Prof. Martin Sommerfeld, University Halle-Wittenberg, Germany
Prof. Berend van Wachem, Imperial College, London, UK
Multi-phase Flows Rationale
The simultaneous presence of several different phases in external or internal flows such as gas, liquid and solid is found in daily life, environment and numerous industrial processes. These types of flows are termed multiphase flows, which may exist in different forms depending on the phase distribution. Examples are gas-liquid transportation, crude oil recovery, circulating fluidized beds, sediment transport in rivers, pollutant transport in the atmosphere, cloud formation, fuel injection in engines, bubble column reactors and spray for food processing, to name only a few. As a result of the interaction between the different phases such flows are rather complicated and very difficult to describe theoretically. For the design and optimisation of such multiphase systems a detailed understanding of the interfacial transport phenomena is essential.
This course is rather unique as it is one of few in the community that is specifically designed to deliver, a) a best practice guidance and b) the latest trends, in CFD for dispersed multi-phase flows.
Moreover, delegates are offered the opportunity to present their work via 10 minute presentations , thereafter, the lecturers can offer prospective solution.. Registration is required
Full Programmeercoftac_bpg_cfd_dmpf_viii,_20_nov__2017_.pdf
Fees: Members €530, non-members €780,
Students : €380
Also, each delegate will receive a free copy of the BPG CFD for Dispersed Multi-Phase Flows book
Prof. Martin Sommerfeld, University Halle-Wittenberg, Germany
Prof. Berend van Wachem, Imperial College, London, UK
Multi-phase Flows Rationale
The simultaneous presence of several different phases in external or internal flows such as gas, liquid and solid is found in daily life, environment and numerous industrial processes. These types of flows are termed multiphase flows, which may exist in different forms depending on the phase distribution. Examples are gas-liquid transportation, crude oil recovery, circulating fluidized beds, sediment transport in rivers, pollutant transport in the atmosphere, cloud formation, fuel injection in engines, bubble column reactors and spray for food processing, to name only a few. As a result of the interaction between the different phases such flows are rather complicated and very difficult to describe theoretically. For the design and optimisation of such multiphase systems a detailed understanding of the interfacial transport phenomena is essential.
This course is rather unique as it is one of few in the community that is specifically designed to deliver, a) a best practice guidance and b) the latest trends, in CFD for dispersed multi-phase flows.
Moreover, delegates are offered the opportunity to present their work via 10 minute presentations , thereafter, the lecturers can offer prospective solution.. Registration is required
Full Programmeercoftac_bpg_cfd_dmpf_viii,_20_nov__2017_.pdf
Fees: Members €530, non-members €780,
Students : €380
Also, each delegate will receive a free copy of the BPG CFD for Dispersed Multi-Phase Flows book