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Kessler D., Greenkorn R. Momentum, Heat, and Mass Transfer Fundamentals
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Marcel Dekker, Inc., New York, Basel, 1999. XXVIII, 1021 p. — ISBN: 0-8247-1972-7 (alk. paper)."Presents the fundamentals of momentum, heat, and mass transfer from both a microscopic and a macroscopic perspective. Features a large number of idealized and real-world examples that we worked out in detail."EssentialsTypes of derivatives
The Mass BalancesThe macroscopic total mass balance
The macroscopic species mass balance
The microscopic total mass balance (continuity equation)
The microscopic species mass balanceThe Energy BalancesThe macroscopic total energy balance
The macroscopic mechanical energy balance
The macroscopic thermal energy balance
The microscopic total energy balance
The microscopic mechanical energy balance
The microscopic thermal energy balanceThe Momentum BalancesThe Macroscopic Momentum Balance
The Microscopic Momentum Balance
Summary of Balance Equations and Constitutive RelationshipsApplication Of Dimensional AnalysisMomentum Transfer In FluidsTable 6.3-1 Elementary plane flows
Drag Coefficients
Table 6.7.2-1 Properties of pipe
Figure 6.7.2-3 Moody friction factor chartHeat Transfer ModelsTable 7.2.1-1 Components of Fourier Equation
One-dimensional steady-state conduction in rectangular coordinates
One-dimensional steady-state conduction in cylindrical coordinates
One-dimensional steady-state conduction in spherical coordinates
One-dimensional unsteady-state conduction
Semi-infinite slab
Finite slab
Infinite cylinder and sphere
Multi-dimensional unsteady-state conduction
Heat transfer coefficients
Conduction and Convection in Series Heisler charts
Radiation Heat Transfer Models
Reciprocity relation
Summation rule
NTU method for design of heat exchangers
F-factor method for design of heat exchangersMass Transfer ModelsTable 8.2.3-1 Equivalent forms of Fick's Law
Convective Mass Transfer Models
Height of transfer unit models
Design of Mass Transfer Columns
Mass Transfer with Chemical Reaction
Appendix A: Vector And Tensor Operations
Appendix C: Nomenclature
The Mass BalancesThe macroscopic total mass balance
The macroscopic species mass balance
The microscopic total mass balance (continuity equation)
The microscopic species mass balanceThe Energy BalancesThe macroscopic total energy balance
The macroscopic mechanical energy balance
The macroscopic thermal energy balance
The microscopic total energy balance
The microscopic mechanical energy balance
The microscopic thermal energy balanceThe Momentum BalancesThe Macroscopic Momentum Balance
The Microscopic Momentum Balance
Summary of Balance Equations and Constitutive RelationshipsApplication Of Dimensional AnalysisMomentum Transfer In FluidsTable 6.3-1 Elementary plane flows
Drag Coefficients
Table 6.7.2-1 Properties of pipe
Figure 6.7.2-3 Moody friction factor chartHeat Transfer ModelsTable 7.2.1-1 Components of Fourier Equation
One-dimensional steady-state conduction in rectangular coordinates
One-dimensional steady-state conduction in cylindrical coordinates
One-dimensional steady-state conduction in spherical coordinates
One-dimensional unsteady-state conduction
Semi-infinite slab
Finite slab
Infinite cylinder and sphere
Multi-dimensional unsteady-state conduction
Heat transfer coefficients
Conduction and Convection in Series Heisler charts
Radiation Heat Transfer Models
Reciprocity relation
Summation rule
NTU method for design of heat exchangers
F-factor method for design of heat exchangersMass Transfer ModelsTable 8.2.3-1 Equivalent forms of Fick's Law
Convective Mass Transfer Models
Height of transfer unit models
Design of Mass Transfer Columns
Mass Transfer with Chemical Reaction
Appendix A: Vector And Tensor Operations
Appendix C: Nomenclature
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