Calcination is a process in which ore is heated in the absence of air or air might be supplied in limited quantity. Roasting involves heating of ore lower than its melting point in the presence of air or oxygen. Calcination involves thermal decomposition of carbonate ores.
Smelting – it involves heating the roasted or calcined ore (metal oxide) to a high temperature with a suitable reducing agent. The crude metal is obtained in its molten state.
Fe2O3+3C(coke)→2Fe+3CO2
Aluminothermic reaction – also known as the Goldschmidt reaction is a highly exothermic reaction in which metal oxides usually of Fe and Cr are heated to a high temperature with aluminium.
Fe2O3+2Al→Al2O3+2Fe+heat
Cr2O3+2Al→Al2O3+2Cr+heat
Extraction of Metals Towards the Top of the Reactivity Series
Electrolytic reduction:
1. Down’s process: Molten NaCl is electrolysed in a special apparatus.
At the cathode (reduction):
Na+(molten)+e−→Na(s)
Metal is deposited.
At the anode (oxidation):
2Cl−(molten)→Cl2(g)+2e–
Chlorine gas is liberated.
2. Hall’s process: Mixture of molten alumina and a fluoride solvent usually cryolite, (Na3AlF6) is electrolysed.
At the cathode (reduction):
2Al3++6e–→ 2Al(s)
Metal is deposited.
At the anode (oxidation):
6O2– → 3O2(g)+12e–
Oxygen gas is liberated.
The metals at the top of the reactivity series are highly reactive. They cannot be obtained from their compounds by heating with carbon, because these metals have more affinity for oxygen than carbon. Hence, for the extraction of such metals electrolytic reduction method is used.
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