Summary

This document is a chemistry knowledge organiser about crude oil and fuels. It covers key terms, definitions, fractional distillation, and cracking processes. It explains the composition of crude oil, the various fractions produced through distillation, and the concept of cracking to produce smaller hydrocarbons.

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Key Terms Definitions Chemistry Knowledge Organiser Hydrocarbon A compound which contains only hydrogen and...

Key Terms Definitions Chemistry Knowledge Organiser Hydrocarbon A compound which contains only hydrogen and carbon C9 - Crude oil and fuels (covalently bonded) Fractional The process where crude oil is separated into different Neutralisation Reaction Distillation compounds through evaporation When a salt is made in a neutralisation reaction, it will either be soluble or insoluble. For example, sulphuric acid can be neutralised with copper oxide to make Viscosity The ability of a liquid to flow copper sulphate and water. The copper sulphate is soluble in water. The steps outlined below can be used to make copper sulphate: 1. Add several spatulas of copper oxide to sulphuric acid in a conical flask 2. Stir until all the sulphuric acid has reacted Fractional Distillation Column 3. Filter off any excess copper oxide Below is a diagram of a fractionating column; you need to know the 4. Place solution in evaporating basin uses but not the names of each fraction: 5. Allow water to evaporate and blue crystals of copper oxide should be left Crude Oil Crude oils is a mixture of chemicals called hydrocarbons. These are chemicals that contain hydrogen and carbon only. It made from ancient biomass, mainly plankton. Crude oil straight out of the ground is not much use, as there are too many substances in it, all with different boiling points. Before we can use crude oil we have to separate it into its different substances. We do this by fractional distillation. How does fractional distillation work? · Crude oil is heated and vaporises/boils. · Vapours rise up the column, gradually cooling and condensing. · Hydrocarbons with different size molecules condense at different levels/temperatures · The crude oil is separated into a series of fractions with similar numbers of carbon atoms and boiling points. These are called fractions. As the number of carbon atoms increases: · Molecules become larger and heavier · Boiling point increases · Flammability decreases (catches fire less easily) · Viscosity increases (liquid becomes thicker) Key Terms Definitions Chemistry Knowledge Organiser Alkane A hydrocarbon that contains only carbon to carbon single C9 - Crude oil and fuels bonds Cracking A process where longer chain hydrocarbons are broken Alkanes down into smaller more useful ones. Crude oil is largely made up of a family of hydrocarbons called alkanes; these contain only a single (covalent) carbon to carbon bond. Alkene A hydrocarbon that contains at least one carbon to carbon double bond. You can either represent alkanes with a molecular formula, e.g.: CH₄ C₂H ₆ C₃H₈ C4H10 Alkenes These hydrocarbons have at least one double bonds between the Methane Ethane Propane Butane carbon atom. The general formula for alkenes is CnH2n Alkenes are more reactive than alkanes. They react with bromine water Or a displayed formula: and make it go from orange to colourless. Alkanes do not have a double bond so the bromine water stays orange. Butane Cracking Smaller hydrocarbons make better fuels as they are easier to ignite. However, crude oil Cracking contains a lot of longer chain hydrocarbons. To break a longer chain hydrocarbon down Experimental set up for cracking: into a smaller one we use a process known as cracking. Cracking So large/long alkanes get CRACKED, which means they get broken in two. · They are heated, turned into a vapour and passed over a hot catalyst · Cracking produces two molecules: 1. One shorter (useful as a fuel) alkane 2. One alkene (used to make polymers). Summary Long Chain Alkane  Short Chain Alkane + Alkene C10H22  C8H18 + C 2H4 Key Terms Definitions Chemistry Knowledge Organiser Alkene A hydrocarbon that contains at least one carbon to carbon C9 - Crude oil and fuels double bond. Alkenes Unsaturated A compound that contains at least one carbon to carbon A second family of hydrocarbons is alkanes; these contain at least one double double bond. An alkene is an example of something that is (covalent) carbon to carbon bond. The general formula for alkenes is CnH2n unsaturated. Alkenes are unsaturated as there is room for 2 more hydrogens around some of Addition A chemical reaction where an element or compound is the carbons. You need to know the names and structures of the first 4 alkenes. Reaction added across a a double bond. You can either represent alkanes with a molecular formula, e.g.: Alkenes C2H₄ C3H ₆ C4H₈ C5H10 Alkenes undergo addition reactions, this is where another element or compound is added across the double bond. Ethene Propene Butene Propene Below is an example of bromine being added across a double bond: Or a displayed (structural) formula: Bromine could be replaced in this equation with another halogen, hydrogen or water. The same type of reaction would take place, however the products formed would be different. For example, the reaction of ethene with water. Reagent Conditions Product Hydrogen Nickel catalyst, 60ºC. Alkane Water Steam, high temperature, Alcohol high pressure. Phosphoric acid catalyst Halogen Halogens in solution for Haloalkane example bromine water

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