Multiphase flows
Droplets, aerosols, plastics, sediment, turbidity currents, and inertial particles in turbulent, stratified, and cloud flows.
What happens when something else gets carried by the flow — droplets, aerosols, plastics, sediment, ice — and the carrier is turbulent? That question runs through the group’s longest-standing thread of work. Inertia, buoyancy, settling, evaporation and condensation, and mixing all compete, and the most interesting physics tends to live exactly where things change fastest: at sharp interfaces.
Through the EU Horizon 2020 Marie Skłodowska-Curie network COMPLETE (Cloud-MicroPhysics-Turbulence-Telemetry), the lab tackled cloud-edge dynamics head-on. Cloud-environment DNS with Lagrangian particles let us watch entrainment, detrainment and droplet evolution at cloud edges in genuine resolution (Nair et al., 2020, 2021, 2023; Huang et al., J. Fluid Mech. 2023; Huang et al., Q. J. R. Met. Soc. 2025). The current NERC project on droplet dynamics in intermittent cloud-turbulence pushes further: resolved particle–turbulence interactions across cloud–environment interfaces, with the explicit aim of bridging laboratory-scale physics and the parameterised cloud microphysics that operational weather models actually use.
A second thread tracks particles across density interfaces — inertial, settling, buoyant — including plastics and microplastics, transient forces at sharp stratification, preferential clustering, and particle-laden gravity and turbidity currents. And on the atmospheric side, aerosol-cloud interactions through ship tracks (Ribeiro et al., Geophys. Res. Lett. 2024), particle dispersion, and marine and coastal transport problems link the multiphase physics to environmental flows the public can see from a satellite.
People
- PI - since 2007
- Postdoc - since 2025
- Postdoc - since 2023 PhD student - 2019-2023
- PhD student - since 2024PhD topic: Particles in stratified turbulence
- PhD student - since 2022PhD topic: Turbulent transport in oceanic flowOther supervisors: Graham O. Hughes (primary)
- PhD - 2020-2024PhD title: Smoke on the water: uncovering criteria for ship track formation using high-fidelity simulationOther supervisors: Edward Gryspeerdt (co-supervisor)Now: Catastrophe risk analyst @ AXA XL
- PhD - 2018-2023PhD title: From Ocean to Shore: Numerical modeling of microplastics in coastal watersOther supervisors: Jose M. Alsina (co-supervisor)Now: Data Engineer @ Transport for London
- PhD - 2017-2021Now: Postdoctoral Research Associate @ Grantham Institute and Space and Atmospheric Physics, Imperial College London
Recent publications
Browse all 11 →- Entrainment and detrainment statistics of a stationary shallow cumulus cloudJingzi Huang, Henry C. Burridge, Stephan R. de Roode, Maarten van Reeuwijk · Quarterly Journal of the Royal Meteorological Society · 2025
- The hectometric modelling challenge: Gaps in the current state of the art and ways forward towards the implementation of 100‐m scale weather and climate modelsHumphrey W. Lean, Natalie E. Theeuwes, Michael Baldauf, Jan Barkmeijer, Geoffrey Bessardon, Lewis Blunn, et al. · Quarterly Journal of the Royal Meteorological Society · 2024
- Retrieving Cloud Sensitivity to Aerosol Using Ship Emissions in Overcast ConditionsRodrigo Q. C. R. Ribeiro, Edward Gryspeerdt, Maarten van Reeuwijk · Geophysical Research Letters · 2023
- Investigating microscale patchiness of motile microbes under turbulence in a simulated convective mixed layerAlexander Kier Christensen, Matthew D. Piggott, Erik van Sebille, Maarten van Reeuwijk, Samraat Pawar · PLOS Computational Biology · 2022
- Transient stratification force on particles crossing a density interfaceLilly Verso, Maarten van Reeuwijk, Alexander Liberzon · International Journal of Multiphase Flow · 2019
- Inhomogeneous growth of fluctuations of concentration of inertial particles in channel turbulenceItzhak Fouxon, Lukas Schmidt, Peter Ditlevsen, Maarten van Reeuwijk, Markus Holzner · Physical Review Fluids · 2018
- Understanding Entrainment Processes in the Atmosphere: The Role of Numerical SimulationMaarten van Reeuwijk, Harm J. J. Jonker · ERCOFTAC Series · 2017