YIELD-stress fluids beyond Bingham - closing the GAP in modelling real-world yield-stress materials

Industries based on yield-stress fluids are rapidly expanding in Europe, including key traditional sectors (food, building,paper) and key emerging technologies (advanced materials, advanced manufacturing).

The European Parliament has calledfor investment on these sectors, but so far complex fluid processes in these industries are far from understood, as theresearchhas generally been small scale and/or technologically flawed.

In particular: the poor understanding of yield-stressfluid rheology and linking of the measured parameters to the yield properties and insufficient models, means thatapplications are designed without the understanding of even the basic flow properties (no-flow zones, pressure needed toinitiate flow), which introduces uncertainties and errors; there is a serious shortage of research trained professionals whocombine expertise on complex fluid research, technology and industrial needs.

In conjunction with ESR the largest networkin Europe in rheology, this ITN will: develop a European multi-disciplinary, intersectoral educational research framework forEurope, to comprehensively train 12 early stage researchers (ESRs) to PhD level; provide the research evidence to showhow modern measurement and modelling methods may improve the cost- and resource-efficiency of industrial processes;provide the European workforce with a much needed new generation of excellent research trained professionals.

Thescientific objectives of YIELDGAP covered by the 4 research workpackages are to: establish advanced and highly improvednumerical modelling tools of complex fluids including additives; validate models by lab and field measurements; integratemeasured fluid properties with model parameters; build and disseminate best practices for industry and academia.

Usingadvanced methods where the YIELDGAP partners are world leading, the work of this ITN will culminate in internationalconsensus guidelines for yield-stress fluid flow measurement and prediction.