Research
From cloud edges to city streets, the lab studies how fluids carry heat, pollutants, and particles across environmental flows. Four interlinked areas, built on the same toolkit: Direct Numerical Simulation, Large-Eddy Simulation, reduced-order theory, laboratory experiments, sensor networks, and machine-learning surrogates.
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Urban fluid mechanicsBuilding-resolved simulation of outdoor and indoor flow, dispersion, ventilation, and microclimate in cities.
15 people 5 projects 32 papers -
Turbulence & mixingFundamental turbulent flows — entrainment, jets, plumes, gravity currents, and the way energy moves between scales.
12 people 7 projects 46 papers -
Multiphase flowsDroplets, aerosols, plastics, sediment, turbidity currents, and inertial particles in turbulent, stratified, and cloud flows.
6 people 1 projects 10 papers -
Machine learningSurrogate models, emulators, Gaussian processes, and data-driven turbulence and urban-process modelling.
3 people 0 projects 4 papers