High-Efficiency Furnaces & Safety Devices
Condensing furnaces, heat exchangers, inducer motors, limit switches, pressure switches, rollout switches, spill switches, condensate management, and lockout diagnosis.
- Distinguish between standard and high-efficiency condensing furnaces
- Explain heat exchanger function, failure signs, and CO dangers
- Describe inducer motor and pressure switch operation and diagnostics
- Identify safety devices including limit, rollout, and spill switches
- Explain condensate drain, neutralizer, and lockout diagnosis procedures
Leçon 1
Standard vs High-Efficiency Furnaces
Efficiency Ratings
Standard Efficiency (80% AFUE)
Category: Category I
Venting: Type B vent or chimney
Heat exchanger: Single (primary only)
Flue temp: 300-500F
Condensation: None
High-Efficiency (90-98% AFUE)
Category: Category IV
Venting: PVC, CPVC, or polypropylene
Heat exchanger: Primary + secondary (condensing)
Flue temp: 100-130F
Condensation: Yes - requires drain
How Condensing Furnaces Work
A condensing furnace extracts so much heat from the flue gases that water vapor in the combustion products condenses back to liquid. This phase change releases additional heat (latent heat of vaporization), boosting efficiency above 90%.
The condensation process:
- Combustion in the primary heat exchanger (same as standard)
- Hot gases pass through the secondary (condensing) heat exchanger
- Return air absorbs additional heat, cooling flue gases below dew point (approximately 130F)
- Water vapor condenses on the secondary exchanger surfaces
- Condensate drains to a collection system
High-efficiency condensing furnaces achieve 90-98% AFUE by extracting latent heat from flue gases through a secondary heat exchanger. They produce acidic condensate (pH 3-4) and use PVC/CPVC venting because flue temperatures are low enough for plastic.