Contact Us
Access & Subscription Policy
Privacy Policy
Begell Digital Portal
Open in a new tab.
Heat Exchanger
Design Handbook
Subscription:
Guest
Home
About HEDH Multimedia
Editorial Board
Index
Content Map
HEDH Widgets
My HEDH
Navigation by alphabet
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
Ideal gas:
Ilexan, heat transfer medium,
Illingworth, A,
Imbedded fins,
Immersed bodies:
Immersed tubes, in fluidized beds, heat transfer to,
Immiscible liquids, condensation of vapors producing
Impairment of heat transfer in combined free and forced convection in a vertical pipe,
Imperfectly diffuse surfaces:
Impingement damage in heat exchangers,
Impingement plate:
Impingement protection, in shell-and-tube heat exchangers,
Impinging jets:
Implicit equations, solution of
Inclined enclosures, free convective heat transfer in,
Inclined flow, effect of on heat transfer to cylinders,
Inclined pipes:
Inclined surfaces, free convective heat transfer from,
Inconel, spectral characteristics of reflectance from oxidized surface of,
Induced flow instabilities, in augmentation of heat transfer,
Injection:
Inlet effects in shell-and-tube heat exchangers,
In-line tube banks:
correlations for heat transfer in,
drag coefficients for tubes in,
pressure drop in with finned tubes,
pressure drop in with plain tubes,
Banks of Plain and Finned Tubes
correction factors for small number of tube rows,
Banks of Plain and Finned Tubes
effect of yawing on,
Inorganic compounds, solutions of, as heat transfer media,
Inorganic substances:
Instability, parallel channel, in condensers,
Insulators, thermal conductivity of,
Integral condensation:
Integral finned tubes:
Interaction coefficients in heat exchangers,
Interaction parameters for binary systems, tables,
Interfacial friction, in three-phase (liquid-liquid-gas) stratified flows,
Interfacial resistance, in condensation,
Interfacial roughness, relationships for, in annular gas-liquid flow,
Interfacial shear stress, effect on filmwise condensation, on vertical surface,
Intergrannular corrosion, of
Intermating troughs, as corrugation design in plate heat exchangers,
Intermittent flows:
Internal heat sources, temperature distribution in bodies with,
Internal heat transfer coefficient, use in transient conduction calculations,
Internal reboilers (in distillation columns), characteristics advantages and disadvantages of,
Internally finned tubes:
International codes for pressure vessels,
Interpenetrating continua (as representation of heat exchangers):
Intertube velocity, in tube banks,
Inviscid flow, compressible, with heat addition,
Iodine:
Iodobenzene:
Iodoethane:
Iodomethane:
ISO codes for mechanical design of heat exchangers,
Isobutane:
Isobutanol:
Isobutylamine:
Isobutylformate:
Isobutyric acid:
Isoparaffins:
Isopentane:
Isopentanol:
Isopropanol:
Isopropylacetate:
Isopropylamine:
Isopropylbenzene:
Isopropylcyclohexane:
Isothermal flow, compressible, in ducts,
Isothermal gas, radiation heat transfer to walls from,
Isotropic materials, elastic properties,
Isotropic scattering,
Italy, guide to national practice for heat exchanger mechanical design,
Index
HEDH
A
B
C
D
E
F
G
H
I
Ideal gas:
Ilexan, heat transfer medium,
Illingworth, A,
Imbedded fins,
Immersed bodies:
Immersed tubes, in fluidized beds, heat transfer to,
Immiscible liquids, condensation of vapors producing
Impairment of heat transfer in combined free and forced convection in a vertical pipe,
Imperfectly diffuse surfaces:
Impingement damage in heat exchangers,
Impingement plate:
Impingement protection, in shell-and-tube heat exchangers,
Impinging jets:
Implicit equations, solution of
Inclined enclosures, free convective heat transfer in,
Inclined flow, effect of on heat transfer to cylinders,
Inclined pipes:
Inclined surfaces, free convective heat transfer from,
Inconel, spectral characteristics of reflectance from oxidized surface of,
Induced flow instabilities, in augmentation of heat transfer,
Injection:
Inlet effects in shell-and-tube heat exchangers,
In-line tube banks:
correlations for heat transfer in,
drag coefficients for tubes in,
pressure drop in with finned tubes,
pressure drop in with plain tubes,
Banks of Plain and Finned Tubes
correction factors for small number of tube rows,
Banks of Plain and Finned Tubes
effect of yawing on,
Inorganic compounds, solutions of, as heat transfer media,
Inorganic substances:
Instability, parallel channel, in condensers,
Insulators, thermal conductivity of,
Integral condensation:
Integral finned tubes:
Interaction coefficients in heat exchangers,
Interaction parameters for binary systems, tables,
Interfacial friction, in three-phase (liquid-liquid-gas) stratified flows,
Interfacial resistance, in condensation,
Interfacial roughness, relationships for, in annular gas-liquid flow,
Interfacial shear stress, effect on filmwise condensation, on vertical surface,
Intergrannular corrosion, of
Intermating troughs, as corrugation design in plate heat exchangers,
Intermittent flows:
Internal heat sources, temperature distribution in bodies with,
Internal heat transfer coefficient, use in transient conduction calculations,
Internal reboilers (in distillation columns), characteristics advantages and disadvantages of,
Internally finned tubes:
International codes for pressure vessels,
Interpenetrating continua (as representation of heat exchangers):
Intertube velocity, in tube banks,
Inviscid flow, compressible, with heat addition,
Iodine:
Iodobenzene:
Iodoethane:
Iodomethane:
ISO codes for mechanical design of heat exchangers,
Isobutane:
Isobutanol:
Isobutylamine:
Isobutylformate:
Isobutyric acid:
Isoparaffins:
Isopentane:
Isopentanol:
Isopropanol:
Isopropylacetate:
Isopropylamine:
Isopropylbenzene:
Isopropylcyclohexane:
Isothermal flow, compressible, in ducts,
Isothermal gas, radiation heat transfer to walls from,
Isotropic materials, elastic properties,
Isotropic scattering,
Italy, guide to national practice for heat exchanger mechanical design,
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
Popular Articles
Subscriber Login
Login via your home institution
Login
Add to Citation Manager
Download the citation in the EndNote format
Download the citation in the RefWorks format
Download the citation in the BibTex format