and other larger molecules. If only water
molecules get through, pure water results.
Efficient graphene membrane
Reverse osmosis is not as energy consuming
as thermal desalination, but the method still
requires electricity to power the pumps that
put the ocean water under pressure. Scien-
tists are working on using renewable energy
in the desalination process. Dubai’s plans
will see reverse osmosis powered by solar-
cell electricity producing more than 1.1
billion litres of drinking water a day in 2030.
Another solution to the energy problem
is to produce new types of membranes that
allow water molecules to pass more easily,
more efficiently blocking out salt and impu-
rities. One of the most promising materials
is graphene – 2D carbon sheets that are only
one atom thick. Scientists from the Univer-
sity of Manchester have developed a method
by which a graphene-oxide membrane lets
scientists control the size of the pores of the
membrane very accurately. Salt molecules
The waste product from ocean water desalination is highly concentrated brine.
Substances such as caustic soda and lithium can be extracted from the brine.Graphene membranes make
reverse osmosis more eco-friendly1
Reverse osmosis membranes now block
out 90-99% of the salt of ocean water,
but they require lots of energy, as the
water must be forced through the membrane
under high pressure. Chinese scientists have
developed a graphene membrane that directs
the water 100 times more efficiently, so requiring
lower pressure, and less power to drive it.Wooden membrane
efficiently filters out salt2
Scientists from Princeton University
have created a 500-micrometre-thick
wooden membrane that is water-
repellent, yet allows vapour to pass. One side
of the wood is heated, making the water
evaporate and pass through the pores to the
opposite cold side, where it condenses. The
salt is left behind on the warm side.Waves put water under pressure
3
The Atmocean company has developed
a pump that is mounted on a buoy
and powered by waves. In step with
the wave movements the pump sucks in water,
forcing it out again under high pressure. A system
of 15 pumps causes a water pressure which is so
high that it can power a reverse osmosis plant
without any extra energy consumption.HeatCold waterMembraneWater vapourBuoyDesalination plantOutflowPumpInflowWater moleculeSalt ionCarbon nanotubesGraphene sheetSOLUTION
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