C4H8 + 6 02 → 4 CO2 + 4 H2O a)Which reactant is limiting? b) Assume the stoichiometric coefficients to have units of kmol. Š = ? NC4H8 = ? kmol NCO2 = ? kmol nO2 = ? kmol NH2O= ? kmol c) By how much is the other reactant in excess %? d) If the reaction proceeds to a 75.9 % fractional conversion of 2-butene , calculate the number of moles of all components remaining and calculate the extent of reaction. NC4H8= ? kmol NCO2= ? kmol nO2=? kmol NH2O=? kmol

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Batch combustion of 261 kg of 2-butene (C4H8) and 749 kg of oxygen (O2) proceeds to form carbon dioxide and water. If the reaction below goes to completion, provide the number of moles of all components remaining and calculate the extent of reaction. \[ \text{C4H8} + 6 \text{O2} \rightarrow 4 \text{CO2} + 4 \text{H2O} \] a) Which reactant is limiting? b) Assume the stoichiometric coefficients to have units of kmol. \[\xi = ?\] \[ n \text{C4H8} = ? \, \text{kmol} \quad n \text{CO2} = ? \, \text{kmol} \] \[ n \text{O2} = ? \, \text{kmol} \quad n \text{H2O} = ? \, \text{kmol} \] c) By how much is the other reactant in excess %? d) If the reaction proceeds to a 75.9% fractional conversion of 2-butene, calculate the number of moles of all components remaining and calculate the extent of reaction. \[\xi =\] \[ n \text{C4H8} = ? \, \text{kmol} \quad n \text{CO2} = ? \, \text{kmol} \] \[ n \text{O2} = ? \, \text{kmol} \quad n \text{H2O} = ? \, \text{kmol} \]