Elements, compounds and mixtures A mixture consists of 2 or more elements or compounds not chemically combined together The chemical properties of each substance in the mixture are unchanged It is possible to separate the substances in a mixture by physical methods, including distillation
Crude oil and hydrocarbons Most of the compounds in crude oil consist of molecules made up of hydrogen and carbon atoms only (hydrocarbons)
Alkanes Most of these are saturated hydrocarbons called alkanes which have the general formula CnH2n+2
Fractional distillation The many hydrocarbons in crude oil maybe separated into fractions by evaporating the oil and allowing it to condense at a number of different temperatures. Each fraction contains molecules with similar number of carbon atoms. This process is called fractional distillation
Properties of hydrocarbons Small hydrocarbon Large hydrocarbon Boiling point Low Higher Viscosity Runny Thicker Flammability Very Harder to burn Example Petrol Diesel
Burning fuels The gases released into the atmosphere when a fuel burns may include carbon dioxide, water (vapour), carbon monoxide, sulphur dioxide, oxides of nitrogen and solid particles called particulates which may contain soot and unburnt fuels The products of combustion relate to what elements were present in the fuel and whether the complete combustion took place
Effects of burning fuels Sulphur dioxide and oxides of nitrogen cause acid rain Carbon dioxide causes global warming Solid particulates cause global dimming
Summary of air pollutants What are the causes and effects of these air pollutants? pollutant cause effect combustion and respiration adds to the greenhouse effect carbon dioxide high temperature combustion nitric oxides acid rain and smog carbon monoxide incomplete combustion lowers blood’s ability to carry oxygen Teacher notes This slide can be used as a plenary or revision exercise on the causes and effects of the major air pollutants. Students could be asked to complete the table in their books or on mini-whiteboards before the information is revealed on the IWB. sulfur dioxide burning coal acid rain burning wood and fossil fuels Global dimming particulates
Reducing effects of burning fuels Sulfur can be removed from fuels before they are burned Sulfur dioxide can be removed from waste gases after combustion There are economic, ethical and environmental reasons for using biofuels
Cracking in the lab Hydrocarbons can be cracked to produce smaller more useful molecules. This process involves heating the hydrocarbons to vaporise them The vapours are either passed over a hot catalyst or mixed with steam and heated to a very high temperature so that thermal decomposition reactions then occur
Products of cracking The products of cracking include alkanes and unsaturated hydrocarbons called alkenes
Alkenes Alkenes are unsaturated hydrocarbon molecules: contain at least one C=C double bond Alkenes have the general formula CnH2n Alkenes react with bromine water, turning it from orange to colourless