Tables from appendix of “Material and Energy Balances” (Matthew Liberatore). Copyright © “zyBooks” 2016, 2017, 2018.

Section 10.1 – Unit Conversions
Table 10.1.1: Common unit prefixes.
Table 10.1.2: Common unit conversions.

Section 10.2 – Nomenclature
Table 10.2.1: Nomenclature.

Section 10.3 – Finding data and correlations
Section 10.4 – Periodic table of the elements
Table 10.4.1: Periodic table of the elements.

Section 10.5 – Physical properties
Table 10.5.1: Physical properties for many common components.
Table 10.5.2: Physical properties for many common components 2.
Table 10.5.3: Physical properties for many common components 3.

Section 10.6 – Properties of subcooled liquid water
Table 10.6.1: Subcooled liquid water table 1.
Table 10.6.2: Subcooled liquid water table part 2.

Section 10.7 – Saturated water – temperature table
Table 10.7.1: Saturated water – temperature table 1.
Table 10.7.2: Saturated water – temperature table 2.

Section 10.8 – Saturated water – pressure table
Table 10.8.1: Saturated water – pressure table 1.
Table 10.8.2: Saturated water – pressure table 2.

Section 10.9 – Superheated vapor water/steam table
Table 10.9.1: Superheated vapor (water/stream) table Part 1.
Table 10.9.2: Superheated vapor (water/stream) table Part 2.
Table 10.9.3: Superheated vapor (water/stream) table Part 3.
Table 10.9.4: Superheated vapor (water/stream) table Part 4.

Section 10.10 – Vapor pressure
Table 10.10.1: Vapor Pressure.

Section 10.11 – Heat capacity
Table 10.11.1: Heat capacity data for common components.
Table 10.11.2: Heat capacity data for some components.

Section 10.12 – Heat of solution for three common solutions
Table 10.12.1: Heat of solution.

Section 10.1 – Unit Conversions

Units conversions and prefixes.

Table 10.1.1: Common unit prefixes.
Prefix Abbreviation Conversion Example
Micro μ 1 unit = 1,000,000 μ-unit 1 m = 1,000,000 μm
Milli m 1 unit = 1000 m-unit 1 g = 1000 mg
Centi c 1 unit = 100 c-unit 1 m = 100 cm
Kilo k 1 unit = 0.001 k-unit 1000 g = 1 kg
Table 10.1.2: Common unit conversions.
Type of unit Equivalent values
Mass 1 kg = 2.20462 lbm

1 lbm = 453.593 g
Length 1 m = 3.2808 ft

1 ft = 12 in

1 ft = 30.48 cm
Volume 1 m3 = 1000 L

1 m3= 35.3145 ft3

1 ft3 = 7.4805 gal
Force 1 N = 1 kg·m/s2

1 N = 0.22481 lbf

1 lbf = 32.174 lbm·ft/s2
Pressure 1 Pa = 1 N/m2

1 Pa = 1.4504 X 10-4 lbf/in.2 (psi)

1 atm = 1.01325 x 105 Pa

1 atm = 1.01325 bar

1 atm = 760 mmHg at 0°C

1 atm = 14.696 psi

1 atm = 33.9 ft H2O at 4 °C

1 atm = 29.921 in. Hg at 0 °C
Energy 1 J = 1 N·m

1 J = 1 Pa·m3

1 kJ = 0.94782 BTU

1 kWh = 3600 kJ
Power 1 kJ/kg = 1000 m2/s2

1 W = 1 J/s

1 W = 0.7376 ft·lbf/s

1 W = 9.4782 x 10-4 BTU/s

1 W = 1.341 x 10-3 hp
Temperature T(K) = T(°C) + 273.15

T(R) = T(°F) + 459.67

T(°F) = 1.8T(°C) + 32
Temperature difference 1.8°F/1°C

1.8°R/1K

1°F/1°R

1°C/1K
Time 1 hr = 60 min

1 min = 60 s

Exploring further:

Section 10.2 – Nomenclature

Abbreviations used in this book.

Table 10.2.1: Nomenclature.
Symbol Definition (SI Units)
AP Average property
CP Heat capacity (J/K)
CV Heat capacity (J/K)
EK Kinetic energy (J)
EP Potential energy (J)
fconv,i Fractional conversion of component i (-)
fex,i Fractional excess of component i (-)
g Acceleration due to gravity (m/s2)
H Enthalpy (J)
h Specific enthalpy (J/kg or J/mol)
ha Absolute humidity or moisture content (-)
m Mass (kg)
M Total mass (kg)
Mass flow rate (kg/s)
i,j Component mass flow rate of stream i and component j (kg/s)
i Mass flow rate of stream i (kg/s)
MW Molecular weight (kg/kmol)
n Moles (mol)
N Total moles (mol)
Molar flow rate (mol/s)
i Molar flow rate of stream i (mol/s)
i,j Component molar flow rate of stream i and component j (mol/s)
P Pressure (Pa)
Pabs Absolute pressure (Pa)
Patm Atmospheric pressure (Pa)
Pc Critical pressure (Pa)
Pg Gauge pressure (Pa)
Pi Partial pressure (Pa)
Pr Reduced pressure (-)
PRi Property of component i
Pisat Vapor or saturation pressure (Pa)
Q Heat (J)
R Universal gas constant (J/mol-K)
RH Relative humidity (-)
STP Standard temperature pressure (-)
T Temperature or dry bulb temperature (K)
t Time (s)
Tc Critical temperature (K)
TDEW Dew point temperature (K)
Tr Reduced temperature (-)
Tsat Saturation temperature (K)
TWET Wet bulb temperature (K)
U Internal energy (J)
u Specific internal energy (J/mol)
V Volume (m3)
v Specific volume (m3/mol)
v Velocity (m/s)
Volumetric flow rate (m3/s)
i,j Volumetric flow rate of stream i and component j (m3/s)
i Volumetric flow rate of stream i (m3/s)
Vr Reduced volume (-)
vSTP Specific volume at STP conditions (m3/kmol)
W Work (J)
WFL Flow work (J)
WMB Moving boundary work (J)
WS Shaft work (J)
x Mole fraction or liquid mole fraction (-)
y Mole fraction or vapor mole fraction (-)
z Vertical height (m)
Z Compressibility factor (-)
Δ Difference between two states or properties
Δhf Heat of formation (J/mol)
Δhm Heat of fusion or melting (J/mol)
ΔhMIX Heat of mixing (J/mol)
Δhf° Standard heat of formation (J/mol)
Δhr° Standard heat of reaction (J/mol)
Δhr Heat of reaction (J/mol)
Δhs Heat of solution (J/mol)
Δhv Heat of vaporization (J/mol)
μ Viscosity (Pa-s)
vi Stoichiometric coefficient (-)
ξ Extent of reaction (mol or mol/s)
ρ Density (kg/m3)

Section 10.3 – Finding data and correlations

Data are important for engineering calculations including material and energy balances. These facts and data are adapted from various sources listed below. Use of the data is intended for educational purposes and should be verified from primary sources when completing engineering calculations. These data are not restricted by copyright laws. Therefore, these tables can easily be copied to a spreadsheet for simplifying calculations.

Data has been adapted from various sources including: Elementary principles of chemical processes by Richard M. Felder and Ronald W. Rousseau, John Wiley, 2000; E.W. Lemmon, M.O. McLinden and D.G. Friend, “Thermophysical Properties of Fluid Systems” in NIST Chemistry WebBook, NIST Standard Reference Database Number 69, Eds. P.J. Linstrom and W.G. Mallard, National Institute of Standards and Technology, Gaithersburg MD. Yaws’ Critical Property Data for Chemical Engineers and Chemists on knovel.com; Knovel Critical Tables (2nd Edition).

Exploring further:

A few place to find unit converters, the periodic table, and general engineering data.

  • Knovel unit converter (free): Most units and easily swap from one unit to another.
  • Periodic Table (free): This website offers an extensive look at all of the elements.
  • Knovel: Free access with student membership to AIChE (free for undergraduate students at aiche.org). Lots of digitized books allowing download to spreadsheets with citations included. DIPPR 801 Database is fully searchable and an excellent resources for vapor pressure and heat capacity as functions of temperature.
  • Access Engineering: Free at some universities. Fully searchable Perry’s Handbook and many other references.
  • NIST Chemistry WebBook: Free at this time. Good for steam tables (P, T, v, h, u, s, etc.), properties of many common fluids, phase change energies (e.g., heat of vaporization), vapor pressure/Antoine coefficients, heat capacity information, etc.
  • Engineering Toolbox: Web based data and many correlations/equations of interest.

Section 10.4 – Periodic table of the elements

Atomic masses have been limited to 4 significant figures for simplicity.

Table 10.4.1: Periodic table of the elements.
Element Name Symbol Atomic Number Atomic Mass
Hydrogen H 1 1.008
Helium He 2 4.003
Lithium Li 3 6.941
Beryllium Be 4 9.012
Boron B 5 10.81
Carbon C 6 12.01
Nitrogen N 7 14.01
Oxygen O 8 16.00
Fluorine F 9 19.00
Neon Ne 10 20.18
Sodium Na 11 22.99
Magnesium Mg 12 24.31
Aluminum Al 13 26.98
Silicon Si 14 28.09
Phosphorus P 15 30.97
Sulfur S 16 32.07
Chlorine Cl 17 35.45
Argon Ar 18 39.95
Potassium K 19 39.10
Calcium Ca 20 40.08
Scandium Sc 21 44.96
Titanium Ti 22 47.87
Vanadium V 23 50.94
Chromium Cr 24 52.00
Manganese Mn 25 54.94
Iron Fe 26 55.85
Cobalt Co 27 58.93
Nickel Ni 28 58.69
Copper Cu 29 63.55
Zinc Zn 30 65.41
Gallium Ga 31 69.72
Germanium Ge 32 72.64
Arsenic As 33 74.92
Selenium Se 34 78.96
Bromine Br 35 79.90
Krypton Kr 36 83.80
Rubidium Rb 37 85.47
Strontium Sr 38 87.62
Yttrium Y 39 88.91
Zirconium Zr 40 91.22
Niobium Nb 41 92.91
Molybdenum Mo 42 95.94
Technetium Tc 43 98
Ruthenium Ru 44 101.1
Rhodium Rh 45 102.9
Palladium Pd 46 106.4
Silver Ag 47 107.9
Cadmium Cd 48 112.4
Indium In 49 114.8
Tin Sn 50 118.71
Antimony Sb 51 121.8
Tellurium Te 52 127.6
Iodine I 53 126.9
Xenon Xe 54 131.3
Cesium Cs 55 132.9
Barium Ba 56 137.3
Lanthanum La 57 138.9
Cerium Ce 58 140.1
Praseodymium Pr 59 140.9
Neodymium Nd 60 144.2
Promethium Pm 61 145
Samarium Sm 62 150.4
Europium Eu 63 152.0
Gadolinium Gd 64 157.3
Terbium Tb 65 158.9
Dysprosium Dy 66 162.5
Holmium Ho 67 164.9
Erbium Er 68 167.3
Thulium Tm 69 168.9
Ytterbium Yb 70 173.0
Lutetium Lu 71 175.0
Hafnium Hf 72 178.5
Tantalum Ta 73 180.9
Tungsten W 74 183.8
Rhenium Re 75 186.2
Osmium Os 76 190.2
Iridium Ir 77 192.2
Platinum Pt 78 195.1
Gold Au 79 197.0
Mercury Hg 80 200.6
Thallium Tl 81 204.4
Lead Pb 82 207.2
Bismuth Bi 83 209.0
Polonium Po 84 209
Astatine At 85 210
Radon Rn 86 222
Francium Fr 87 223
Radium Ra 88 226
Actinium Ac 89 227
Thorium Th 90 232.0
Protactinium Pa 91 231.0
Uranium U 92 238.0
Neptunium Np 93 237
Plutonium Pu 94 239
Americium Am 95 243
Curium Cm 96 247
Berkelium Bk 97 247
Californium Cf 98 251
Einsteinium Es 99 252
Fermium Fm 100 257
Mendelevium Md 101 258
Nobelium No 102 259
Lawrencium Lr 103 262
Rutherfordium Rf 104 261
Dubnium Db 105 262
Seaborgium Sg 106 266
Bohrium Bh 107 264
Hassium Hs 108 277
Meitnerium Mt 109 268
Darmstadtium Ds 110 281
Roentgentium Rg 111 272
Copernicum Cn 112 285
Ununtrium Uut 113 284
Flerovium Fl 114 289
Ununpentium Uup 115 288
Livermorium Lv 116 292
Ununseptium Uus 117 293
Ununoctium Uuo 118 294

Section 10.5 – Physical properties

Physical properties are needed to perform many material or energy balance calculations. All properties are at 1 atm unless otherwise noted.

Table 1: Formula, molecular weight, and density (ρ)

Table 2: Melting temperature (Tm), heat of melting (Δhm), vaporization temperature (Tv), heat of vaporization (Δhv), critical temperature (Tc), critical pressure (Pc)

Table 3: Standard heat of formation (Δhfo), phase of formation, standard heat of combustion (Δhco), phase of combustion

The heats of combustion are for products of CO2(g) and H2O(l).

Table 10.5.1: Physical properties for many common components.
Component Formula MW Density
at 25ºC
g/cm3
Acetaldehyde CH3CHO 44.05 0.774
Acetic Acid CH3COOH 60.05 1.043
Acetone C3H6O 58.08 0.786
Acetylene C2H2 26.04 0.377
Ammonia NH3 17.03 .602
Ammonium Hydroxide NH4OH 35.05
Ammonium Nitrate NH4NO3 80.05 1.725
Ammonium Sulfate (NH4)2SO4 132.14 1.769
Aniline C6H7N 93.13 1.018
Benzaldehyde C6H5CHO 106.12 1.04
Benzene C6H6 78.11 0.873
Benzoic Acid C7H6O2 122.12 1.266
Benzyl Alcohol C7H8O 108.13 1.041
Bromine Br2 159.81 3.103
1,2-Butadiene C4H6 54.09 0.646
1,3-Butadiene C4H7 54.09 0.615
n-Butane C4H10 58.12 0.573
Isobutane C4H10 58.12 0.552
1-Butene C4H8 56.11 0.588
Calcium Carbide CaC2 64.1 2.22
Calcium Carbonate CaCO3 100.09 2.71
Calcium Chloride CaCl2 110.98 2.15
Calcium Hydroxide Ca(OH)2 74.1 2.24
Calcium Oxide CaO 56.08 3.34
Calcium Phosphate Ca3(PO4)2 310.18 3.14
Calcium Silicate CaSiO3 116.17 2.915
Calcium Sulfate CaSO4 136.14 2.96
Calcium Sulfate-gypsum CaSO4▪2H2O 172.18 2.32
Carbon C 12.01 2.26
Carbon Dioxide CO2 44.01 0.173
Carbon Disulfide CS2 76.14 1.26
Carbon Monoxide CO 28.01
Carbon Tetrachloride CCl4 153.82 1.58
Chlorine Cl2 70.91 1.40
Chlorobenzene C6H5Cl 112.56 1.10
Chloroform CHCl3 119.38 1.48
Copper Cu 63.55 8.96
Cyclohexane C6H12 84.16 0.773
Cyclopentane C5H10 70.13 0.750
n-Decane C10H22 142.29 0.728
Diethyl Ether (C2H5)2O 74.12 0.708
Ethane C2H6 30.07 0.315
Ethyl Acetate C4H8O2 88.11 0.894
Ethanol C2H5OH 46.07 0.787
Ethyl Benzene C8H10 106.19 0.867
Ethyl Bromide C2H5Br 108.97 1.46
Ethyl Chloride C2H5Cl 64.51 0.890
3-Ethyl Hexane C8H18 114.22 0.717
Ethylene C2H4 28.05 0.568
Ethylene Glycol C2H6O2 62.07 1.113
Ferric Oxide Fe2O3 159.69 5.25
Ferrous Oxide FeO 71.84 6.00
Ferrous Sulfide FeS 87.91 4.70
Formaldehyde H2CO 30.03 0.763
Formic Acid CH2O2 46.03 1.22
Glycerol C3H8O3 92.10 1.26
Helium He 4
n-Heptane C7H16 100.2 0.682
n-Hexane C6H14 86.18 0.656
Hydrogen H2 2.02
Hydrogen Bromide HBr 80.91 1.73
Hydrogen Chloride HCl 36.46 0.80
Hydrogen Cyanide HCN 27.03 20.73
Hydrogen Fluoride HF 20.01 0.941
Hydrogen Sulfide H2S 34.08 0.777
Iodine I2 253.8 4.93
Iron Fe 55.85 7.87
Lead Pb 207.21 11.3
Lead Oxide PbO 223.21 9.35
Magnesium Mg 24.32 1.74
Magnesium Chloride MgCl2 95.21 2.325
Magnesium Hydroxide Mg(OH)2 58.32 2.37
Magnesium Oxide MgO 40.30 3.60
Mercury Hg 200.59 13.53
Methane CH4 16.04 0.423
Methyl Acetate C3H6O2 74.08 0.927
Methanol CH3OH 32.04 0.786
Methyl Amine CH5N 31.06 0.703
Methyl Chloride CH3Cl 50.49 0.913
Methyl Ethyl Ketone C4H8O 72.1 0.799
Naphthalene C10H8 128.16 1.145
Nickel Ni 58.69 8.9
Nitric Acid HNO3 63.02 1.55
Nitrobenzene C6H5O2N 123.11 1.20
Nitrogen N2 28.02
Nitrogen Dioxide NO2 46.01 1.44
Nitric Oxide NO 30.01
Nitrogen Pentoxide N2O5 108.02 2.00
Nitrogen Tetraoxide N2O4 92 1.45
Nitrous Oxide N2O 44.02 0.742
n-Nonane C9H20 128.25 0.715
n-Octane C8H18 114.22 0.699
Oxalic Acid C2H2O4 90.04 1.9
Oxygen O2 32
n-Pentane C5H12 72.15 0.621
Isopentane C5H12 72.15 0.616
1-Pentene C5H10 70.13 0.641
Phenol C6H5OH 94.11 1.05
Phosphoric Acid H3PO4 98 1.834
Phosphorus(white) P4 123.9 1.82
Propane C3H8 44.09 0.493
Propylene C3H6 42.08 0.504
n-Propyl Alcohol C3H7OH 60.09 0.802
Isopropyl Alcohol C3H7OH 60.09 0.783
n-PropylBenzene C9H12 120.19 0.862
Silicon Dioxide SiO2 60.09 2.20
Sodium Bicarbonate NaHCO3 84.01 2.2
Sodium Bisulfate NaHSO4 120.07 2.43
Sodium Carbonate Na2CO3 105.99 2.54
Sodium Chloride NaCl 58.45 2.17
Sodium Cyanide NaCN 49.01 1.60
Sodium Hydroxide NaOH 40 2.13
Sodium Nitrate NaNO3 85 2.257
Sodium Sulfate Na2SO4 142.05 2.698
Sodium Sulfide Na2S 78.05 1.856
Sodium Thiosulfate Na2S2O3 158.11 1.667
Sulfur(rhombic) S8 256.53 2.07
Sulfur(monoclinic) S8 256.53 1.96
Sulfur Dioxide SO2 64.07 1.37
Sulfur Trioxide SO3 80.07 1.92
Sulfuric Acid H2SO4 98.08 1.84
Toluene C7H8 92.13 0.866
Water H2O 18.016 0.977
m-Xylene C8H10 106.16 0.861
o-Xylene C8H10 106.16 0.876
p-Xylene C8H10 106.16 0.858
Zinc Zn 65.38 7.14

Table 10.5.2: Physical properties for many common components 2.
Component Tm
ºC		 Δhm(Tm)
kJ/mol		 Tv
ºC		 Δhv(Tv)
kJ/mol		 Tc
K		 Pc
atm
Acetaldehyde -123.7 2.31 20.4 23.99 466 54.77
Acetic Acid 16.45 11.72 118.2 23.33 594.8 57.1
Acetone -95 5.69 56 30.2 508.2 46.41
Acetylene 3.76 Sublimes
at -83.8 ºC		 11.52 308.3 60.58
Ammonia -76 5.653 -33 23.351 405.5 111.3
Ammonium Hydroxide -79
Ammonium Nitrate 169.6 5.4 Decomposes at 210 ºC
Ammonium Sulfate 513 Decomposes at 513 ºC
Aniline -6.02 10.54 184.2 44.221 699.0 52.4
Benzaldehyde -26 9.32 179 42.13 695 45.89
Benzene 5.53 9.837 80.1 30.765 562.6 48.6
Benzoic Acid 122.2 18.062 249.8 50.625 751 44.12
Benzyl Alcohol -15.4 8.79 205.2 51.66 720.15 44.90
Bromine -7.25 10.573 58.6 29.963 584.0 102
1,2-Butadiene -136.5 6.96 10.85 24.22 452 43.03
1,3-Butadiene -109.1 7.98 -4.41 22.479 425.0 42.7
n-Butane -138.3 4.661 -.05 22.305 425.2 37.47
Isobutane -159.6 4.54 -11.7 21.292 408.1 36
1-Butene -185.3 3.848 -6.3 22.443 419.6 39.7
Calcium Carbide 2300 32
Calcium Carbonate 1339 36 Decomposes at 8825 ºC -1206.9
Calcium Chloride 771.85 28.05 1935.45 235 3620
Calcium Hydroxide -H2O at 580 ºC -H2O at 580 ºC
Calcium Oxide 2570 50 2850
Calcium Phosphate 1670
Calcium Silicate 1530 48.62
Calcium Sulfate 1450 28
Calcium Sulfate-gypsum -1.5 H2O at 128 ºC
Carbon Sublimes at 3825 ºC 4827 355.8 6810 2201
Carbon Dioxide -56.6 9.019 -78 Sublimes 304.2 72.9
Carbon Disulfide -112.1 4.39 46.25 26.8 552 78
Carbon Monoxide -205.1 0.837 -191.5 5.91 133 34.5
Carbon Tetrachloride -22.9 2.65 76.7 30 556.4 45
Chlorine -101 6.406 -34.06 20.4 417 76.1
Chlorobenzene -45 9.556 132.1 35.82 632.4 44.6
Chloroform -63.7 8.8 61 29.875 536 54
Copper 1083 13.01 2562 300.4 5123 6332
Cyclohexane 6.54 2.677 80.7 30.1 553.7 40.4
Cyclopentane -93.4 0.609 49.3 27.3 511.8 44.55
n-Decane -29.9 28.715 173.8 40.017 619 20.8
Diethyl Ether -116.3 7.19 34.6 27.078 467 35.6
Ethane -183.3 2.859 -88.6 14.72 305.4 48.2
Ethyl Acetate -83.8 10.48 77 32.231 523.3
Ethanol -114.6 4.93 78.5 39.4 516.3 60.8
Ethyl Benzene -94.67 9.163 136.2 35.98 619.7 35.62
Ethyl Bromide -119.1 5.858 38.2 27.526 504 61.5
Ethyl Chloride -136.4 4.452 12.27 24.7 460.4 52
3-Ethyl Hexane 118.5 34.27 567 26.4
Ethylene -169.2 3.35 -103.7 13.54 283.1 49.75
Ethylene Glycol -13 9.985 197.2 52.495 720 80.93
Ferric Oxide 1594 138.1
Ferrous Oxide 1376.85 24.058
Ferrous Sulfide 1193 31.5
Formaldehyde -92 7.05 -19.1 23.16 408 65
Formic Acid 8.4 12.68 100.5 21.99 588 57.34
Glycerol 18.2 18.3 290 66.128 850 74.02
Helium -269.7 0.014 -268.9 0.083 5.2 2.26
n-Heptane -90.59 14.03 98.43 31.69 540.2 27
n-Hexane -95.32 13.03 68.74 28.85 507.9 29.9
Hydrogen -259.19 0.117 -252.76 0.904 33.3 12.96
Hydrogen Bromide -86 2.406 -67 18.06 363.15 84.40
Hydrogen Chloride -114.2 1.99 -85 16.36 324.6 81.5
Hydrogen Cyanide -13.92 8.406 26 27.45 456.65 53.21
Hydrogen Fluoride -83 4.58 19.52 7.53 461.15 63.95
Hydrogen Sulfide -85.5 2.38 -60.3 18.67 373.6 88.9
Iodine 113.3 15.52 184.2 41.88 826 115.02
Iron 1535 13.81 2860 340 9340 10017.27
Lead 327.4 4.77 1750 179.9 5400 850.04
Lead Oxide 886 25.5 1472 207 2842.26 231.31
Magnesium 650 8.48 1090 128 2241.04 2765.75
Magnesium Chloride 714 43.1 1418 156.2 2754.32 224.15
Magnesium Hydroxide Decomposes at 350 ºC Decomposes at 350 ºC
Magnesium Oxide 2831.85 77.4 3600 321.62 5950 33.47
Mercury -38.87 2.295 356.69 59.2 1735 1587
Methane -182.5 0.94 -161.5 8.179 190.7 45.8
Methyl Acetate -98.9 7.486 57.1 30.612 506.7 46.88
Methanol -97.9 3.215 64.7 35.27 513.2 79.91
Methyl Amine -92.7 6.134 -6.33 26.11 429.9 73.6
Methyl Chloride -97.9 6.431 -24 21.55 416.1 65.8
Methyl Ethyl Ketone -87.1 8.44 79.64 31.22 535.5 41
Naphthalene 80 19.02 217.8 46.34 784.4 39.97
Nickel 1452 17.48 2900 377.5 6986 4854.18
Nitric Acid -41.6 10.47 83 31.72 520 68
Nitrobenzene 5.76 10.82 210.7 44.08 719 43.42
Nitrogen -210 0.72 -195.8 5.577 126.2 34.15
Nitrogen Dioxide -11.25 14.65 21 24.66 431 100
Nitric Oxide -161 2.301 -151.8 13.53 179.2 63.95
Nitrogen Pentoxide 30 34.64 47 61.77 515.51 63.49
Nitrogen Tetraoxide -11.25 14.65 21.1 38.12 431 100
Nitrous Oxide -91.1 6.54 -88.8 16.38 309.5 71.7
n-Nonane -53.8 15.47 150.6 37.15 595 22.60
n-Octane -57 20.74 125.5 34.77 568.8 24.5
Oxalic Acid 189.5 295.85 72.57 804 69.82
Oxygen -218.75 0.444 -182.97 6.82 154.4 49.7
n-Pentane -129.6 8.393 36.07 25.77 469.8 33.3
Isopentane -160.1 5.16 27.7 24.79 461 33.36
1-Pentene -165.2 5.88 29.97 25.71 464.8 35.13
Phenol 40.91 11.43 181.4 47.31 692.1 60.5
Phosphoric Acid 42.36 13.39 406.85 1030 50.04
Phosphorus(white) 44.2 0.66 280 12.4 994 82.20
Propane -187.69 3.52 -42.07 18.77 369.9 42
Propylene -185.2 3 -47.69 18.42 365.1 45.4
n-Propyl Alcohol -127 5.372 97.04 41.38 536.7 51.07
Isopropyl Alcohol -87.87 5.41 82.24 39.87 508.8 47.02
n-Propyl Benzene -99.5 8.54 159.2 38.24 638.7 31.3
Silicon Dioxide 1710 14.2 2950 5021.49 777.82
Sodium Bicarbonate Decomposes at 270 ºC
Sodium Bisulfate 186
Sodium Carbonate Decomposes at 854 ºC
Sodium Chloride 808 28.16 1465 130.05 3400 350.36
Sodium Cyanide 562 8.79 1497 148.1 2900 234.49
Sodium Hydroxide 322.85 6.6 1556.85 164.84 2820 246.73
Sodium Nitrate 307 15 380 1321
Sodium Sulfate 890 23.6
Sodium Sulfide 950 19.3
Sulfur(rhombic) 113 10.04 444.6 83.7
Sulfur(monoclinic) 119 14.17 444.6 83.7
Sulfur Dioxide -73.15 7.402 -10.02 25.20 430.7 77.8
Sulfur Trioxide 16.84 8.6 44.75 40.71 491.4 81.03
Sulfuric Acid 10.31 10.31 336.85 50.2 924 63.13
Toluene -94.99 6.619 110.62 33.47 593.9 40.3
Water 0 6.0095 100 40.656 647.4 218.3
m-Xylene -47.87 11.569 139.1 36.4 619 34.95
o-Xylene -25.18 13.598 144.42 36.82 631.5 36.83
p-Xylene 13.26 17.11 138.35 36.07 618 34.65
Zinc 419.5 7.32 907 123.6 3170 2866

Table 10.5.3: Physical properties for many common components 3.
Component Δhof
kJ/mol		 Phase of
formation		 Δhoc
kJ/mol		 Δhoc
kJ/mol		 Phase of
combustion
Acetaldehyde -166.2 gas -1104.5 gas
Acetic Acid -486.2 liquid -815.07 liquid
Acetic Acid -438.15 gas -919.73 gas
Acetone -248.2 liquid -1659.16 liquid
Acetone -216.7 gas -1821.4 gas
Acetylene 226.8 gas -1257.07 gas
Ammonia -67.2 liquid
Ammonia -46.2 gas -316.84 gas
Ammonium Hydroxide -366.48 aqueous
Ammonium Nitrate -365.14 solid
Ammonium Nitrate -399.36 aqueous
Ammonium Sulfate -1179.3 solid
Ammonium Sulfate -1173.1 aqueous
Aniline -3250.16 liquid
Benzaldehyde -88.83 liquid -3401.2 liquid
Benzaldehyde -36.79 gas
Benzene 48.66 liquid -3138.76 liquid
Benzene 82.93 gas -3301.5 gas
Benzoic Acid -3171.97 solid
Benzyl Alcohol -3569.9 liquid
Bromine 0 liquid
1,2-Butadiene -2461.87 gas
1,3-Butadiene -2409.57 gas
n-Butane -147 liquid -2855.6 liquid
n-Butane -129.79 gas -2656.43 gas
Isobutane -158.4 liquid -2849 liquid
Isobutane -134.5 gas -2648.23 gas
1-Butene 1.17 gas -2540.9 gas
Calcium Carbide -59.8 solid
Calcium Carbonate
Calcium Cholride -794.96 solid
Calcium Hydroxide -986.59 solid
Calcium Oxide -635.6 solid
Calcium Phosphate -4138 solid
Calcium Silicate -1584 solid
Calcium Sulfate -1432.7 solid
Calcium Sulfate -1450.4 aqueous
Calcium Sulfate-gypsum -2021 solid
Carbon 0 solid -393.51 solid
Carbon Dioxide -412.9 liquid
Carbon Dioxide -393.5 gas
Carbon Disulfide 87.9 liquid -1275.54 liquid
Carbon Disulfide 116.94 gas 1102.6 gas
Carbon Monoxide -110.52 gas -282.99 gas
Carbon Tetrachloride -139.5 liquid –267.88 liquid
Carbon Tetrachloride -95.8 gas -385 gas
Chlorine 0 gas
Chlorobenzene 2980.98 liquid
Chloroform -131.8 liquid -381.75 liquid
Copper 0 solid
Cyclohexane -156.2 liquid -3658.81 liquid
Cyclohexane -123.1 gas -3953 gas
Cyclopentane -105.9 liquid -3072.39 liquid
Cyclopentane -77.2 gas -3319.5 gas
n-Decane -249.7 liquid -6305.81 liquid
n-Decane -6829.7 gas
Diethyl Ether -272.8 liquid -2504.34 liquid
Ethane -83.79 gas -1428.73 gas
Ethyl Acetate -463.2 liquid -2046.67 liquid
Ethyl Acetate -444.49 gas
Ethanol -277.63 liquid -1238.13 liquid
Ethanol -235.31 gas -1409.25 gas
Ethyl Benzene -12.46 liquid -4351.3 liquid
Ethyl Benzene 29.79 gas -4607.1 gas
Ethyl Bromide -54.4 gas -1285.03 liquid
Ethyl Chloride -112.29 gas -1279.32 gas
3-Ethyl Hexane -250.5 liquid -5407.1 liquid
3-Ethyl Hexane -210.9 gas -5509.8 gas
Ethylene 52.28 gas -1323.2 gas
Ethylene Glycol -451.5 liquid -1072.54 liquid
Ethylene Glycol -387.1 gas
Ferric Oxide -822.2 solid
Ferrous Oxide -272.05 solid
Ferrous Sulfide -101.67 solid
Formaldehyde -108.6 gas -526.75 gas
Formic Acid -409.2 liquid -234.76 liquid
Formic Acid -378.6 gas
Glycerol -665.9 liquid -1498.95 liquid
Helium 0 gas
n-Heptane -224.4 liquid -4469.75 liquid
n-Heptane -187.8 gas -4853.5 gas
n-Hexane -198.8 liquid -3857.92 liquid
n-Hexane -167.2 gas -4194.8 gas
Hydrogen 0 gas -241.83 gas
Hydrogen Bromide -36.23 gas
Hydrogen Chloride -92.31 gas
Hydrogen Cyanide 135.14 gas
Hydrogen Fluoride -272.55 gas
Hydrogen Fluoride -316.9 aqueous
Hydrogen Sulfide -20.5 gas -518.17 gas
Iodine 0 solid
Iron 0 solid
Lead 0 solid
Lead Oxide -219.41 solid
Magnesium 0 solid
Magnesium Chloride 641.62 sloid
Magnesium Hydroxide -924.66 solid
Magnesium Oxide -601.8 solid
Mercury 0 solid
Methane -74.85 gas -802.68 gas
Methyl Acetate -409.4 liquid -1463.54 liquid
Methanol -238.6 liquid -641.14 liquid
Methanol -201.2 gas -764 gas
Methyl Amine -22.49 gas -975.6 gas
Methyl Chloride -81.92 gas 674.27 gas
Methyl Ethyl Ketone -2271.58 liquid
Naphthalene -5034.1 solid
Nickel 0 solid
Nitric Acid -173.23 liquid
Nitric Acid -205.57 aqueous
Nitrobenzene -2989.22 liquid
Nitrogen 0 gas
Nitrogen Dioxide 33.1 gas 33.1 gas
Nitric Oxide 90.37 gas 90.29 gas
Nitrogen Pentoxide
Nitrogen Tetraoxide 9.08 gas
Nitrous Oxide 81.5 gas 82.05 gas
n-Nonane -229 liquid -5693.8 liquid
n-Nonane -6171 gas
n-Octane -249.9 liquid -5081.06 liquid
n-Octane -208.4 gas -5512.2 gas
Oxalic Acid -826.8 solid -305.17 gas
Oxygen 0 gas
n-Pentane -173 liquid -3245.79 liquid
n-Pentane -146.4 gas -3536.1 gas
Isopentane -179.3 liquid -3240.09 liquid
Isopentane -153.69 gas -3529.2 gas
1-Pentene -21.29 gas -3129.74 liquid
Phenol -158.1 liquid -2978.8 solid
Phenol -96.39 gas
Phosphoric Acid -1281.1 solid
Phosphoric Acid -1278.6 aqueous,
1 H2O
Propane -119.8 liquid -2204 liquid
Propane -103.8 gas -2043.18 gas
Propylene 19.71 gas -1925.75 gas
n-Propyl Alcohol -300.7 liquid -1851.3 liquid
n-Propyl Alcohol -255.2 gas -2068.6 gas
Isopropyl Alcohol -310.9 liquid -1835.31 liquid
n-Propyl Benzene -38.4 liquid -5218.2 liquid
n-Propyl Benzene 7.82 gas -5264.48 gas
Silicon Dioxide -851 solid
Sodium Bicarbonate -945.6 solid
Sodium Bisulfate -1126.3 solid
Sodium Carbonate -1130.9 solid
Sodium Chloride -411 solid
Sodium Cyanide -87.5 solid
Sodium Hydroxide -426.6 solid
Sodium Hydroxide -469.4 aqueous
Sodium Nitrate -466.7 solid
Sodium Sulfate -1384.5 solid
Sodium Sulfide -366.1 solid
Sodium Thiosulfate -1117.1 solid
Sulfur(rhombic) 0 solid
Sulfur(monoclinic) 0.3 solid
Sulfur Dioxide -296.9 gas
Sulfur Trioxide -395.18 gas
Sulfuric Acid -811.32 liquid
Sulfuric Acid -907.51 aqueous
Toluene 12 liquid -3738.57 liquid
Toluene 50 gas -3947.9 gas
Water -285.84 liquid
Water -241.83 gas
m-Xylene -25.42 liquid -4338.28 liquid
m-Xylene 17.24 gas -4594.5 gas
o-Xylene 24.44 liquid -4339.41 liquid
o-Xylene 18.99 gas -4596.3 gas
p-Xylene 24.43 liquid -4339.49 liquid
p-Xylene 17.95 gas -4595.2 gas
Zinc 0 solid

Section 10.6 – Properties of subcooled liquid water

The properties of subcooled liquid water include: specific volume, specific internal energy, specific enthalpy, and specific entropy. The reference state is uf = 0.00 at 0.01°C and sf = 0.00 at 0.01°C. The table is divided into sections by pressure. The tables are divided into different parts to ease use on a tablet or phone.

Table 1: P = 10 kPa to 1000 kPa

Table 2: P = 2500 kPa to 20000 kPa

Table 10.6.1: Subcooled liquid water table 1.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 10 kPa Tsat = 45.806°C
Sat. 0.0010103 191.80 191.81 0.64920
80
60
40 0.0010079 167.53 167.54 0.57240
20 0.0010018 83.911 83.921 0.29648
10 0.001000 42.020 42.030 0.15109
5 0.001000 21.019 21.029 0.076254
2 0.001000 8.3912 8.4012 0.030608
P = 50 kPa Tsat = 81.317°C
Sat. 0.001030 340.49 340.54 1.0912
80 0.0010291 334.96 335.01 1.0756
60 0.0010171 251.15 251.21 0.83128
40 0.0010079 167.52 167.57 0.57239
20 0.0010018 83.909 83.959 0.29647
10 0.001000 42.019 42.069 0.15108
5 0.001000 21.019 21.069 0.076253
2 0.001000 8.3915 8.4415 0.030609
P = 100 kPa Tsat = 99.606 °C
Sat. 0.0010432 417.40 417.50 1.3028
80 0.001029 334.95 335.05 1.0755
60 0.0010171 251.15 251.25 0.83125
40 0.0010078 167.51 167.62 0.57237
20 0.0010018 83.906 84.006 0.29646
10 0.001000 42.018 42.118 0.15108
5 0.001000 21.019 21.119 0.076252
2 0.001000 8.3920 8.4920 0.03061
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 250 kPa Tsat = 127.41°C
Sat. 0.0010672 535.08 535.34 1.6072
175
150
125 0.0010649 524.82 525.09 1.5815
100 0.0010434 419.02 419.28 1.3071
50 0.001012 209.29 209.55 0.70370
25 0.0010029 104.81 105.06 0.36716
5 0.001000 21.018 21.268 0.07625
P = 500 kPa Tsat= 151.83°C
Sat. 0.0010925 639.54 640.09 1.8604
175
150 0.0010905 631.65 632.19 1.8418
125 0.0010648 524.73 525.26 1.5813
100 0.0010433 418.94 419.47 1.3069
50 0.0010119 209.26 209.76 0.70358
25 0.0010028 104.79 105.29 0.3671
5 0.001000 21.017 21.517 0.076246
P = 1000 kPa Tsat= 179.88°C
Sat. 0.0011272 761.39 762.52 2.1381
175 0.0011206 739.96 741.08 2.0905
150 0.001090 631.41 632.50 1.8412
125 0.0010645 524.54 525.60 1.5808
100 0.001043 418.80 419.84 1.3065
50 0.0010117 209.18 210.19 0.70335
25 0.0010026 104.75 105.75 0.36697
5 0.001000 21.015 22.014 0.076237
Table 10.6.2: Subcooled liquid water table part 2.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 2500 kPa Tsat= 223.95°C
Sat. 0.0011974 958.91 961.91 2.5543
275
250
200 0.0011556 849.76 852.65 2.3290
150 0.0010891 630.71 633.43 1.8395
100 0.0010422 418.36 420.97 1.3053
50 0.001011 208.96 211.49 0.70266
25 0.0010019 104.63 107.14 0.36658
P = 5000 kPa Tsat = 263.94°C
Sat. 0.0012864 1148.2 1154.6 2.9210
275
250 0.001250 1079.5 1085.7 2.7910
200 0.0011531 847.91 853.68 2.3251
150 0.0010875 629.55 834.98 1.8368
100 0.001041 417.64 422.85 1.3034
50 0.001010 208.59 213.64 0.7015
25 0.0010008 104.44 109.45 0.36592
P = 7500 kPa Tsat = 290.54°C
Sat. 0.0013682 1282.7 1292.9 3.1662
275 0.0013134 1200.4 1210.2 3.0174
250 0.0012454 1076.4 1085.7 2.7851
200 0.0011506 846.10 854.73 2.3212
150 0.0010858 628.40 636.54 1.8341
100 0.001040 416.93 424.73 1.3015
50 0.0010088 208.22 215.79 0.70035
25 0.001000 104.25 111.75 0.36526
P = 10000 kPa Tsat = 311.00°C
Sat. 0.0014526 1393.5 1408.1 3.3606
350
300 0.001398 1329.4 1343.3 3.2488
250 0.0012412 1073.4 1085.8 2.7792
200 0.0011482 844.31 855.80 2.3174
100 0.0010385 416.23 426.62 1.2996
50 0.0010078 207.86 217.94 0.6992
25 0.00099854 104.06 114.05 0.3646
P =15000 kPa Tsat= 342.16°C
Sat. 0.001657 1585.3 1610.2 3.6846
350
300 0.0013783 1317.6 1338.3 3.2279
250 0.001233 1067.6 1086.1 2.7680
200 0.0011435 840.84 857.99 2.3100
100 0.0010361 414.85 430.39 1.2958
50 0.0010056 207.15 222.23 0.6969
25 0.00099635 103.69 118.63 0.36325
P = 20000 kPa Tsat = 365.75°C
Sat. 0.002040 1786.4 1827.2 4.0156
350 0.0016649 1612.7 1646.0 3.7290
300 0.0013611 1307.1 1334.4 3.2091
250 0.0012254 1062.2 1086.7 2.7573
200 0.001139 837.49 860.27 2.3027
100 0.0010337 413.50 434.17 1.2920
50 0.0010035 206.44 226.51 0.69461
25 0.00099419 103.32 123.20 0.36187

Section 10.7 – Saturated water – temperature table

Reference state: uf = 0.00 at 0.01°C and sf = 0.00 at 0.01°C.

Table 1: Specific volume (v) and specific internal energy (u)

Table 2: Specific enthalpy (h) and specific entropy (s)

Table 10.7.1: Saturated water – temperature table 1.
Volume Internal Energy
m3/kg kJ/kg
Sat. Sat. Sat. Sat.
Liquid Vapor Liquid Vapor Δu
T, °C Psat, kPa vf vg uf ug ufg
0.01 0.612 0.001000 205.99 0.000 2374.9 2374.9
5 0.873 0.001000 147.01 21.019 2381.8 2360.8
10 1.228 0.001000 106.30 42.020 2388.6 2346.6
15 1.706 0.001001 77.875 62.980 2395.5 2332.5
20 2.339 0.001002 57.757 83.912 2402.3 2318.4
25 3.170 0.001003 43.337 104.83 2409.1 2304.3
30 4.247 0.001004 32.878 125.73 2415.9 2290.2
35 5.629 0.001006 25.205 146.63 2422.7 2276.1
40 7.385 0.001008 19.515 167.53 2429.4 2261.9
45 9.595 0.001010 15.252 188.43 2436.1 2247.7
50 12.352 0.001012 12.027 209.33 2442.7 2233.4
55 15.762 0.001015 9.5643 230.24 2449.3 2219.1
60 19.946 0.001017 7.6672 251.16 2455.9 2204.7
65 25.042 0.001020 6.1935 272.09 2462.4 2190.3
70 31.201 0.001023 5.0395 293.03 2468.9 2175.9
75 38.595 0.001026 4.1289 313.99 2475.2 2161.2
80 47.414 0.001029 3.4052 334.96 2481.6 2146.6
85 57.867 0.001032 2.8258 355.95 2487.8 2131.9
90 70.182 0.001036 2.3591 376.97 2494.0 2117.0
95 84.608 0.001040 1.9806 398.00 2500.0 2102.0
100 101.42 0.001044 1.6718 419.06 2506.0 2086.9
105 120.90 0.001047 1.4184 440.15 2511.9 2071.8
110 143.38 0.001052 1.2093 461.26 2517.7 2056.4
115 169.18 0.001056 1.0358 482.41 2523.3 2040.9
120 198.67 0.001060 0.89121 503.60 2528.9 2025.3
125 232.24 0.001065 0.77003 524.83 2534.3 2009.5
130 270.28 0.001070 0.66800 546.09 2539.5 1993.4
135 313.23 0.001075 0.58173 567.41 2544.7 1977.3
140 361.54 0.001080 0.50845 588.77 2549.6 1960.8
145 415.68 0.001085 0.44596 610.19 2554.4 1944.2
150 476.16 0.001091 0.39245 631.66 2559.1 1927.4
155 543.50 0.001096 0.34646 653.19 2563.5 1910.3
160 618.23 0.001102 0.30678 674.79 2567.8 1893.0
165 700.93 0.001108 0.27243 696.46 2571.9 1875.4
170 792.19 0.001114 0.24259 718.20 2575.7 1857.5
175 892.60 0.001121 0.21658 740.02 2579.4 1839.4
180 1,002.80 0.001127 0.19384 761.92 2582.8 1820.9
185 1,123.50 0.001134 0.17390 783.91 2586.0 1802.1
190 1,255.20 0.001142 0.15636 806.00 2589.0 1783.0
195 1,398.80 0.001149 0.14089 828.18 2591.7 1763.5
200 1,554.90 0.001157 0.12721 850.47 2594.2 1743.7
205 1,724.30 0.001165 0.11508 872.87 2596.4 1723.5
210 1,907.70 0.001173 0.10429 895.39 2598.3 1702.9
215 2,105.80 0.001181 0.094679 918.04 2599.9 1681.9
220 2,319.60 0.001190 0.086092 940.82 2601.2 1660.4
225 2,549.70 0.001199 0.078403 963.74 2602.2 1638.5
230 2,797.10 0.001209 0.071503 986.81 2602.9 1616.1
235 3,062.50 0.001219 0.065298 1010.0 2603.2 1593.2
240 3,346.90 0.001230 0.059705 1033.4 2603.1 1569.7
245 3,651.20 0.001240 0.054654 1057.0 2602.7 1545.7
250 3,976.20 0.001252 0.050083 1080.8 2601.8 1521.0
255 4,322.90 0.001264 0.045938 1104.8 2600.5 1495.7
260 4,692.30 0.001276 0.042173 1129.0 2598.7 1469.7
265 5,085.30 0.001289 0.038746 1153.4 2596.5 1443.1
270 5,503.00 0.001303 0.035621 1178.1 2593.7 1415.6
275 5,946.40 0.001318 0.032766 1203.1 2590.3 1387.2
280 6,416.60 0.001333 0.030153 1228.3 2586.4 1358.1
285 6,914.70 0.001349 0.027756 1253.9 2581.8 1327.9
290 7,441.80 0.001366 0.025555 1279.9 2576.5 1296.6
295 7,999.10 0.001385 0.023529 1306.2 2570.5 1264.3
300 8,587.90 0.001404 0.021660 1332.9 2563.6 1230.7
305 9,209.40 0.001425 0.019933 1360.2 2555.9 1195.7
310 9,865.10 0.001448 0.018335 1387.9 2547.1 1159.2
315 10,556 0.001472 0.016851 1416.3 2537.2 1120.9
320 11,284 0.001499 0.015471 1445.3 2526.0 1080.7
325 12,051 0.001528 0.014183 1475.1 2513.4 1038.3
330 12,858 0.001561 0.012979 1505.8 2499.2 993.4
335 13,707 0.001597 0.011847 1537.6 2483.0 945.4
340 14,601 0.001638 0.010781 1570.6 2464.4 893.8
345 15,541 0.001685 0.009769 1605.3 2443.1 837.8
350 16,529 0.00174 0.008802 1642.1 2418.1 776.0
355 17,570 0.001808 0.007868 1682.0 2388.4 706.4
360 18,666 0.001895 0.006949 1726.3 2351.8 625.5
365 19,821 0.002017 0.006012 1777.8 2303.8 526.0
370 21,044 0.002215 0.004954 1844.1 2230.3 386.2
373.946 22,064 0.003106 0.003106 2015.7 2015.7 0.0
Table 10.7.2: Saturated water – temperature table 2.
Enthalpy Entropy
kJ/kg kJ/kg•K
Sat. Sat. Sat. Sat.
Liquid Vapor Δh Liquid Vapor Δs
T, °C Psat, kPa hf hg hfg sf sg sfg
0.01 0.612 0.001 2500.9 2500.9 0.0000 9.1555 9.1555
5 0.873 21.020 2510.1 2489.1 0.0763 9.0248 8.9485
10 1.228 42.021 2519.2 2477.2 0.1511 8.8998 8.7487
15 1.706 62.981 2528.3 2465.3 0.2245 8.7803 8.5558
20 2.339 83.914 2537.4 2453.5 0.2965 8.6660 8.3695
25 3.170 104.83 2546.5 2441.7 0.3672 8.5566 8.1894
30 4.247 125.73 2555.5 2429.8 0.4368 8.4520 8.0153
35 5.629 146.63 2564.5 2417.9 0.5051 8.3517 7.8466
40 7.385 167.53 2573.5 2406.0 0.5724 8.2555 7.6831
45 9.595 188.43 2582.4 2394.0 0.6386 8.1633 7.5247
50 12.352 209.34 2591.3 2382.0 0.7038 8.0748 7.3710
55 15.762 230.26 2600.1 2369.8 0.7680 7.9898 7.2218
60 19.946 251.18 2608.8 2357.6 0.8313 7.9081 7.0768
65 25.042 272.12 2617.5 2345.4 0.8937 7.8296 6.9360
70 31.201 293.07 2626.1 2333.0 0.9551 7.7540 6.7989
75 38.595 314.03 2634.6 2320.6 1.0158 7.6812 6.6654
80 47.414 335.01 2643.0 2308.0 1.0756 7.6111 6.5355
85 57.867 356.01 2651.3 2295.3 1.1346 7.5434 6.4088
90 70.182 377.04 2659.5 2282.5 1.1929 7.4781 6.2852
95 84.608 398.09 2667.6 2269.5 1.2504 7.4151 6.1647
100 101.42 419.17 2675.6 2256.4 1.3072 7.3541 6.0469
105 120.90 440.27 2683.4 2243.1 1.3633 7.2952 5.9319
110 143.38 461.42 2691.1 2229.7 1.4188 7.2381 5.8193
115 169.18 482.59 2698.6 2216.0 1.4737 7.1828 5.7091
120 198.67 503.81 2705.9 2202.1 1.5279 7.1291 5.6012
125 232.24 525.07 2713.1 2188.0 1.5816 7.0770 5.4954
130 270.28 546.38 2720.1 2173.7 1.6346 7.0264 5.3918
135 313.23 567.74 2726.9 2159.2 1.6872 6.9772 5.2900
140 361.54 589.16 2733.4 2144.2 1.7392 6.9293 5.1901
145 415.68 610.64 2739.8 2129.2 1.7907 6.8826 5.0919
150 476.16 632.18 2745.9 2113.7 1.8418 6.8371 4.9953
155 543.50 653.79 2751.8 2098.0 1.8924 6.7926 4.9002
160 618.23 675.47 2757.4 2081.9 1.9426 6.7491 4.8065
165 700.93 697.24 2762.8 2065.6 1.9923 6.7066 4.7143
170 792.19 719.08 2767.9 2048.8 2.0417 6.6650 4.6233
175 892.60 741.02 2772.7 2031.7 2.0906 6.6241 4.5335
180 1,002.80 763.05 2777.2 2014.2 2.1392 6.5840 4.4448
185 1,123.50 785.19 2781.4 1996.2 2.1875 6.5447 4.3572
190 1,255.20 807.43 2785.3 1977.9 2.2355 6.5059 4.2704
195 1,398.80 829.79 2788.8 1959.0 2.2832 6.4678 4.1846
200 1,554.90 852.27 2792.0 1939.7 2.3305 6.4302 4.0997
205 1,724.30 874.88 2794.8 1919.9 2.3777 6.3930 4.0153
210 1,907.70 897.63 2797.3 1899.7 2.4245 6.3563 3.9318
215 2,105.80 920.53 2799.3 1878.8 2.4712 6.3200 3.8488
220 2,319.60 943.58 2800.9 1857.3 2.5177 6.2840 3.7663
225 2,549.70 966.80 2802.1 1835.3 2.5640 6.2483 3.6843
230 2,797.10 990.19 2802.9 1812.7 2.6101 6.2128 3.6027
235 3,062.50 1013.8 2803.2 1789.4 2.6561 6.1775 3.5214
240 3,346.90 1037.6 2803.0 1765.4 2.7020 6.1423 3.4403
245 3,651.20 1061.5 2802.2 1740.7 2.7478 6.1072 3.3594
250 3,976.20 1085.8 2800.9 1715.1 2.7935 6.0721 3.2786
255 4,322.90 1110.2 2799.1 1688.9 2.8392 6.0369 3.1977
260 4,692.30 1135.0 2796.6 1661.6 2.8849 6.0016 3.1167
265 5,085.30 1160.0 2793.5 1633.5 2.9307 5.9661 3.0354
270 5,503.00 1185.3 2789.7 1604.4 2.9765 5.9304 2.9539
275 5,946.40 1210.9 2785.2 1574.3 3.0224 5.8944 2.8720
280 6,416.60 1236.9 2779.9 1543.0 3.0685 5.8579 2.7894
285 6,914.70 1263.2 2773.7 1510.5 3.1147 5.8209 2.7062
290 7,441.80 1290.0 2766.7 1476.7 3.1612 5.7834 2.6222
295 7,999.10 1317.3 2758.7 1441.4 3.2080 5.7451 2.5371
300 8,587.90 1345.0 2749.6 1404.6 3.2552 5.7059 2.4507
305 9,209.40 1373.3 2739.4 1366.1 3.3028 5.6657 2.3629
310 9,865.10 1402.2 2727.9 1325.7 3.3510 5.6244 2.2734
315 10,556 1431.8 2715.1 1283.3 3.3998 5.5816 2.1818
320 11,284 1462.2 2700.6 1238.4 3.4494 5.5372 2.0878
325 12,051 1493.5 2684.3 1190.8 3.5000 5.4908 1.9908
330 12,858 1525.9 2666.0 1140.1 3.5518 5.4422 1.8904
335 13,707 1559.5 2645.4 1085.9 3.6050 5.3906 1.7856
340 14,601 1594.5 2621.8 1027.3 3.6601 5.3356 1.6755
345 15,541 1631.5 2594.9 963.4 3.7176 5.2762 1.5586
350 16,529 1670.9 2563.6 892.7 3.7784 5.2110 1.4326
355 17,570 1713.7 2526.6 812.9 3.8439 5.1380 1.2941
360 18,666 1761.7 2481.5 719.8 3.9167 5.0536 1.1369
365 19,821 1817.8 2422.9 605.1 4.0014 4.9497 0.9483
370 21,044 1890.7 2334.5 443.8 4.1112 4.8012 0.6900
373.946 22,064 2084.3 2084.3 0.0 4.4070 4.4070 0.0000

Section 10.8 – Saturated water – pressure table

Reference States: uf = 0.00 at 0.01°C and sf = 0.00 at 0.01°C.

Table 1: Specific volume (v) and specific internal energy (u)

Table 2: Specific enthalpy (h) and specific entropy (s)

Table 10.8.1 Saturated water – pressure table 1.
Volume Internal Energy
m3/kg kJ/kg
Sat. Sat. Sat. Sat.
Liquid Vapor Liquid Vapor Δu
P, kPa Tsat, °C vf vg uf ug ufg
0.6117 0.01 0.001000 205.99 0.0000 2374.9 2374.9
1.0 6.97 0.001000 129.18 29.298 2384.5 2355.2
1.5 13.02 0.001001 87.959 54.681 2392.8 2338.1
2.0 17.50 0.001001 66.987 73.426 2398.9 2325.5
2.5 21.08 0.001002 54.240 88.417 2403.8 2315.4
3.0 24.08 0.001003 45.653 100.970 2407.9 2306.9
4.0 28.96 0.001004 34.791 121.38 2414.5 2293.1
5.0 32.87 0.001005 28.185 137.74 2419.8 2282.1
7.5 40.29 0.001008 19.233 168.74 2429.8 2261.1
10 45.81 0.001010 14.670 191.80 2437.2 2245.4
15 53.97 0.001014 10.020 225.93 2448.0 2222.1
20 60.06 0.001017 7.6480 251.40 2456.0 2204.6
25 64.96 0.001020 6.2032 271.93 2462.4 2190.5
30 69.10 0.001022 5.2284 289.24 2467.7 2178.5
40 75.86 0.001026 3.9930 317.58 2476.3 2158.7
50 81.32 0.001030 3.2400 340.49 2483.2 2142.7
60 85.93 0.001033 2.7317 359.84 2489.0 2129.2
70 89.93 0.001036 2.3648 376.68 2493.9 2117.2
80 93.49 0.001039 2.0871 391.63 2498.2 2106.6
90 96.69 0.001041 1.8694 405.10 2502.1 2097.0
100 99.61 0.001043 1.6939 417.40 2505.6 2088.2
101.325 99.97 0.001043 1.6734 418.95 2506.0 2087.1
125 105.97 0.001048 1.3749 444.22 2513.0 2068.8
150 111.35 0.001053 1.1593 466.97 2519.2 2052.2
175 116.04 0.001057 1.0036 486.82 2524.5 2037.7
200 120.21 0.001061 0.88568 504.49 2529.1 2024.6
225 123.97 0.001064 0.79320 520.47 2533.2 2012.7
250 127.41 0.001067 0.71866 535.08 2536.8 2001.7
275 130.58 0.001070 0.65725 548.56 2540.1 1991.5
300 133.52 0.001073 0.60576 561.10 2543.2 1982.1
325 136.27 0.001076 0.56194 572.84 2545.9 1973.1
350 138.86 0.001079 0.52418 583.88 2548.5 1964.6
375 141.30 0.001081 0.49129 594.32 2550.9 1956.6
400 143.61 0.001084 0.46238 604.22 2553.1 1948.9
450 147.90 0.001088 0.41390 622.65 2557.1 1934.5
500 151.83 0.001093 0.37481 639.54 2560.7 1921.2
550 155.46 0.001097 0.34260 655.16 2563.9 1908.7
600 158.83 0.001101 0.31558 669.72 2566.8 1897.1
650 161.98 0.001104 0.29259 683.36 2569.4 1886.0
700 164.95 0.001108 0.27277 696.23 2571.8 1875.6
750 167.75 0.001111 0.25551 708.40 2574.0 1865.6
800 170.41 0.001115 0.24034 719.97 2576.0 1856.0
850 172.94 0.001118 0.22689 731.00 2577.9 1846.9
900 175.35 0.001121 0.21489 741.55 2579.6 1838.1
950 177.66 0.001124 0.20410 751.67 2581.2 1829.5
1,000 179.88 0.001127 0.19436 761.39 2582.7 1821.3
1,100 184.06 0.001133 0.17745 779.78 2585.5 1805.7
1,200 187.96 0.001139 0.16326 796.96 2587.8 1790.8
1,300 191.60 0.001144 0.15119 813.11 2589.9 1776.8
1,400 195.04 0.001149 0.14078 828.36 2591.8 1763.4
1,500 198.29 0.001154 0.13171 842.83 2593.4 1750.6
1,600 201.37 0.001159 0.12374 856.60 2594.8 1738.2
1,700 204.31 0.001163 0.11667 869.76 2596.1 1726.3
1,800 207.11 0.001168 0.11037 882.37 2597.2 1714.8
1,900 209.80 0.001172 0.10470 894.48 2598.2 1703.7
2,000 212.38 0.001177 0.099585 906.14 2599.1 1693.0
2,250 218.41 0.001187 0.088715 933.57 2600.9 1667.3
2,500 223.95 0.001197 0.079949 958.91 2602.1 1643.2
3,000 233.85 0.001217 0.066664 1004.7 2603.2 1598.5
3,500 242.56 0.001235 0.057058 1045.5 2602.9 1557.4
4,000 250.35 0.001253 0.049776 1082.5 2601.7 1519.2
5,000 263.94 0.001286 0.039446 1148.2 2597.0 1448.8
6,000 275.58 0.001319 0.032448 1206.0 2589.9 1383.9
7,000 285.83 0.001352 0.027378 1258.2 2581.0 1322.8
8,000 295.01 0.001385 0.023526 1306.2 2570.5 1264.3
9,000 303.34 0.001418 0.020490 1351.1 2558.5 1207.4
10,000 311.00 0.001453 0.018030 1393.5 2545.2 1151.7
11,000 318.08 0.001489 0.015990 1434.1 2530.5 1096.4
12,000 324.68 0.001526 0.014264 1473.1 2514.3 1041.2
13,000 330.85 0.001567 0.012780 1511.1 2496.5 985.4
14,000 336.67 0.001610 0.011485 1548.4 2477.1 928.7
15,000 342.16 0.001657 0.010338 1585.3 2455.6 870.3
17,000 352.29 0.001769 0.0083709 1659.9 2405.2 745.3
19,000 361.47 0.001927 0.0066773 1740.5 2339.1 598.6
20,000 365.75 0.002040 0.0058652 1786.4 2295.0 508.6
21,000 369.83 0.002206 0.0049961 1841.2 2233.7 392.5
22,064 373.95 0.003106 0.003106 2015.7 2015.7 0.0
Table 10.8.2 Saturated water – pressure table 2.
Enthalpy Entropy
kJ/kg kJ/kg•K
Sat. Sat. Sat. Sat.
Liquid Vapor Δh Liquid Vapor Δs
P, kPa Tsat, °C hf hg hfg sf sg sfg
0.6117 0.01 0.00061178 2500.9 2500.9 0.0000 9.1555 9.1555
1.0 6.97 29.299 2513.7 2484.4 0.10591 8.9749 8.8690
1.5 13.02 54.683 2524.7 2470.0 0.19556 8.8270 8.6314
2.0 17.50 73.428 2532.9 2459.5 0.26056 8.7226 8.4620
2.5 21.08 88.420 2539.4 2451.0 0.31182 8.6420 8.3302
3.0 24.08 100.980 2544.8 2443.8 0.35429 8.5764 8.2221
4.0 28.96 121.39 2553.7 2432.3 0.42239 8.4734 8.0510
5.0 32.87 137.75 2560.7 2423.0 0.47620 8.3938 7.9176
7.5 40.29 168.75 2574.0 2405.3 0.57627 8.2501 7.6738
10 45.81 191.81 2583.9 2392.1 0.64920 8.1488 7.4996
15 53.97 225.94 2598.3 2372.4 0.75486 8.0071 7.2522
20 60.06 251.42 2608.9 2357.5 0.83202 7.9072 7.0752
25 64.96 271.96 2617.4 2345.4 0.89319 7.8302 6.9370
30 69.10 289.27 2624.5 2335.2 0.94407 7.7675 6.8234
40 75.86 317.62 2636.1 2318.5 1.0261 7.6690 6.6429
50 81.32 340.54 2645.2 2304.7 1.0912 7.5930 6.5018
60 85.93 359.91 2652.9 2293.0 1.1454 7.5311 6.3857
70 89.93 376.75 2659.4 2282.7 1.1921 7.4790 6.2869
80 93.49 391.71 2665.2 2273.5 1.2330 7.4339 6.2009
90 96.69 405.20 2670.3 2265.1 1.2696 7.3943 6.1247
100 99.61 417.50 2674.9 2257.4 1.3028 7.3588 6.0560
101.325 99.97 419.06 2675.6 2256.5 1.3069 7.3545 6.0476
125 105.97 444.35 2684.9 2240.6 1.3741 7.2840 5.9099
150 111.35 467.13 2693.1 2226.0 1.4337 7.2230 5.7893
175 116.04 487.00 2700.1 2213.1 1.4850 7.1715 5.6865
200 120.21 504.70 2706.2 2201.5 1.5302 7.1269 5.5967
225 123.97 520.71 2711.6 2190.9 1.5706 7.0876 5.5170
250 127.41 535.34 2716.5 2181.2 1.6072 7.0524 5.4452
275 130.58 548.86 2720.9 2172.0 1.6408 7.0207 5.3799
300 133.52 561.43 2724.9 2163.5 1.6717 6.9916 5.3199
325 136.27 573.19 2728.6 2155.4 1.7005 6.9649 5.2644
350 138.86 584.26 2732.0 2147.7 1.7274 6.9401 5.2127
375 141.30 594.73 2735.1 2140.4 1.7526 6.9171 5.1645
400 143.61 604.65 2738.1 2133.5 1.7765 6.8955 5.1190
450 147.90 623.14 2743.4 2120.3 1.8205 6.8560 5.0355
500 151.83 640.09 2748.1 2108.0 1.8604 6.8207 4.9603
550 155.46 655.76 2752.3 2096.5 1.8970 6.7886 4.8916
600 158.83 670.38 2756.1 2085.7 1.9308 6.7592 4.8284
650 161.98 684.08 2759.6 2075.5 1.9623 6.7322 4.7699
700 164.95 697.00 2762.8 2065.8 1.9918 6.7071 4.7153
750 167.75 709.24 2765.6 2056.4 2.0195 6.6836 4.6641
800 170.41 720.86 2768.3 2047.4 2.0457 6.6616 4.6159
850 172.94 731.95 2770.8 2038.9 2.0705 6.6409 4.5704
900 175.35 742.56 2773.0 2030.4 2.0940 6.6213 4.5273
950 177.66 752.74 2775.1 2022.4 2.1165 6.6027 4.4862
1,000 179.88 762.52 2777.1 2014.6 2.1381 6.5850 4.4469
1,100 184.06 781.03 2780.6 1999.6 2.1785 6.5520 4.3735
1,200 187.96 798.33 2783.7 1985.4 2.2159 6.5217 4.3058
1,300 191.60 814.60 2786.5 1971.9 2.2508 6.4936 4.2428
1,400 195.04 829.97 2788.8 1958.8 2.2835 6.4675 4.1840
1,500 198.29 844.56 2791.0 1946.4 2.3143 6.4430 4.1287
1,600 201.37 858.46 2792.8 1934.3 2.3435 6.4199 4.0764
1,700 204.31 871.74 2794.5 1922.8 2.3711 6.3981 4.0270
1,800 207.11 884.47 2795.9 1911.4 2.3975 6.3775 3.9800
1,900 209.80 896.71 2797.2 1900.5 2.4227 6.3578 3.9351
2,000 212.38 908.50 2798.3 1889.8 2.4468 6.3390 3.8922
2,250 218.41 936.24 2800.5 1864.3 2.5029 6.2954 3.7925
2,500 223.95 961.91 2801.9 1840.0 2.5543 6.2558 3.7015
3,000 233.85 1008.3 2803.2 1794.9 2.6455 6.1856 3.5401
3,500 242.56 1049.8 2802.6 1752.8 2.7254 6.1243 3.3989
4,000 250.35 1087.5 2800.8 1713.3 2.7968 6.0696 3.2728
5,000 263.94 1154.6 2794.2 1639.6 2.9210 5.9737 3.0527
6,000 275.58 1213.9 2784.6 1570.7 3.0278 5.8901 2.8623
7,000 285.83 1267.7 2772.6 1504.9 3.1224 5.8148 2.6924
8,000 295.01 1317.3 2758.7 1441.4 3.2081 5.7450 2.5369
9,000 303.34 1363.9 2742.9 1379.0 3.2870 5.6791 2.3921
10,000 311.00 1408.1 2725.5 1317.4 3.3606 5.6160 2.2554
11,000 318.08 1450.4 2706.3 1255.9 3.4303 5.5545 2.1242
12,000 324.68 1491.5 2685.4 1193.9 3.4967 5.4939 1.9972
13,000 330.85 1531.5 2662.7 1131.2 3.5608 5.4336 1.8728
14,000 336.67 1571.0 2637.9 1066.9 3.6232 5.3727 1.7495
15,000 342.16 1610.2 2610.7 1000.5 3.6846 5.3106 1.6260
17,000 352.29 1690.0 2547.5 857.5 3.8077 5.1787 1.3710
19,000 361.47 1777.2 2466.0 688.8 3.9401 5.0256 1.0855
20,000 365.75 1827.2 2412.3 585.1 4.0156 4.9314 0.9158
21,000 369.83 1887.6 2338.6 451.0 4.1064 4.8079 0.7015
22,064 373.95 2084.3 2084.3 0.0 4.4070 4.4070 0.0000

Section 10.9 – Superheated vapor water/steam table

Reference states: uf = 0.00 at 0.01°C and sf = 0.00 at 0.01°C.

Table 1: P = 10 kPa to 800 kPa

Table 2: P = 1000 kPa to 3500 kPa

Table 3: P = 4000 kPa to 11000 kPa

Table 4: P = 12000 kPa to 20000 kPa

Table 10.9.1: Superheated vapor (water/stream) table Part 1.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 10 kPa Tsat = 45.806°C
Sat. 14.670 2437.2 2583.9 8.1488
50 14.867 2443.3 2592.0 8.1741
100 17.196 2515.5 2687.5 8.4489
150 19.513 2587.9 2783.0 8.6892
200 21.826 2661.3 2879.6 8.9049
250 24.136 2736.1 2977.4 9.1015
300 26.446 2812.3 3076.7 9.2827
400 31.063 2969.3 3279.9 9.6094
500 35.680 3132.9 3489.7 9.8998
600 40.296 3303.3 3706.3 10.1630
700 44.911 3480.8 3929.9 10.4060
800 49.527 3665.3 4160.6 10.6310
900 54.142 3856.9 4398.3 10.8430
1000 58.758 4055.2 4642.8 11.0430
P = 50kPa Tsat = 81.317°C
Sat. 3.2400 2483.2 2645.2 7.5930
50
100 3.4187 2511.5 2682.4 7.6953
150 3.8897 2585.7 2780.2 7.9413
200 4.3562 2660.0 2877.8 8.1592
250 4.8206 2735.1 2976.1 8.3568
300 5.2840 2811.6 3075.8 8.5386
400 6.2094 2968.9 3279.3 8.8659
500 7.1338 3132.6 3489.3 9.1566
600 8.0576 3303.1 3706.0 9.4201
700 8.9812 3480.6 3929.7 9.6625
800 9.9047 3665.2 4160.4 9.8882
900 10.8280 3856.8 4398.2 10.1000
1000 11.7510 4055.1 4642.7 10.3000
P = 100 kPa Tsat = 99.606°C
Sat. 1.6939 2505.6 2674.9 7.3588
50
100 1.6959 2506.2 2675.8 7.3610
150 1.9367 2582.9 2776.6 7.6148
200 2.1724 2658.2 2875.5 7.8356
250 2.4062 2733.9 2974.5 8.0346
300 2.6388 2810.6 3074.5 8.2172
400 3.1027 2968.3 3278.6 8.5452
500 3.5655 3132.2 3488.7 8.8361
600 4.0279 3302.8 3705.6 9.0998
700 4.4900 3480.4 3929.4 9.3424
800 4.9519 3665.0 4160.2 9.5681
900 5.4137 3856.6 4398.0 9.7800
1000 5.8754 4055.0 4642.6 9.9800
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 200 kPa Tsat = 120.21°C
Sat. 0.88568 2529.1 2706.2 7.1269
150 0.95986 2577.1 2769.1 7.2810
200 1.08050 2654.6 2870.7 7.5081
250 1.19890 2731.4 2971.2 7.7100
300 1.31620 2808.8 3072.1 7.8941
400 1.54930 2967.1 3277.0 8.2236
500 1.78140 3131.4 3487.7 8.5152
600 2.01300 3302.2 3704.8 8.7792
700 2.24430 3479.9 3928.8 9.0220
800 2.47550 3664.7 4159.8 9.2479
900 2.70660 3856.3 4397.6 9.4598
1000 2.93750 4054.8 4642.3 9.6599
P = 300 kPa Tsat = 133.52°C
Sat. 0.60576 2543.2 2724.9 6.9916
150 0.63401 2571.0 2761.2 7.0791
200 0.71642 2651.0 2865.9 7.3131
250 0.79644 2728.9 2967.9 7.5180
300 0.87534 2807.0 3069.6 7.7037
400 1.03150 2966.0 3275.5 8.0347
500 1.18670 3130.6 3486.6 8.3271
600 1.34140 3301.6 3704.0 8.5914
700 1.49580 3479.5 3928.2 8.8344
800 1.65000 3664.3 4159.3 9.0604
900 1.80420 3856.0 4397.3 9.2724
1000 1.95820 4054.5 4642.0 9.4726
P = 400 kPa Tsat = 143.61°C
Sat. 0.46238 2553.1 2738.1 6.8955
150 0.47088 2564.4 2752.8 6.9306
200 0.53433 2647.2 2860.9 7.1723
250 0.59520 2726.4 2964.5 7.3804
300 0.65489 2805.1 3067.1 7.5677
400 0.77264 2964.9 3273.9 7.9002
500 0.88936 3129.8 3485.5 8.1933
600 1.00560 3301.0 3703.2 8.4580
700 1.12150 3479.0 3927.6 8.7012
800 1.23730 3663.9 4158.8 8.9273
900 1.35300 3855.7 4396.9 9.1394
1000 1.46860 4054.3 4641.7 9.3396
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 500 kPa Tsat = 151.83°C
Sat. 0.37481 2560.7 2748.1 6.8207
200 0.42503 2643.3 2855.8 7.0610
250 0.47443 2723.8 2961.0 7.2724
300 0.52261 2803.2 3064.6 7.4614
350 0.57015 2883.0 3168.1 7.6346
400 0.61730 2963.7 3272.3 7.7955
500 0.71094 3129.0 3484.5 8.0892
600 0.80409 3300.4 3702.5 8.3543
700 0.89696 3478.5 3927.0 8.5977
800 0.98966 3663.6 4158.4 8.8240
900 1.08230 3855.4 4396.6 9.0362
1000 1.17480 4054.0 4641.4 9.2364
P = 600 kPa Tsat = 158.83°C
Sat. 0.31558 2566.8 2756.1 6.7592
200 0.35212 2639.3 2850.6 6.9683
250 0.39390 2721.2 2957.6 7.1832
300 0.43442 2801.4 3062.0 7.3740
350 0.47427 2881.6 3166.1 7.5481
400 0.51374 2962.5 3270.8 7.7097
500 0.59200 3128.2 3483.4 8.0041
600 0.66976 3299.8 3701.7 8.2695
700 0.74725 3478.1 3926.4 8.5131
800 0.82457 3663.2 4157.9 8.7395
900 0.90178 3855.1 4396.2 8.9518
1000 0.97893 4053.7 4641.1 9.1521
P = 800 kPa Tsat = 170.41°C
Sat. 0.24034 2576.0 2768.3 6.6616
200 0.26088 2631.0 2839.7 6.8176
250 0.29320 2715.9 2950.4 7.0401
300 0.32416 2797.5 3056.9 7.2345
350 0.35442 2878.6 3162.2 7.4106
400 0.38428 2960.2 3267.6 7.5734
500 0.44332 3126.6 3481.3 7.8692
600 0.50185 3298.7 3700.1 8.1354
700 0.56011 3477.2 3925.3 8.3794
800 0.61820 3662.4 4157.0 8.6061
900 0.67619 3854.5 4395.5 8.8185
1000 0.73411 4053.2 4640.5 9.0189
Table 10.9.2: Superheated vapor (water/stream) table Part 2.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 1000 kPa Tsat = 179.88°C
Sat. 0.19436 2582.7 2777.1 6.5850
200 0.20602 2622.2 2828.3 6.6955
250 0.23275 2710.4 2943.1 6.9265
300 0.25799 2793.6 3051.6 7.1246
350 0.28250 2875.7 3158.2 7.3029
400 0.30661 2957.9 3264.5 7.4669
500 0.35411 3125.0 3479.1 7.7641
600 0.40111 3297.5 3698.6 8.0310
700 0.44783 3476.2 3924.1 8.2755
800 0.49438 3661.7 4156.1 8.5024
900 0.54083 3853.9 4394.8 8.7150
1000 0.58721 4052.7 4639.9 8.9155
P = 1200 kPa Tsat = 187.96°C
Sat. 0.16326 2587.8 2783.7 6.5217
200 0.16934 2612.9 2816.1 6.5909
250 0.19241 2704.7 2935.6 6.8313
300 0.21386 2789.7 3046.3 7.0335
350 0.23455 2872.7 3154.2 7.2139
400 0.25482 2955.5 3261.3 7.3793
500 0.29464 3123.4 3476.9 7.6779
600 0.33394 3296.3 3697.0 7.9455
700 0.37297 3475.3 3922.9 8.1904
800 0.41184 3661.0 4155.2 8.4176
900 0.45059 3853.3 4394.0 8.6303
1000 0.48928 4052.2 4639.4 8.8310
P = 1400 kPa Tsat = 195.04°C
Sat. 0.14078 2591.8 2788.8 6.4675
200 0.14303 2602.7 2803.0 6.4975
250 0.16356 2698.9 2927.9 6.7488
300 0.18232 2785.7 3040.9 6.9552
350 0.20029 2869.7 3150.1 7.1379
400 0.21782 2953.1 3258.1 7.3046
500 0.25216 3121.8 3474.8 7.6047
600 0.28597 3295.1 3695.4 7.8730
700 0.31951 3474.4 3921.7 8.1183
800 0.35287 3660.2 4154.3 8.3457
900 0.38614 3852.7 4393.3 8.5587
1000 0.41933 4051.7 4638.8 8.7594
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 1600 kPa Tsat = 201.37°C
Sat. 0.12374 2594.8 2792.8 6.4199
225 0.13293 2645.1 2857.8 6.5537
250 0.14190 2692.9 2919.9 6.6753
300 0.15866 2781.6 3035.4 6.8863
350 0.17459 2866.6 3146.0 7.0713
400 0.19007 2950.7 3254.9 7.2394
500 0.22029 3120.1 3472.6 7.5409
600 0.24999 3293.9 3693.9 7.8100
700 0.27940 3473.5 3920.5 8.0557
800 0.30865 3659.5 4153.3 8.2834
900 0.33780 3852.1 4392.6 8.4965
1000 0.36687 4051.2 4638.2 8.6974
P = 1800 kPa Tsat = 207.11°C
Sat. 0.11037 2597.2 2795.9 6.3775
225 0.11678 2637.0 2847.2 6.4824
250 0.12502 2686.7 2911.7 6.6087
300 0.14025 2777.4 3029.9 6.8246
350 0.15460 2863.6 3141.8 7.0120
400 0.16849 2948.3 3251.6 7.1814
500 0.19551 3118.5 3470.4 7.4845
600 0.22200 3292.7 3692.3 7.7543
700 0.24821 3472.6 3919.4 8.0004
800 0.27426 3658.8 4152.4 8.2284
900 0.30020 3851.5 4391.9 8.4416
1000 0.32606 4050.7 4637.6 8.6426
P = 2000 kPa Tsat = 212.38°C
Sat. 0.09959 2599.1 2798.3 6.3390
225 0.10381 2628.5 2836.1 6.4160
250 0.11150 2680.2 2903.2 6.5475
300 0.12551 2773.2 3024.2 6.7684
350 0.13860 2860.5 3137.7 6.9583
400 0.15121 2945.9 3248.3 7.1292
500 0.17568 3116.9 3468.2 7.4337
600 0.19961 3291.5 3690.7 7.7043
700 0.22326 3471.6 3918.2 7.9509
800 0.24674 3658.0 4151.5 8.1790
900 0.27012 3850.9 4391.1 8.3925
1000 0.29342 4050.2 4637.0 8.5936
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 2500 kPa Tsat = 223.95°C
Sat. 0.07995 2602.1 2801.9 6.2558
225 0.08026 2604.8 2805.5 6.2629
250 0.08705 2663.3 2880.9 6.4107
300 0.09894 2762.2 3009.6 6.6459
350 0.10979 2852.5 3127.0 6.8424
400 0.12012 2939.8 3240.1 7.0170
500 0.13999 3112.8 3462.7 7.3254
600 0.15931 3288.5 3686.8 7.5979
700 0.17835 3469.3 3915.2 7.8455
800 0.19721 3656.2 4149.2 8.0743
900 0.21597 3849.4 4389.3 8.2882
1000 0.23466 4048.9 4635.6 8.4896
P = 3000 kPa Tsat= 233.85°C
Sat. 0.06666 2603.2 2803.2 6.1856
225
250 0.07063 2644.7 2856.5 6.2893
300 0.08118 2750.8 2994.3 6.5412
350 0.09056 2844.4 3116.1 6.7449
400 0.09938 2933.5 3231.7 6.9234
500 0.11620 3108.6 3457.2 7.2359
600 0.13245 3285.5 3682.8 7.5103
700 0.14841 3467.0 3912.2 7.7590
800 0.16420 3654.3 4146.9 7.9885
900 0.17988 3847.9 4387.5 8.2028
1000 0.19549 4047.7 4634.1 8.4045
P = 3500 kPa Tsat = 242.56°C
Sat. 0.05706 2602.9 2802.6 6.1243
225
250 0.05876 2624.0 2829.7 6.1764
300 0.06845 2738.8 2978.4 6.4484
350 0.07680 2836.0 3104.8 6.6601
400 0.08456 2927.2 3223.2 6.8427
500 0.09920 3104.5 3451.6 7.1593
600 0.11325 3282.5 3678.9 7.4356
700 0.12702 3464.7 3909.3 7.6854
800 0.14061 3652.5 4144.6 7.9156
900 0.15410 3846.4 4385.7 8.1303
1000 0.16751 4046.4 4632.7 8.3324
Table 10.9.3: Superheated vapor (water/stream) table Part 3.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 4000 kPa Tsat = 250.35°C
Sat. 0.04978 2601.7 2800.8 6.0696
275 0.05461 2668.9 2887.3 6.2312
300 0.05887 2726.2 2961.7 6.3639
350 0.06647 2827.4 3093.3 6.5843
400 0.07343 2920.7 3214.5 6.7714
450 0.08004 3011.0 3331.2 6.9386
500 0.08644 3100.3 3446.0 7.0922
600 0.09886 3279.4 3674.9 7.3705
700 0.11098 3462.4 3906.3 7.6214
800 0.12292 3650.6 4142.3 7.8523
900 0.13476 3844.8 4383.9 8.0674
1000 0.14652 4045.1 4631.2 8.2697
P = 4500 kPa Tsat = 257.44°C
Sat. 0.04406 2599.7 2797.9 6.0197
275 0.04733 2651.3 2864.3 6.1429
300 0.05138 2713.0 2944.2 6.2854
350 0.05842 2818.6 3081.5 6.5153
400 0.06477 2914.2 3205.6 6.7070
450 0.07076 3005.8 3324.2 6.8770
500 0.07652 3096.0 3440.4 7.0323
600 0.08766 3276.4 3670.9 7.3127
700 0.09850 3460.0 3903.3 7.5646
800 0.10916 3648.8 4140.0 7.7962
900 0.11972 3843.3 4382.1 8.0118
1000 0.13020 4043.9 4629.8 8.2144
P = 5000 kPa Tsat= 263.94°C
Sat. 0.03945 2597.0 2794.2 5.9737
275 0.04144 2632.3 2839.5 6.0571
300 0.04535 2699.0 2925.7 6.2110
350 0.05197 2809.5 3069.3 6.4516
400 0.05784 2907.5 3196.7 6.6483
450 0.06332 3000.6 3317.2 6.8210
500 0.06858 3091.7 3434.7 6.9781
600 0.07870 3273.3 3666.8 7.2605
700 0.08852 3457.7 3900.3 7.5136
800 0.09816 3646.9 4137.7 7.7458
900 0.10769 3841.8 4380.2 7.9618
1000 0.11715 4042.6 4628.3 8.1648
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 6000 kPa Tsat = 227.58°C
Sat. 0.032448 2589.9 2784.6 5.8901
300 0.036189 2668.4 2885.5 6.0703
350 0.042251 2790.4 3043.9 6.3357
400 0.047419 2893.7 3178.2 6.5432
450 0.052166 2989.9 3302.9 6.7219
500 0.056671 3083.1 3423.1 6.8826
550 0.061021 3175.2 3541.3 7.0307
600 0.065265 3267.2 3658.7 7.1693
700 0.073545 3453.0 3894.3 7.4246
800 0.081648 3643.2 4133.1 7.6582
900 0.089641 3838.8 4376.6 7.8751
1000 0.097560 4040.1 4625.4 8.0786
P = 7000 kPa Tsat = 285.83°C
Sat. 0.027378 2581.0 2772.6 5.8148
300 0.029492 2633.5 2839.9 5.9337
350 0.035262 2770.1 3016.9 6.2304
400 0.039958 2879.5 3159.2 6.4502
450 0.044187 2979.0 3288.3 6.6353
500 0.048157 3074.3 3411.4 6.8000
550 0.051966 3167.9 3531.6 6.9506
600 0.055665 3260.9 3650.6 7.0910
700 0.062850 3448.3 3888.2 7.3486
800 0.069855 3639.5 4128.4 7.5836
900 0.076750 3835.7 4373.0 7.8014
1000 0.083571 4037.5 4622.5 8.0055
P = 8000 kPa Tsat = 295.01°C
Sat. 0.023526 2570.5 2758.7 5.7450
300 0.024279 2592.3 2786.5 5.7937
350 0.029975 2748.3 2988.1 6.1321
400 0.034344 2864.6 3139.4 6.3658
450 0.038194 2967.8 3273.3 6.5579
500 0.041767 3065.4 3399.5 6.7266
550 0.045172 3160.5 3521.8 6.8799
600 0.048463 3254.7 3642.4 7.0221
700 0.054828 3443.6 3882.2 7.2821
800 0.061011 3635.7 4123.8 7.5184
900 0.067082 3832.6 4369.3 7.7371
1000 0.073079 4035.0 4619.6 7.9419
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 9000 kPa Tsat= 303.34°C
Sat. 0.020490 2558.5 2742.9 5.6791
325 0.023284 2647.6 2857.1 5.8738
350 0.025816 2724.9 2957.3 6.0380
400 0.029960 2849.2 3118.8 6.2876
450 0.033524 2956.3 3258.0 6.4872
500 0.036793 3056.3 3387.4 6.6603
550 0.039885 3153.0 3512.0 6.8164
600 0.042861 3248.4 3634.1 6.9605
700 0.048589 3438.8 3876.1 7.2229
800 0.054132 3632.0 4119.1 7.4606
900 0.059562 3829.6 4365.7 7.6802
1000 0.064918 4032.4 4616.7 7.8855
P = 10000 kPa Tsat = 311.00°C
Sat. 0.018030 2545.2 2725.5 5.6160
325 0.019877 2611.6 2810.3 5.7596
350 0.022440 2699.6 2924.0 5.9459
400 0.026436 2833.1 3097.4 6.2141
450 0.029782 2944.5 3242.3 6.4219
500 0.032811 3047.0 3375.1 6.5995
550 0.035654 3145.4 3502.0 6.7585
600 0.038378 3242.0 3625.8 6.9045
700 0.043597 3434.0 3870.0 7.1693
800 0.048629 3628.2 4114.5 7.4085
900 0.053547 3826.5 4362.0 7.6290
1000 0.058390 4029.9 4613.8 7.8349
P = 11000 kPa Tsat= 318.08°C
Sat. 0.015990 2530.5 2706.3 5.5545
325 0.016953 2569.2 2755.7 5.6375
350 0.019625 2672.0 2887.9 5.8542
400 0.023537 2816.3 3075.2 6.1440
450 0.026713 2932.4 3226.3 6.3607
500 0.029549 3037.6 3362.7 6.5431
550 0.032191 3137.8 3491.9 6.7050
600 0.034709 3235.6 3617.4 6.8531
700 0.039513 3429.2 3863.9 7.1204
800 0.044126 3624.4 4109.8 7.3610
900 0.048625 3823.5 4358.3 7.5824
1000 0.053049 4027.3 4610.9 7.7889
Table 10.9.4: Superheated vapor (water/stream) table Part 4.
T v u h s
°C m3/kg kJ/kg kJ/kg kJ/kg•K
P = 12000 kPa Tsat = 224.68°C
Sat. 0.014264 2514.3 2685.4 5.4939
350 0.017221 2641.4 2848.1 5.7609
400 0.021106 2798.7 3052.0 6.0764
450 0.024149 2920.0 3209.8 6.3028
500 0.026828 3028.1 3350.0 6.4903
550 0.029304 3130.0 3481.7 6.6553
600 0.031651 3229.1 3608.9 6.8054
650 0.033912 3326.9 3733.8 6.9446
700 0.036109 3424.4 3857.7 7.0753
800 0.040375 3620.6 4105.1 7.3173
900 0.044524 3820.4 4354.7 7.5396
1000 0.048599 4024.8 4608.0 7.7467
P = 13000 kPa Tsat= 330.85°C
Sat. 0.012780 2496.5 2662.7 5.4336
350 0.015119 2607.2 2803.7 5.6638
400 0.019033 2780.3 3027.7 6.0106
450 0.021974 2907.3 3193.0 6.2476
500 0.024523 3018.3 3337.1 6.4405
550 0.026859 3122.2 3471.3 6.6087
600 0.029063 3222.5 3600.4 6.7609
650 0.031178 3321.3 3726.6 6.9016
700 0.033229 3419.6 3851.5 7.0333
800 0.037200 3616.9 4100.4 7.2768
900 0.041054 3817.3 4351.0 7.5000
1000 0.044833 4022.2 4605.0 7.7078
P = 14000 kPa Tsat = 336.67°C
Sat. 0.011485 2477.1 2637.9 5.3727
350 0.013232 2567.8 2753.1 5.5598
400 0.017240 2761.0 3002.3 5.9459
450 0.020104 2894.2 3175.7 6.1946
500 0.022544 3008.4 3324.1 6.3932
550 0.024763 3114.2 3460.9 6.5648
600 0.026845 3216.0 3591.8 6.7191
650 0.028835 3315.7 3719.4 6.8612
700 0.030761 3414.7 3845.3 6.9941
800 0.034479 3613.1 4095.8 7.2391
900 0.038080 3814.2 4347.4 7.4632
1000 0.041605 4019.7 4602.1 7.6716
P = 15000 kPa Tsat = 342.16°C
Sat. 0.010338 2455.6 2610.7 5.3106
375 0.013902 2650.4 2858.9 5.7050
400 0.015671 2740.6 2975.7 5.8819
450 0.018477 2880.7 3157.9 6.1434
500 0.020827 2998.4 3310.8 6.3480
550 0.022945 3106.2 3450.4 6.5230
600 0.024921 3209.3 3583.1 6.6796
650 0.026804 3310.1 3712.1 6.8233
700 0.028621 3409.8 3839.1 6.9572
800 0.032121 3609.2 4091.1 7.2037
900 0.035503 3811.2 4343.7 7.4288
1000 0.038808 4017.1 4599.2 7.6378
P =17000 kPa Tsat= 352.29°C
Sat. 0.0083709 2405.2 2547.5 5.1787
375 0.011175 2586.0 2776.0 5.5385
400 0.013038 2696.2 2917.9 5.7536
450 0.015784 2852.7 3121.0 6.0451
500 0.017994 2977.7 3283.6 6.2628
550 0.019948 3089.9 3429.0 6.4451
600 0.021752 3195.9 3565.7 6.6063
650 0.023459 3298.7 3697.5 6.7531
700 0.025097 3400.0 3826.6 6.8894
800 0.028237 3601.6 4081.6 7.1388
900 0.031258 3805.0 4336.4 7.3658
1000 0.034202 4012.0 4593.4 7.5760
P = 20000 kPa Tsat = 365.75°C
Sat. 0.005865 2295.0 2412.3 4.9314
375 0.007676 2449.1 2602.6 5.2275
400 0.009950 2617.9 2816.9 5.5525
450 0.012721 2807.2 3061.7 5.9043
500 0.014793 2945.3 3241.2 6.1446
550 0.016571 3064.7 3396.1 6.3389
600 0.018185 3175.3 3539.0 6.5075
650 0.019695 3281.4 3675.3 6.6593
700 0.021133 3385.1 3807.8 6.7990
800 0.023869 3590.1 4067.5 7.0531
900 0.026483 3795.7 4325.4 7.2829
1000 0.029020 4004.3 4584.7 7.4950

Section 10.10 – Vapor pressure

Vapor pressure, or saturation pressure, was defined in another section. The Antoine equation is a common equation for vapor pressure as a function of temperature. Three constants are needed to calculate vapor pressures from the Antoine equations, which have been experimentally measured for many components. The Antoine equation is:

log10 Psat = A − BT+C

where A, B, C are tabulated below for many components. Psat has units of mmHg, and T has units of oC.

Table 10.10.1: Vapor Pressure.
Component A B C Low T High T
Acetaldehyde 7.31377 1175.27 244.272 -105.0 192.9
Acetic Acid 7.27642 1326.65 183.913 -42.8 318.8
Acetic Acid 7.18807 1516.7 225 0 36
Acetic Anhydride 7.14948 1444.718 199.817 62.8 139.4
Acetone 7.31414 1315.67 240.479 -94.7 235.1
Acetylene 7.31465 790.209 262.859 -80.8 35.2
Acrylic Acid 5.65204 648.629 154.683 20 70
Ammonia 7.55466 1013.78 248.825 -77.5 132.5
Ammonium Nitrate 7.47687 1118.72 245.150 -70.0 80.0
Aniline 7.3201 1668.15 193.636 -6.02 425.9
Benzaldehyde 7.25411 1734.80 217.931 -26.0 421.9
Benzene 6.81404 1090.43 197.146 -40.0 288.9
Benzoic Acid 7.41844 1824.74 152.886 122.4 477.9
Benzyl Alcohol 7.92338 2060.53 203.928 -15.3 403.85
Bromine 7.27906 1321.90 241.801 -7.3 311.0
1,2-Butadiene 7.06482 1097.26 251.400 -132.0 178.9
1,3-Butadiene 7.02238 998.751 245.563 -108.9 152.2
n-Butane 7.00961 1022.48 248.145 -138.3 152.0
Isobutane 6.93388 953.920 247.077 -159.6 135.0
i-Butane 6.78866 899.617 541.942 -85.1 -11.6
1-Butanol 7.36366 1305.198 173.427 89.2 125.7
2-Butanol 7.20131 1157 168.279 72.4 107.1
1-Butene 7.03420 1013.60 250.929 -185.4 146.4
Butyric Acid 8.71019 2433.014 255.189 20 150
Calcium Chloride 9.22000 13570.00 273.150 836.9 1007.85
Carbon 9.41205 27489.0 281.969 2985.95 4125.95
Carbon Dioxide 7.58828 861.820 271.883 -56.57 31.04
Carbon Disulfide 7.21790 1303.79 254.394 -111.6 278.2
Carbon Monoxide 6.72527 295.228 268.243 -205.0 -140.2
Carbon Tetrachloride 7.01144 1278.54 232.888 -22.8 283.2
Chlorine 7.06306 906.703 250.828 -101.0 144.0
Chlorobenzene 7.18342 1574.53 234.229 -45.2 359.2
Chloroform 7.1148 1232.79 230.213 -63.5 263.3
Cyclohexane 6.84941 1206.001 218.815 -85.6 280.7
Cyclohexanol 6.2553 912.866 109.126 93.7 160.7
Cyclopentane 7.04267 1202.53 239.690 -93.8 238.6
n-Decane 7.21745 1693.93 216.459 -29.7 354.3
1-Decene 6.95433 1497.527 197.056 86.8 171.6
1,1-Dichloroethane 6.9772 1174.022 229.06 -38.8 17.6
1,1-Dichloroethane 7.0253 1271.254 222.927 -30.8 99.4
Dichloromethane 7.40916 1325.938 252.616 -40 40
Diethyl Ether 7.04631 1112.55 232.657 -116.3 193.6
Diethyl Ketone 7.02529 1310.281 214.192 56.5 111.3
Diethylene Glycol 7.63666 1939.359 162.714 130 243
Dimethyl Ether 6.97603 889.264 241.957 -78.2 -24.9
Dimethylamine 7.08212 960.242 221.667 -71.8 6.9
N,N-Dimethylformamide 6.92796 1400.869 196.434 30 90
1,4-Dioxane 7.43155 1554.679 240.337 20 105
Ethane 6.95335 699.106 260.264 -182.8 32.27
Ethanol 8.13484 1662.48 238.131 -141.1 243.1
Ethanolamine 7.4568 1577.67 173.368 65.4 170.9
Ethyl Acetate 7.25963 1338.46 228.608 -83.6 250.2
Ethyl Chloride 7.13047 1097.60 246.009 -136.4 187.2
Ethyl Benzene 7.15610 1559.55 228.582 -94.95 344.0
Ethylene 6.96636 649.806 262.730 -169.1 9.21
Ethylene Glycol 9.69941 3147.10 264.246 -13.0 371.9
Ethylene Oxide 8.69016 2005.779 334.765 0.3 31.8
1,2-Ethylenediamine 7.16871 1336.235 194.366 26.5 117.4
Formaldehyde 7.46432 1078.39 254.377 -92 134.9
Formic Acid 6.97459 1165.08 184.037 -56.0 314.9
Glycerol 7.01621 1448.81 62.4928 96.0 576.9
Helium 5.27120 13.5171 274.585 -271.4 -268.0
n-Heptane 7.04605 1341.89 223.733 -90.9 267.1
i-Heptane 6.87689 1238.122 219.783 18.5 90.9
1-Heptene 6.91381 1265.12 220.051 21.6 94.5
n-Hexane 6.985950 1216.92 227.451 -95.3 234.3
i-Hexane 6.86839 1151.401 228.477 12.8 61.1
1-Hexene 6.8688 1154.646 226.04466 15.9 64.3
Hydrogen 6.14858 80.9480 277.532 -259.2 -240.0
Hydrogen Bromide 6.93857 704.443 240.302 -88.0 90.0
Hydrogen Chloride 7.25303 764.837 259.931 -114.2 51.5
Hydrogen Cyanide 8.08422 1655.87 292.228 -13.3 183.5
Hydrogen Fluoride 8.12392 1680.65 301.024 -83.4 188.0
Hydrogen Sulfide 7.11958 802.227 249.610 -85.5 100.4
Iodine 7.10736 1556.97 183.969 -31.2 546.0
Iron 8.37930 16213.5 88.5202 1435.0 2860.2
Lead 7.46345 9131.84 243.703 434.9 1749.0
Lead Oxide 9.24183 10820.3 227.032 943.0 1474.0
Magnesium 7.70612 6302.91 216.220 243.9 1090.0
Magnesium Chloride 7.13801 6698.78 161.047 778.0 1412.0
Magnesium Oxide 6.92276 13862.2 -170.464 2831.9 5676.9
Mercury 7.89458 3147.61 271.104 -38.8 1461.9
Methane 6.84566 435.621 271.361 -182.5 -82.6
Methanol 8.01926 1582.91 239.096 -97.9 239.4
Methyl Acetate 7.28036 1276.29 233.155 -98.0 233.7
Methyl Bromide 7.09084 1046.066 244.914 -70 3.6
Methyl Chloride 6.99771 870.170 235.586 -140.2 143.1
Methyl Ethyl Ketone 7.20103 1325.15 227.039 -85.0 262.4
Methyl Isobutyl Ketone 6.67272 1168.408 191.944 21.7 116.2
Methyl Methacrylate 8.40919 2050.467 274.369 39.2 89.2
Methylamine 7.3369 1025.40 233.286 -93.5 156.9
Methylcyclohexane 6.82827 1273.673 221.723 25.6 101.8
Naphthalene 6.89116 1551.48 168.879 3.2 475.3
Nickel 8.76372 17953.7 138.854 1480.0 3200.0
Nitric Acid 7.56453 1431.75 222.686 -41.6 103.0
Nitrobenzene 7.53814 2018.37 22.575 5.76 445.9
Nitromethane 7.28166 1446.9377 227.6 55.7 136.4
Nitrogen 6.72531 285.573 270.087 -210.0 -147.1
Nitrogen Dioxide 9.74325 2289.63 312.647 -11.2 158.2
Nitric Oxide 7.70299 473.030 249.866 -163.7 -93.0
Nitrogen Pentoxide 11.9325 2617.65 256.190 -36.8 33.0
Nitrogen Tetraoxide 4.09407 97.8287 59.4731 -11.3 47.5
Nitrous Oxide 6.81488 550.604 228.438 -90.9 36.4
n-Nonane 7.18840 1607.74 222.414 -53.5 322.5
1-Nonene 6.95777 1437.862 205.814 66.6 147.9
n-Octane 7.14462 1498.96 225.874 -56.8 295.7
i-Octane 6.88814 1319.529 211.625 41.7 118.5
1-Octane 6.93637 1355.779 213.022 44.9 122.2
Oxalic Acid 8.20735 2370.64 149.212 189.5 530.9
Oxygen 6.83706 339.209 268.702 -218.8 -118.6
n-Pentane 7.00877 1134.15 238.678 -129.7 196.5
Isopentane 7.03015 1140.15 247.012 -159.9 187.3
i-Pentane 6.73457 992.019 229.564 16.3 28.6
1-Pentanol 7.18246 1287.625 161.33 74.7 156
1-Pentene 7.02741 1132.42 243.136 -163.2 191.6
Phenol 7.36724 1629.51 181.369 -9.7 421.1
Phosphorus(red) 8.06420 2397.83 229.599 182.0 720.9
Phosphorus 7.06315 2016.60 201.670 131.0 317.0
Phosphorus Pentoxide 10.7453 6470.48 217.748 203.0 700.0
Propane 7.01887 889.864 257.084 -187.7 96.7
Propylene 7.01612 860.992 255.895 -184.2 91.6
n-Propyl Alcohol 7.77374 1518.16 213.076 -73.2 263.6
Isopropyl Alcohol 7.83056 1483.30 217.413 -87.9 235.2
1-Propanol 7.74416 1437.686 198.463 60.2 104.6
2-Propanol 7.74021 1359.517 197.527 52.3 89.3
Propionic Acid 7.71423 1733.418 217.724 72.4 128.3
Propylene Oxide 7.01443 1086.369 228.594 -24.2 34.8
Pyridine 7.04115 1373.799 214.979 67.3 152.9
Sodium Chloride 7.96318 8432.24 194.065 800.8 1465.1
Sodium Cyanide 7.38628 7836.86 243.409 563.7 1496.0
Sodium Hydroxide 7.46511 7606.44 280.160 500.0 1600.0
Sodium Sulfate 7.74474 15657.2 273.156 900.0 950.0
Sulfur Dioxide 7.33311 1013.46 237.647 -75.5 157.6
Sulfur Trioxide 6.85638 754.818 145.114 16.8 217.7
Sulfuric Acid 8.28538 2976.84 213.951 25.0 336.9
Styrene 7.06623 1507.434 214.985 29.9 144.8
Toluene 7.13620 1457.29 231.827 -95.0 318.6
1,1,1-Trichloroethane 8.64344 2136.621 302.769 -5.4 16.9
1,1,2-Trichloroethane 6.95185 1314.41 209.197 50 113.7
Trichloroethylene 6.51827 1018.603 192.731 17.8 86.5
Vinyl Acetate 7.2101 1296.13 226.655 21.8 72
Water 8.05573 1723.64 233.076 0 374.0
m-Xylene 7.18115 1573.02 226.671 -47.9 343.9
o-Xylene 7.14914 1566.59 222.596 -25.2 357.22
p-Xylene 7.15471 1553.95 225.230 13.3 343.1
Zinc 8.44744 6819.18 318.012 419.6 2896.9

Section 10.11 – Heat capacity

Heat capacity is defined in another section. Two different polynomial forms and corresponding coefficients for many components are given here. These tables provide data for heat capacity and enthalpy calculations.

The first polynomial equation requires up to four constants and applies for many solids, liquids, and gases.

CP = a + b · T + c · T2 + d · T3

where CP is in either kJ/(mol∙°C) or kJ/(mol∙K), and T is in either °C or K.

Table 10.11.1: Heat capacity data for common components.
Component State a b c d Temp Unit Range (Low T) Range (High T)
Acetone liquid 1.230E-01 1.860E-04 —– —– ºC -90
Acetone gas 7.196E-02 2.010E-04 -1.278E-07 3.476E-11 ºC 0 1200
Acetylene gas 4.243E-02 6.053E-05 -5.033E-08 1.820E-11 ºC 0 1200
Air gas 2.894E-02 4.147E-06 3.191E-09 -1.965E-12 ºC 0 1500
Ammonia gas 3.515E-02 2.954E-05 4.421E-09 -6.686E-12 ºC 0 1200
Ammonium Sulfate solid 2.159E-01 —– —– —– K 275 328
Benzene liquid 1.265E-01 2.340E-04 —– —– ºC 6 67
Benzene gas 7.406E-02 3.295E-04 -2.520E-07 7.757E-11 ºC 0 1200
Isobutane gas 8.946E-02 3.013E-04 -1.891E-07 4.987E-11 ºC 0 1200
n-Butane gas 9.230E-02 2.788E-04 -1.547E-07 3.498E-11 ºC 0 1200
Isobutene gas 8.288E-02 2.564E-04 -1.727E-07 5.050E-11 ºC 0 1200
Calcium Hydroxide solid 8.950E-02 —– —– —– K 276 373
Carbon Dioxide gas 3.611E-02 4.233E-05 -2.887E-08 7.464E-12 ºC 0 1500
Carbon Monoxide gas 2.895E-02 4.110E-06 3.548E-09 -2.220E-12 ºC 0 1501
Carbon Tetrachloride liquid 9.339E-02 1.298E-04 —– —– K 273 343
Chlorine gas 3.360E-02 1.367E-05 -1.607E-08 6.473E-12 ºC 0 1200
Copper solid 2.276E-02 6.117E-06 —– —– K 273 1357
Cumene (Isopropyl Benzene) gas 1.392E-01 5.376E-04 -3.979E-07 1.205E-10 ºC 0 1200
Cyclohexane gas 9.414E-02 4.962E-04 -1.390E-07 8.063E-11 ºC 0 1200
Cyclopentane gas 7.339E-02 3.928E-04 -2.554E-07 6.866E-11 ºC 0 1200
Ethane gas 4.937E-02 1.392E-04 -5.816E-08 7.280E-12 ºC 0 1200
Ethanol liquid 9.839E-02 —– —– —– ºC 25 75
Ethanol gas 6.134E-02 1.572E-04 -8.749E-08 1.983E-11 ºC 0 1200
Ethylene gas 4.075E-02 1.147E-04 -6.891E-08 1.766E-11 ºC 0 1200
Formaldehyde gas 3.428E-02 4.268E-05 —– -8.694E-12 ºC 0 1200
Helium gas 2.080E-02 —– —– —– ºC 0 1200
n-Hexane liquid 2.163E-01 —– —– —– ºC 20 100
n-Hexane gas 1.374E-01 4.085E-04 -2.392E-07 5.766E-11 ºC 0 1200
Hydrogen gas 2.884E-02 7.650E-08 3.288E-09 -8.698E-13 ºC 0 1500
Hydrogen Bromide gas 2.910E-02 -2.270E-07 9.887E-09 -4.858E-12 ºC 0 1200
Hydrogen Chloride gas 2.913E-02 -1.341E-06 9.715E-09 -4.335E-12 ºC 0 1200
Hydrogen Cyanide gas 3.530E-02 2.908E-05 -1.092E-08 —– ºC 0 1200
Hydrogen Sulfide gas 3.351E-02 1.547E-05 3.012E-09 -3.292E-12 ºC 0 1500
Magnesium Chloride solid 7.240E-02 1.580E-05 —– —– K 273 991
Methane gas 3.431E-02 5.469E-05 3.661E-09 -1.100E-11 ºC 0 1200
Methanol liquid 7.586E-02 1.683E-04 —– —– ºC 0 65
Methanol gas 4.293E-02 8.301E-05 -1.870E-08 -8.030E-12 ºC 0 700
Methyl Cyclohexane gas 1.213E-01 5.653E-04 -3.772E-07 1.008E-10 ºC 0 1200
Methyl Cyclopentane gas 9.883E-02 4.586E-04 -3.044E-07 8.381E-11 ºC 0 1200
Nitric Oxide liquid 1.100E-01 —– —– —– ºC 25
Nitric Oxide gas 2.950E-02 8.188E-06 -2.925E-09 3.652E-13 ºC 0 3500
Nitrogen gas 2.900E-02 2.199E-06 5.723E-09 -2.871E-12 ºC 0 1500
Nitrogen Dioxide gas 3.607E-02 3.970E-05 -2.880E-08 7.870E-12 ºC 0 1200
Nitrogen Tetraoxide gas 7.570E-02 1.250E-04 -1.130E-07 —– ºC 0 300
Nitrous Oxide gas 3.766E-02 4.151E-05 -2.694E-08 1.057E-11 ºC 0 1200
Oxygen gas 2.910E-02 1.158E-05 -6.076E-09 1.311E-12 ºC 0 1500
n-Pentane liquid 1.554E-01 4.368E-04 —– —– ºC 0 36
n-Pentane gas 1.148E-01 3.409E-04 -1.899E-07 4.226E-11 ºC 0 1200
Propane gas 6.803E-02 2.259E-04 -1.311E-07 3.171E-11 ºC 0 1200
Propylene gas 5.958E-02 1.771E-04 -1.017E-07 2.460E-11 ºC 0 1200
Sodium Carbonate solid 1.210E-01 —– —– —– K 288 371
Sodium Carbonate – Decahydrate solid 5.356E-01 —– —– —– K 298
Sulfur (rhombic) solid 1.520E-02 2.680E-05 —– —– K 373 368
Sulfur (monoclinic) solid 1.830E-02 1.840E-05 —– —– K 368 392
Sulfuric Acid liquid 1.391E-01 1.559E-04 —– —– ºC 10 45
Sulfur Dioxide gas 3.891E-02 3.904E-05 -3.104E-08 8.606E-12 ºC 0 1500
Sulfur Trioxide gas 4.850E-02 9.188E-05 -8.540E-08 3.240E-11 ºC 0 1000
Toluene liquid 1.488E-01 3.240E-04 —– —– ºC 0 110
Toluene gas 9.418E-02 3.800E-04 -2.786E-07 8.033E-11 ºC 0 1200
Water liquid 7.540E-02 —– —– —– ºC 0 100
Water gas 3.346E-02 6.880E-06 7.604E-09 -3.593E-12 ºC 0 1500

A second polynomial equation requires three constants, always uses K as the temperature unit, and applies only for components in the solid phase.

CP = a + b · T + cT2

where CP has units of kJ/mol-K and T has units of or K.

Table 10.11.2: Heat capacity data for some components.
Component a b c Range (Low T) Range (High T)
Calcium Carbide 6.862E-02 1.190E-05 -8.660E+02 298 720
Calcium Carbonate 8.234E-02 4.975E-05 -1.287E+03 273 1033
Calcium Oxide 4.184E-02 2.030E-05 -4.520E+02 273 1173
Carbon 1.118E-02 1.095E-05 -4.891E+02 273 1373
Ferric Oxide 1.034E-01 6.711E-05 -1.772E+03 273 1097
Magnesium Oxide 4.544E-02 5.008E-06 -8.732E+02 273 2073

Section 10.12 – Heat of solution for three common solutions

The enthalpy path related to heat of solution is in another section. These enthalpies are all at 25°C.

Table 10.12.1: Heat of solution.
r
[mol H2O/mol solute]		 (∆hs)HCl(g)
[kJ/mol HCl]		 (∆hs)NaOH(s)
[kJ/mol NaOH]		 (∆hs)H2SO4
[kJ/mol H2SO4]
1 -26.22 -28.07
2 -48.82 -41.92
3 -56.85 -28.87 -48.99
4 -61.20 -34.43 -54.06
5 -64.05 -37.74 -58.03
10 -69.49 -42.51 -67.03
50 -73.26 -42.51 -73.34
100 -73.85 -42.34 -73.97
500 -74.52 -42.38 -76.73
1000 -74.68 -42.47 -78.57
5000 -74.93 -42.68 -84.43
10000 -74.99 -42.72 -87.07
-75.14 -42.89 -96.19

Tables from appendix of “Material and Energy Balances” (Matthew Liberatore). Copyright © “zyBooks” 2016.