Fundamentals of Convective Heat Transfer
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Fundamentals of Convective Heat Transfer
Biswas, Gautam; Dhir, Vijay K.; Dalal, Amaresh
Taylor & Francis Ltd
07/2019
330
Dura
Inglês
9781138103290
15 a 20 dias
754
Descrição não disponível.
Preliminary Concepts and Basic Equations. External Flows, Intermnal Flows. Solution of Navier-Stokes and Energy Equations for Incompressible Internal Flows. Turbulent Flow and Heat Transfer. Free Convections. Condensation. Boiling. Mass Transfer
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Free Convection Heat Transfer Coefficient;Forced Convection Boundary Layers;energy equation;Plate Fin Heat Exchangers;Reynolds transport theorem;Boundary Layer Zone;numerical treatment;Condensate Film Thickness;convective heat transfer;Vapor Production Rate;Vapor Film Thickness;Divergence Free Velocity Field;Wall Superheat;Nucleate Boiling;Bubble Height;Heat Flux;Simple Procedure;Taylor Wavelength;Transition Boiling;Laminar Film Condensation;Contravariant Velocity Components;Kind Boundary Conditions;Minimum Heat Flux;Mac Method;Wall Heat Flux;Thermal Boundary Layer;Maximum Heat Flux;Condensing Surface Area
Preliminary Concepts and Basic Equations. External Flows, Intermnal Flows. Solution of Navier-Stokes and Energy Equations for Incompressible Internal Flows. Turbulent Flow and Heat Transfer. Free Convections. Condensation. Boiling. Mass Transfer
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Free Convection Heat Transfer Coefficient;Forced Convection Boundary Layers;energy equation;Plate Fin Heat Exchangers;Reynolds transport theorem;Boundary Layer Zone;numerical treatment;Condensate Film Thickness;convective heat transfer;Vapor Production Rate;Vapor Film Thickness;Divergence Free Velocity Field;Wall Superheat;Nucleate Boiling;Bubble Height;Heat Flux;Simple Procedure;Taylor Wavelength;Transition Boiling;Laminar Film Condensation;Contravariant Velocity Components;Kind Boundary Conditions;Minimum Heat Flux;Mac Method;Wall Heat Flux;Thermal Boundary Layer;Maximum Heat Flux;Condensing Surface Area