Heat TransferBuilding on its tradition of clarity and numerous examples and problem sets, this new edition of Heat Transfer also recognizes the trend toward design and includes the use of computers to assist students in problem solving. |
Contents
Introduction | 1 |
Steadystate conductionMultiple dimensions | 60 |
Unsteadystate conduction | 107 |
Copyright | |
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Common terms and phrases
analysis assume atmospheric blackbody boiling boundary conditions boundary layer Btu/h ft² C₁ Calculate the heat Calculate the heat-transfer compute condensation constant convection heat convection heat transfer cylinder diameter diffusion emissivity energy balance evaluated Example film flat plate fluid free convection Grashof heat conduction heat exchanger heat flow heat flux heat loss heat transfer heat-transfer rate horizontal increments insulated isothermal J₁ J₂ kg/m³ kg/s kW/m² laminar laminar flow length liquid maintained Mass Transfer method nodal equations node Nusselt obtain overall heat-transfer coefficient pipe plane Prandtl number pressure Prob problem properties radiation radiosity relation resistance Reynolds number shape factor shown in Fig solar solution surface temperature T₁ T₂ Table temperature difference temperature distribution thermal conductivity thermal radiation thickness total heat tube vapor W/m² wall temperature wavelength ди ду ᎧᎢ