Extraction of Iron from Hematite
- Iron is extracted in a large container called a blast furnace from its ore, hematite
- Modern blast furnaces produce approximately 10,000 tonnes of iron per day
- This is a continuous process with new raw materials added and products removed all the time due to the time and cost associated with getting the furnace up to temperature
The Blast Furnace
There are three main zones in the blast furnace
- The raw materials: iron ore (hematite), coke (an impure form of carbon), and limestone are added into the top of the blast furnace
- Hot air is blown into the bottom
Table of raw materials and their uses
| Raw material | Formula | Use |
| Iron ore (heamatite) | Fe2O3 | Source of iron |
| Coke | C | To provide carbon |
| Limestone | CaCO3 | To neutralise acidic impurities |
Zone 1
- Coke burns in the hot air forming carbon dioxide
- The reaction is exothermic so it gives off heat, heating the furnace
carbon + oxygen → carbon dioxide
C (s) + O2 (g) → CO2 (g)
Zone 2
- At the high temperatures in the furnace, more coke reacts with carbon dioxide forming carbon monoxide
- Carbon dioxide has been reduced to carbon monoxide
carbon + carbon dioxide → carbon monoxide
CO2 (g) + C (s) → 2CO (g)
Zone 3
- Carbon monoxide reduces the iron(III) oxide in the iron ore to form iron
- This will melt and collect at the bottom of the furnace, where it is tapped off:
iron(III) oxide + carbon monoxide → iron + carbon dioxide
Fe2O3 (s) + 3CO (g) → 2Fe (I) + 3CO2 (g)
Removal of impurities
- Limestone (calcium carbonate) is added to the furnace to remove acidic impurities in the ore
- The calcium carbonate in the limestone thermally decomposes to form calcium oxide
calcium carbonate → calcium oxide + carbon dioxide
CaCO3 (s) → CaO (s) + CO2 (g)
- The calcium oxide formed reacts with the silicon dioxide, which is an impurity in the iron ore, to form calcium silicate by neutralisation
calcium oxide + silicon dioxide → calcium silicate
CaO (s) + SiO2 (s) → CaSiO3 (l)
- This melts and collects as a molten slag floating on top of the molten iron, which is tapped off separately
Worked example
a) Balance the symbol equation for the following reaction that occurs in the blast furnace.
Fe2O3 + ____ CO → ____ Fe + ____ CO2
b) Give the name of the substance that is oxidised in the reaction.
Answer
a) The balanced equation is
- Fe2O3 + CO → Fe + CO2
- Balance the oxygen atoms
- Fe2O3 + 3CO → Fe + 3CO2
- The carbon atoms are now also balanced
- Balance the iron atoms
- Fe2O3 + 3CO → 2Fe + 3CO2
b) The species oxidised is:
- Carbon monoxide
- This is because the carbon monoxide has gained oxygen to form carbon dioxide
