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Saturated Ice Steam

Reference data and engineering information about saturated ice steam for miscellaneous applications.

saturatedicesteamData Table

Overview

Engineering reference data for Saturated Ice Steam in miscellaneous.

Key Formulas

Unit Conversion

y=xky = x \cdot k

Multiply by conversion factor.

Linear Interpolation

y=y1+(xx1)(y2y1)x2x1y = y_1 + \frac{(x - x_1)(y_2 - y_1)}{x_2 - x_1}

Estimate between two known points.

Percentage

p=partwhole×100%p = \frac{\text{part}}{\text{whole}} \times 100\%

Part as fraction of whole.

Variables

SymbolDescriptionUnit
xxInput value
yyOutput value
kkConversion factor

Saturated Ice and Steam Properties

5 rows
Thermodynamic properties of saturated ice and steam at various temperatures
Temperature (t)(°C)
Vapor Pressure (pₛ)(bar)
Specific Volume (solid)(m³/kg)
Specific Volume (vapor)(m³/kg)
Internal Energy (solid)(kJ/kg)
Internal Energy (vapor)(kJ/kg)
Enthalpy (solid)(kJ/kg)
Enthalpy (vapor)(kJ/kg)
Entropy (solid)(kJ/(kg·K))
Entropy (vapor)(kJ/(kg·K))
0.010.0061121.091206.1-333.52374.7-333.52500.8-1.2219.155
-100.0025981.089467.5-354.22360.8-354.22482.2-1.2989.481
-200.0010381.0871125-374.12346.8-374.12463.6-1.3759.835
-300.00038091.0862946-393.32332.9-393.32445.1-1.45210.221
-400.00012881.0848354-411.82319-411.82426.6-1.5310.664

Source: engineeringtoolbox.com

This table presents the thermodynamic properties of water at its triple point (0.01°C) and sub-zero temperatures, showing both the saturated solid (ice) and saturated vapor (steam) phases. Note the rapid increase in specific volume of the vapor phase as temperature decreases, indicating the exponential relationship between temperature and vapor pressure described by the Clausius-Clapeyron equation.

Interactive Charts

Ice - Thermal Properties

References