Zinc Extraction

Zinc is commonly used metal for making protective coating (galvanizing) because it forms an impervious ZnCO₃layer. Zinc protects irons by being more electro positive. It is also used widely as Cu-Zn brasses because Zn has a low melting point, high structural strength, good dimensional stability. It is ideal for die casting. It can also be rolled into zinc plates that are used in dry cell batteries. It is also used in paints and pigments

Ores of zinc such as Sphalerite (ZnS), Zincite or Zinc calcine (ZnO) and others are low-grade ores that need concentration. ZnS melts at 1500⁰C. However, concentrate (55

More than 8

Concentration: Froth floatation

This step is mainly used to remove gangue from Sphalerite which is a sulphide ore of zinc. NaCN is used as a depressant to separate ZnS and PbS. NaCN reacts with ZnS to form a complex compound while PbS selectively releases in the froth. The forth is light so it can be skimmed off.

4NaCN + ZnS Na₂[Zn(CN)₄] + Na₂S

Roasting

Since Zn is at mid-range of there activity series the electrolytic solution must be free of Cd, Pb, Cu, Fe, Ag and Ge or else Zn deposited on cathode will be contaminated. Hence purification is necessary prior to electrolysis.

Roasting converts the sulphide ore into oxide, zinc calcine with the help of heat and air in the furnace below the melting point of Zinc.

ZnS +1.5O₂ZnO + SO₂

Calcination is a process to convert carbonate ore, Calamine to oxide in the presence of heat.

ZnCO₃(s)ZnO(s) +CO₂(g)

Reduction using carbon

Since zinc is mid ranged in the reactivity series, carbon can be used to reduce Zinc Oxide to free metal. Coke is used in the furnace at about 1673K to ensure the reduction of the oxide.

ZnO + CO Zn + CO₂

C + CO₂ 2CO

It should be noted that the partial pressure of CO in the retort gases must be maintained.

About 1

The pressure leaching process is used under oxygen over pressure (1200 kPa) at 150°C in sulphuric acid as a medium. Roasted zinc concentrates are leached in dilute acid.

ZnS + H₂SO₄ + +0.5O₂ ZnSO₄ + H₂O + S

ZnO + H₂SO₄ + +0.5O₂ ZnSO₄ + H₂O

The metal follows a distillation chamber where it is allowed rapid chilling.

Fig 1: Zinc extraction flow chart.

Electrolytic refining

For 99.9

The net result is the transfer of zinc in pure form from the cathode to the anode.

At the anode: 4OH- 2H₂O +O₂ + 4e-

At the cathode: Zn²⁺ + 2e^– Zn

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