The DeCaIon™ (DCI) system employs advanced electrochemical technology to control water hardness and prevent scale formation in cooling systems. One of the key elements of this technology is the specific reactions that occur at the cathode surface within the electrolytic cell.
Specifically:
Details of the electrode removal and precipitation process:
At the cathode, the reduction reaction produces an excess of hydroxide ions (OH⁻) in the vicinity, increasing the local pH. This high pH stimulates the precipitation of calcium and magnesium ions, the two main components causing water hardness, according to the following reactions:
These reactions produce calcium carbonate (CaCO₃) and magnesium hydroxide (Mg(OH)₂), compounds that precipitate out of the solution, effectively removing water-hardening ions. The DCI system's intelligent controller precisely maintains the necessary voltage to ensure these non-spontaneous reduction reactions occur optimally.
By precisely controlling these electrochemical reactions at the cathode, the DCI system effectively prevents scale formation and maintains optimal heat transfer for the cooling system.