weller",
    	journal = "PAMM",
    	year = 2013,
    	number = 1,
    	pages = "595--598",
    	volume = 13,
    	issn = "1617-7061",
    	publisher = "WILEY-VCH Verlag",
    	timestamp = "2015.03.25"
    }
    
  31. H Marschall, K Hinterberger, C Schüler, F Habla and O Hinrichsen.
    Numerical simulation of species transfer across fluid interfaces in free-surface flows using OpenFOAM®. Chem. Eng. Sci. 78(0):111–127, 2012. BibTeX

    @article{marschall2012,
    	title = "{Numerical simulation of species transfer across fluid interfaces in free-surface flows using OpenFOAM®}",
    	author = {H. Marschall and K. Hinterberger and C. Sch{\"u}ler and F. Habla and O. Hinrichsen},
    	journal = "Chem. Eng. Sci.",
    	year = 2012,
    	number = 0,
    	pages = "111--127",
    	volume = 78,
    	issn = "0009-2509"
    }
    
  32. H Marschall, R Mornhinweg, A Kossmann, S Oberhauser, K Langbein and O Hinrichsen.
    Numerical simulation of dispersed gas/liquid flows in bubble columns at high phase fractions using OpenFOAM®. Part II – Numerical simulations and results. Chem. Eng. Technol. 34(8):1321–1327, 2011. BibTeX

    @article{marschall2011b,
    	title = "{Numerical simulation of dispersed gas/liquid flows in bubble columns at high phase fractions using OpenFOAM®. Part II -- Numerical simulations and results}",
    	author = "H. Marschall and R. Mornhinweg and A. Kossmann and S. Oberhauser and K. Langbein and O. Hinrichsen",
    	journal = "Chem. Eng. Technol.",
    	year = 2011,
    	number = 8,
    	pages = "1321--1327",
    	volume = 34,
    	issn = "1521-4125",
    	keywords = "Bubble columns, computational fluid dynamics, Multiphase flows"
    }
    
  33. H Marschall, R Mornhinweg, A Kossmann, S Oberhauser, K Langbein and O Hinrichsen.
    Numerical simulation of dispersed gas/liquid flows in bubble columns at high phase fractions using OpenFOAM® . Part I – Modeling basics. Chem. Eng. Technol. 34(8):1311–1320, 2011. BibTeX

    @article{marschall2011a,
    	title = "{Numerical simulation of dispersed gas/liquid flows in bubble columns at high phase fractions using OpenFOAM® . Part I -- Modeling basics}",
    	author = "H. Marschall and R. Mornhinweg and A. Kossmann and S. Oberhauser and K. Langbein and O. Hinrichsen",
    	journal = "Chem. Eng. Technol.",
    	year = 2011,
    	number = 8,
    	pages = "1311--1320",
    	volume = 34,
    	issn = "1521-4125"
    }
    
  34. F Habla, H Marschall, O Hinrichsen, L Dietsche, H Jasak and J L Favero.
    Numerical simulation of viscoelastic two-phase flows using OpenFOAM®. Chem. Eng. Sci. 66(22):5487–5496, 2011. BibTeX

    @article{habla2011,
    	title = "{Numerical simulation of viscoelastic two-phase flows using OpenFOAM®}",
    	author = "F. Habla and H. Marschall and O. Hinrichsen and L. Dietsche and H. Jasak and J.L. Favero",
    	journal = "Chem. Eng. Sci.",
    	year = 2011,
    	number = 22,
    	pages = "5487--5496",
    	volume = 66
    }
    

 


 

 

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Holger Marschall