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
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:
Gas-liquid-solid interfaces, fouling at,
Gas-solid interfaces, fouling at,
Gas tungsten arc welding,
Gaseous fuels, properties of,
Gases:
as constituent of multiphase flows,
density of pure,
diffusion coefficients in,
emissivity of,
emissivity of combustion product mixtures of
isothermal, radiative heat transfer in,
nonisothermal, radiative heat transfer in,
radiation properties,
superheated, thermodynamic properties of, tables,
transport properties tables: for low pressure,
viscosity of,
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,
Index
HEDH
A
B
C
D
E
F
G
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:
Gas-liquid-solid interfaces, fouling at,
Gas-solid interfaces, fouling at,
Gas tungsten arc welding,
Gaseous fuels, properties of,
Gases:
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
as constituent of multiphase flows,
density of pure,
diffusion coefficients in,
emissivity of,
emissivity of combustion product mixtures of
isothermal, radiative heat transfer in,
nonisothermal, radiative heat transfer in,
radiation properties,
superheated, thermodynamic properties of, tables,
transport properties tables: for low pressure,
viscosity of,
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,
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Thermodynamic Properties of Superheated Fluids
DOI 10.1615/hedhme.a.000525
5.5.2 Thermodynamic properties of superheated fluids
Clive F. Beaton
The tables in this section provide information on several fluids of industrial importance. In the tables, ρ is density in kg/m3, h is enthalpy in kJ/kg, s is entropy in kJ/(kgK), and cp is specific heat capacity in kJ/kg. The saturation temperature (Ts, in K), when given is in parentheses under the pressure. The following tables are provided:
HYDROCARBONS
ALCOHOLS
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