Air at 60°C and 97% relative humidity is cooled to 25°C. Gas and the liquid streams leave the cooler. The existing saturated vapor flows at a rate of 510 m^3/min. Consider 1 atm constant for the...

Air at 60°C and 97% relative humidity is cooled to 25°C. Gas and the liquid streams leave the cooler. The existing saturated vapor flows at a rate of 510 m^3/min. Consider 1 atm constant for the process. Given: R=0.082 L atm/mol K, DeltaH^vH2O(Tb)= 40.656 kJ/ mol, Cp H2Ov= 0.03346 kJ/mol °C, CpH2Ol= 0.0754 kJ/mol°C, Cp air= 0.02894 kJ/mol°C, Q•=DeltaH•=sum(n out H^ out) - sum(n in H^ in), hr=pA/pA*(T)
a. Draw and completely label yhe process flow diagram for this system.
b. Calculate all missing mole fractions and molar flow rates.
c. Specify the reference states used for your enthalpy calculations.
d. Calculate all missing specific enthalpies. Clearly indicate those in the enthalpy table.
e. Calculate the cooling rate required for the process