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Fuel Gases Combustion Values

Reference data and engineering information about fuel gases combustion values for combustion applications.

fuelgasescombustionvalues

Overview

Engineering reference data for Fuel Gases Combustion Values in combustion engineering.

Key Formulas

Heat Release

Q=m˙HVQ = \dot{m} \cdot HV

Fuel energy release rate.

Air-Fuel Ratio

AF=mairmfuelAF = \frac{m_{air}}{m_{fuel}}

Mass of air per mass of fuel.

Excess Air

EA=O221O2×100%EA = \frac{O_2}{21 - O_2} \times 100\%

From flue gas oxygen measurement.

Variables

SymbolDescriptionUnit
QQHeat release rateW
m˙\dot{m}Mass flow ratekg/s
HVHVHeating valueJ/kg
AFAFAir-fuel ratio

Combustion Values Data

17 rows
Combustion (heat) values and specific gravities for common fuel gases
Fuel Gas
Combustion Value(Btu/ft³)
Specific Gravity
Acetylene14980.91
Blast Furnace Gas921.02
Butane31841.95
Butylene (Butene)30771.94
Carbon Monoxide3230.97
Carburated Water Gas5500.63
Coke Oven Gas5700.40
Digester (Sewage) Gas6900.80
Ethane17831.06
Hydrogen3250.07
Manufactured Gas500-
Methane10110.55
Natural Gas9500.66
Propane25041.77
Propane-Butane Mix2500
Propylene (Propene)23321.45
Water Gas (bituminous)2610.71

Source: engineeringtoolbox.com

Unit Conversion Factors

The combustion values in Btu/ft³ can be converted to other common units:

1Btu/ft3=8.9kcal/m31 \, \text{Btu/ft}^3 = 8.9 \, \text{kcal/m}^3

1Btu/ft3=3.73×104J/m31 \, \text{Btu/ft}^3 = 3.73 \times 10^4 \, \text{J/m}^3

Notes on Specific Gravity

  • *Specific gravity < 1.0: Gas is lighter than air and will rise when released
    • Examples: Hydrogen (0.07), Methane (0.55), Natural Gas (0.66)
  • *Specific gravity > 1.0: Gas is heavier than air and will settle in low areas
    • Examples: Butane (1.95), Propane (1.77), Acetylene (0.91)
  • Air has a specific gravity of 1.0 (reference value)

Data Notes

  • Manufactured Gas and Natural Gas show ranges because composition varies by source and region
  • Propane-Butane Mix values depend on the mixing ratio (typically 60/40 or 70/30)
  • Combustion values represent higher heating value (HHV) unless otherwise specified

References