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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 00$aFluid transport$b[electronic resource] $etheory, dynamics and applications /$fEmma T. Berg, editor
210   $aNew York $cNova Science Publishers$dc2011
215   $a1 online resource (281 p.)
225 0 $aEngineering tools, techniques and tables
225 0 $aPhysics research and technology series
300   $aDescription based upon print version of record.
311   $a1-61122-317-2 
320   $aIncludes bibliographical references and index.
327   $a""FLUID TRANSPORT: THEORY, DYNAMICS AND APPLICATIONS ""; ""FLUID TRANSPORT: THEORY, DYNAMICS AND APPLICATIONS ""; ""CONTENTS""; ""PREFACE ""; ""FLUIDODYNAMICS CHARACTERISTICS OF A VERTICAL GAS-SOLID AND LIQUID-SOLID FLOW ""; ""ABSTRACT ""; ""1. INTRODUCTION ""; ""2. THEORETICAL BACKGROUND ""; ""2.1. Background of Hydrodynamic Models ""; ""2.2. A Study of the Models Parameters ""; ""2.2.1. Fluid-particle interphase drag coefficient ""; ""2.2.2. Fluid-wall and particle-wall friction ""; ""3. TRANSPORT MODELING ""; ""3.1. Fluidodinamics Model of Vertical Two-Phase Flow ""
327   $a""3.1.1. Loading ratio of flow """"4. APPLYING THE MODEL ""; ""4.1. Model Calculations ""; ""4.2. Applying the Model to Determination of Solids Wall Friction Coefficient ""; ""4.3. Fluidodynamics Characteristics of a Vertical Gas-Solid Flow ""; ""4.3.1. Flow regimes in vertical gasa???solids flow ""; ""4.3.2. Model and model parameters ""; ""4.3.3. Applying the model to predict the basic fluidodynamics parameters of the vertical gas-solids flow ""; ""4.3.3.1. Prediction solids flowrate in the transport tube ""; ""4.3.3.2. Prediction of the pressure gradient in the transport tube ""
327   $a""4.3.3.3. Indirect determination of solids-wall friction coefficient """"4.4. Fluidodynamics Characteristics of a Vertical Liquid-Solid Flow ""; ""4.4.1. Flow regimes in vertical liquida???solids flow ""; ""4.4.2. Model and model parameters ""; ""4.4.3. Applying the model to predict the basic fluidodynamics parameters of the vertical liquid -solids flow ""; ""4.4.3.1. Prediction solids flowrate in the transport tube ""; ""4.4.3.2. Prediction pressure gradient in the transport tube ""; ""4.4.3.3. Indirect determination of solids-wall friction coefficient ""
327   $a""4.5. Comparison of a Vertical Gas-Solid and Liquid-Solid Flow""""CONCLUSION ""; ""NOMENCLATURE ""; ""Greek Letters ""; ""ACKNOWLEDGMENTS ""; ""REFERENCES ""; ""NUMERICAL SIMULATION ON FLOWS  PAST POROUS BLUFF BODIES ""; ""ABSTRACT ""; ""1. INTRODUCTION ""; ""2. NUMERICAL METHOD ""; ""2.1. Governing Equations ""; ""2.2. Numerical Techniques for Fluid-Porous Interface ""; ""2.3. Grid Independent Study and Validations ""; ""3. RESULTS AND DISCUSSION ""; ""3.1. Flow Pattern ""; ""3.2. Occurrence of Recirculating Wake ""; ""3.3. Geometrical Parameters of Recirculating Wake ""; ""CONCLUSION ""
327   $a""REFERENCES """"FLUID FLOW AND HEAT TRANSPORT: THEORY, NUMERICAL MODELING AND APPLICATIONS FOR THE FORMATION OF MINERAL DEPOSITS ""; ""SUMMARY ""; ""1. THEORY""; ""1.1. Physical Processes""; ""1.1.1. Heat transport ""; ""1. Heat conduction ""; ""2. Heat convection ""; ""3. Thermal radiation ""; ""1.1.2. Fluid flow and driving forces""; ""1. Topography""; ""2. Buoyancy  ""; ""3. Tectonic deformation ""; ""4. Sediment compaction ""; ""1.2. Governing Equations ""; ""1.2.1. The equation of fluid motion ""; ""1.2.2. The Equation of fluid mass ""
327   $a""1.2.3. The equation of thermal energy conservation ""
410  0$aEngineering Tools, Techniques and Tables
606   $aFluid dynamics
606   $aTransport theory
608   $aElectronic books.
615  0$aFluid dynamics.
615  0$aTransport theory.
676   $a532
701   $aBerg$b Emma T$0991654
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910452956203321
996   $aFluid transport$92269565
997   $aUNINA