CALCULATION STEP 1: AMOUNT OF WATER SUCKED INTO THE COMPRESSOR
Amount of water sucked into
the compressor (m Water In)
0,00 [l/h]
CALCULATION STEP 2: CONDENSATE ACCUMULATION AFTER THE COMPRESSOR
Condensate failure n.d. compressor
0,00 [l/h]
Remaining residual moisture i. i.e. compressed air
0,00 [l/h]
CALCULATION STEP 3: CONDENSATE ACCUMULATION AFTER THE REFRIGERATION DRYER
Condensate failure n.d. refrigeration dryer
0,00 [l/h]
Remaining residual moisture i. i.e. compressed air
0,00 [l/h]
CALCULATION STEP 4: TOTAL CONDENSATE
Total condensate discharged
0,00 [l/h]
Remarks
- Air 100% saturated after compression
- Pressure at installation site 1.01325 bar (atmospheric pressure)
- The maximum humidity of the temperature at the installation site fmax TU [g/m³] is taken from a stored table
- The maximum humidity of the temperature after the compressor outlet fmax TA [g/m³] is taken from a stored table
- The maximum humidity of the temperature after the refrigeration dryer fmax T3 [g/m³] is taken from a stored table
Did you know that in a day shift (8h full load):
- at a volume flow of 1000 m³/h,
- a final compression pressure of 10 bar (g) and
- a humidity of 60% (at 30°C) a total of approx. 140 l condensate is produced?
