2007-12-10 07:22:32 · 2 answers · asked by Anonymous in Science & Mathematics ➔ Earth Sciences & Geology
A simpler answer - Bauxite requires an enormous amount of energy to release the aluminum, so it wasn't until electricity was invented, and usable, that it was financially feasible to recover aluminum. That was around the turn of the century, 1900's. It was a fairly "exotic" metal at the time, and not much was done with it due to the expense of processing. Once electricity became commonplace and plentiful, aluminum production took off, and started being used alot around the 1930's and 40's. So it's a fairly "new" metal, being as how there wasn't much technology available over most of human history to recover it until recently.
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2007-12-10 10:59:22 · answer #1 · answered by Anonymous · 0⤊ 0⤋
AS LONG AS IT HAS BEEN ECONOMICALLY FEASIBLE TO SMELT THE PURE ALUMINUM OUT OF THE BAUXITE. SEE ATTACHED ARTICLE:e first step in extracting aluminum is to remove it from the Earth in mining. This is relatively simple given the abundance of the material. However aluminum is never found isolated in the Earth (due to its reactivity) but instead it is found bound to other elements in compounds. This means that aluminum alone in can never be dug up, but compounds of it, often containing oxygen and silicon, are.
Bayer process on industrial scale (click image for enlargement)
The bauxite then has to be purified using the Bayer process, whose development changed the course of aluminum's history. The process occurs in two main steps. Firstly the aluminum ore is mixed with the sodium hydroxide in which the oxides of aluminum and silicon will dissolve, but other impurities will not. These impurities can then be removed by filtration. Carbon dioxide gas is then bubbled through the remaining solution, which forms weak carbonic acid neutralising the solution and causing the aluminum oxide to precipitate, but leaving the silicon impurities in solution. After filtration, and boiling to remove water, purified aluminum oxide can be obtained.
The Hall Heroult Process (click image for enlargement)
Once purified aluminum oxide has been manufactured aluminum can be removed from it by the Hall-Heroult Method. In this the aluminum oxide is mixed with cryolite (made of sodium fluoride and aluminum fluoride) and then heated to about 980 °C to melt the solids. This is much lower than the temperature required to melt pure aluminum oxide so much energy is saved. The molten mixture is then electrolysed with a very large current and the aluminum ions are reduced to form aluminum metal (at the cathode) and oxygen gas is formed at the anode, where it reacts with the carbon the anode is made from to give carbon dioxide gas.
As the process is so long and requires so much energy (in electricity) the aluminum metal obtained is quite expensive, but still it is competitively priced in relation to other metals unlike earlier in its history.
Summary: Aluminum is extracted from the ground in compounds, it is the purified to alumina (aluminum oxide) in the bayer process, and the metal is finally obtained after electrolysis in a cryolite solution. The full process needs a lot of energy and is quite expensive.
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2007-12-10 07:53:24 · answer #2 · answered by Loren S 7 · 0⤊ 0⤋