Fossil fuels answers
Answers to questions on Fossil fuels
Answers to Fossil fuels questions
1. (a) RON (Research octane number) refers to the auto-ignition tendency for a fuel. The lower the octane number the more likely the fuel is to auto-ignite under compression. Aromatic compounds such as methylbenzene have a higher octane rating than 100 as they are less likely to auto-ignite under compression than 2,2,4-trimethylpentane, i.e. they are less likely to cause ‘knocking’.
(b) Octane number = (87/100 x 100) + (8/100 x 23) + (5/100 x 121) = 95
2. Mass of ‘octane’ used = 55 x 0.703 x 1000 x 52 = 2010580 g = 2.0106 x 106 g
Amount of ‘octane’ used = 2.0106 x 106 / 114.26 = 17597 mol
C8H18 + 12½O2 → 8CO2 + 9H2O
Amount of carbon dioxide produced = 8 x 17597 = 140776 mol (assuming complete combustion)
Mass of carbon dioxide released into the atmosphere = 140772 x 44.01 = 6.20 x 106 g
Addition to carbon footprint = 6.20 tonnes per year.
3. C10H22 → C8H18 + C2H4
To make addition polymers e.g. poly(ethene).
4. (a) C7H16 → CH3C(CH3)2CH2CH2CH3
C7H16 → C6H5CH3 + 4H2
(b) Branched alkanes and aromatic compounds are less prone to auto-ignition (have a higher octane rating) than the corresponding straight chain alkanes. The hydrogen produced during aromatization can be used in the Haber process and in hydrogenation reactions.
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