Combustion & Combustion Air
Complete vs incomplete combustion, flame characteristics, combustion air requirements, secondary air, and carbon monoxide hazards.
- Explain the difference between complete and incomplete combustion
- Identify proper flame characteristics for natural gas and propane
- Calculate combustion air requirements for confined and unconfined spaces
- Describe the causes and dangers of carbon monoxide production
- Explain the air-to-gas ratio for complete combustion
Lesson 1
Complete vs Incomplete Combustion
The Combustion Triangle
Combustion requires three elements: fuel, oxygen, and ignition. For gas appliances, fuel is natural gas or propane, oxygen comes from the air supply, and ignition is provided by the pilot, igniter, or spark.
Complete Combustion
Products: CO2, water vapor, nitrogen
Flame: Blue with defined inner cone
Air supply: Adequate oxygen
Efficiency: Maximum heat extraction
Safety: No toxic byproducts
Incomplete Combustion
Products: CO (carbon monoxide), soot, aldehydes
Flame: Yellow/orange, lazy, sooting
Air supply: Insufficient oxygen
Efficiency: Reduced heat output
Safety: DEADLY - produces CO
The Combustion Equation
For natural gas (methane - CH4):
CH4 + 2O2 = CO2 + 2H2O + Heat
This is the ideal complete combustion equation. In practice, approximately 10 cubic feet of air is required for every 1 cubic foot of natural gas for complete combustion. With excess air for safety, the actual ratio is approximately 15:1.
Complete combustion produces CO2 and water vapor - safe byproducts. Incomplete combustion produces deadly carbon monoxide (CO). The practical air-to-gas ratio is 15:1 for natural gas and 24:1 for propane.