Fluid transport : theory, dynamics and applications / Emma T. Berg, editor.

Format:

Book

Contributor:

Berg, Emma T.

Series:

Engineering Tools, Techniques and Tables

Engineering tools, techniques and tables

Physics research and technology series

Language:

English

Subjects (All):

Fluid dynamics.

Transport theory.

Physical Description:

1 online resource (281 p.)

Edition:

1st ed.

Place of Publication:

New York : Nova Science Publishers, c2011.

Language Note:

English

Summary:

Applications of microscale and nanoscale thermal and fluid transport phenomena involved in traditional industries and highly specialized fields such as bioengineering, micro-fabricated fluidic systems, microelectronics, aerospace technology, micro heat pipes, and chips cooling, have become especially important since the late 20th century. This book presents topical research data in the study of fluid transport, including vertical two-phase gas-solid and liquid-solid flow in chemical, biochemical and mechanical processes; computational fluid dynamics; measuring diffusion of water protons and specific chemicals encountered in MRI methods; and microscale and nanoscale thermal and fluid transport phenomena. (Imprint: Nova Press)

Contents:

""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 ""

""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 gas�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 ""

""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 liquid�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 ""

""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 ""

""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 ""

""1.2.3. The equation of thermal energy conservation ""

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on print version record.

ISBN:

1-61122-676-7

OCLC:

923657780