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Transport Processes and Unit Operations 
Geankoplis, Christie J. ¤Ó Prentice-Hall
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  • Preface
    Transport Processes: Momentum, Heat, and Mass
    Introduction to Engineering Principles and Units
    Classification of Transport Processes and Separation Processes (Unit Operations)
    SI System of Basic Units Used in This Text and Other Systems
    Methods of Expressing Temperatures and Compositions
    Gas Laws and Vapor Pressure
    Conservation of Mass and Material Balances
    Energy and Heat Units
    Conservation of Energy and Heat Balances
    Numerical Methods for Integration
    Principles of Momentum Transfer and Overall Balances
    Introduction
    Fluid Statics
    General Molecular Transport Equation for Momentum, Heat, and Mass Transfer...
    Viscosity of Fluids
    Types of Fluid Flow and Reynolds Number
    Overall Mass Balance and Continuity Equation
    Overall Energy Balance
    Overall Momentum Balance
    Shell Momentum Balance and Velocity Profile in Laminar Flow
    Design Equations for Laminar and Turbulent Flow in Pipes
    Compressible Flow of Gases
    Principles of Momentum Transfer and Applications
    Flow Past Immersed Objects and Packed and Fluidized Beds
    Measurement of Flow of Fluids
    Pumps and Gas-Moving Equipment
    Agitation and Mixing of Fluids and Power Requirements
    Non-Newtonian Fluids
    Differential Equations of Continuity
    Differential Equations of Momentum Transfer or Motion
    Use of Differential Equations of Continuity and Motion
    Other Methods for Solution of Differential Equations of Motion
    Boundary-Layer Flow and Turbulence
    Dimensional Analysis in Momentum Transfer
    Principles of Steady-State Heat Transfer
    Introduction and Mechanisms of Heat Transfer
    Conduction Heat Transfer
    Conduction Through Solids in Series
    Steady-State Conduction and Shape Factors
    Forced Convection Heat Transfer Inside Pipes
    Heat Transfer Outside Various Geometries in Forced Convection
    Natural Convection Heat Transfer
    Boiling and Condensation
    Heat Exchangers
    Introduction to Radiation Heat Transfer
    Advanced Radiation Heat-Transfer Principles
    Heat Transfer of Non-Newtonian Fluids
    Special Heat-Transfer Coefficients
    Dimensional Analysis in Heat Transfer
    Numerical Methods for Steady-State Conduction in Two Dimensions
    Principles of Unsteady-State Heat Transfer
    Derivation of Basic Equation
    Simplified Case for Systems with Negligible Internal Resistance
    Unsteady-State Heat Conduction in Various Geometries
    Numerical Finite-Difference Methods for Unsteady-State Conduction
    Chilling and Freezing of Food and Biological Materials
    Differential Equation of Energy Change
    Boundary-Layer Flow and Turbulence in Heat Transfer
    Principles of Mass Transfer
    Introduction to Mass Transfer and Diffusion
    Molecular Diffusion in Gases
    Molecular Diffusion in Liquids Molecular Diffusion in Biological Solutions and Gels
    Molecular Diffusion in Solids
    Numerical Methods for Steady-State Molecular Diffusion in Two Dimensions
    Principles of Unsteady-State and Convective Mass Transfer
    Unsteady-State Diffusion
    Convective Mass-Transfer Coefficients
    Mass-Transfer Coefficients for Various Geometries
    Mass Transfer to Suspensions of Small Particles
    Molecular Diffusion Plus Convection and Chemical Reaction
    Diffusion of Gases in Porous Solids and Capillaries
    Numerical Methods for Unsteady-State Molecular Diffusion
    Dimensional Analysis in Mass Transfer
    Boundary-Layer Flow and Turbulence
    Table of Contents provided by Publisher. All Rights Reserved.
  • Geankoplis, Christie J. [Àú]
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