Listing 1 - 3 of 3 |
Sort by
|
Choose an application
The main focus of this Special Issue of Water is the state-of-the-art and recent research on turbulence and flow–sediment interactions in open-channel flows. Our knowledge of river hydraulics is deepening, thanks to both laboratory/field experiments related to the characteristics of turbulence and their link to erosion, transport, deposition, and local scouring phenomena. Collaboration among engineers, physicists, and other experts is increasing and furnishing new inter-/multidisciplinary perspectives to the research of river hydraulics and fluid mechanics. At the same time, the development of both sophisticated laboratory instrumentation and computing skills is giving rise to excellent experimental–numerical comparative studies. Thus, this Special Issue, with ten papers by researchers from many institutions around the world, aims at offering a modern panoramic view on all the above aspects to the vast audience of river researchers.
Technology: general issues --- wavelet coherency --- Taylor’s frozen turbulence hypothesis --- scale --- hairpin vortex packet --- open channel flow --- bridge pier --- horseshoe vortex --- Physical hydraulic modeling --- quadrant analysis --- Scour and Velocity field --- hydraulics --- turbulent flow --- wall-wake flow --- dunal bedform --- horizontal cylinder --- turbulence structures --- scour --- velocity field --- turbulence --- equilibrium scour depth --- new scaling of scour depth --- ejections --- turbulence interactions --- gravel beds --- sediment transport --- surface and subsurface flows --- river hydrodynamics --- ADCP --- bedforms morphology --- river confluence --- Amazon River --- Yeongsan estuary --- freshwater discharge --- two-layer circulation --- Reynolds stress --- bottom turbulence --- suspended sediment concentration --- sediment kinematics --- entrainment --- disentrainment --- anisotropy --- rigid vegetation --- sediments --- local scouring --- erosion --- transport --- deposition --- open-channel flows --- laboratory experiments
Choose an application
The main focus of this Special Issue of Water is the state-of-the-art and recent research on turbulence and flow–sediment interactions in open-channel flows. Our knowledge of river hydraulics is deepening, thanks to both laboratory/field experiments related to the characteristics of turbulence and their link to erosion, transport, deposition, and local scouring phenomena. Collaboration among engineers, physicists, and other experts is increasing and furnishing new inter-/multidisciplinary perspectives to the research of river hydraulics and fluid mechanics. At the same time, the development of both sophisticated laboratory instrumentation and computing skills is giving rise to excellent experimental–numerical comparative studies. Thus, this Special Issue, with ten papers by researchers from many institutions around the world, aims at offering a modern panoramic view on all the above aspects to the vast audience of river researchers.
wavelet coherency --- Taylor’s frozen turbulence hypothesis --- scale --- hairpin vortex packet --- open channel flow --- bridge pier --- horseshoe vortex --- Physical hydraulic modeling --- quadrant analysis --- Scour and Velocity field --- hydraulics --- turbulent flow --- wall-wake flow --- dunal bedform --- horizontal cylinder --- turbulence structures --- scour --- velocity field --- turbulence --- equilibrium scour depth --- new scaling of scour depth --- ejections --- turbulence interactions --- gravel beds --- sediment transport --- surface and subsurface flows --- river hydrodynamics --- ADCP --- bedforms morphology --- river confluence --- Amazon River --- Yeongsan estuary --- freshwater discharge --- two-layer circulation --- Reynolds stress --- bottom turbulence --- suspended sediment concentration --- sediment kinematics --- entrainment --- disentrainment --- anisotropy --- rigid vegetation --- sediments --- local scouring --- erosion --- transport --- deposition --- open-channel flows --- laboratory experiments
Choose an application
The main focus of this Special Issue of Water is the state-of-the-art and recent research on turbulence and flow–sediment interactions in open-channel flows. Our knowledge of river hydraulics is deepening, thanks to both laboratory/field experiments related to the characteristics of turbulence and their link to erosion, transport, deposition, and local scouring phenomena. Collaboration among engineers, physicists, and other experts is increasing and furnishing new inter-/multidisciplinary perspectives to the research of river hydraulics and fluid mechanics. At the same time, the development of both sophisticated laboratory instrumentation and computing skills is giving rise to excellent experimental–numerical comparative studies. Thus, this Special Issue, with ten papers by researchers from many institutions around the world, aims at offering a modern panoramic view on all the above aspects to the vast audience of river researchers.
Technology: general issues --- wavelet coherency --- Taylor’s frozen turbulence hypothesis --- scale --- hairpin vortex packet --- open channel flow --- bridge pier --- horseshoe vortex --- Physical hydraulic modeling --- quadrant analysis --- Scour and Velocity field --- hydraulics --- turbulent flow --- wall-wake flow --- dunal bedform --- horizontal cylinder --- turbulence structures --- scour --- velocity field --- turbulence --- equilibrium scour depth --- new scaling of scour depth --- ejections --- turbulence interactions --- gravel beds --- sediment transport --- surface and subsurface flows --- river hydrodynamics --- ADCP --- bedforms morphology --- river confluence --- Amazon River --- Yeongsan estuary --- freshwater discharge --- two-layer circulation --- Reynolds stress --- bottom turbulence --- suspended sediment concentration --- sediment kinematics --- entrainment --- disentrainment --- anisotropy --- rigid vegetation --- sediments --- local scouring --- erosion --- transport --- deposition --- open-channel flows --- laboratory experiments
Listing 1 - 3 of 3 |
Sort by
|