Our vessel, stabilised by the hydrostatic performance of a system of ballast tanks, has a central needle mimicking the formation of DNA systems (since water is life) stimulating the dynamic flow that eases throughout both X and Y axis, carrying salt up from the ocean to its respective locations. Atop the structure is a multifunctional shell that serves as a solar canvas as it is laced with heliostat foil, this solar system then heats up an immense tank full of sodium and potassium nitrates that are pumped up to the top of the tower. There the molten salt can reach temperatures as high as 565 degrees Celsius. When electricity is needed, the hot salt is used to boil water and produce high-temperature, high-pressure steam, which turns turbines that generate electricity. The benefit of using molten salt as both the energy collector that creates steam and the energy storage mechanism, however, is that it eliminates the need for expensive heat exchangers to go between different fluids. [Sheikh, 2014: online]

The fortunate by product of this system is fresh water, since water is life the water then becomes the literal core of the cell as a large freshwater waterfall. The waterfall creates a freshwater pool around which various essential crops and other nutrient rich landscaping beds are planted.  Around this self-sustaining central environment canvas skinned pods rest, constructed along with the rest of the cell from timber, galvanised steel and glass elements serving as but not limited to shelter, storage, and research facilities to the user.