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By Yen-Wen Ting

Manufacture of Sodium Hydroxide

The major method for producing sodium hydroxide is electrolysis of concentrated brine

(sodium chloride solution) produces chloride gas, hydrogen gas and sodium hydroxide.

2NaCl(aq)+ 2H2O(l)-----> H2(g)+ Cl2(g)+ 2NaOH(aq)

At the anode (positive electrode), the chloride ions (Cl-) are oxidised to chloride gas (Cl2(g)).

At the cathode (negative electrode), the sodium ions (Na+) and water (H2O(l)) are reduced to

hydrogen gas (H2(g)) and sodium hydroxide (NaOH(aq)).

There are three types of electrolysis to produce sodium hydroxide from brine:

The mercury cell process (Castner-Kellner):

At the anode, titanium is the metal and chloride ions are oxidised to chloride gas:

2Cl-(aq)-----> Cl2(g)+ 2e-

At the cathode, mercury is flowing along the bottom of the cell. Sodium ions are reduced to

sodium metal:

Na+(aq)+ e- -----> Na(s)

An amalgam is formed when sodium metal dissolves in the liquid mercury and it is removed

to the decomposer. The amalgam then reacts with water to form sodium hydroxide, hydrogen

gas and mercury:

2Na/Hg(l)+ 2H2O(l)-----> 2NaOH(aq)+ H2(g)+ 2Hg(l)

Sodium hydroxide and hydrogen gas are collected and the mercury is recycled through the

electrolytic cell. Mercury is toxic so care must be taken to prevent mercury loss.

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Nelson diaphragm cell process

In the diaphragm cell, a permeable diaphragm of asbestos or metal with polymer separatesthe anode area and the cathode area. Saturated brine enters into the anode compartment and

produces chlorine gas:

2Cl-(aq)-----> Cl2(g)+ 2e-

The saturated brine flows through the diaphragm and into the cathode compartment. At the

anode, carbon or titanium coated with Ru-Ti, the chlorine ions are oxidised. At the cathode,

steel mesh, hydrogen gas and hydroxide are produced:

2H2O(l)+ 2e -----> H2(g)+ 2OH-(aq)

The diaphragm allows the sodium ions to migrate across it and to combine with hydroxide,forming sodium hydroxide:

2H2O(l)+ 2Cl-(aq)+ 2Na

+(aq)-----> 2NaOH(aq)+ H2(g)+ Cl2(g)

The products are sodium chloride and sodium hydroxide. Solid sodium hydroxide can be

crystallised out. The sodium hydroxide must usually be concentrated to 50% and the salt

removed. The method that is used for this process is an evaporative process which uses about

three tones of steam per ton of sodium hydroxide. The salt separated from the caustic brine

which can be used to saturate diluted brine.

Membrane cell process

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This process is most commonly used method for producing sodium hydroxide as it has the

lowest energy requirement producing very pure sodium hydroxide with no hazardous waste.

This is very similar to the diaphragm cell process, but with a Nafion membrane separates the

anode area and cathode area. The ion-exchange membrane selectively allows sodium ions

and water to flow to the cathode compartment but prevents products from moving between

the compartments. And the amount of steam needed for concentration of the caustic isrelatively small (less than one tone per ton of sodium hydroxide). Saturated brine enters into

the anode compartment and produces chlorine gas (oxidised):

2Cl-(aq)-----> Cl2(g)+ 2e-

And it flows through the membrane to the cathode compartment. At the anode, titanium is the

metal. At the cathode the metal is nickel and water is reduced:

2H2O(l)+ 2e -----> H2(g)+ 2OH-(aq)

Sodium ions migrate across the membrane and combine with hydroxide to form sodium

hydroxide in the cathode compartment:

2H2O(l)+ 2Cl-(aq)+ 2Na

+(aq)-----> 2NaOH(aq)+ H2(g)+ Cl2(g)

The product is concentrated sodium hydroxide.

Other methods:

Leblanc process

Sodium carbonate is produced and roasted to create carbon dioxide and sodium oxide. The

sodium oxide then absorbs water to create sodium hydroxide.

Metathesis reaction

The metathesis reaction between calcium hydroxide (lime) and sodium carbonate forms

sodium hydroxide:

Ca(OH)2+ Na2CO3 CaCO3+ 2 NaOH

BibliographyChemistry Tutorial: Sodium Hydroxide Production by Electrolysis 2010, viewed 30/09/10

Wikipedia: Sodium Hydroxide 2010, viewed 30/09/10