Advances in Hydraulics and Hydroinformatics Volume 2
This Special Issue reports on recent research trends in hydraulics, hydrodynamics, and hydroinformatics, and their novel applications in practical engineering. The Issue covers a wide range of topics, including open channel flows, sediment transport dynamics, two-phase flows, flow-induced vibration...
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Physical Description: | 1 electronic resource (320 p.) |
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Zhou, Jianguo edt Advances in Hydraulics and Hydroinformatics Volume 2 Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (320 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star This Special Issue reports on recent research trends in hydraulics, hydrodynamics, and hydroinformatics, and their novel applications in practical engineering. The Issue covers a wide range of topics, including open channel flows, sediment transport dynamics, two-phase flows, flow-induced vibration and water quality. The collected papers provide insight into new developments in physical, mathematical, and numerical modelling of important problems in hydraulics and hydroinformatics, and include demonstrations of the application of such models in water resources engineering. English History of engineering & technology bicssc chute aerator spillway bottom air concentration air bubble frequency air bubble chord length evolution of precipitation model simulation information entropy theory desert–oasis areas Tarim Basin gravity wave model dam-break flood image processing technology experimental study cavitation bubble high-speed photography impact pressure micro-jet Ningxia–Inner Mongolia Yellow River riverbank collapse BSTEM model flood & dry season sediment transport finite crest length weir FGP (flaring gate pier) discharge coefficient subcritical flow river flow modeling sediment transport simulation automation of flow modeling HEC-RAS controller python scripting three-dimensional aerator multi-horizontal-submerged jets energy dissipation near-field vibration fluctuating pressure gate-opening modes collapse near a wall double cavitation bubble tilt distribution cavitation parallel cavitation pseudopotential lattice Boltzmann model numerical simulation pooled stepped spillway pool weir flow property surface-piercing propeller artificial ventilation hydrodynamic performance LES-VOF method flow-induced vibration plane gate numerical analysis bridge scour submerged flow physical hydraulic modeling ski-jump flow spillway outlet jet trajectory experimental model rainfall intensity distribution two water jets collision in air Gaussian distribution trajectory line clogging drip irrigation flushing particle size distribution sediments submerged jets aerated flow plunge pool trapezoidal cross-section U-shaped channel radius-to-width ratio slope coefficient hydraulic characteristics hydraulic jump Froude number stilling basin with shallow-water cushion (SBSWC) large eddy simulation best depth CFD–DEM coupling hydrocyclone particle shape particle size water and sediment separation stepped dropshaft flow region central angle of step free surface measurement optical motion capturing tank test wave gauge sloshing offset jet potential core decay rate k-ε model abutment overtopping flow pressure flow scour and velocity field Y-shaped confluence channel non-submerged rigid vegetation longitudinal velocity secondary flow turbulent kinetic energy wetland lattice Boltzmann method shallow lake drag force water-saving irrigation development level Sichuan province TOPSIS method experiment particle image velocimetry 3D confined wall jet mean flow multiple bubble collapse pressure wave energy energy conversion rate consistent particle method solitary wave submerged breakwater breaking wave vortex free surface flow embankment weir bridge piers turbulence CFD sediment transforming mechanism open channel bend velocity distribution PIV hyporheic exchange surface−groundwater flow process influencing factors orthogonal tests sensitivity analysis linearly moved irrigation system application depth moving speed uniformity coefficient tidal discharge phase difference tidal channel junction flow division fluvial acoustic tomography wavelet analysis DEM hydrodynamic modelling river bathymetry floods Bathy-supp coherent vortex structure backward-facing step synchronized PIV separation and reattachment free shear layer vortical evolution 3-03936-126-0 3-03936-127-9 Zhang, Jianmin edt Peng, Yong edt Borthwick, Alistair edt Zhou, Jianguo oth Zhang, Jianmin oth Peng, Yong oth Borthwick, Alistair oth |
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English |
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Zhang, Jianmin Peng, Yong Borthwick, Alistair Zhou, Jianguo Zhang, Jianmin Peng, Yong Borthwick, Alistair |
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Zhang, Jianmin Peng, Yong Borthwick, Alistair Zhou, Jianguo Zhang, Jianmin Peng, Yong Borthwick, Alistair |
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HerausgeberIn HerausgeberIn HerausgeberIn Sonstige Sonstige Sonstige Sonstige |
title |
Advances in Hydraulics and Hydroinformatics Volume 2 |
spellingShingle |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_full |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_fullStr |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_full_unstemmed |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_auth |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_new |
Advances in Hydraulics and Hydroinformatics Volume 2 |
title_sort |
advances in hydraulics and hydroinformatics volume 2 |
publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
publishDate |
2020 |
physical |
1 electronic resource (320 p.) |
isbn |
3-03936-126-0 3-03936-127-9 |
illustrated |
Not Illustrated |
work_keys_str_mv |
AT zhoujianguo advancesinhydraulicsandhydroinformaticsvolume2 AT zhangjianmin advancesinhydraulicsandhydroinformaticsvolume2 AT pengyong advancesinhydraulicsandhydroinformaticsvolume2 AT borthwickalistair advancesinhydraulicsandhydroinformaticsvolume2 |
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(CKB)5400000000042092 (oapen)https://directory.doabooks.org/handle/20.500.12854/68915 (EXLCZ)995400000000042092 |
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Advances in Hydraulics and Hydroinformatics Volume 2 |
author2_original_writing_str_mv |
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