Multiphase Flows and Transport Phenomena

Multiphase Flows and Transport Phenomena Research Theme

The School’s Dr Timm Krüger is seeking to improve our understanding of ‘placental insufficiency’ through a new three-year project funded by the Engineering and Physical Sciences Research Council (EPSRC), which will investigate the role of placental structure, blood flow and nutrient transport in pre-eclampsia and foetal growth restriction. Pre-term and stillbirths affect up to 10% of all deliveries, including in developed countries such as the UK. 

The simulation of red blood cells flowing through a capillary network (Image courtesy of Qi 'Charles' Zhou)

REF eligible staff are invited to declare any circumstances that have impacted on their ability to research productively (e.g. extended periods of family-related leave, secondments or career breaks) during the REF 2021 assessment period.

REF2021 Research Excellence Framework logo

On Tuesday 14 and Wednesday 15 May, the Hewitt-Reese Spring School for Modelling Multiphase Flows took place in honour of two pioneering fluid dynamicists – the School’s Professor Jason Reese and Professor Geoff Hewitt of Imperial College London – who both passed away earlier this year.

Attendees at the 1.5 day Hewitt-Reese Spring School for Modelling Multiphase Flows at the University of Strathclyde

Earlier this month, on Tuesday 9 April, the Royal Society of Chemistry Scotland and North of England Electrochemistry Symposium 2019, also known as the “Butler Meeting”, was hosted at the School. Over 80 delegates gathered for the one-day symposium, which presented an opportunity for PhD students and PDRAs from across Scotland and the North of England to meet their peers and showcase their research in any field related to fundamental and applied electrochemistry.

Professor Kevin Sivula opens the Royal Society of Chemistry Scotland and North of England Electrochemistry Symposium 2019

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