During the electro winning of manganese an addition of selenium dioxide decreases the power necessary to operate the electrolysis cells.

The reduction process is carried out in a microbial electrolysis cell.

Impurities can change the decomposition voltage enough to where the electrolysis cell produces largely hydrogen gas rather than zinc metal.

It was suitable for high-power applications, e.g. electrolysis cells and electrostatic precipitators.

Separation of the anodic and cathodic spaces in the electrolysis cell is essential for this process.

The electrolysis cell is divided into two "sections" by a cation permeable membrane acting as an ion exchanger.

From under a battery of dead, abandoned electrolysis cells crawled the primary food-main repair machines.

Many industrial electrolysis cells are very similar to Hofmann voltameters, with complex platinum plates or honeycombs as electrodes.

The oxygen and the hydrogen are led off the electrolysis cell separately and are fed into the two gas connections of an ordinary oxy-gas torch.

The mixed oxygen and hydrogen are drawn from the electrolysis cell and are led into a special torch designed to prevent flashback.