In this section
@inproceedings{Angeli:2015,
author = {Angeli, P and Azzopardi, BJ and Hewakandamby, B and Hewitt, GF and Pain, CC and Simmons, MJH and Matar, OK},
pages = {242--249},
title = {Multi-scale exploration of multiphase physics in flows (MEMPHIS): A framework for the next-generation predictive tools for multiphase flows},
year = {2015}
}
TY - CPAPER
AB - Ins this paper, we outline the framework that we are developing as part of the Multi-scale Exploration of Multiphase PHysIcs in flowS (MEMPHIS) programme to create the next generation modelling tools for complex multiphase flows. These flows are of central importance to micro-fluidics, oil-and-gas, nuclear, and biomedical applications, and every processing and manufacturing technology. This framework involves the establishment of a transparent linkage between input and prediction to allow systematic error-source identification, and, optimal, model-driven experimentation, to maximise prediction accuracy. The framework also involves massively-parallelisable numerical methods, capable of running efficiently on 105-106 core supercomputers, with optimally-adaptive, three-dimensional resolution, and sophisticated multi-scale physical models. The overall aim of this framework is to provide unprecedented resolution of multi-scale, multiphase phenomena, thereby minimising the reliance on correlations and empiricism.
AU - Angeli,P
AU - Azzopardi,BJ
AU - Hewakandamby,B
AU - Hewitt,GF
AU - Pain,CC
AU - Simmons,MJH
AU - Matar,OK
EP - 249
PY - 2015///
SP - 242
TI - Multi-scale exploration of multiphase physics in flows (MEMPHIS): A framework for the next-generation predictive tools for multiphase flows
ER -