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Model
EV
Performance Calculation
Customer
Data was saved
Air Data
Winter
Summer
Supply air
Exhaust air
Supply air
Exhaust air
Air flow
Nm
3
/h
CFM
kg/h
kg/s
l/min
l/s
m
3
/h
m
3
/s
Nl/min
Nm
3
/h
Nm
3
/s
SCFM
Temperature
°C
°C
°F
Relative humidity
%
Inlet air pressure (abs)
Pa
Pa
mmH
2
O
inH
2
O
psi
Inlet air pressure (abs)
Differential pressure
Pa
Pa
mmH
2
O
inH
2
O
psi
Differential pressure
Product Data
Rotor diameter
mm
Rotor depth
mm
Well height
mm
1.6
1.8
2
Rotational speed
rpm
Matrix Material
Aluminium (Condensation)
Epoxy (Condensation)
Hybrid with silica gel (Enthalpy)
Hybrid with molecular sieve (Enthalpy)
Silica gel (Adsorption)
Molecular sieve (Adsorption)
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Calculate performance
Customer
Customer
Object line 1
ObjectLine1
Object line 2
ObjectLine2
Performance calculation
Mollier
×
Error
Inlet air pressure (abs)
Pa
Temperature
°C
Relative humidity
%
Vapor Pressure
Pa
Humidity/ Dry air
kg/kg
Moisture Wet Air
kg/kg
Wet bulb temp.
°C
Entalphi dry air
kJ/kg
Cond. temp.
°C
Density
kg/m
3
Adiabatic moisture
kg/kg
Inlet air pressure (abs)
×
Elevation (above sea level)
Atmospheric pressure
Elevation (above sea level)
m
m
ft
Inlet air pressure (abs)
Pa
Differential pressure
×
The differential pressure is used to calculate the leakage in the rotor. The differential pressure is set as Supply air outlet minus Exhaust air inlet. Allowed values are within 0 to 600 Pa.