Holger Marschall
Holger Marschall
Research Group Leader, Technische Universität Darmstadt
Verified email at mma.tu-darmstadt.de - Homepage
Cited by
Cited by
Numerical simulation of species transfer across fluid interfaces in free-surface flows using OpenFOAM
H Marschall, K Hinterberger, C Schüler, F Habla, O Hinrichsen
Chemical engineering science 78, 111-127, 2012
Numerical simulation of viscoelastic two-phase flows using openFOAM®
F Habla, H Marschall, O Hinrichsen, L Dietsche, H Jasak, JL Favero
Chemical engineering science 66 (22), 5487-5496, 2011
Direct numerical simulation of interfacial mass transfer into falling films
C Albert, H Marschall, D Bothe
International Journal of Heat and Mass Transfer 69, 343-357, 2014
A unified single-field model framework for volume-of-fluid simulations of interfacial species transfer applied to bubbly flows
D Deising, H Marschall, D Bothe
Chemical Engineering Science 139, 173-195, 2016
A comparison of stabilisation approaches for finite-volume simulation of viscoelastic fluid flow
X Chen, H Marschall, M Schäfer, D Bothe
International Journal of Computational Fluid Dynamics 27 (6-7), 229-250, 2013
Numerical Simulation of Wetting Phenomena with a Phase‐Field Method Using OpenFOAM®
X Cai, H Marschall, M Wörner, O Deutschmann
Chemical Engineering & Technology 38 (11), 1985-1992, 2015
voFoam-A geometrical Volume of Fluid algorithm on arbitrary unstructured meshes with local dynamic adaptive mesh refinement using OpenFOAM
T Maric, H Marschall, D Bothe
arXiv preprint arXiv:1305.3417, 2013
Towards the numerical simulation of multi-scale two-phase flows
H Marschall
Technische Universität München, 2011
Numerical and experimental analysis of local flow phenomena in laminar Taylor flow in a square mini-channel
CJ Falconi, C Lehrenfeld, H Marschall, C Meyer, R Abiev, D Bothe, ...
Physics of Fluids 28 (1), 012109, 2016
Computational analysis of single rising bubbles influenced by soluble surfactant
C Pesci, A Weiner, H Marschall, D Bothe
Journal of Fluid Mechanics 856, 709-763, 2018
Validation of interface capturing and tracking techniques with different surface tension treatments against a Taylor bubble benchmark problem
H Marschall, S Boden, C Lehrenfeld, U Hampel, A Reusken, M Wörner, ...
Computers & Fluids 102, 336-352, 2014
Direct numerical simulation of mass transfer in bubbly flows
D Deising, D Bothe, H Marschall
Computers & Fluids 172, 524-537, 2018
Direct Numerical Simulation of droplet formation processes under the influence of soluble surfactant mixtures
K Dieter-Kissling, H Marschall, D Bothe
Computers & Fluids 113, 93-105, 2015
Highly accurate two-phase species transfer based on ALE Interface Tracking
PS Weber, H Marschall, D Bothe
International Journal of Heat and Mass Transfer 104, 759-773, 2017
Numerical Simulation of Dispersed Gas/Liquid Flows in Bubble Columns at High Phase Fractions using OpenFOAM®. Part II – Numerical Simulations and Results
H Marschall, R Mornhinweg, A Kossmann, S Oberhauser, K Langbein, ...
Chemical engineering & technology 34 (8), 1321-1327, 2011
An extended volume of fluid method and its application to single bubbles rising in a viscoelastic liquid
M Niethammer, G Brenn, H Marschall, D Bothe
Journal of Computational Physics 387, 326-355, 2019
3D direct numerical simulations of reactive mass transfer from deformable single bubbles: An analysis of mass transfer coefficients and reaction selectivities
M Falcone, D Bothe, H Marschall
Chemical Engineering Science 177, 523-536, 2018
On the applicability of drop profile analysis tensiometry at high flow rates using an interface tracking method
K Dieter-Kissling, M Karbaschi, H Marschall, A Javadi, R Miller, D Bothe
Colloids and Surfaces A: Physicochemical and Engineering Aspects 441, 837-845, 2014
On suitability of phase-field and algebraic volume-of-fluid OpenFOAM® solvers for gas–liquid microfluidic applications
F Jamshidi, H Heimel, M Hasert, X Cai, O Deutschmann, H Marschall, ...
Computer Physics Communications 236, 72-85, 2019
An enhanced un-split face-vertex flux-based VoF method
T Marić, H Marschall, D Bothe
Journal of computational physics 371, 967-993, 2018
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