‘Mysterious’ salt movement could be used in desalination or industrial processes

Salt moves in mysterious ways, according to researchers at the University of Surrey – and a new discovery could be used in desalination plants or industrial processes.

In experiments, Surrey researchers observed the effects of an electrical current created in a liquid by combining two kinds of salt.

When one salt is dissolved in a liquid, charged particles will drift through the liquid from the most concentrated areas to the least. However, by adding a second type of salt, an electrical current can arise throughout the entire fluid almost instantly.  

That current can move charged particles throughout the solution. This 'action-at-a-distance' effect is called non-local diffusiophoresis – and this is the first time scientists have seen it. 

“This is a truly exciting discovery – the first time we've ever seen remote diffusiophoresis. Our research is at a very early stage, and we don't yet know how strong these currents could ultimately become. But the possibilities are tantalising,” said associate professor Dr Richard Sear.

Scientists modelled how they expected several salts to behave in water. They then conducted experiments, dissolving various pairs of salts to find the pair with the biggest effect.  

They knew that the local effects of the concentrations would cancel each other out, meaning any movement had to be explained by non-local diffusiophoresis. The biggest effect was observed when dissolving sodium chloride with potassium acetate. 

It is hoped the discovery could one day be used in industry, or in desalination plants.

“This process could one day be used to sort and separate substances within a liquid. Think how useful that could be for desalinating drinking water from the sea, or separating solutions in industrial processes,” said Dr Sear.

The experiments were performed by Dr Ian Williams, with funding from the New Horizon programme of the Engineering and Physical Sciences Research Council.

The study was published in Physical Review Fluids.  

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