The process begins with the intake of saltwater from the sea using a solar-powered hydraulic pumping system. This system ensures efficient water transport without relying on external electrical grids.

The saltwater is directed to the evaporation unit, where it flows through a specialised conduit designed to maximise solar radiation absorption, enabling gradual and efficient heating.

Inside the evaporation unit, the saltwater is heated using solar radiation. The water reaches temperatures high enough to convert into steam, facilitating the separation of salts and other minerals.

The heat absorbed by the saltwater causes it to evaporate. This process harnesses solar energy to transform saltwater into steam, eliminating the need for external energy sources.

The generated steam is transported to the distillation apparatus, where it encounters a fine spray of freshwater. This step promotes the condensation of saltwater steam into fresh water, separating out impurities and salt.

Condensation occurs when the saltwater vapour meets the sprayed freshwater, generating desalinated water droplets. This process takes place in a sub-atmospheric pressure environment, which facilitates the conversion of steam into liquid.

Any unused heat from the distillation process is recycled back into the evaporation unit to heat incoming saltwater. This heat recovery cycle improves the system’s overall energy efficiency.

The desalinated water is collected in a gathering channel and directed for storage or immediate use. The system is fully self-sufficient, powered by solar energy with no need for an external electrical grid. It can also be scaled to meet different levels of demand.