Modelling and Optimisation of Fluid-Particle Processes in Environmental Engineering

Benjamin Oyegbile holds a PhD in Environmental engineering and is currently a visiting researcher at the University of Bradford. He has over six years of university-level teaching experience and a focused research agenda in fluid-particle modelling and environmental fluid dynamics. His research work is focused on the integration of experimental analysis and high-fidelity numerical simulations with advanced machine learning techniques to investigate and optimise complex fluid-particle processes in environmental engineering.

1. The role of hydrodynamics and interparticle forces in the agglomeration of fine particles 2. The role of fluid dynamics and fluid-particle interaction on fouling in membrane-based separation systems 3. Micro processes at solid-liquid interface in fluid-particle systems 4. Numerical modelling and physicochemical characterisation of fluid-particle systems 5. Numerical simulation and design optimisation of hydrodynamics and mixing process in a stirred tank reactor (STR) 6. Numerical Modelling of the hydrodynamics and fluid-particle interactions in a Rotatory Vortex Pelleting (RVP) reactor 7. Numerical simulation of convective mixing and heat transfer in a pilot-scale hydrothermal carbonisation (HTC) reactor 8. Mathematical modelling of the effects compression of fouling layers as a predictive tool in membrane bioreactor systems