Transport phenomena fundamentals / author, Joel L. Plawsky.

engineering bookfair2015

Includes bibliographical references and index.

Front Cover; Dedication; Contents; Preface; Acknowledgments; Author; Part I Transport Fundamentals and 1- D Systems ; Chapter 1 Introductory Concepts; Chapter 2 Flows, Gradients, and Transport Properties; Chapter 3 Transport Properties of Materials; Chapter 4 1-D, Steady-State, Diffusive Transport; Chapter 5 Generation; Chapter 6 Accumulation; Chapter 7 Conservative Transport and Waves; Chapter 8 Transport Enhancement Using Extended Surfaces; Part II Multidimensional, Convective, and Radiative Transport ; Chapter 9 Multidimensional Effects, Potential Functions, and Fields. Chapter 10 Convective Transport: Microscopic BalancesChapter 11 Macroscopic or Engineering Balances; Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers); Chapter 13 Convective Transport: Systems with Curvature; Chapter 14 Turbulent Boundary Layers; Chapter 15 Radiative Transport; Nomenclature; Appendix A: Vector Mathematics; Appendix B: Mathematical Functions; Appendix C: First Eigenvaluefor 1-D Transient Conduction with External Convection; Appendix D: Exact Solution to the Boundary Layer Equations; Appendix E: Blackbody Emission Functions. Appendix F: Thermodynamic and Transport Properties of MaterialsAppendix G: Comsol® Modules; Back Cover.

Part I Transport Fundamentals and 1-D SystemsIntroductory ConceptsIntroductionScope of Transport PhenomenaPreliminary AssumptionsEquilibrium FoundationsDefining EquilibriumFluid StaticsBuoyancy and StabilityFluids in Rigid Body MotionProblemsReferencesFlows, Gradients, and Transport PropertiesIntroductionMomentum Transport: Newton's Law of ViscosityEnergy Transport: Fourier's Law of Heat ConductionMass Transport: Fick's Law of DiffusionCharge Transport: Ohm's Law of ConductionDriving Force: Resistance ConceptsFlux Laws in Two and Three DimensionsMechanistic Differences between the Transport Ph.