depends but usuaally around 32 deg c or 200 psi
The condensing temperature for an R-12 system with a head pressure of 175 psig would be approximately 119°F. This is based on typical saturation temperature-pressure relationship for R-12 refrigerant.
Liquid subcooling in a refrigeration system is the temperature difference between the liquid refrigerant's actual temperature and its saturation temperature at the condensing pressure. To calculate the liquid subcooling for R-22, you need to find the saturation temperature at 260 psig using a pressure-temperature chart, and then calculate the temperature difference between this saturation temperature and 108°F.
Liquids don't condense. They are already condensed. Also, condensation and boiling points vary with temperature according to their Pxy-Txy graphs. The "triple point" occurs at the exact temperature and pressure where the vapor, liquid, and solid states of an element all exist at once.If you wanted to figure this out on your own, here's a helpful link with plenty more information for you to read up on: http://tinyurl.com/nodvem
The process of steam condensing to form liquid water involves the transfer of heat energy from the steam to the surrounding cooler environment. As the steam loses heat, its temperature decreases and it undergoes a phase change from gas to liquid. This results in the formation of liquid water droplets.
When the air is saturated, it means that it holds the maximum amount of water vapor that it can at a given temperature and pressure. This often leads to humidity or potentially precipitation if the conditions are right.
The condensing temperature of argon is -185.86 degrees Celsius at atmospheric pressure.
Yes, R404 is denser than air. R404 is a refrigerant gas that is typically used in cooling systems and it is heavier than air, so it can sink and accumulate in low-lying areas.
NO
The standard condensing temperature of refrigerant 134a is around 130°F (54.4°C), and the standard evaporating temperature is around -15°F (-26.1°C).
12
The condensing point is the temperature at which a substance changes from a gas to a liquid during the process of condensation. It is the point at which vapor molecules lose enough heat energy to form a liquid.
Not without a proper conversion.
The discharge line is hotter than the condensing refrigerant because it is where the high-pressure, high-temperature refrigerant vapor exits the compressor after being compressed. The condensing refrigerant, on the other hand, is in the process of releasing heat to the surrounding environment in the condenser, leading to a lower temperature.
R-12..........
The condensing temperature for an R-12 system with a head pressure of 175 psig would be approximately 119°F. This is based on typical saturation temperature-pressure relationship for R-12 refrigerant.
The condensing temperature for an R22 system with a head pressure of 296 psig would typically be around 120-130°F. This is based on the saturation temperature corresponding to a pressure of 296 psig on the R22 pressure-temperature chart.
As rule of the thumb, refrigerant condensing temperature should between 1-2 degreeC higher than the exiting water temperature, this temperature difference is technically called condensing temperature approach. I f the approach is below or above means, system is flooded with refrigerant or system got starve. Above method is also effective in determining if the condenser shell needs maintenance for sclale, sludge build up removal. I am refrigeration mechanic.