Membrane Technology
A membrane cell consists of two compartments divided by an ion-exchange membrane. The membrane cell technology has several advantages compared to other processes: high energy efficient, high purity of caustic and smaller environmental impact can be achieved. The development of metal anodes and the changeover of the old diaphragm and mercury technologies to membrane cells were some of the biggest achievements in the Chlor-alkali process. This method was invented due to the legislation (in the European context) which was created to phase out mercury cells by 2020. The membranes which are commercially available in the chlor-alkali industry at present are two-layer membranes with a polymer matrix of tetrafluoroethylene. The commercially available membranes for the chlor-alkali industry can be divided into two classes in terms of their properties: High-performance membranes and membranes with high mechanical strength.
Stage of Life Cycle
Products and Processes
GHG Reduction Potential
Energy reductions in the range of 20-45%. However, actual reduction on emissions and GHG emissions dependes on steam consumption, electrolysers, brine purification among other processes.
Solution Maturity Status
Well established:
This technology has been operating for a number of years and is well-known/ successful in its industry or market.