Using ultrasound techniques to probe complex liquid-liquid and solid-liquid multiphase flows
Using the ghost particle velocimetry technique to probe the multiphase flows of micrometer length scale important in droplet physics
Use of in vitro microfluidic systems to inform the development of statistical uncertainty-based models to aid diagnosis of circulatory disorders
State-of-the-art technology allowing flexibility in accurately modelling flow around curved surfaces
Combination of physics and data-driven methods for effective flow-assurance
Investigation of effectiveness of face masks to reduce exposure hazards to COVID-19 using detailed coupled flow and solid/cloth mechanics modelling
Application of machine learning methods to predict realistic flow fields
Forecasting spatial variation of COVID-19 using Generative Adversarial Networks (GAN)
Development of a reliable microfluidic platform for the study and control of micro-reactors
Advancement of tools to design and optimise liquid-liquid extraction units
Study on a numerical framework for a highly non-linear and complex multiscale flow
Development of multi-component modelling code to accurately predict complex flow characteristics in industry-relevant flows
A study dealing with the dynamics of surfactant transport at liquid-liquid interfaces