Chloralkali process

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A chloralkali process is any sodium carbonate.

Procedures

Membrane cell

The most common chloralkali process involves the electrolysis of aqueous membrane cell.

Saturated brine is passed into the first chamber of the cell where the chlorine:

2Cl^– → Cl₂ + 2e^–

At the hydroxide ions into the solution:

2H₂O + 2e^– → H₂ + 2OH^–

The non-permeable ion exchange membrane at the center of the cell allows the caustic soda (NaOH). The overall reaction for the electrolysis of brine is thus:

2NaCl + 2H₂O → Cl₂ + H₂ + 2NaOH

A membrane cell is used to prevent the reaction between the chlorine and hydroxide ions. If this reaction were to occur the chlorine would be disproportionated to form chlorine and hypochlorite ions:

Cl₂ + 2OH^– → Cl^– + ClO^– + H₂O

At higher temperatures, 333K, chlorate can be formed:

3Cl₂ + 6OH^– → 5Cl^– + ClO₃^– + H₂O

Because of the corrosive nature of the chlorine produced, the anode has to be made from an unreactive metal such as steel.

In the membrane cell, the anode and cathode are separated by an ion-permeable membrane. Saturated brine is fed to the compartment with the anode (the anolyte). A DC current is passed through the cell and the NaCl splits into its constituent components. The membrane passes Na⁺ ions to the cathode compartment (catholyte), where it forms sodium hydroxide in solution. The chloride ions are oxidised to chlorine gas at the anode, which is collected, purified and stored. Hydrogen gas and Hydroxide ions are formed at the cathode.

Diaphragm cell

In the diaphragm cell process, there are two compartments separated by a permeable diaphragm, often made of asbestos fibers. Brine is introduced into the anode compartment and flows into the cathode compartment. Similarly to the Membrane Cell, chloride ions are oxidized at the anode to produce chlorine, and at the cathode, water is split into caustic soda and hydrogen. The diaphragm prevents the reaction of the caustic soda with the chlorine. A diluted caustic brine leaves the cell. The caustic soda must usually be concentrated to 50% and the salt removed. This is done using an evaporative process with about three tonnes of steam per tonne of caustic soda. The salt separated from the caustic brine can be used to saturate diluted brine. The chlorine contains oxygen and must often be purified by liquefaction and evaporation.

Mercury cell

In the mercury-cell process, also known as the Ontario Minamata disease.

Operator associations

The interests of chloralkali process plant operators are represented at regional, national and international levels by associations such as Euro Chlor and The World Chlorine Council.

v • d • e Articles related to Standard electrode potential (data page)

Categories: Electrolysis

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Chloralkali_process". A list of authors is available in Wikipedia.