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Jump to: 2026 | 2025 | 2024 | 2023
2026
Chiral particles in TaylorâCouette turbulence (2026)European physical journal E. Soft Matter, 49(1-2). Article 1. Flapper, M. M., Lohse, D. & Huisman, S. G.https://doi.org/10.1140/epje/s10189-025-00544-wCollective effects of neighbouring melting ice objects (2026)Journal of fluid mechanics, 1027. Article A10. Angriman, S., Lohse, D., Verzicco, R. & Huisman, S. G.https://doi.org/10.1017/jfm.2025.11093
2025
Melting of floating ice cylinders in fresh and saline environments (2025)Journal of fluid mechanics, 1019. Article A29. Bellincioni, E., Lohse, D. & Huisman, S. G.https://doi.org/10.1017/jfm.2025.10598Buoyancy-driven flow regimes for a melting vertical ice cylinder in saline water (2025)Journal of fluid mechanics, 1019. Article A11. Xu, D., Bootsma, S. T., Verzicco, R., Lohse, D. & Huisman, S. G.https://doi.org/10.1017/jfm.2025.10581Orientation dynamics of oddly-shaped particles (2025)[Thesis › PhD Thesis - Research UT, graduation UT]. University of Twente. Flapper, M.https://doi.org/10.3990/1.9789036567206Data underlying the publication: Melting of floating ice cylinders in fresh and saline environments (2025)[Dataset Types › Dataset]. 4TU.Centre for Research Data. Huisman, S., Lohse, D. & Bellincioni, E.https://doi.org/10.4121/bcb292f1-7a51-4f8d-a175-4a04a3d02e4cLagrangian flow statistics in experimental homogeneous isotropic turbulence (2025)Physics of Fluids, 37(7). Article 075164. Wang, C., Huisman, S. G., Basset, T., Volk, R. & Bourgoin, M.https://doi.org/10.1063/5.0267921Collective effects of neighbouring melting ice objects (2025)[Working paper › Preprint]. ArXiv.org. Angriman, S., Lohse, D., Verzicco, R. & Huisman, S. G.https://doi.org/10.48550/arXiv.2506.16926Multi-camera orientation tracking method for anisotropic particles in particle-laden flows (2025)Review of scientific instruments, 96(6). Article 065207. Flapper, M. M., Bernard, E. & Huisman, S. G.https://doi.org/10.1063/5.0268815On the dynamics of jets and branched fluidic networks (2025)[Thesis › PhD Thesis - Research UT, graduation UT]. University of Twente. Smink, J. S.https://doi.org/10.3990/1.9789036564663Salts promote or inhibit bubbly drag reduction in turbulent TaylorâCouette flows (2025)International journal of multiphase flow, 184. Article 105078. Blaauw, L. J., Lohse, D. & Huisman, S. G.https://doi.org/10.1016/j.ijmultiphaseflow.2024.105078
2024
Salts promote or inhibit bubbly drag reduction in turbulent Taylor-Couette flows (2024)[Working paper › Preprint]. ArXiv.org. Blaauw, L. J., Lohse, D. & Huisman, S. G.https://doi.org/10.48550/arXiv.2411.13196Melting of floating ice cylinders in fresh and saline environments (2024)[Working paper › Preprint]. ArXiv.org. Bellincioni, E., Lohse, D. & Huisman, S. G.https://doi.org/10.48550/arXiv.2411.09620Buoyancy-driven flow regimes for a melting vertical ice cylinder in saline water (2024)[Working paper › Preprint]. ArXiv.org. Xu, D., Bootsma, S. T., Verzicco, R., Lohse, D. & Huisman, S. G.https://doi.org/10.48550/arXiv.2410.22050Circular objects do not melt the slowest in water (2024)[Working paper › Preprint]. ArXiv.org. Yang, R., Van Den Ham, T., Verzicco, R., Lohse, D. & Huisman, S. G.https://doi.org/10.48550/arXiv.2312.05912Turbulent multiphase Taylor-Couette flows (2024)[Thesis › PhD Thesis - Research UT, graduation UT]. University of Twente. Blaauw, L. J.https://doi.org/10.3990/1.9789036562133Circular objects do not melt the slowest in water (2024)Physical review fluids, 9(8). Article 083501. Yang, R., Van Den Ham, T., Verzicco, R., Lohse, D. & Huisman, S. G.https://doi.org/10.1103/PhysRevFluids.9.083501Enhancing thermal mixing in turbulent bubbly flow by inhibiting bubble coalescence (2024)International journal of multiphase flow, 173. Article 104719. Waasdorp, P., Dung, O. Y., Huisman, S. G. & Lohse, D.https://doi.org/10.1016/j.ijmultiphaseflow.2024.104719Heat transfer in multiphase and melting flows (2024)[Thesis › PhD Thesis - Research UT, graduation UT]. University of Twente. Waasdorp, W. P.https://doi.org/10.3990/1.9789036559560Melting of olive oil in immiscible surroundings: experiments and theory (2024)Journal of fluid mechanics, 998. Article A18. Waasdorp, P., Bogaard, A. H. v. d., van Wijngaarden, L. & Huisman, S. G.https://doi.org/10.1017/jfm.2024.843
2023
Mixing and solvent exchange near the turbulent/non-turbulent interface in a quasi-2D jet (2023)International journal of multiphase flow, 169. Article 104608. Lee, Y. A., Huisman, S. G. & Lohse, D.https://doi.org/10.1016/j.ijmultiphaseflow.2023.104608Scalar transport and nucleation in quasi-two-dimensional starting jets and puffs (2023)International journal of multiphase flow, 168. Article 104556. Lee, Y. A., Lohse, D. & Huisman, S. G.https://doi.org/10.1016/j.ijmultiphaseflow.2023.104556Enhancing thermal mixing in turbulent bubbly flow by adding salt (2023)[Working paper › Preprint]. ArXiv.org. Waasdorp, P., Dung, O. Y., Huisman, S. G. & Lohse, D.https://doi.org/10.48550/arXiv.2309.00400Melting of olive oil in immiscible surroundings: experiments and theory (2023)[Working paper › Preprint]. Waasdorp, P., Bogaard, A. H. v. d., Wijngaarden, L. v. & Huisman, S. G.https://doi.org/10.48550/arXiv.2309.00414Micro-droplet nucleation through solvent exchange in a turbulent buoyant jet (2023)[Dataset Types › Dataset]. Areda (University of Twente). Lee, Y.-A. & Huisman, S. G.
Onderzoeksprofielen
Betrokken bij de vakken: Advanced Fluid Mechanics, Experimental Techniques in Physics of Fluids, en Project Dynamica and Relativiteit. Coordinator voor stages, bachelor-opdrachten, and master-opdrachten voor de Physics of Fluids vakgroep.
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Universiteit Twente
Horst Complex (gebouwnr. 20), kamer ME264
De Horst 2
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Universiteit Twente
Horst Complex ME264
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