Request a Trial or Demo
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
Content Map
HEDH
A
B
C
D
E
F
G
H
I
J
K
L
M
McNaught, J M,
Macdonald equation, for fixed-bed pressure drop,
Mach number,
Macleod-Sugden method for surface tension
Macrolayer consumption model for critical heat flux in pool boiling,
Maddox, R N
Magnetic fields, effect on properties of rheologically complex materials,
Magnetic devices, for fouling mitigation,
Magnetohydrodynamcs, inaugmentation of heat transfer in microfluidic systems,
Margarine manufacture, crystallization of edible oils and fats in, scraped surface heat exchangers for,
Marlotherm, heat transfer media,
Martensitic stainless steels,
Martin, H
Martinelli and Boelter equations for combined free and forced convection,
Martinelli and Nelson correlations:
Mass absorption coefficient,
Mass extinction coefficient,
Mass fraction, in multicomponent mixtures,
Mass scattering coefficient,
Mass transfer:
Mass transfer coefficient:
Materials of construction, for heat exchangers,
Low temperature operation, ASME VIII code guidelines for,
Matovosian, Robert,
Matrix inversion techniques, in radiative heat transfer,
Maximum drag reduction
Maximum velocities (in shell-and-tube heat exchangers)
Maxwell model, for non-Newtonian fluid,
Maxwell-Stefan equations, for multicomponent diffusion,
Maxwell's equations, for electromagnetic radiation,
Mean beam length concept, in radiative heat transfer:
Mean phase content,
Mean temperature difference:
Measurement of fouling resistance,
Mechanical design of heat exchangers:
Mechanical draft cooling towers,
Mechanical loads, specifications in EN13445,
Mechanical vapour compression cycles in refrigeration,
Mediatherm, heat transfer medium,
Melo, L F,
Melting, thermal conduction in,
Melting point:
Mercury:
Merilo correlation, for critical heat flux in horizontal tubes,
Merkel's equation, in cooling tower design,
Mertz, R,
Metais and Eckert diagrams, for regimes of convection:
Metals:
Metallurgical industry, kilns and furnaces for,
Metastable equilibrium, of vapor and liquid,
Methane:
Methanol:
Methyl acetate:
Methylacetylene:
Methyl acrylate:
Methyl amine
n-Methylaniline:
Methyl benzoate:
2-Methyl-1,3-Butadiene (Isoprene):
2-Methylbutane (isopentane):
Methylbutanoate:
2-Methyl-2-butene:
Methylcyclohexane:
Methylcyclopentane:
Methylethylketone:
Methyl formate:
Metallurgical slag, use of submerged combustion in reprocessing of,
Methyl fluorate:
2-Methylhexane:
Methylisobutylketone:
Methylmercaptan:
1-Methylnaphthalene:
2-Methylnaphthalene:
2-Methylpentane:
3-Methylpentane:
2-Methylpropane (isobutane):
2-Methylpropene:
Methyl propionate:
Methylpropylether:
Methylpropyl ketone:
Methyl salicylate:
Methyl-t-butyl ether:
Microbubbles, for drag reduction,
Microchannels (see also microfluidics)
Micro-fin tubes:
Microfluidics, enhancement of heat transfer in,
Mie scattering, in pulverized coal combustion,
Miller, C J
Miller, E R
Mineral oils, as heat transfer media, physical properties of,
Mineral wool production, submerged combustion systems for,
Minimum fluidization velocity,
Minimum heat flux in pool boiling:
Minimum tubeside velocity, in shell-and-tube heat exchangers,
Minimum velocity for fluidization,
Minimum wetting rate, for binary mixtures,
Mirror-image concept, in radiative heat transfer,
Mirrors, spectral characteristics of reflectance from,
Mishkinis, D,
Mist flow:
Mitigation of fouling,
Mixed convection occurrence in horiozntal circular pipe, Metais and Eckert diagram for,
Mixing (shell-side), in twisted tube heat exchangers,
Mixing length, in turbulent flow,
Mixtures:
Modelling, of fouling:
Models, theory of,
Modulus of elasticity:
aluminum alloys,
carbon and low-alloy steels,
cast iron,
copper and copper alloys,
for heat exchanger construction materials,
high chrome steels,
nickel and nickel alloys,
titanium,
zirconium,
Thermal and vechanical Properties of Heat Exchanger Construction Materials
It's an article
Moffat, R S M,
Molecular gas radiation properties,
Molecular weight:
Mollier chart, for humid air,
Momentum equation:
Monitoring, on line, of fouling,
Monochloroacetic acid:
Monte Carlo methods, in radiative heat transfer,
Moody chart:
Morris, M
Mostinski correlations:
Moving bed, heat transfer to,
Muchowski, E,
Mueller, A C
Muller-Steinhagen, H
Multicomponent mixtures:
Multidimensional systems, heat conduction in,
Multiflux methods, for radiative heat transfer in nonisothermal gases,
Multipass shell-and-tube heat exchangers,
Multiphase fluid flow and pressure drop:
Multiple duties, in plate heat exchangers,
Multiple effect evaporation,
Multiple hairpin heat exchanger,
Multistage flash evaporation (MSF)
Multizone model, for furnaces,
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
Z
Y
X
W
V
U
T
S
R
Q
P
O
N
Multizone model, for
furnaces,
Multistage flash
evaporation (MSF)
Multiple hairpin heat
exchanger,
Multiple effect
evaporation,
Multiple duties, in
plate heat
exchangers,
Multiphase fluid flow
and pressure drop:
Multipass
shell-and-tube heat
exchangers,
Multiflux methods, for
radiative heat transfer
in nonisothermal
gases,
Multidimensional
systems, heat
conduction in,
Multicomponent
mixtures:
Muller-Steinhagen, H
Mueller, A C
Muchowski, E,
Moving bed, heat
transfer to,
Mostinski correlations:
Morris, M
Moody chart:
Monte Carlo methods,
in radiative heat
transfer,
Monochloroacetic
acid:
Monitoring, on line, of
fouling,
Momentum equation:
Mollier chart, for
humid air,
Molecular weight:
Molecular gas
radiation properties,
Moffat, R S M,
Thermal and
vechanical Properties
of Heat Exchanger
Construction Materials
zirconium,
titanium,
nickel and nickel
alloys,
high chrome steels,
for heat exchanger
construction
materials,
copper and copper
alloys,
cast iron,
carbon and low-alloy
steels,
aluminum alloys,
Modulus of elasticity:
Models, theory of,
Modelling, of fouling:
Mixtures:
Mixing length, in
turbulent flow,
Mixing (shell-side), in
twisted tube heat
exchangers,
Mixed convection
occurrence in
horiozntal circular
pipe, Metais and
Eckert diagram for,
Mitigation of fouling,
Mist flow:
Mishkinis, D,
Mirrors, spectral
characteristics of
reflectance from,
Mirror-image concept,
in radiative heat
transfer,
Minimum wetting
rate, for binary
mixtures,
Minimum velocity for
fluidization,
Minimum tubeside
velocity, in
shell-and-tube heat
exchangers,
Minimum heat flux in
pool boiling:
Minimum fluidization
velocity,
Mineral wool
production,
submerged
combustion systems
for,
Mineral oils, as heat
transfer media,
physical properties of,
Miller, E R
Miller, C J
Mie scattering, in
pulverized coal
combustion,
Microfluidics,
enhancement of heat
transfer in,
Micro-fin tubes:
Microchannels (see
also microfluidics)
Microbubbles, for
drag reduction,
Methyl-t-butyl ether:
Methyl salicylate:
Methylpropyl ketone:
Methylpropylether:
Methyl propionate:
2-Methylpropene:
2-Methylpropane
(isobutane):
3-Methylpentane:
2-Methylpentane:
2-Methylnaphthalene:
1-Methylnaphthalene:
Methylmercaptan:
Methylisobutylketone:
2-Methylhexane:
Methyl fluorate:
Metallurgical slag, use
of submerged
combustion in
reprocessing of,
Methyl formate:
Methylethylketone:
Methylcyclopentane:
Methylcyclohexane:
2-Methyl-2-butene:
Methylbutanoate:
2-Methylbutane
(isopentane):
2-Methyl-1,3-Butadiene
(Isoprene):
Methyl benzoate:
n-Methylaniline:
Methyl amine
Methyl acrylate:
Methylacetylene:
Methyl acetate:
Methanol:
Methane:
Metastable
equilibrium, of vapor
and liquid,
Metallurgical industry,
kilns and furnaces for,
Metals:
Metais and Eckert
diagrams, for regimes
of convection:
Mertz, R,
Merkel's equation, in
cooling tower design,
Merilo correlation, for
critical heat flux in
horizontal tubes,
Mercury:
Melting point:
Melting, thermal
conduction in,
Melo, L F,
Mediatherm, heat
transfer medium,
Mechanical vapour
compression cycles in
refrigeration,
Mechanical loads,
specifications in
EN13445,
Mechanical draft
cooling towers,
Mechanical design of
heat exchangers:
Measurement of
fouling resistance,
Mean temperature
difference:
Mean phase content,
Mean beam length
concept, in radiative
heat transfer:
Maxwell's equations,
for electromagnetic
radiation,
Maxwell-Stefan
equations, for
multicomponent
diffusion,
Maxwell model, for
non-Newtonian fluid,
Maximum velocities
(in shell-and-tube heat
exchangers)
Maximum drag
reduction
Matrix inversion
techniques, in
radiative heat
transfer,
Matovosian, Robert,
Low temperature
operation, ASME VIII
code guidelines for,
Materials of
construction, for heat
exchangers,
Mass transfer
coefficient:
Mass transfer:
Mass scattering
coefficient,
Mass fraction, in
multicomponent
mixtures,
Mass extinction
coefficient,
Mass absorption
coefficient,
Martinelli and Nelson
correlations:
Martinelli and Boelter
equations for
combined free and
forced convection,
Martin, H
Martensitic stainless
steels,
Marlotherm, heat
transfer media,
Margarine
manufacture,
crystallization of
edible oils and fats in,
scraped surface heat
exchangers for,
Magnetohydrodynamcs,
inaugmentation of
heat transfer in
microfluidic systems,
Magnetic devices, for
fouling mitigation,
Magnetic fields, effect
on properties of
rheologically complex
materials,
Maddox, R N
Macrolayer
consumption model
for critical heat flux in
pool boiling,
Macleod-Sugden
method for surface
tension
Mach number,
Macdonald equation,
for fixed-bed pressure
drop,
McNaught, J M,
M
L
K
J
I
H
G
F
E
D
C
B
A
HEDH
Popular Articles
Thermal and Mechanical Properties of Heat Exchanger Construction Materials
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