just e and f

4. (Multiple reactions; combustion). A fuel containing 45 mol\%. C3H6 and 45mol%C3Hx and 10 mol\% N2 enters a fumace at a rate of 2000SCMH, at 250C and Paage 5.0atm. Humidified ait (containing 10 mol\% water, remainder air) is fed to the furnace in a separate stream at 20% exeess. Alf of the fuel is burned the product contains no C2H6 and no C3H3. The ratio of CO2/COin the product stream is 15/1 (in moles/moles). a) Calculate the partial pressure of C2H6 in the feed stream b) Calculate the molar flow rate of the fuel in the feed stream, in mol/s c) Calculate the feed rate of oxygen, in mol/s d) Calculate the feed rate of humidified air, in mol/s e) Calculate the molar flow rate of each chemical species in the product stream, in mol/s. f) Calculate the molar composition of the product stream, on both the wet and dry basis. 4. (Multiple reactions; combustion). A fuel containing 45 mol\%. C3H6 and 45mol%C3Hx and 10 mol\% N2 enters a fumace at a rate of 2000SCMH, at 250C and Paage 5.0atm. Humidified ait (containing 10 mol\% water, remainder air) is fed to the furnace in a separate stream at 20% exeess. Alf of the fuel is burned the product contains no C2H6 and no C3H3. The ratio of CO2/COin the product stream is 15/1 (in moles/moles). a) Calculate the partial pressure of C2H6 in the feed stream b) Calculate the molar flow rate of the fuel in the feed stream, in mol/s c) Calculate the feed rate of oxygen, in mol/s d) Calculate the feed rate of humidified air, in mol/s e) Calculate the molar flow rate of each chemical species in the product stream, in mol/s. f) Calculate the molar composition of the product stream, on both the wet and dry basis