Flue Gases Average Dew Point Typical Fuels
Reference data and engineering information about flue gases average dew point typical fuels for air psychrometrics applications.
Overview
Engineering reference data for Flue Gases Average Dew Point Typical Fuels in air psychrometrics.
Key Formulas
Humidity Ratio
Mass of water vapor per mass of dry air.
Relative Humidity
Ratio of actual to saturation vapor pressure.
Wet Bulb Temperature
Temperature measured by wet-bulb thermometer.
Enthalpy of Moist Air
Sensible + latent heat per unit mass of dry air.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Humidity ratio | kg/kg | |
| Relative humidity | % | |
| Vapor pressure | Pa | |
| Saturation vapor pressure | Pa | |
| Dry bulb temperature | °C | |
| Wet bulb temperature | °C |
Fuel Dew Points
The following table provides typical dew point temperatures for flue gases from common fuel types, based on standard combustion conditions.
Fuel Type(-) | Average Dew Point(°C (°F)) |
|---|---|
| Anthracite | 35 - 40 (95 - 104) |
| Bituminous Coal | 40 - 50 (104 - 122) |
| Semi-bituminous Coal | 45 - 55 (113 - 131) |
| Manufactured Gas | 30 - 35 (86 - 95) |
| Natural Gas | 38 - 45 (100 - 113) |
| Fuel Oil | 60 - 80 (140 - 176) |
Source: engineeringtoolbox.com
Practical Insights
The dew point temperature is critical for designing heat recovery systems and preventing corrosion. A key factor influencing the dew point is the excess air ratio. Operating with lower excess air generally lowers the dew point slightly, but the dominant factor is the fuel's sulfur and hydrogen content. Fuels with higher sulfur content (e.g., Fuel Oil) produce sulfur oxides (SO₂/SO₃), which combine with water vapor to form sulfuric acid, significantly raising the acid dew point.
Note: The values above are approximate. For precise design, the acid dew point must be calculated considering the specific fuel's composition (especially sulfur content) and the actual flue gas composition.