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by C. Ranganayakulu, Kankanhalli N. Seetharamu
Compact Heat Exchangers
Cover
Title Page
Preface
Series Preface
1 Basic Heat Transfer
1.1 Importance of Heat Transfer
1.2 Heat Transfer Modes
1.3 Laws of Heat Transfer
1.4 Steady‐State Heat Conduction
1.5 Transient Heat Conduction Analysis
1.6 Heat Convection
1.7 Radiation
1.8 Boiling Heat Transfer
1.9 Condensation
Nomenclature
References
2 Compact Heat Exchangers
2.1 Introduction
2.2 Motivation for Heat Transfer Enhancement
2.3 Comparison of Shell and Tube Heat Exchanger
2.4 Classification of Heat Exchangers
2.5 Heat Transfer Surfaces
2.6 Heat Exchanger Analysis
2.7 Plate‐Fin Heat Exchanger
2.8 Finned‐Tube Heat Exchanger
2.9 Plate‐Fin Exchangers Operating Limits
2.10 Plate‐Fin Exchangers – Monitoring and Maintenance
Nomenclature
References
3 Fundamentals of Finite Element and Finite Volume Methods
3.1 Introduction
3.2 Finite Element Method
3.3 Finite Volume Method
Nomenclature
References
4 Finite Element Analysis of Compact Heat Exchangers
4.1 Introduction
4.2 Finite Element Discretization
4.3 Governing Equations
4.4 Finite Element Formulation
4.5 Longitudinal Wall Heat Conduction Effects
4.6 Inlet Flow Non‐Uniformity Effects
4.7 Inlet Temperature Non‐Uniformity Effects
4.8 Combined Effects of Longitudinal Heat Conduction, Inlet Flow Non‐Uniformity and Temperature Non‐Uniformity
4.9 FEM Analysis of Micro Compact Heat Exchangers
4.10 Influence of Heat Conduction from Horizontal Tube in Pool Boiling
4.11 Closure
Nomenclature
References
5 Generation of Design Data – Finite Volume Analysis
5.1 Introduction
5.2 Plate Fin Heat Exchanger
5.3 Heat Transfer Surfaces
5.4 Performance Characteristic Curves
5.5 CFD Analysis
5.6 CFD Approach
5.7 Numerical Simulation
5.8 Closure
Nomenclature
References
6 Thermal and Mechanical Design of Compact Heat Exchanger
6.1 Introduction
6.2 Basic Concepts and Initial Size Assessment
6.3 Overall Conductance
6.4 Pressure Drop Analysis
6.5 Two‐Phase Heat Transfer
6.6 Useful Relations for Surface and Core Geometry
6.7 Core Design (Mechanical Design)
6.8 Procedure for Sizing a Heat Exchanger
6.9 Design Procedure of a Typical Compact Heat Exchanger
6.10 Worked Examples
Nomenclature
References
7 Manufacturing and Qualification Testing of Compact Heat Exchangers
7.1 Construction of Brazed Plate‐Fin Heat Exchanger
7.2 Construction of Diffusion‐Bonded Plate‐Fin Heat Exchanger
7.3 Brazing
7.4 Influence of Brazing on Heat Transfer and Pressure Drop
7.5 Testing and Qualification of Compact Heat Exchangers
References
Appendices
A.1 Derivation of Fourier Series Mathematical Equation
A.2 Molar, Gas and Critical Properties
A.3 Thermo‐Physical Properties of Gases at Atmospheric Pressure
A.4 Properties of Solid Materials
A.5 Thermo‐Physical Properties of Saturated Fluids
A.6 Thermo‐Physical Properties of Saturated Water
A.7 Solar Radiative Properties of Selected Materials
A.8 Thermo‐Physical Properties of Fluids
References
Index
End User License Agreement
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Index
a
Acceleration test
Advection
Area goodness factor
Axi‐symmetric
b
Baffle plate
Biot number
Blackbody
Brazing cycle
Boiling heat transfer coefficient
Boundary layer thickness
Buoyancy driven convection
Burst pressure test
c
Cap sheets
Co‐current flow
Coffin‐Manson equation
Colburn
j
factor
Condensation
Conduction
Conduction effect factor
Convection
Creep effect
Counter flow heat exchanger
Critical Reynolds number
Cross flow plate fin heat exchanger
Cross flow tube fin heat exchanger
d
Diffusion bonding
Dirichlet condition
Drop wise condensation
e
Effectiveness‐NTU method
Effectiveness parameter
Electromagnetic waves
Emissivity
Endurance life
Entrance effects
Evaporator tube
Exit effects
f
Fanning friction factor
Fatigue Life
Film condensation
Fin efficiency
Fin height
Finite difference method
Finite element method
Finite volume method
Fin minimum thickness
Finned‐tube heat exchanger
Flow boiling
Flow non‐uniformity
Flow non‐uniformity effect factor
Fluxing
Forced convection
Fouling resistance
Fourier series
Fourier’s law
Free convection
Freeze and thaw
Fungus test
g
Galerkin method
Geometric isotropy
Global stiffness matrix
Gravity pressure drop
Gun fire vibration test
h
Headers
Heat capacity
Heat capacity ratio
Humidity test
Hydrodynamic boundary layer
Hydraulic diameter
i
Irradiation
Isotropic
k
κ–ε model
l
Laminar flow
Larson‐Miller parameter
Local Nusselt number
Logarithmic mean temperature difference (LMTD)
Longitudinal conduction parameter
Longitudinal heat conduction
Louvered‐fin
Lumped heat capacity
m
Maximum slope method
Mean temperature
Micro compact heat exchangers
Mixed convection
n
Navier‐Stokes equation
Neuber’s hyperbola
Neumann condition
Newton’s law of cooling
Nucleate boiling heat transfer coefficient
Number of transfer units (NTU)
Nusselt number
o
Offset strip fin (OSF)
Opaque
p
Parallel flow heat exchanger
Parting sheets
Peclet number
Pin‐fin
Pool boiling
Porosity
Prandtl number
Pressure cycling test
Proof pressure test
q
Qualification test
r
Radiation
Rectangular perforated fin
Rectangular plain fins
Reynolds number
Reynolds number factor
s
Salt fog test
Shape functions
Sherwood number
Shock test
Simple tensile stress
Single‐phase heat transfer coefficient
Soldering
Stanton number
Stefan‐Boltzmann law
Stress ratio
Strip‐fin or offset fin
Surface effectiveness
Super alloys
Super plastic forming
Suppression factor
t
Temperature non‐uniformity
Thermal diffusivity
Thermal performance correction factor
Thermal shock
Thermal stress
Transverse spacing
Triangular perforated fin
Triangular plain fin
Tube‐fin heat exchangers
Turbulence models
Turbulent flow
u
Unbalanced flow
v
Vacuum brazing
Variational integral
Vibration test
Volume goodness factor
Vortex generator
w
Wall resistance
Wavy fin
Worked example
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