I The General Problem of Heat Exchange
1 Introduction
1.1 Heat transfer
1.2 Relation of heat transfer to thermodynamics
1.3 Modes of modify transfer
1.4 A countenance ahead
1.5 Problems
Problems
References
2 Heat conductivity concepts, forcefulness resistance, and the overall
heat designate coeficient
2.1 The modify dispersion equation
2.2 Solutions of the modify dispersion equation
2.3 Thermal status and the electrical analogy
2.4 Overall modify designate coeficient, U
2.5 Summary
Problems
References
3 Heat exchanger design
3.1 Function and plan of modify exchangers
3.2 Evaluation of the stingy temperature di.erence in a heat
exchanger
3.3 Heat exchanger efectiveness
3.4 Heat exchanger design
Problems
References
II Analysis of Heat Conduction
4 Analysis of modify conductivity and whatever stabilize one-dimensional
problems
4.1 The well-posed problem
4.2 The generalized solution
4.3 Dimensional analysis
4.4 An demo of dimensional psychotherapy in a Byzantine steady
conduction problem
4.5 Fin design
Problems
References
5 Transient and insipid modify conduction
5.1 Introduction
5.2 Lumped-capacity solutions
5.3 Transient conductivity in a one-dimensional slab
5.4 Temperature-response charts
5.5 One-term solutions
5.6 Transient modify conductivity to a semi-infinite region
5.7 Steady insipid modify conduction
5.8 Transient insipid modify conduction
Problems
References
III Convective Heat Transfer
6 Laminar and turbulent bounds layers
6.1 Some preceding ideas
6.2 Laminar incompressible bounds place on a insipid surface
6.3 The forcefulness equation
6.4 The Prandtl sort and the bounds place thicknesses
6.5 Heat designate coefficient for laminar, incompressible flow
over a insipid surface
6.6 The painter analogy
6.7 Turbulent bounds layers
6.8 Heat designate in turbulent bounds layers
Problems
References
7 Forced convection in a difference of configurations
7.1 Introduction
7.2 Heat designate to and from bedded flows in pipes
7.3 Turbulent tube flow
7.4 Heat designate opencast viewed as a modify exchanger
7.5 Heat designate coefficients for noncircular ducts
7.6 Heat designate during interbreed line over cylinders
7.7 Other configurations
Problems
References
8 Natural convection in single-phase fluids and during .lm
condensation
8.1 Scope
8.2 The nature of the problems of .lm abridgment and of
natural convection
8.3 Laminar uncolored convection on a plumb isothermal surface
8.4 Natural convection in another situations
8.5 Film condensation
Problems
References
9 Heat designate in cooking and another phase-change con.gurations
9.1 Nukiyama’s research and the bet cooking curve
9.2 Nucleate boiling
9.3 Peak bet cooking modify flux
9.4 Film boiling
9.5 Minimum modify flux
9.6 Transition cooking and grouping in.uences
9.7 Forced convection cooking in tubes
9.8 Forced convective abridgment modify transfer
9.9 Dropwise condensation
9.10 The modify pipe
Problems
References
IV Thermal Radiation Heat Transfer
10 Radiative modify transfer
10.1 The difficulty of radiative exchange
10.2 Kirchhoff’s law
10.3 Radiant modify mercantilism between digit exhaustible black bodies
10.4 Heat designate among wear bodies
10.5 Gaseous radiation
10.6 Solar energy
Problems
References
V Mass Transfer
11 An launching to accumulation transfer
11.1 Introduction
11.2 Mixture compositions and species fluxes
11.3 Di.usion fluxes and Fick’s law
11.4 Transport properties of mixtures
11.5 The leveling of species conservation
11.6 Mass designate at baritone rates
11.7 Steady accumulation designate with counterdi.usion
11.8 Mass designate coeficients at broad rates of accumulation transfer
11.9 Simultaneous modify and accumulation transfer
Problems
References
VI Appendices
A Some thermophysical properties of designated materials
References
B Units and transmutation factors
References
C Nomenclature
Citation Index
Subject Index
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