LEADER 07498nam 2202149z- 450 001 9910557785803321 005 20231214133149.0 035 $a(CKB)5400000000045530 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76752 035 $a(EXLCZ)995400000000045530 100 $a20202201d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aCFD Based Researches and Applications for Fluid Machinery and Fluid Device 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 electronic resource (539 p.) 311 $a3-0365-1816-9 311 $a3-0365-1815-0 330 $aThe demand for computational fluid dynamics (CFD)-based numerical techniques is increasing rapidly with the development of the computing power system. These advanced CFD techniques are applicable to various issues in the industrial engineering fields and especially contribute to the design of fluid machinery and fluid devices, which have very complicated unsteady flow phenomena and physics. In other words, to aid the rapid development of CFD techniques, the performances of fluid machinery and fluid devices with complicated unsteady flows have been enhanced significantly. In addition, many persistently troublesome problems of fluid machinery and fluid devices such as flow instability, rotor?stator interaction, surging, cavitation, vibration, and noise are solved clearly using advanced CFD techniques.This Special Issue on ?CFD-Based Research and Applications for Fluid Machinery and Fluid Devices? aims to present recent novel research trends based on advanced CFD techniques for fluid machinery and fluid devices. The following topics, among others, are included in this issue:- CFD techniques and applications in fluid machinery and fluid devices;- Unsteady and transient phenomena in fluid machinery and fluid devices;- Pumps, fans, compressors, hydraulic turbines, pump turbines, valves, etc. 606 $aTechnology: general issues$2bicssc 610 $acentrifugal fan 610 $anoise characteristics 610 $apower consumption 610 $anegative pressure 610 $asound pressure 610 $amechanical seal 610 $adynamic characteristics 610 $aextrusion fault 610 $anumerical simulation 610 $asealing performance 610 $afluent 610 $ainducer 610 $astep casing 610 $avarying pitch 610 $acavitating flow and instabilities 610 $apartial similarity principle 610 $aflow similarity 610 $astability improvement 610 $amulti-condition optimization 610 $acavitation performance 610 $aartificial neural networks (ANN) 610 $anet positive suction head (NPSH) 610 $adouble suction 610 $acascade 610 $aaerodynamic 610 $aparameterization 610 $aplane cascade design 610 $aincidence angle 610 $aPSO-MVFSA 610 $aoptimization 610 $atwo-vane pump 610 $aComputational Fluid Dynamics (CFD) 610 $aReynolds-averaged Navier-Stokes (RANS) 610 $amachine learning 610 $aenergy recovery 610 $apump as turbine 610 $avortex 610 $ahydraulic losses 610 $apressure fluctuation 610 $atransient characteristics 610 $acentrifugal pump 610 $astartup period 610 $asolar air heater 610 $aribs 610 $aNusselt number 610 $afriction factor 610 $aReynolds-averaged Navier-Stokes equations 610 $athrust coefficient 610 $apower coefficient 610 $afigure of merit 610 $afrozen rotor 610 $aUAV 610 $aoctorotor SUAV 610 $aaerodynamic performance 610 $arotor spacing 610 $ahover 610 $aCFD 610 $avortices distribution 610 $ashape optimization 610 $aFrancis turbine 610 $afixed flow passage 610 $aflow uniformity 610 $ablade outlet angle 610 $aSirocco fan 610 $aURANS 610 $avolute tongue radius 610 $ainternal flow 610 $anoise 610 $afilm cooling 610 $alarge eddy simulation 610 $atriple holes 610 $ablowing ratio 610 $aadiabatic film-cooling effectiveness 610 $aproper orthogonal decomposition 610 $aaxial compressor 610 $atip clearance 610 $aflow field 610 $aclearance 610 $aflow function 610 $agas turbine 610 $aleakage 610 $apressure ratio 610 $astepped labyrinth seal 610 $aaxial-flow pump 610 $aroot clearance radius 610 $acomputational fluid dynamics 610 $aentropy production 610 $aenergy dissipation 610 $avortex pump 610 $alateral cavity 610 $aopen-design 610 $aspiral flow 610 $areactor coolant pump (RCP) 610 $awaviness 610 $aleakage rate 610 $aliquid film 610 $aaxial fan 610 $areversible 610 $ajet 610 $adesign 610 $athrust 610 $aenergy characteristics 610 $amixing 610 $apitched blade turbine 610 $aimpeller 610 $ainverse design method 610 $amatching optimization 610 $adiffuser 610 $asmall hydropower 610 $atubular turbine 610 $afish farm 610 $aperformance test 610 $adesign factors 610 $aoptimum model 610 $athe mixed free-surface-pressurized flow 610 $acharacteristic implicit method 610 $arelative roughness 610 $avent holes 610 $aoptimization control 610 $amicrochannel heat sink 610 $awavy microchannel 610 $agroove 610 $aheat transfer performance 610 $alaminar flow 610 $amulti-objective optimization 610 $aLHS 610 $afull factorial methods 610 $apump-turbine 610 $adynamic stress 610 $astart-up process 610 $avortex generator (VG) 610 $acomputational fluid dynamics (CFD) 610 $acell-set model 610 $aRANS 610 $aLES 610 $amultistage centrifugal pump 610 $adouble-suction impeller 610 $atwin-volute 610 $ainducer-type guide vane 610 $atrailing edge flap (TEF) 610 $atrailing edge flap with Micro-Tab 610 $adeflection angle of the flap (?F) 615 7$aTechnology: general issues 700 $aKim$b Jin-Hyuk$4edt$01299457 702 $aKim$b Sung-Min$4edt 702 $aChoi$b Minsuk$4edt 702 $aTan$b Lei$4edt 702 $aHuang$b Bin$4edt 702 $aPei$b Ji$4edt 702 $aKim$b Jin-Hyuk$4oth 702 $aKim$b Sung-Min$4oth 702 $aChoi$b Minsuk$4oth 702 $aTan$b Lei$4oth 702 $aHuang$b Bin$4oth 702 $aPei$b Ji$4oth 906 $aBOOK 912 $a9910557785803321 996 $aCFD Based Researches and Applications for Fluid Machinery and Fluid Device$93025188 997 $aUNINA