- Date: 14 – 17 November 2017
- Location: Dresden
Our Short Course, one and a half day – from Tuesday morning until Wednesday noon, is designed to provide knowledge on the use of numerical and experimental methods for multiphase flows.
The experimental part will provide knowledge on the selection, installation and use of modern gas-liquid measurement techniques and instruments, such as wire-mesh sensors, needle probes, process microscopy and gamma-ray computed tomography along with the application of data analysis tools. The numerical part will focus on finite-volume methods for Euler-Euler and Euler-Lagrange multiphase flow predictions, and on the associated mathematical models.
The Short Course will address the interests of engineers, chemists, physicists and technicians active in research and design, who want to be informed on modern design methods and tools for multiphase flows. The first day of the Short Course will focus on general topics; on the second day one group will specialise on experimental techniques including laboratory practices, while the other group will dive deeper into multi-scale modelling approaches.
The conference will take place after the Short Course from Wednesday noon until Friday noon.
Multiphase flows occur in a large variety of industrial products, for instance in the chemical and process industry, in power generation, and in the automotive industry. In order to improve quality of these products, to accelerate their development, and to increase their safety, it is important to better understand, model, and simulate multiphase flows.
The goals of the conference are to discuss the state of the art in multiphase flow research and applications, and to foster discussion and exchange of knowledge. Special sessions will be devoted to the subject of multi-scale modelling. Experts from the experimental side, from modelling and simulation, as well as experts from the application field are invited to present their research and results to a worldwide audience.
Register on the HZDR website: www.hzdr.de/multiphase