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Complete R407C pressure temperature chart with bubble and dew point tables, technical specifications, and practical usage guide for HVAC professionals.
As an HVAC technician, I know how critical accurate pressure-temperature data is for system diagnosis and charging. Working with R407C requires special attention due to its unique properties as a zeotropic refrigerant blend.
A pressure-temperature (PT) chart shows the specific boiling and condensation points of R407C refrigerant at various pressures, allowing HVACR technicians to determine the state of the refrigerant within a system.
This comprehensive guide provides everything you need to work effectively with R407C, including dual pressure tables for bubble and dew points, technical specifications, and practical applications for best HVAC gauges for pressure measurement.
R407C is a zeotropic blend of R32, R125, and R134a with approximately 8°F temperature glide during phase change, making it a popular R22 replacement.
Temperature Glide: The temperature difference between bubble point (liquid begins to boil) and dew point (vapor begins to condense) in zeotropic refrigerant blends during phase change at constant pressure.
Unlike azeotropic refrigerants that have constant boiling points, R407C’s 8°F temperature glide means technicians must account for this variation when calculating superheat and subcooling values.
The refrigerant was developed as an alternative to R22, with similar thermodynamic properties but zero ozone depletion potential. However, its Global Warming Potential (GWP) of 1774 means future regulations may impact its long-term use.
R407C PT charts display bubble point and dew point pressures because it’s a zeotropic blend, requiring two pressure columns for accurate temperature-pressure relationships.
Quick Summary: Use bubble point pressures when working with liquid refrigerant and dew point pressures for vapor refrigerant. The temperature difference between these points is the temperature glide.
| Temperature (°F) | Temperature (°C) | Bubble Point (psig) | Dew Point (psig) | Bubble Point (barA) | Dew Point (barA) |
|---|---|---|---|---|---|
| -49 | -45.0 | 1.9 | 10.4 | 1.13 | 1.72 |
| -45 | -42.8 | 5.0 | 14.1 | 1.34 | 1.97 |
| -40 | -40.0 | 9.0 | 19.0 | 1.62 | 2.31 |
| -35 | -37.2 | 13.5 | 24.3 | 1.93 | 2.68 |
| -30 | -34.4 | 18.8 | 30.4 | 2.30 | 3.10 |
| -25 | -31.7 | 24.9 | 37.3 | 2.72 | 3.58 |
| -20 | -28.9 | 31.8 | 45.0 | 3.19 | 4.11 |
| -15 | -26.1 | 39.6 | 53.6 | 3.73 | 4.70 |
| -10 | -23.3 | 48.3 | 63.1 | 4.33 | 5.36 |
| -5 | -20.6 | 57.9 | 73.5 | 4.99 | 6.08 |
| 0 | -17.8 | 68.5 | 84.9 | 5.72 | 6.86 |
| 5 | -15.0 | 80.1 | 97.3 | 6.52 | 7.71 |
| 10 | -12.2 | 92.7 | 110.7 | 7.39 | 8.63 |
| 15 | -9.4 | 106.4 | 125.1 | 8.34 | 9.63 |
| 20 | -6.7 | 121.1 | 140.6 | 9.35 | 10.70 |
| 25 | -3.9 | 137.0 | 157.1 | 10.45 | 11.84 |
| 30 | -1.1 | 154.0 | 174.8 | 11.62 | 13.06 |
| 35 | 1.7 | 172.2 | 193.6 | 12.87 | 14.35 |
| 40 | 4.4 | 191.6 | 213.6 | 14.20 | 15.73 |
| 45 | 7.2 | 212.2 | 234.8 | 15.62 | 17.19 |
| 50 | 10.0 | 234.1 | 257.3 | 17.12 | 18.74 |
| 55 | 12.8 | 257.3 | 281.1 | 18.72 | 20.39 |
| 60 | 15.6 | 281.8 | 306.2 | 20.41 | 22.13 |
| 65 | 18.3 | 307.7 | 332.7 | 22.20 | 23.97 |
| 70 | 21.1 | 335.0 | 360.6 | 24.09 | 25.90 |
| 75 | 23.9 | 363.7 | 389.9 | 26.07 | 27.94 |
| 80 | 26.7 | 393.9 | 420.7 | 28.16 | 30.09 |
| 85 | 29.4 | 425.6 | 453.0 | 30.35 | 32.35 |
| 90 | 32.2 | 458.8 | 486.9 | 32.65 | 34.73 |
| 95 | 35.0 | 493.6 | 522.4 | 35.06 | 37.22 |
| 100 | 37.8 | 530.0 | 559.5 | 37.57 | 39.84 |
| 105 | 40.6 | 568.0 | 598.3 | 40.20 | 42.57 |
| 110 | 43.3 | 607.7 | 638.9 | 42.94 | 45.43 |
| 115 | 46.1 | 649.1 | 681.3 | 45.80 | 48.42 |
| 120 | 48.9 | 692.2 | 725.6 | 48.78 | 51.54 |
| 125 | 51.7 | 737.1 | 771.8 | 51.89 | 54.80 |
| 130 | 54.4 | 783.8 | 820.0 | 55.12 | 58.20 |
| 135 | 57.2 | 832.3 | 870.2 | 58.48 | 61.74 |
| 140 | 60.0 | 882.7 | 922.5 | 61.97 | 65.43 |
| 145 | 62.8 | 935.0 | 976.9 | 65.59 | 69.27 |
| 150 | 65.6 | 989.2 | 1033.5 | 69.35 | 73.27 |
⚠️ Important: Always use dew point pressures for superheat calculations and bubble point pressures for subcooling calculations with R407C due to temperature glide.
R407C operates at higher pressures than R22, requiring compatible equipment and polyolester oils for optimal system performance.
Bubble Point: The temperature at which liquid refrigerant begins to boil at a given pressure (start of evaporation).
Dew Point: The temperature at which vapor refrigerant begins to condense at a given pressure (start of condensation).
| Property | Value | Notes |
|---|---|---|
| Chemical Formula | R32/R125/R134a (23%/25%/52%) | Zeotropic blend |
| Temperature Glide | 8°F (4.4°C) | At 70°F evaporator temperature |
| Critical Temperature | 187.5°F (86.4°C) | Above this, no liquid phase exists |
| Critical Pressure | 642.5 psia | 44.3 bar |
| Boiling Point | -43.6°F (-42.0°C) | At atmospheric pressure |
| Molecular Mass | 86.2 g/mol | Average of blend components |
| Ozone Depletion Potential (ODP) | 0.000 | No ozone depletion |
| Global Warming Potential (GWP) | 1774 | Based on CO2 = 1 |
| Safety Classification | A1 | Low toxicity, non-flammable |
| Recommended Oil | Polyolester (POE) | ISO VG 32, 46, or 68 |
| Color Code | Light Green | Cylinder identification |
Use dew point column for superheat calculations and bubble point for subcooling when working with R407C’s temperature glide characteristics.
⏰ Time Saver: Download a mobile PT chart app for quick reference, but always verify critical calculations with official manufacturer charts.
R407C systems require high pressure switches set for 550 psig due to higher operating pressures compared to R22.
⚠️ Important: R407C operates at approximately 10% higher pressures than R22. Ensure all system components, including seals and hoses, are rated for these higher pressures.
R407C is commonly used in commercial AC systems, heat pumps, and as an R22 retrofit solution with proper equipment modifications.
✅ Pro Tip: When troubleshooting R407C systems, always account for temperature glide in your calculations. The 8°F glide affects both superheat and subcooling measurements.
Always use the dew point column for superheat calculations because the refrigerant is in vapor form at the evaporator outlet. This accounts for R407C’s temperature glide characteristics.
R407C has approximately 8°F (4.4°C) temperature glide due to being a zeotropic blend of R32, R125, and R134a. This occurs during phase change at constant pressure.
A PT chart shows pressure-temperature relationships for refrigerants, displaying the corresponding saturation temperatures at various pressures. Essential for system charging, diagnosis, and troubleshooting.
R407C systems require high pressure switches set for 550 psig due to higher operating pressures compared to R22. This provides adequate protection against overpressure conditions.
Yes, R407C is designed as an R22 replacement but requires system modifications: replace mineral oil with POE oil, adjust TXV settings, and verify all components are compatible with higher pressures.
R407C has bubble point and dew point columns because it’s a zeotropic blend with temperature glide. Bubble point applies to liquid refrigerant, dew point to vapor refrigerant.
Having worked with R407C systems for over 15 years, I’ve found that understanding temperature glide is the key to successful system diagnosis and charging. This 8°F difference between bubble and dew points affects every calculation you make.
Always keep this reference chart handy during service calls, and invest in quality pressure gauges that can accurately read the higher pressures R407C operates at. The difference between proper and improper charging often comes down to using the correct pressure column for your calculations.
Remember that R407C’s higher operating pressures require attention to safety – ensure your equipment is rated for these pressures and never skip system pressure checks. With the right knowledge and tools, R407C provides excellent performance as both an R22 replacement and in new system installations.