
To reach indepth insight into multiphase flows.


In fluid mechanics, multiphase flow is a generalisation of twophase flow, i.e. cases where the phases are not chemically related (e.g. dusty gases, particles in fluid) or where more than two phases are present (e.g. propagating steam explosions, suspensions, aerosols, sprays, clouds, ...). More general, multiphase flow involves the interaction of solids with fluids, or of different fluids with each other and is of utmost importance in many engineering and science fields.
Each of the phases is considered to have a separately defined volume fraction (the sum of which is unity), and its own velocity field. Conservation equations for the flow of each species (perhaps with terms for interchange between the phases), can then be written down straightforwardly.
The momentum equation for each phase is less straightforward. It can be shown that a common pressure field can be defined, and that each phase is subject to the gradient of this field, weighted by its volume fraction. Transfer of momentum between the phases is sometimes less straightforward to determine, and in addition, a very light phase in bubble form has a virtual mass associated with its acceleration. (The virtual mass of a single bubble is about half its displaced mass). These terms, often called constitutive relations, are often strongly dependent on flow regime.
Coordinator:
S. Luding (MSM, CTW, MESA+, UTwente, NL) – s.luding@utwente.nl and +31 53 489 4212
Participation: Students from CTW, TNW, EWI
Value: 5EC
Time: 4th quarter
Teachers + subjects (arbitrary order):
S. Luding (Introduction, Particles in Fluids)
W. K. den Otter (Soft, bio, and molecular multiphase matter)
A. R. Thornton (Mixture theory, modeling and applications)
R. Hagmeijer (Condensing flow, theory, modeling and applications)
V. Kalikmanov Condensing flow, theory, modeling and applications)
E. van der Weide (Cavitation)
J. Kok (Spray Evolution Modeling)
G. Brem (Multiphase Flows and Thermal Processes)
A. Jarray (Wettability and Spreading of Multicomponents Liquids)
S. Luding (Particles and Granular Matter in Fluids)
P. Garcia Trinanes (ParticleFluid Interactions)
C. Diddens (Multicomponent Evaporation Processes with Particular Focus on Inkjet Printing)




 Assumed previous knowledgeRequired Knowledge and Skills: Required is basic and advanced Fluid and Solid Mechanics, as well as Transport Phenomena.
Required for the assignments and some practical exercises is basic knowledge of Matlab (or similar). 
Master Mechanical Engineering 
  Required materialsCanvas 
 Recommended materialsInstructional modesLecturePresence duty   Yes 
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