Sulfide ores are converted to oxides first by roasting in airIt produces Sulfur Dioxide (gas) which causes acid rain but by converting Sulfur Dioxide to Sulfuric Acid a pollutant is avoided, and a valuable product is madeOxides are then reduced to the metal by Carbon (coke) or Carbon MonoxideREDUCTION OF IRON (III) OXIDE - in a blast furnace at temperatures greater than 700 degreesIron Oxide is reduced Carbon or Carbon Monoxide to produce Iron and Carbon DioxideREDUCTION OF MANGANESE (IV) OXIDE - in a blast furnace at temperatures about 1200 degreesManganese Oxide is reduced with Carbon or Carbon Monoxide to produce Manganese and Carbon DioxideREDUCTION OF COPPER CARBONATECopper (in its ore:malachite) is heated indirectly with Carbon to produce Copper and Carbon Dioxide - 2CuCO3 + C --> 2Cu +3CO2Another method involves heating the carbonate until it decomposes, then reducing the oxide with Carbon - CuCO3 --> CuO + CO2 2CuO + C --> 2Cu + CO2
Carbon and Carbon Dioxide is used because it is cheap
Tungsten is extracted using hydrogenTungsten can be extracted from its oxides with carbon, but that can leave impurities which make the metal brittle.This happens in a furnace at temperatures above 700 degreesWO + 3H --> W + 3H2O
Hydrogen is expensive and highly explosive when mixed with air
Aluminium is extracted by electrolysis- current: 200,000 AAluminium is too reactive to extract using reduction by CarbonAluminium ore: BAUXITE1. All impurities are removed2. Bauxite is dissolved in molten cryolite (sodium aluminium fluoride) 3. ELECTROLYSIS- Aluminium is produced at the cathode- AL3+ + 3e- --> Al Oxygen is produced at the anode- 2O2- --> O2 + 4e-
Lowers the melting point= reducing the operating costs
Process is carried out where cheap electricity is available, often near hydroelectric power stations
Titanium is extracted in a batch processYou can't extract titanium by carbon reduction because you will form titanium carbide which make the metal brittleTitanium ore: RUTILE (TITANIUM (IV) CHLORIDE)1. The ore is converted to titanium chloride by heating it to about 900 degrees with Carbon in a stream of Chloride gas- TiO2 + 2Cl2 + 2C --> TiCl4 + 2CO2. The titanium chloride is purified by fractional distillation under an inert atmosphere of argon or nitrogen3. Then the chloride gets reduced in a furnace at almost 1,000 degrees. It's heated with a more reactive metal such as sodium or magnesium. An inert atmosphere is used to prevent side reactions. TiCl4 + 4Na --> Ti + 4NaCl TiCl4 + 2Mg --> Ti + 2MgCl2
Mg and Na are reducing agents
Titanium is strong, light and is highly resistant to corrosion BUT it is difficult and expensive to produce
ADVANTAGES: saves raw materials saves energy reduces waste sent to landfill reduces mining and damages to landscape
DISADVANTAGES: collecting and sorting metals form other waste can be difficult and expensive the purity of recycled metal varies recycling metals may not produce a consistent supply to meet demand
Sulfide ores
Tungsten
Aluminium
Titanium
Recycling
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