Experimental collisions of varying roughness wetted particles in the pendular regime compared to numerical simulations. Phys. Rev. Fluids, (9)5:054302-1 -- 054302-26, American Physical Society, May 2024. [PUMA: dem myown sph] URL
Investigation of Chip Jamming in Deep-Hole Drilling. In Georgios Fourtakas (Eds.), 2023. [PUMA: dem myown sld sph]
An improved recoil pressure boundary condition for the simulation of deep penetration laser beam welding using the SPH method. In Abbas Khayyer, Damien Violeau, Songdong Shao, and Danilo Durante (Eds.), European Journal of Mechanics - B/Fluids, Elsevier BV, June 2022. [PUMA: Beam BeamWelding Capillary Deep Dynamics Formation Laser Melt Penetration Pressure Ray-Tracing Recoil SPH myown] URL
An improved recoil pressure boundary condition for the simulation of deep penetration laser beam welding using the SPH method. In Abbas Khayyer, Damien Violeau, Songdong Shao, and Danilo Durante (Eds.), European Journal of Mechanics - B/Fluids, Elsevier BV, June 2022. [PUMA: myown Ray-Tracing Recoil Deep SPH Pressure Beam Dynamics Penetration Capillary Laser from:e.reinheimer BeamWelding Melt Formation] URL
Geometry modifications of single-lip drills to improve cutting fluid flow. The International Journal of Advanced Manufacturing Technology, (121)3:1689–1695, Jun 1, 2022. [PUMA: cfd myown sld sph] URL
Analysis of the cutting fluid behavior with a modified micro single-lip deep hole drilling tool. CIRP Journal of Manufacturing Science and Technology, (38):93--104, Elsevier BV, August 2022. [PUMA: cfd dem myown sld sph] URL
Cutting fluid behavior under consideration of chip formation during micro single-lip deep hole drilling of Inconel 718. International Journal of Modelling and Simulation, 1-15, Taylor & Francis, 2022. [PUMA: CFD DEM SLD SPH myown] URL
Cutting-fluid flow with chip evacuation during deep-hole drilling with twist drills. European Journal of Mechanics - B/Fluids, (89):473--484, Elsevier BV, September 2021. [PUMA: CFD DEM SPH myown] URL
Kopplungsmethode zur Simulation von Mehrskaligen und Mehrphasigen Strömungen. In "Bischof, Benjamin" "Mehring, Carsten" (Eds.), 2019. [PUMA: fvm multiphase multiscale myown sph]
An SPH Approach for Non-Spherical Particles Immersed in Newtonian Fluids. Materials, (13)10:2324, MDPI AG, May 2020. [PUMA: SPH mib mib_ls2 non-spherical particles] URL
Modeling the Dynamics of Partial Wetting Depending on the Solid Microstructure and Applied Electric Potentials Using the SPH Method. Dezember 2019. [PUMA: dissertation icvt kunz sph]
Prediction of Electrolyte Distribution in Technical Gas Diffusion Electrodes: From Imaging to SPH Simulations. Transport in Porous Media, Mar 3, 2020. [PUMA: icvt journal kunz nieken sph] URL
Prediction of Electrolyte Distribution in Technical Gas Diffusion Electrodes. In Transport in Porous Media (Eds.), 2020. [PUMA: Electrodes GDE SPH multiphase myown]
Numerical modeling of solid particles motion in suspensions using Smoothed Particle Hydrodynamics. Proc Appl Math Mech, (18)1:e201800355, 2018. [PUMA: imported mib mib_ls2 sph]
Application of Smoothed Particle Hydrodynamics to Structure Formation in Chemical Engineering. In Michael Griebel, and Marc Alexander Schweitzer (Eds.), Meshfree Methods for Partial Differential Equations V, 125--140, Springer Berlin Heidelberg, Berlin, Heidelberg, 2011. [PUMA: icvt journal keller nieken sph]
Simulation der Morphologieausbildung von offenporigen Materialien. Chemie Ingenieur Technik, (82):1391, 2010. [PUMA: icvt journal keller nieken sph] URL
Ein gitterfreies Berechnungsverfahren zur Simulation von Koaleszenz in Mehrphasensystemen. Chemie Ingenieur Technik, (85):1099--1106, 2013. [PUMA: hopp huber icvt journal nieken saeckel sph] URL
Simulation of the Morphogenesis of Open-porous Materials. 2014. [PUMA: dissertation icvt sph]
An Application of the Cahn-Hilliard Approach to Smoothed Particle Hydrodynamics. Mathematical Problems in Engineering, (2014):10, 2014. [PUMA: hopp huber icvt journal kunz nieken saeckel sph] URL
Study of Multi-phase Flow in Porous Media: Comparison of SPH Simulations with Micro-model Experiments. Transport in Porous Media, (114)2:581--600, Sep 1, 2016. [PUMA: huber icvt journal kunz nieken sph] URL
Open boundary conditions for ISPH and their application to micro-flow. Journal of Computational Physics, (307):614--633, Elsevier BV, February 2016. [PUMA: hopp huber icvt journal kunz nieken sph] URL
On the physically based modeling of surface tension and moving contact lines with dynamic contact angles on the continuum scale. Journal of Computational Physics, (310):459--477, Elsevier BV, April 2016. [PUMA: hopp huber icvt journal kunz nieken saeckel sph] URL
Influence of orifice type and wetting properties on bubble formation at bubble column reactors. Chemical Engineering Science, (152):151--162, Elsevier BV, October 2016. [PUMA: dobesch hopp huber icvt journal kunz nieken sph] URL
On Maxwell–Stefan diffusion in Smoothed Particle Hydrodynamics. International Journal of Heat and Mass Transfer, (103):548--554, Elsevier BV, December 2016. [PUMA: hopp icvt journal nieken saeckel sph] URL
Inflow/outflow with Dirichlet boundary conditions for pressure in ISPH. Journal of Computational Physics, (326):171--187, Elsevier BV, December 2016. [PUMA: hopp huber icvt journal kunz nieken sph] URL
A Two-Phase SPH Model for Dynamic Contact Angles Including Fluid--Solid Interactions at the Contact Line. Transport in Porous Media, (122)2:253--277, Mar 1, 2018. [PUMA: icvt journal kunz nieken sph] URL
Mesoscopic simulation and characterization of the morphological evolution in phase separating fluid mixtures. Computational Materials Science, (149):267--281, Elsevier BV, June 2018. [PUMA: hopp icvt journal nieken sph zander] URL
Modeling of porous polymer membrane formation. 2017. [PUMA: dissertation hopp icvt sph]
Modeling of droplet collisions using Smoothed Particle Hydrodynamics. International Journal of Multiphase Flow, (95):175--187, Elsevier BV, October 2017. [PUMA: hopp icvt journal nieken sph] URL
Mesoscopic simulation and characterization of the morphological evolution in phase separating fluid mixtures. Computational Materials Science, (149):267--281, Elsevier BV, June 2018. [PUMA: hopp icvt journal myown nieken sph zander] URL
Experimental and numerical investigation of the capillary front and side walls during laser beam welding. 2017. [PUMA: SPH diagnostics laser myown simulations welding]
Experimental and numerical investigation of the capillary front and side walls during laser beam welding. 2017. [PUMA: SPH diagnostics laser simulation welding]
Simulation of laser welding using advanced particle methods. GAMM-Mitteilungen, (39)2:149--169, Wiley Online Library, 2016. [PUMA: SPH laser myown peer simulation welding]