Electrolysis
Electrolysis is the
extraction of metals using a molten composition of a type of ore and its
metallic components and a cathode and anode. An electrical current is passed
through the solution and the positively charged ions get deposited at the
cathode and negatively charged ions get deposited at the anode, leaving the
excess amounts of minerals to sink to the bottom to be recycled or made waste
of.
Bauxite is the ore that is the main source of aluminium. It consists of the minerals gibbsite, boehmite, diaspore, goethite, haematite, kaolonite, and anatase and few of these contain aluminium. Aluminium is a light weight, ductile, silvery white coloured
metal that can resist corrosion. It is the third most common element in the
Earth’s crust, making up 8.1%. It is found naturally as bauxite and is later refined into aluminium oxide, then to aluminium. It is used to make air craft, cutlery, packaging, etc. Its
scientific symbol is Al, its atomic number is 13, its atomic weight is 26.9815
(4dp), its boiling point is 2520 degrees Celsius and weighs 2.699 grams per
cubic cm.
All metals above carbon on the reactive series can only be
extracted via electrolysis. Aluminium can only be extracted through
electrolysis due to the fact that aluminium is above carbon in the reactivity
series and therefore smelting using carbon is not strong enough to reduce the
oxide in the ore.
First, bauxite is sent off to alumina refineries to make
alumina or aluminium oxide using the bayer process, which includes digesting
the bauxite in a 175 degrees Celsius solution of sodium hydroxide under
pressure, adding lime to precipitate silica and then heating it at 960 degrees
Celsius to decompose the aluminium hydroxide to aluminium oxide and it comes
out as a fine white powder. From here it is sent off to a aluminium shelter
where it undergoes the hall-heroult process in which the powder is dissolved in
molten cryolite to lower its temperature for electrolysis. A mixture of
cryolite, alumina and aluminium fluoride are electrolysed and molten aluminium
gets deposited at the cathode.
Bauxite is the main ore of aluminium and three places where
it can be mined in Australia are Weipa Queensland, Darling Range Western
Australia, and Gove Northern Territory.
3 uses for aluminium in the current society include, the
construction of aircraft, metal cutlery, and the construction of roofing for
houses.
It is estimated that aluminium will run out in Australia in 2110, reason being that aluminium is widely used and Australia is one, if not
the largest producer of aluminium on Earth and the metal is quite abundant
being the 3rd most common metal.
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Bibliographies:
http://en.wikipedia.org/wiki/Bauxite
http://en.wikipedia.org/wiki/Electrolysis
http://en.wikipedia.org/wiki/Aluminium
http://bauxite.world-aluminium.org/refining/process.html
http://en.wikipedia.org/wiki/Bayer_process
http://en.wikipedia.org/wiki/Hall%E2%80%93H%C3%A9roult_process
http://www.ukindemand.ac.uk/research/alternatives-steel-and-aluminium-construction
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