Eh-pH diagram

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Eh-pH diagrams, also called Porbaix diagrams are plots of pH versus oxidation potential for ... --Anna Bauer 14:23, 24 August 2007 (CEST)

Why use Eh-pH diagrams?

Eh-pH diagrams are useful tools for visualizing the stability areas of metal species in a solution depending on the solution's redox potential (Eh) and pH. These diagrams can be used to indicate how different metal ions can be separated from each other by making changes in these variables.

Image:Eh-pH diagram of Fe.png

How to use Eh-pH diagrams - an example

In the diagram the dotted lines represent the stability area of water, i.e. the area of relevance for hydrometallurgy. The upper line is the equilibrium between water and oxygen gas. If the solution potential is increased above the dotted line, water is oxidised forming oxygen and hydrogen ions. The lower line shows where hydrogen ions in a solution are reduced to hydrogen gas.

The figure shows that metallic iron (Fe(s)) is not stable in water since iron is located below the stability region of water. This is an example of the well-known fact that iron corrodes in aqueous solutions. If iron metal is placed in water it is oxidised to Fe2+ and if pH is higher than 5-6 the ferrous iron is precipitated as Fe(OH)2(s).

It can also be seen that the only soluble iron species are ferrous iron (Fe2+) and ferric iron (Fe3+), ferric iron is only stable at a limited area at low pH-values and high redox potential while ferrous iron is stable over a wider region at lower redox potential and extending to higher pH-values. In conditions where the iron-containing solution is in contact with the atmosphere the iron is further oxidised to ferric iron by the oxygen in the air forming a brownish red precipitate at pH values above 1-2.

The normal procedure to remove iron from a solution is to precipitate it as a ferric hydroxide (Fe(OH)3). If iron exists as Fe3+ in an acidic leaching solution, precipitation is effected by additions of alkali like lime (CaO) or limestone (CaCO3) to increase the pH. In the case when iron is in the Fe2+ state, precipitation is usually done by first oxidising it to the ferric form followed by a pH increase. In practice, iron removal is usually achieved by maintaining pH at a level of 2-3 while at the same time blowing air into the tank to oxidise ferrous iron to ferric.

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