Understanding the spatio-temporal multi-scale structure of fluidization is a challenging problem. This presentation reviews our 20-year efforts on this subject, showing the roadmap that has gradually evolved from a simple idea to a systematic methodology inclusive of subsidiary, related systems and industrial applications. The strategy of establishing stability conditions through analyses of the compromise between dominant mechanisms is emphasized. The presentation concludes with prospects for further theoretical explorations and industrial applications
In the century-long development of fluidization technology, simulation methods have evolved in respo...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
International audienceWhen a liquid stream is injected into a gaseous atmosphere, it destabilizes an...
Understanding the spatio-temporal multi-scale structure of fluidization is a challenging problem. Th...
Challenges in quantitative design of chemical processes mainly reside in their complex structures, w...
Fluidization is a process of wide application, but its dynamic behavior is not well understood becau...
With the understanding on paradigm shift in sciences as well as on the relationships between science...
Research strategy in studying gas-solid fluidization at the Institute of Chemical Metallurgy (ICM) i...
When Fluidization was first studied in the 1940's, it was treated as a global phenomenon. People...
Cette thèse porte sur l’étude numérique de la dynamique des écoulements fluide-particules au sein de...
New research topics related to the statistical and dynamical properties of matter flowing in simple ...
Useful as a reference for engineers in industry and as an advanced level text for graduate engineeri...
Multi-Scale Phenomena in Complex Fluids is a collection of lecture notes delivered during the first ...
The world around us is inherently multiscale. The variety of different models depending on the refer...
Talk: Plenary Abstract: The ability to predict the behaviour of multiphase flows accurately, reliab...
In the century-long development of fluidization technology, simulation methods have evolved in respo...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
International audienceWhen a liquid stream is injected into a gaseous atmosphere, it destabilizes an...
Understanding the spatio-temporal multi-scale structure of fluidization is a challenging problem. Th...
Challenges in quantitative design of chemical processes mainly reside in their complex structures, w...
Fluidization is a process of wide application, but its dynamic behavior is not well understood becau...
With the understanding on paradigm shift in sciences as well as on the relationships between science...
Research strategy in studying gas-solid fluidization at the Institute of Chemical Metallurgy (ICM) i...
When Fluidization was first studied in the 1940's, it was treated as a global phenomenon. People...
Cette thèse porte sur l’étude numérique de la dynamique des écoulements fluide-particules au sein de...
New research topics related to the statistical and dynamical properties of matter flowing in simple ...
Useful as a reference for engineers in industry and as an advanced level text for graduate engineeri...
Multi-Scale Phenomena in Complex Fluids is a collection of lecture notes delivered during the first ...
The world around us is inherently multiscale. The variety of different models depending on the refer...
Talk: Plenary Abstract: The ability to predict the behaviour of multiphase flows accurately, reliab...
In the century-long development of fluidization technology, simulation methods have evolved in respo...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
International audienceWhen a liquid stream is injected into a gaseous atmosphere, it destabilizes an...