LEADER 07697nam 2202401z- 450 001 9910557380703321 005 20231214132949.0 035 $a(CKB)5400000000042092 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68915 035 $a(EXLCZ)995400000000042092 100 $a20202105d2020 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aAdvances in Hydraulics and Hydroinformatics Volume 2 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020 215 $a1 electronic resource (320 p.) 311 $a3-03936-126-0 311 $a3-03936-127-9 330 $aThis 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. 606 $aHistory of engineering & technology$2bicssc 610 $achute aerator 610 $aspillway bottom 610 $aair concentration 610 $aair bubble frequency 610 $aair bubble chord length 610 $aevolution of precipitation 610 $amodel simulation 610 $ainformation entropy theory 610 $adesert?oasis areas 610 $aTarim Basin 610 $agravity wave model 610 $adam-break flood 610 $aimage processing technology 610 $aexperimental study 610 $acavitation bubble 610 $ahigh-speed photography 610 $aimpact pressure 610 $amicro-jet 610 $aNingxia?Inner Mongolia 610 $aYellow River 610 $ariverbank collapse 610 $aBSTEM model 610 $aflood & 610 $adry season 610 $asediment transport 610 $afinite crest length weir 610 $aFGP (flaring gate pier) 610 $adischarge coefficient 610 $asubcritical flow 610 $ariver flow modeling 610 $asediment transport simulation 610 $aautomation of flow modeling 610 $aHEC-RAS controller 610 $apython scripting 610 $athree-dimensional aerator 610 $amulti-horizontal-submerged jets 610 $aenergy dissipation 610 $anear-field vibration 610 $afluctuating pressure 610 $agate-opening modes 610 $acollapse near a wall 610 $adouble cavitation bubble 610 $atilt distribution cavitation 610 $aparallel cavitation 610 $apseudopotential lattice Boltzmann model 610 $anumerical simulation 610 $apooled stepped spillway 610 $apool weir 610 $aflow property 610 $asurface-piercing propeller 610 $aartificial ventilation 610 $ahydrodynamic performance 610 $aLES-VOF method 610 $aflow-induced vibration 610 $aplane gate 610 $anumerical analysis 610 $abridge scour 610 $asubmerged flow 610 $aphysical hydraulic modeling 610 $aski-jump flow 610 $aspillway outlet 610 $ajet trajectory 610 $aexperimental model 610 $arainfall intensity distribution 610 $atwo water jets 610 $acollision in air 610 $aGaussian distribution 610 $atrajectory line 610 $aclogging 610 $adrip irrigation 610 $aflushing 610 $aparticle size distribution 610 $asediments 610 $asubmerged jets 610 $aaerated flow 610 $aplunge pool 610 $atrapezoidal cross-section 610 $aU-shaped channel 610 $aradius-to-width ratio 610 $aslope coefficient 610 $ahydraulic characteristics 610 $ahydraulic jump 610 $aFroude number 610 $astilling basin with shallow-water cushion (SBSWC) 610 $alarge eddy simulation 610 $abest depth 610 $aCFD?DEM coupling 610 $ahydrocyclone 610 $aparticle shape 610 $aparticle size 610 $awater and sediment separation 610 $astepped dropshaft 610 $aflow region 610 $acentral angle of step 610 $afree surface measurement 610 $aoptical motion capturing 610 $atank test 610 $awave gauge 610 $asloshing 610 $aoffset jet 610 $apotential core 610 $adecay rate 610 $ak-? model 610 $aabutment 610 $aovertopping flow 610 $apressure flow 610 $ascour and velocity field 610 $aY-shaped confluence channel 610 $anon-submerged rigid vegetation 610 $alongitudinal velocity 610 $asecondary flow 610 $aturbulent kinetic energy 610 $awetland 610 $alattice Boltzmann method 610 $ashallow lake 610 $adrag force 610 $awater-saving irrigation development level 610 $aSichuan province 610 $aTOPSIS method 610 $aexperiment 610 $aparticle image velocimetry 610 $a3D confined wall jet 610 $amean flow 610 $amultiple bubble collapse 610 $apressure wave energy 610 $aenergy conversion rate 610 $aconsistent particle method 610 $asolitary wave 610 $asubmerged breakwater 610 $abreaking wave 610 $avortex 610 $afree surface flow 610 $aembankment weir 610 $abridge piers 610 $aturbulence 610 $aCFD 610 $asediment 610 $atransforming mechanism 610 $aopen channel bend 610 $avelocity distribution 610 $aPIV 610 $ahyporheic exchange 610 $asurface?groundwater flow process 610 $ainfluencing factors 610 $aorthogonal tests 610 $asensitivity analysis 610 $alinearly moved irrigation system 610 $aapplication depth 610 $amoving speed 610 $auniformity coefficient 610 $atidal discharge 610 $aphase difference 610 $atidal channel junction 610 $aflow division 610 $afluvial acoustic tomography 610 $awavelet analysis 610 $aDEM 610 $ahydrodynamic modelling 610 $ariver bathymetry 610 $afloods 610 $aBathy-supp 610 $acoherent vortex structure 610 $abackward-facing step 610 $asynchronized PIV 610 $aseparation and reattachment 610 $afree shear layer 610 $avortical evolution 615 7$aHistory of engineering & technology 700 $aZhou$b Jianguo$4edt$01303449 702 $aZhang$b Jianmin$4edt 702 $aPeng$b Yong$4edt 702 $aBorthwick$b Alistair$4edt 702 $aZhou$b Jianguo$4oth 702 $aZhang$b Jianmin$4oth 702 $aPeng$b Yong$4oth 702 $aBorthwick$b Alistair$4oth 906 $aBOOK 912 $a9910557380703321 996 $aAdvances in Hydraulics and Hydroinformatics Volume 2$93027059 997 $aUNINA