Aluminium Extraction (Oxford AQA IGCSE Combined Science Double Award)
Revision Note
Written by: Philippa Platt
Reviewed by: Stewart Hird
Aluminium Extraction
Aluminium is a reactive metal, above carbon in the reactivity series
Its main ore, is bauxite, which contains aluminium oxide
Aluminium is higher in the reactivity series than carbon, so it cannot be extracted by reduction using carbon
Instead, aluminium is extracted by electrolysis
The electrolytic cell for extraction of aluminium
Bauxite is first purified to produce aluminium oxide, Al2O3
Aluminium oxide is then dissolved in molten cryolite
This is because aluminium oxide has a melting point of over 2000°C which would use a lot of energy and be very expensive
The mixture is placed in an electrolysis cell, made from steel, lined with graphite
The graphite lining acts as the negative electrode, with several large graphite blocks as the positive electrodes
At the cathode (negative electrode):
Aluminium ions gain electrons (reduction)
Molten aluminium forms at the bottom of the cell
Al3+ + 3e– → Al
At the anode (positive electrode):
Oxide ions lose electrons (oxidation)
Oxygen gas is produced at the anode:
2O2– → O2 + 4e–
The carbon in the graphite anodes reacts with the oxygen produced to produce CO2
C (s) + O2 (g) → CO2 (g)
As a result, the anode wears away and has to be replaced regularly
A lot of electricity is required for this process of extraction, this is a major expense
Examiner Tips and Tricks
For this specific electrolysis example it is important for exams that you can explain:
Why molten cryolite is used
Why the anode needs replacing regularly
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