Heat TransferBasic undergraduate heat transfer text for the first heat transfer course. |
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Contents
INTRODUCTION | 1 |
MATERIAL PROPERTIES OF IMPORTANCE | 19 |
STEADY STATE HEAT CONDUCTION | 35 |
Copyright | |
19 other sections not shown
Common terms and phrases
adiabatic surface analogy applied assumed average boundary conditions boundary layer calculations condensation constant convective heat transfer cylinder defined denote diameter dimensionless discussed example FIGURE film finite difference flat plate flat surface fluid element fluid temperature forced convection free convection fully developed function given in Eq gradient heat conduction heat exchanger heat flow heat flux heat loss heat transfer coefficient insulation integral laminar flow liquid momentum nodal node nonsteady Nusselt number overall heat transfer parameters past a flat pipe flow plane Prandtl number pressure Prob problem properties radiation radiosity rate of heat Reynolds analogy Reynolds number shear stress shown in Fig skin friction slab solution steady straight fin surface temperature t₁ temperature difference temperature distribution thermal conductivity tube turbulent flow vapor velocity distribution viscous wall ду дх