[tex]86.5\; \%[/tex] of octane had been converted to carbon dioxide CO₂.
Octane has a molar mass of
[tex]12.01 \times 8 + 1.008 \times 18 = 114.22 \; \text{g} \cdot \text{mol}^{-1}[/tex]
1.000 gallon of this fuel would have a mass of 2.650 kilograms or [tex]2.65 \times 10^{3} \; \text{g}[/tex], which corresponds to [tex]2.65 \times 10^{3} / 114.22 = 23.2\; \text{mol}[/tex] of octane.
Octane undergoes complete combustion to produce carbon dioxide and water by the following equation:
[tex]2\; \text{C}_8\text{H}_{18} + 25 \; \text{O}_2 \to 16 \; \text{CO}_2 + 18 \; \text{H}_2\text{O}[/tex]
An incomplete combustion of octane that gives rise to carbon monoxide and water but no carbon dioxide would consume not as much oxygen:
[tex]2\; \text{C}_8\text{H}_{18} + 17 \; \text{O}_2 \to 16 \; \text{CO} + 18 \; \text{H}_2\text{O}[/tex]
The mass of the product mixture is [tex]11.53 - 2.65 = 8.88 \; \text{kg}[/tex] heavier than that of the octane supplied. Thus [tex]8.88 \; \text{kg} = 8.88 \times 10^{3} \; \text{g}[/tex] of oxygen were consumed in the combustion. There are [tex]277.5 \; \text{mol} [/tex] of oxygen molecules in [tex]8.88 \times 10^{3} \; \text{g}[/tex] of oxygen.
Let the number of moles of octane that had undergone complete combustion as seen in the first equation be [tex]x[/tex] ([tex]0 \le x \le 23.2[/tex]). The number of moles of octane that had undergone incomplete combustion through the second equation would thus equal [tex]23.2 - x[/tex].
25 moles of oxygen gas is consumed for every two moles of octane that had undergone complete combustion and 17 moles if the combustion is incomplete.
[tex]n(\text{O}_2, \; \text{Complete Combustion}) + n(\text{O}_2, \; \text{Incomplete Combustion} ) = n(\text{O}_2, \; \text{Consumed})\\[/tex]
[tex]\frac{25}{2} \; x + \frac{17}{2} \; (23.2 - x) = 277.5\\4 \; x = 277.5 - \frac{17}{2} \times 23.2\\x = 20.1[/tex]
Therefore [tex]20.1 \; \text{mol}[/tex] out of the 23.2 moles of octane had undergone complete combustion to produce carbon dioxide.
[tex]\%n(\text{Complete Combustion}) = 20.1 / 23.2 \times 100 \; \%= 86.5\; \%[/tex]
