TY - BOOK ID - 137573139 TI - CFD Based Researches and Applications for Fluid Machinery and Fluid Device AU - Kim, Jin-Hyuk AU - Kim, Sung-Min AU - Choi, Minsuk AU - Tan, Lei AU - Huang, Bin AU - Pei, Ji PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - centrifugal fan KW - noise characteristics KW - power consumption KW - negative pressure KW - sound pressure KW - mechanical seal KW - dynamic characteristics KW - extrusion fault KW - numerical simulation KW - sealing performance KW - fluent KW - inducer KW - step casing KW - varying pitch KW - cavitating flow and instabilities KW - partial similarity principle KW - flow similarity KW - stability improvement KW - multi-condition optimization KW - cavitation performance KW - artificial neural networks (ANN) KW - net positive suction head (NPSH) KW - double suction KW - cascade KW - aerodynamic KW - parameterization KW - plane cascade design KW - incidence angle KW - PSO-MVFSA KW - optimization KW - two-vane pump KW - Computational Fluid Dynamics (CFD) KW - Reynolds-averaged Navier-Stokes (RANS) KW - machine learning KW - energy recovery KW - pump as turbine KW - vortex KW - hydraulic losses KW - pressure fluctuation KW - transient characteristics KW - centrifugal pump KW - startup period KW - solar air heater KW - ribs KW - Nusselt number KW - friction factor KW - Reynolds-averaged Navier–Stokes equations KW - thrust coefficient KW - power coefficient KW - figure of merit KW - frozen rotor KW - UAV KW - octorotor SUAV KW - aerodynamic performance KW - rotor spacing KW - hover KW - CFD KW - vortices distribution KW - shape optimization KW - Francis turbine KW - fixed flow passage KW - flow uniformity KW - blade outlet angle KW - Sirocco fan KW - URANS KW - volute tongue radius KW - internal flow KW - noise KW - film cooling KW - large eddy simulation KW - triple holes KW - blowing ratio KW - adiabatic film-cooling effectiveness KW - proper orthogonal decomposition KW - axial compressor KW - tip clearance KW - flow field KW - clearance KW - flow function KW - gas turbine KW - leakage KW - pressure ratio KW - stepped labyrinth seal KW - axial-flow pump KW - root clearance radius KW - computational fluid dynamics KW - entropy production KW - energy dissipation KW - vortex pump KW - lateral cavity KW - open-design KW - spiral flow KW - reactor coolant pump (RCP) KW - waviness KW - leakage rate KW - liquid film KW - axial fan KW - reversible KW - jet KW - design KW - thrust KW - energy characteristics KW - mixing KW - pitched blade turbine KW - impeller KW - inverse design method KW - matching optimization KW - diffuser KW - small hydropower KW - tubular turbine KW - fish farm KW - performance test KW - design factors KW - optimum model KW - the mixed free-surface-pressurized flow KW - characteristic implicit method KW - relative roughness KW - vent holes KW - optimization control KW - microchannel heat sink KW - wavy microchannel KW - groove KW - heat transfer performance KW - laminar flow KW - multi-objective optimization KW - LHS KW - full factorial methods KW - pump-turbine KW - dynamic stress KW - start-up process KW - vortex generator (VG) KW - computational fluid dynamics (CFD) KW - cell-set model KW - RANS KW - LES KW - multistage centrifugal pump KW - double-suction impeller KW - twin-volute KW - inducer-type guide vane KW - trailing edge flap (TEF) KW - trailing edge flap with Micro-Tab KW - deflection angle of the flap (αF) KW - n/a KW - Reynolds-averaged Navier-Stokes equations UR - https://www.unicat.be/uniCat?func=search&query=sysid:137573139 AB - The 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. ER -