A mixture of carbon monoxide gas and propane in molar ratio 2:7 is combusted with 160% stoichiometric air in a reactor. The flowrate of the fuel is 0.32 kg/s. Assuming complete combustion, perform the following stoichiometric analysis on the system. a. One mole of fuel is equivalent to kg of fuel. b. For every one mole of total fuel, stoichiometric combustion. c. The stoichiometric AFR(mass) of the system is d. The volumetric (molar) analysis of the product stream is % HO, moles of air is required for 100% % O, and e. The total mass flow rate of the product stream is kg/s. % CO2, % N. A mixture of carbon monoxide gas and propane in molar ratio 2:7 is combusted with 160% stoichiometric air in a reactor. The flowrate of the fuel is 0.32 kg/s. Assuming complete combustion, perform the following stoichiometric analysis on the system. a. One mole of fuel is equivalent to kg of fuel. b. For every one mole of total fuel, stoichiometric combustion. c. The stoichiometric AFR(mass) of the system is d. The volumetric (molar) analysis of the product stream is % HO, moles of air is required for 100% % O, and e. The total mass flow rate of the product stream is kg/s. % CO2, % N.