The configuration of the device allows water to circulate in swirling eddies, in a manner similar to the much larger “thermohaline” circulation of the ocean. This circulation, combined with the sun’s heat, drives water to evaporate, leaving salt behind. The resulting water vapor can then be condensed and collected as pure, drinkable water. In the meantime, the leftover salt continues to circulate through and out of the device, rather than accumulating and clogging the system.

The new system has a higher water-production rate and a higher salt-rejection rate than all other passive solar desalination concepts currently being tested.

The researchers estimate that if the system is scaled up to the size of a small suitcase, it could produce about 4 to 6 liters of drinking water per hour and last several years before requiring replacement parts. At this scale and performance, the system could produce drinking water at a rate and price that is cheaper than tap water.

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    Engineers have developed a passive solar desalination system that mimics ocean circulation to produce freshwater from seawater. The design uses sunlight to heat saltwater and induce swirling eddies that evaporate water while rejecting salt. Testing showed a single stage could produce 5 liters of drinking water per hour. A scaled-up version is estimated to have a lifetime of several years without maintenance. As it requires no electricity, the system could produce water cheaper than tap water, potentially addressing water scarcity in coastal communities. An innovative aspect is how it circulates saltwater in a manner similar to ocean currents to effectively separate salt without clogging.

    The passive design makes it well-suited for household water production in off-grid areas.


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