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Chapter 25: Problem 30

Describe two ways in which the octane number of a gasoline consisting of alkanes can be increased.

Short Answer

Expert verified
The octane number of gasoline containing alkanes can be increased by: (1) increasing the carbon chain length of the alkanes, resulting in improved knock resistance; and (2) increasing the branching of the alkanes, leading to better auto-ignition resistance and a higher octane rating.

Step by step solution

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1. Increasing the carbon chain length of alkanes

One way to increase the octane number of gasoline containing alkanes is to increase the carbon chain length of the alkanes. Longer-chain alkanes have higher boiling points, lower vapor pressures, and are generally better at resisting auto-ignition. Increasing the carbon chain length of the alkane will generally result in improved knock resistance, which directly contributes to an increase in the octane number.
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2. Increasing the branchiness

Another way to increase the octane number of gasoline consisting of alkanes is to increase the branching of the alkanes. This means modifying the alkane molecules so that there are more carbon atoms branching off of the main carbon backbone. Branched alkanes, also known as isomers, have a higher octane number due to their molecular structure. The more branchiness the alkane molecules have, the better they resist auto-ignition, leading to a higher octane rating. In summary, the octane number of gasoline containing alkanes can be increased by increasing the carbon chain length and increasing the number of branches of the alkanes. Both methods result in better knock resistance and contribute to a higher octane rating for gasoline.

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Most popular questions from this chapter

(a) Describe the primary, secondary, and tertiary structures of proteins. (b) Quaternary structures of proteins arise if two or more smaller polypeptides or proteins associate with each other to make an overall much larger protein structure The association is due to the same hydrogen bonding, electrostatic, and dispersion forces we have seen before. Hemoglobin, the protein used to transport oxygen molecules in our blood, is an example of a protein that has quaternary structure. Hemoglobin is a tetramer; it is made of four smaller polypeptides, two "alphas" and two "betas." (These names do not imply anything about the number of alpha helices or beta sheets in the individual polypeptides.) What kind of experiments would provide sound evidence that hemoglobin exists as a tetramer and not as one enormous polypeptide chain? You may need to look into the chemical.literature to discover techniques that chemists and biochemists use to make these decisions.

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