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Water Vapor Saturation Pressure Air

Reference data and engineering information about water vapor saturation pressure air for thermodynamics applications.

watervaporsaturationpressure

Overview

Engineering reference data for Water Vapor Saturation Pressure Air in thermodynamics.

Key Formulas

First Law

ΔU=QW\Delta U = Q - W

Energy is conserved — heat added minus work done.

Ideal Gas Law

PV=nRTPV = nRT

Relates pressure, volume, and temperature of an ideal gas.

Heat Transfer

Q=mcΔTQ = mc\Delta T

Sensible heat transfer.

Carnot Efficiency

η=1TC/TH\eta = 1 - T_C/T_H

Maximum efficiency between two temperatures.

Variables

SymbolDescriptionUnit
UUInternal energyJ
QQHeatJ
WWWorkJ
PPPressurePa
VVVolume
TTTemperatureK

Important Note

The equations on this page are for pure water vapor, not moist air. Water vapor is almost always present in the surrounding air, and its saturation properties are critical for HVAC, meteorology, and process engineering calculations.

Water Vapor Saturation Pressure

The maximum saturation pressure of water vapor in moist air varies with the temperature of the air-vapor mixture:

pws=e(77.3450+0.0057T7235/T)T8.2p_{ws} = \frac{e^{(77.3450 + 0.0057T - 7235/T)}}{T^{8.2}}

where:

  • pwsp_{ws} = water vapor saturation pressure (Pa)
  • ee = Euler's number (≈ 2.718)
  • TT = dry bulb temperature of the moist air (K)

Water Vapor Density

The density of water vapor can be expressed as:

ρw=0.0022pwT\rho_w = \frac{0.0022 \, p_w}{T}

where:

  • pwp_w = partial pressure of water vapor (Pa)
  • ρw\rho_w = density of water vapor (kg/m³)
  • TT = absolute dry bulb temperature (K)

Saturation Pressure and Density Reference Table

16 rows
Saturation pressure and density of water vapor vs. temperature
Temperature(°C)
Temperature(°F)
Saturation Pressure(Pa)
Saturation Pressure(mmHg)
Saturation Pressure(psia)
Density(kg/m³)
Density(×10⁻³ lb/ft³)
0326034.60.090.0050.3
105012129.20.180.0090.59
2068231017.40.330.0171.08
3086419531.70.610.031.9
40104729755.11.060.0513.2
501221221092.21.80.0835.19
60140197241492.90.138.13
70158308662334.50.212.3
80176469253546.80.2918.2
901946948552510.10.4226.3
10021210044675814.60.5936.9
120248196849148628.61.168.7
140284358137270451.91.91119
160320611728461988.73.11194
18035699002274751444.8300
2003921529627115492227.11444

Source: engineeringtoolbox.com

Example Calculation

Calculate the saturation pressure of water vapor at 25 °C:

Step 1: Convert temperature to Kelvin:

T=25°C+273=298KT = 25\,°C + 273 = 298\,K

Step 2: Apply Equation (1):

pws=e(77.3450+0.0057×2987235/298)2988.2=3130 Pap_{ws} = \frac{e^{(77.3450 + 0.0057 \times 298 - 7235/298)}}{298^{8.2}} = 3130 \text{ Pa}

Unit Conversion Reference

FromToMultiply by
1 lb/ft³kg/m³16.018
1 kg/m³lb/ft³0.0624

Interactive Charts

Water vapor - temperature saturation pressure diagram

References