R410A vs R32 Refrigerant Comparison — Pressure, GWP, Safety
| Spec | R410A | R32 |
|---|---|---|
| Type | HFC Blend | HFC |
| GWP | 2,088 | 675 |
| Ozone Depletion | 0 | 0 |
| Safety Class | A1 | A2L |
| Boiling Point | -61°F | -61.2°F |
| Critical Temp | 161.7°F | 173.1°F |
| Status | AIM Act phase-down | Growing adoption |
Key Differences
R410A GWP 2,088 vs R32 GWP 675
Advantage: R32
R410A operates at standard pressures; R32 at moderate pressures
R410A: ASHRAE A1 (non-flammable); R32: ASHRAE A2L
Advantage: R410A
Recommendation
R32 has a lower GWP (675) compared to R410A (2,088). For new equipment purchases, R32 is the more future-proof choice given AIM Act HFC phase-down requirements. For retrofit/drop-in replacement in existing systems, consult the manufacturer's approved refrigerant list before switching.
Never mix refrigerants in a system. Mixing causes unpredictable pressure-temperature behavior, oil contamination, and potential acid formation. Always recover all refrigerant before switching types. Systems designed for R-22 typically require oil changes and component verification before accepting HFC alternatives.
Purchase and handling of refrigerants in containers larger than 2 lbs requires EPA Section 608 certification (Type I, II, or Universal depending on equipment type). Intentional venting of any refrigerant to atmosphere is illegal under the Clean Air Act.
Before substituting one refrigerant for another, verify: (1) compressor oil compatibility — POE oil required for most HFCs; (2) metering device adjustment — TXVs may need rerating; (3) system pressure ratings — some alternatives operate at higher pressures; (4) material compatibility — elastomers, gaskets, and seals must be rated for the new refrigerant.