Output details
15 - General Engineering
University of Oxford
Heat transfer model for gas-liquid slug flows under constant flux
This fundamental research was the first to address the local heat/mass transfer coefficient from multiphase slug flow in mini/micro scale channels. Based on a novel approach of using regenerating entrance region theory an order of magnitude increase in local heat and mass transfer coefficients were predicted and supported by measurements. For this work, and in related journals I received the prestigious ASME society level Bergles-Rohsenow Young Investigator Award in Heat Transfer (BRYIA) in 2011. This work also resulted in collaboration development with EU multinational companies (e.g. BioMerieux) and attracted visiting professors, namely Prof. Muzchyka from Canada.