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Basics of Steam

How to Read a Steam Table

Just as a map (or GPS navigation system) is necessary when driving in a new area or a flight timetable is indispensable when taking the plane, steam tables are essential to steam users in industry. This article will introduce steam tables, pointing out the different types and offering an overview of the different elements found within them.

Saturated Steam Tables

A saturated steam table is an indispensable tool for any engineer working with steam. It's typically used to determine saturated steam temperature from steam pressure, or the opposite: pressure from saturated steam temperature. In addition to pressure and temperature, these tables usually include other related values such as specific enthalpy (h) and specific volume (v).

The data found in a saturated steam table always refers to steam at a particular saturation point, also known as the boiling point. This is the point where water (liquid) and steam (gas) can coexist at the same temperature and pressure. Because H2O can be either liquid or gas at its saturation point, two sets of data are required: data for saturated water (liquid), which is typically marked with an "f" in subscript, and data for saturated steam (gas), which is typically marked using a "g" in subscript.

Example of Saturated Steam Table

Legend:

  • P = Pressure of the steam/water
  • T = Saturation point of steam/water (boiling point)
  • vf = Specific volume of saturated water (liquid).
  • vg = Specific volume of saturated steam (gas).
  • hf = Specific enthalpy of saturated water (energy required to heat water from 0°C (32°F) to the boiling point)
  • hfg = Latent heat of evaporation (energy required to transform saturated water into dry saturated steam)
  • hg = Specific enthalpy of saturated steam (total energy required to generate steam from water at 0°C (32°F)).

Heating processes using steam generally use the latent heat of evaporation (Hfg) to heat the product. As seen in the table, this latent heat of evaporation is greatest at lower pressures. As saturated steam pressure rises, the latent heat of evaporation gradually decreases until it reaches 0 at supercritical pressure, i.e. 22.06 MPa (3200 psi).

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Two Formats: Pressure Based and Temperature Based

Since saturated steam pressure and saturated steam temperature are directly related to one another, saturated steam tables are generally available in two different formats: based on pressure and based on temperature. Both types contain the same data that is simply sorted differently.

Pressure Based Saturated Steam Table

Press.
(Gauge)
Temp. Specific Volume Specific Enthalpy
psig °F ft3/lb Btu/lb
P T Vf Vg Hf Hfg Hg
0 212 0.016719 26.799 180.17 970.3 1150.5
50 297.67 0.01743 6.683 267.3 911.7 1179.0
100 337.88 0.017850 3.8911 309.1 880.6 1189.6
150 365.87 0.01818 2.7563 338.5 857.0 1195.6

Temperature Based Saturated Steam Table

Temp. Press.
(Gauge)
Specific Volume Specific Enthalpy
°F psig ft3/lb Btu/lb
T P Vf Vg Hf Hfg Hg
212 0.093 0.016719 26.799 1803.17 970.3 1150.5
220 2.490 0.016775 23.148 188.23 965.2 1153.4
230 6.083 0.016849 19.381 198.33 958.7 1157.1
240 10.272 0.016926 16.321 208.45 952.1 1160.6
250 15.129 0.017006 13.819 218.59 945.4 1164.0
260 20.731 0.017089 11.762 228.76 938.6 1167.4

Different Units: Gauge Pressure and Absolute Pressure

Saturated steam tables can also use two different types of pressure: absolute pressure and gauge pressure.

  • Absolute pressure is zero-referenced against a perfect vacuum.
  • Gauge pressure is zero-referenced against atmospheric pressure (101.3 kPa, or 14.7 psi).

Saturated Steam Table using Absolute Pressure

Press
(Abs.)
Temp. Specific Volume Specific Enthalpy
psi °F ft3/lb Btu/lb
P T Vf Vg Hf Hfg Hg
0 -- -- -- -- -- --
50 281.02 0.017274 8.5140 250.2 923.9 1174.1
100 327.82 0.017740 4.4310 298.5 888.6 1187.2
150 358.43 0.01809 3.0139 330.6 863.4 1194.1

Saturated Steam Table using Gauge Pressure

Press.
(Gauge)
Temp. Specific Volume Specific Enthalpy
psig °F ft3/lb Btu/lb
P T Vf Vg Hf Hfg Hg
0 212 0.016719 26.799 180.17 970.3 1150.5
50 297.67 0.01743 6.683 267.3 911.7 1179.0
100 337.88 0.017850 3.8911 309.1 880.6 1189.6
150 365.87 0.01818 2.7563 338.5 857.0 1195.6

Gauge pressure was created because it is often easier to reference measured pressure against the pressure we normally experience.

Steam tables based on gauge pressure indicate atmospheric pressure as 0, while steam tables based on absolute pressure indicate it as 101.3 kPa (14.7 psi). Also, to distinguish gauge pressure from absolute pressure, a "g" is typically added to the end of the pressure unit, for example kPaG or psig.

Converting Gauge Units to Absolute Units

For SI Units

Steam Pressure [kPa abs] = Steam Pressure [kPaG] + 101.3 kPa

For Imperial Units

Steam Pressure [psi abs] = Steam Pressure [psiG] + 14.7 psi

Important note: Problems can easily occur when absolute pressure is mistaken for gauge pressure (or vice versa), so it is always extremely important to pay close attention to the pressure units used in the table.

Summary Table

Gauge pressure:

  • Zero-referenced against Atmospheric Pressure*
  • Zero pressure = Atmospheric Pressure

Absolute pressure:

  • Zero-referenced against Absolute Pressure
  • Zero pressure = Perfect Vacuum

*Atmospheric pressure is 101.3 kPa (14.7 psi)

Superheated Steam Tables

Values related to superheated steam cannot be obtained through a regular saturated steam table, but rather require the use of a Superheated Steam Table. This is because the temperature of superheated steam, unlike saturated steam, can vary considerably for a same pressure.

In fact, the number of possible temperature-pressure combinations is so great that it would be virtually impossible to gather them all in a single table. As a result, a large number of superheated steam tables use representative pressure-temperature values to form a summary table.

Example of Superheated Steam Table

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The above superheated steam table contains data about Specific Volume (Vg), Specific Enthalpy (Hg) and Specific Heat (Sg) at typical values of pressure and temperature.