01405nam 2200397Ia 450 99638936020331620200824132245.0(CKB)4940000000094212(EEBO)2240921479(OCoLC)ocm56572943e(OCoLC)56572943(EXLCZ)99494000000009421220040924d1634 uy 0laturbn||||a|bb|Aditus ad logicam[electronic resource] Jn usum eorum qui primò academiam salutant. /Autore Samuele Smith, artium magistro.Editio quinta..Oxoniæ Excudebat Guilielmus Turner, ipsius impensis.1634.[10], 204, [1] pTitle vignette, head-piece, initial.Includes marginal notes.Signature A⁶ marked A⁵, B⁶ marked B⁵.Signatures: first 4 leaves unmarked; A-H¹², I⁸."Cum Priuilegio."Imperfect: final leaf of introduction, and second folded table lacking; cropped, with loss of print.Reproduction of original in: National Library of Wales.eebo-0098LogicEarly works to 1800LogicSmith Samuel1587-1620.1001768EBKEBKBOOK996389360203316Aditus ad logicam2299278UNISA03916nam 2200949z- 450 991063999120332120231214132848.03-0365-6016-5(CKB)5470000001633442(oapen)https://directory.doabooks.org/handle/20.500.12854/95870(EXLCZ)99547000000163344220202301d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierCFD Modelling and Simulation of Water TurbinesBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (214 p.)3-0365-6015-7 The design and development of water turbines requires accurate methods for performance prediction. Numerical methods and modelling are becoming increasingly important tools to achieve better designs and more efficient turbines, reducing the time required in physical model testing. This book is focused on applying numerical simulations and models for water turbines to predict tool their performance. In this Special Issue, the different contributions of this book are classified into three state-of-the-art Topics: discussing the modelling of pump-turbines, the simulation of horizontal and vertical axis turbines for hydrokinetic applications and the modelling of hydropower plants. All the contributions to this book demonstrate the importance of the modelling and simulation of water turbines for hydropower energy. This new generation of models and simulations will play a major role in the global energy transition and energy crisis, and, of course, in the mitigation of climate change.Technology: general issuesbicsscHistory of engineering & technologybicssctip leakage flowtubular turbineclearance disciplinenumerical calculationbiologicalflaphydrodynamic performancestallCFDComputational Fluid Dynamicsvertical axis water turbineoverset meshsliding meshdesign Archimedes screw hydropower plantquick estimation methodArchimedean screwfish safe/friendlymulti-ASGhydropower planthydro power plantsmall/micro/pico/low head hydro power plantcomputational fluid dynamicsvolume of fluidtransition SST k-ω turbulence modelwakefault diagnosticsmodel-based fault detectionfault tolerancefuzzy controlhydrokineticbackwaterinland hydrokineticaxial flow turbinesmultiphase pumpintegrated designSparse Grid methodnumerical analysisflow field characteristicsreversible water turbinesguide vane profile changedraft tube vortex beltpressure pulsationenergy recovery factorpump-turbineentropy productionvorticityenergy lossnumerical simulationTechnology: general issuesHistory of engineering & technologyLain Santiagoedt1307818Lopez Mejia Omar DarioedtLain SantiagoothLopez Mejia Omar DarioothBOOK9910639991203321CFD Modelling and Simulation of Water Turbines3029028UNINA