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G-type shells in shell-and-tube heat exchangers:
Gaddis, E S,
Galerkin method, for heat conduction finite-element calculations,
Galileo number,
Gas-liquid flows:
applications of one-dimensional equations,
critical two-phase flow,
drag reduction in
Introduction
It's an article
Drag Reduction in Multiphase Flow
It's an article
in annular mist flows,
Drag Reduction in Multiphase Flow
It's an article
effect on flow pattern in horizontal gas-liquid flows,
in horizontal gas-liquid flows,
in slug flow,
in stratified gas-liquid flow,
in vertical gas-liquid flows,
surfactant systems for,
flow patterns in,
hydrodynamics of specific flow regimes (horizontal),
hydrodynamics of specific flow regimes (vertical),
in microchannels,
in plate heat exchangers,
Gas-liquid-solid interfaces, fouling at,
Gas-solid interfaces, fouling at,
Gas tungsten arc welding,
Gaseous fuels, properties of,
Gases:
Gaskets:
Gauss-Seidel method, for solution of implicit equations,
Geometric optics models for radiative heat transfer from surfaces,
geothermal brines, fouling of heat exchangers by,
Germany, Federal Republic of, mechanical design of heat exchangers in:
Gersten, K,
Girth flanges, in shell-and-tube heat exchangers,
Glass production, furnaces and kilns for,
Glycerol (glycerine):
Gn (heat generation number),
Gnielinski, V
Gnielinski correlation, for heat transfer in tube banks,
Gomez-Thodas method, for vapour pressure,
Goodness factor, as a basis for comparison of plate fin heat exchanger surfaces,
Goody narrow band model for gas radiation properties,
Gorenflo correlation, for nucleate boiling,
Gowenlock, R,
Graetz number:
Granular products, moving, heat transfer to,
Graphite, density of,
Grashof number
Gravitational acceleration, effect in pool boiling,
Gravity conveyor:
Gregorig effect in enhancement of condensation,
Grid baffles:
Grid selection, for finite difference method,
Griffin, J M,
Groeneveld correlation for postdryout heat transfer,
Groeneveld and Delorme correlation for postdryout heat transfer,
Gross plastic deformation
Group contribution parameters tables,
Guerrieri and Talty correlations for forced convective heat transfer in two-phase flow,
Gungor and Winterton correlation, for forced convective boiling,
Gylys, J,
H
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J
K
L
M
N
O
P
Q
R
S
T
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V
W
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Y
Z
Z
Y
X
W
V
U
T
S
R
Q
P
O
N
M
L
K
J
I
H
Gylys, J,
Gungor and Winterton
correlation, for forced
convective boiling,
Guerrieri and Talty
correlations for forced
convective heat
transfer in two-phase
flow,
Group contribution
parameters tables,
Gross plastic
deformation
Groeneveld and
Delorme correlation
for postdryout heat
transfer,
Groeneveld
correlation for
postdryout heat
transfer,
Griffin, J M,
Grid selection, for
finite difference
method,
Grid baffles:
Gregorig effect in
enhancement of
condensation,
Gravity conveyor:
Gravitational
acceleration, effect in
pool boiling,
Grashof number
Graphite, density of,
Granular products,
moving, heat transfer
to,
Graetz number:
Gowenlock, R,
Gorenflo correlation,
for nucleate boiling,
Goody narrow band
model for gas
radiation properties,
Goodness factor, as a
basis for comparison
of plate fin heat
exchanger surfaces,
Gomez-Thodas
method, for vapour
pressure,
Gnielinski correlation,
for heat transfer in
tube banks,
Gnielinski, V
Gn (heat generation
number),
Glycerol (glycerine):
Glass production,
furnaces and kilns for,
Girth flanges, in
shell-and-tube heat
exchangers,
Gersten, K,
Germany, Federal
Republic of,
mechanical design of
heat exchangers in:
geothermal brines,
fouling of heat
exchangers by,
Geometric optics
models for radiative
heat transfer from
surfaces,
Gauss-Seidel method,
for solution of implicit
equations,
Gaskets:
Gases:
Gaseous fuels,
properties of,
Gas tungsten arc
welding,
Gas-solid interfaces,
fouling at,
Gas-liquid-solid
interfaces, fouling at,
in plate heat
exchangers,
in microchannels,
hydrodynamics of
specific flow regimes
(vertical),
hydrodynamics of
specific flow regimes
(horizontal),
flow patterns in,
surfactant systems
for,
in vertical gas-liquid
flows,
in stratified gas-liquid
flow,
in slug flow,
in horizontal gas-liquid
flows,
effect on flow pattern
in horizontal gas-liquid
flows,
Drag Reduction in
Multiphase Flow
in annular mist flows,
Drag Reduction in
Multiphase Flow
Introduction
drag reduction in
critical two-phase
flow,
applications of
one-dimensional
equations,
Gas-liquid flows:
Galileo number,
Galerkin method, for
heat conduction
finite-element
calculations,
Gaddis, E S,
G-type shells in
shell-and-tube heat
exchangers:
G
F
E
D
C
B
A
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Drag Reduction in Multiphase Flow
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