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Publication DateChemical Engineering Science, ISSN 0009-2509, 04/2019, Volume 198, pp. 198 - 223
This article reviews the general features of the multiscale structures in particle–fluid systems and the characterization, modeling, and simulation methods for...
Structure heterogeneity | Mesoscale structures | Multiscale structures | Fluidization | Multiphase flow | LATTICE-BOLTZMANN SIMULATIONS | UNITED-ATOM DESCRIPTION | AVERAGED 2-FLUID MODEL | REACTIVE FORCE-FIELD | GAS-SOLID FLOWS | ENGINEERING, CHEMICAL | DIRECT NUMERICAL-SIMULATION | RAY COMPUTED-TOMOGRAPHY | MASS-TRANSFER MODEL | IMMERSED BOUNDARY METHOD | DISCRETE-ELEMENT METHOD
Structure heterogeneity | Mesoscale structures | Multiscale structures | Fluidization | Multiphase flow | LATTICE-BOLTZMANN SIMULATIONS | UNITED-ATOM DESCRIPTION | AVERAGED 2-FLUID MODEL | REACTIVE FORCE-FIELD | GAS-SOLID FLOWS | ENGINEERING, CHEMICAL | DIRECT NUMERICAL-SIMULATION | RAY COMPUTED-TOMOGRAPHY | MASS-TRANSFER MODEL | IMMERSED BOUNDARY METHOD | DISCRETE-ELEMENT METHOD
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Loading RightsChemical Engineering Science, ISSN 0009-2509, 2007, Volume 62, Issue 13, pp. 3378 - 3396
Particle science and technology is a rapidly developing interdisciplinary research area with its core being the understanding of the relationships between...
Particulate processes | Mathematical modelling | Powder technology | Multiphase flow | Simulation | FORCE-DISPLACEMENT MODEL | MULTIPLIER/FICTITIOUS DOMAIN METHOD | ELEMENT METHOD | simulation | 2-DIMENSIONAL GRANULAR FLOWS | powder technology | SHEAR-BAND DEVELOPMENT | ENGINEERING, CHEMICAL | mathematical modelling | POWDERS SHOWING DEGREES | GAS-SOLID FLOW | KAFUI ET-AL | multiphase flow | COMPUTATIONAL FLUID-DYNAMICS | particulate processes | NUMERICAL-SIMULATION | Air pollution | Analysis
Particulate processes | Mathematical modelling | Powder technology | Multiphase flow | Simulation | FORCE-DISPLACEMENT MODEL | MULTIPLIER/FICTITIOUS DOMAIN METHOD | ELEMENT METHOD | simulation | 2-DIMENSIONAL GRANULAR FLOWS | powder technology | SHEAR-BAND DEVELOPMENT | ENGINEERING, CHEMICAL | mathematical modelling | POWDERS SHOWING DEGREES | GAS-SOLID FLOW | KAFUI ET-AL | multiphase flow | COMPUTATIONAL FLUID-DYNAMICS | particulate processes | NUMERICAL-SIMULATION | Air pollution | Analysis
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Loading RightsPowder Technology, ISSN 0032-5910, 11/2016, Volume 302, pp. 108 - 152
Particles encountered in nature and engineering practice are normally not spherical but of irregular shapes. Particle shape plays a key role in determining the...
CFD-DEM | non-spherical particles | computational fluid dynamics | discrete element method | particulate systems | CONTACT DETECTION ALGORITHMS | IRREGULARLY SHAPED PARTICLES | SPOUTED BED REACTOR | INITIAL-VALUE PROBLEMS | ENGINEERING, CHEMICAL | LATTICE-BOLTZMANN METHOD | GAS-SOLID FLOW | 2-DIMENSIONAL DYNAMIC SIMULATION | PARTICLE-FLUID SYSTEMS | TABLET COATING VARIABILITY | DISCRETE-ELEMENT METHOD | Fluid dynamics | Collisions (Nuclear physics) | Air pollution
CFD-DEM | non-spherical particles | computational fluid dynamics | discrete element method | particulate systems | CONTACT DETECTION ALGORITHMS | IRREGULARLY SHAPED PARTICLES | SPOUTED BED REACTOR | INITIAL-VALUE PROBLEMS | ENGINEERING, CHEMICAL | LATTICE-BOLTZMANN METHOD | GAS-SOLID FLOW | 2-DIMENSIONAL DYNAMIC SIMULATION | PARTICLE-FLUID SYSTEMS | TABLET COATING VARIABILITY | DISCRETE-ELEMENT METHOD | Fluid dynamics | Collisions (Nuclear physics) | Air pollution
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Loading RightsJournal of Hazardous Materials, ISSN 0304-3894, 02/2010, Volume 174, Issue 1-3, pp. 707 - 713
Silica-supported TiO powders were synthesized by a wet method under mild conditions. The aim of the work was the preparation of TiO /SiO additives for...
Photocatalytic cement | Urban pollution | systems | Photocatalysis | SiO | TiO | Gas-solid reactions | NANOSTRUCTURED TIO2 PARTICLES | OXIDATION | SOL-GEL METHOD | MIXED OXIDES | TITANIA-SILICA | HETEROGENEOUS PHOTOCATALYSIS | ENVIRONMENTAL SCIENCES | ENGINEERING, CIVIL | SUPPORTED TIO2 | ENGINEERING, ENVIRONMENTAL | DEGRADATION | GASEOUS TOLUENE | CATALYSTS | TiO2/SiO2 systems | Microscopy, Electron, Scanning | Catalysis | X-Ray Diffraction | Silicon Dioxide - chemistry | Titanium - chemistry | Photochemistry
Photocatalytic cement | Urban pollution | systems | Photocatalysis | SiO | TiO | Gas-solid reactions | NANOSTRUCTURED TIO2 PARTICLES | OXIDATION | SOL-GEL METHOD | MIXED OXIDES | TITANIA-SILICA | HETEROGENEOUS PHOTOCATALYSIS | ENVIRONMENTAL SCIENCES | ENGINEERING, CIVIL | SUPPORTED TIO2 | ENGINEERING, ENVIRONMENTAL | DEGRADATION | GASEOUS TOLUENE | CATALYSTS | TiO2/SiO2 systems | Microscopy, Electron, Scanning | Catalysis | X-Ray Diffraction | Silicon Dioxide - chemistry | Titanium - chemistry | Photochemistry
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Loading RightsJournal of Alloys and Compounds, ISSN 0925-8388, 2004, Volume 381, Issue 1, pp. 284 - 287
One of the problems related to the employment of hydrogen-based fuel cells for vehicular transportation is "on board" storage. Hydrogen storage in solids has...
Hydrogen storage materials | Thermodynamics | Gas–solid reaction | New type of hydrogen absorber | Gas-solid reaction | new type of hydrogen absorber | gas-solid reaction | hydrogen storage materials | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | thermodynamics | CHEMISTRY, PHYSICAL | SODIUM ALUMINUM HYDRIDES
Hydrogen storage materials | Thermodynamics | Gas–solid reaction | New type of hydrogen absorber | Gas-solid reaction | new type of hydrogen absorber | gas-solid reaction | hydrogen storage materials | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | thermodynamics | CHEMISTRY, PHYSICAL | SODIUM ALUMINUM HYDRIDES
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Loading RightsChemical Engineering Science, ISSN 0009-2509, 2007, Volume 62, Issue 13, pp. 3346 - 3377
Multi-scale spatio-temporal structures, the dominant feature for all complex systems, are identified and discussed as a common challenge and frontier in...
Turbulence | Emulsion | Energy dissipation | Multi-scale method | Complex system | Gas-liquid flow | Granular flow | Compromise | Entropy production | Particle-fluid flow | Stability condition | multi-scale method | REGIME TRANSITIONS | LIQUID FLOW | entropy production | granular flow | MODEL | turbulence | complex system | MOLECULAR-DYNAMICS SIMULATION | FOAM DRAINAGE | stability condition | ENGINEERING, CHEMICAL | energy dissipation | emulsion | gas-liquid flow | GAS-SOLID FLOW | FLUIDIZED-BED | DISCRETE PARTICLE SIMULATION | NUMERICAL-SIMULATION | compromise | BUBBLE COALESCENCE | particle-fluid flow | Production engineering | Analysis | Methods
Turbulence | Emulsion | Energy dissipation | Multi-scale method | Complex system | Gas-liquid flow | Granular flow | Compromise | Entropy production | Particle-fluid flow | Stability condition | multi-scale method | REGIME TRANSITIONS | LIQUID FLOW | entropy production | granular flow | MODEL | turbulence | complex system | MOLECULAR-DYNAMICS SIMULATION | FOAM DRAINAGE | stability condition | ENGINEERING, CHEMICAL | energy dissipation | emulsion | gas-liquid flow | GAS-SOLID FLOW | FLUIDIZED-BED | DISCRETE PARTICLE SIMULATION | NUMERICAL-SIMULATION | compromise | BUBBLE COALESCENCE | particle-fluid flow | Production engineering | Analysis | Methods
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