000 01680nam a22002417a 4500
999 _c2267
_d2267
003 OSt
005 20190628100512.0
008 190621b ||||| |||| 00| 0 eng d
020 _a978-1-25-902562-4
028 _bProf. S. C. Bhaduri
040 _aBSDU
_bEnglish
_cBSDU
082 _a621.4022
_bKAY
100 _aKays, W M
245 _aConvective Heat and Mass Transfer
250 _b4th
260 _aChennai
_bMc Graw Hill Education
_cc2005
300 _a546
504 _aContent Chapters 1.Introduction 2.Conservation Principles 3.Fluid Stresses and Flux Laws 4.Differential Equations for the Laminar Boundary Layer 5.Integral Equations for the Boundary Layer 6.Differential Equations for the Turbulent Boundary Layer 7.Laminar Internal Flows: Momentum Transfer 8.Laminar Internal Flows: Heat Transfer 9.Laminar External Boundary Layers:Momentum Transfer 10. Laminar External Boundary Layers : Heat Transfer 11.Turbulent External Boundary Layers: Momentum Transfer 12.Turbulent External Boundary Layers: Heat Transfer Turbulent Internal Flows: Momentum Transfer 14.Turbulent Internal Flows: Heat Transfer 15.Influence of Temperature-Dependent Fluid Properties 16.Convective Heat Transfer at High Velocities 17.Convective heat Transfer with Body Forces 18.Convective Mass Transfer: basic Definitions and Formulation of a Simplified Theory 19.Convective Mass Transfer: Evaluation of the Mass-Transfer Conductance from the Conserved-Property Equation 20.Convective Mass Transfer;Examples for application of the Simplified method
650 _aElectronics
700 _aCrawford, M E
700 _aWeigand ,Bernhard
942 _2ddc
_cBK