000 02179nam a22002177a 4500
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020 _a9781259025624
041 _aeng
082 _a621.4022
_bKayC
100 _aKays, W. M.
245 _aConvective Heat And Mass Transfer /
_cW. M. Kays
250 _a4th
260 _aTamilNadu:
_bMcgraw Hill;
_c©2018
300 _a546p.
505 _aContents Chapter 1: Introduction Chapter 2: Conservation Principles Chapter 3: Fluid Stresses and Flux Laws Chapter 4: Differential Equations for the Laminar Boundary Layer Chapter 5: Integral Equations for the Boundary Layer Chapter 6: Differential Equations for the Turbulent Boundary Layer Chapter 7: Laminar Internal Flows: Momentum Transfer Chapter 8: Laminar Internal Flows: Heat Transfer Chapter 9: Laminar External Boundary Layers: Momentum Transfer Chapter 10: Laminar External Boundary Layers: Heat Transfer Chapter 11: Turbulent External Boundary Layers: Momentum Transfer Chatper 12: Tubulent External Boundary Layerss: Heat Transfer Chapter 13: Turbulent Internal Flows: Momentum Transfer Chapter 14: Turbulent Internal Flows: Heat Transfer Chapter 15: Influence of Temperature-Dependent Fluid Properties Chapter 16: ConvectiveHeat Transfer at High Velocities Chapter 17: Convective Heat Transfer with Body Forces Chapter 18: Convective Mass Transfer: Basic Definitions and Formulation of a Simplified Theory Chapter 19: Convective Mass Transfer: Evaluation of the Mass-Transfer Conductance from the Conserved-Property (P) Equation Chapter 20: Convective Mass Transfer: Examples for Application of the Simplified Method
520 _aKey Features Numerous design sections show how analytical techniques are actually used to model heat exchangers, etc. Computer Problems are included in each chapter problem set. About the Book: Convective Heat and Mass Transfer Convective Heat and Mass Transfer presents a strong theoretical basis for the subject, concentrating on boundary layer theory, with special emphasis on laminar and turbulent thermal boundary layers.
700 _aCrawford, Michael
700 _aWeigand, Bernhard
942 _cBK
999 _c3748
_d3748