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Characteristics |
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Expected improve of C.O.P by 10~15%
compared with existing C.F.C & HFC. Charging
amount can be reduced by 43~50% compared
with C.F.C & HFC Energy efficiency can be
improved by maximum 25% compared with
HCFC13& HFC23. Noise level can be reduced
compared with HCFC13 & HFC23 due to lower
vapor pressure.
Economical mineral oil can be used rather than expensive
ester oil, or PAG oil. Free from C.F.C / HFC
regulation for export refrigeration equipments. |
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 Replacement : R-13, R-23, R-503 |
| Application Range : Low temperature cooling system, |
| Possesses similar volumetric refrigerating effect to R22 and R407C. |
| Packing : 10 Kg/20 Kg/50 Kg Cylinder, Bulk Tank, ISO Tank Container |
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Physical Properties |
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| Product |
EP170 |
| Chemical Type |
HC |
| Molecular Mass ( Kg/Kmol ) |
30.1 |
| Density ( Kg/m3 ) ★ |
446.0 |
| Temperature Range |
Ultra low temp |
| Ozone depletion potential (CFC-11=1) |
0 |
| Global warming potential (CO2=1, 100yr ITH) ◇ |
3 |
| Normal boiling point (1.0 bar, abs) ★ |
-88.8℃ |
| Latent heat (1.0 bar, abs) ★ |
299 kJ/Kg |
| Toxicity |
None |
| Refrigerant mass charge size (R12=100%) |
None |
| Lubricant |
Mineral | |
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* All conditions given at +25℃ (dew point).
★ Boiling points at standard atmospheric pressure (101.325kPa)
◇ CO2 GWP based on 100 year integration time horizon, defined in the Intergovernmental Panel for Climate Change (IPCC)
* Scientific Assessment 1994, CO2 = 1. |
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