8 September 2018 | NewScientist | 33That is where desalination comes in, and
there are plenty of ways to do it. For example,
you can evaporate water from one spot and
condense it in another, leaving salt and
impurities behind. But the most energy-
efficient method is reverse osmosis.
Imagine a strong salt solution and a weak
one, separated by a membrane that allows
only water through. In this situation, the
water will flow naturally from the weak
solution to the strong, evening out their
concentrations in a process called osmosis.
Do the reverse, forcing ocean water at high
pressure through a salt-excluding membrane
in the opposite direction, and you are well
on the way to making drinking water.
This approach is becoming more
common. In 2005, desalination produced
about 40 billion litres of water daily, according
to the International Desalination Association.
By 2015 that had increased to 87 billion litres,
produced by nearly 1900 plants around the
world. The vast majority of those are in the
dry countries around the Persian Gulf, but
the technology is on the up elsewhere too.
The Australian city of Adelaide gets roughly
half of its water from a huge desalination
plant. California already has a few plants
and is spending more than $30 million on
eight new ones.
Great news. Except what about all that brine
left behind? It is about twice as salty as the
starting water, depending on the desalination
technique used, and most plants dispose of it
by pumping it back out to sea. That is a source
of concern for researchers, includingChildress, who is based at the University
of Southern California.
The concentration of salts in the sea
varies. On average it is 35 parts per thousand,
meaning that for every 1000 grams of
seawater, about 35 grams is salt. Once salt
levels exceed what marine plants and animals
are used to, there is a danger that their cells
might cease to work properly.
The evidence so far for what happens to
life around brine outflows from desalination
plants is mixed. In 2012, a study for the
California State Water Resources Control
Board looked at how animals responded to
increased salt concentrations in lab >For coastal communities, the ocean is
a tempting source of waterSPACES IMAGES/PLAINPICTURE