The Pipe is a floating desalination plant, designed to remove both dirt and salt from ocean water in
a process known as electromagnetic filtering. An electromagnetic field will separate substances by
attracting ions. According to the creators, a Pipe can desalinate 4.5 billion litres of water annually.Floating desalination plant aims to
supply cities with drinking waterELECTROMAGNETS
PURIFY WATER
Under the Pipe’s surface,
ocean water circulates in
a pipe system in which electro-
magnets attract ions in dirt and
salt, separating them from water.SURFACE MADE OF STEEL
AND SOLAR PANELS
The surface of the plant is
covered in panels made of
recycled steel and solar cells
that supply electricity to the
electromagnetic desalination.DRINKING WATER SENT
DIRECTLY TO THE SHORE
A pipeline directs the
desalinated drinking
water to a water supply net-
work. The maximum length of
the Pipe is 428 x 60 metres.LONG^ SHOT
are surrounded by a ‘shell’of water mole-
cules too large to pass through the pores of
the membrane. As scientists can control the
size of the pores very accurately, the
membrane is also more efficient at allowing
the water through, so the desalination does
not require so high a pressure (and power
consumption) as other desalination methods.Electric grid captures vapour
Membranes must be either cleaned or
replaced over time, as dirt and bacteria accu-
mulate. But ocean water can be desalinated
without them. MIT scientists have devel-
oped a method which can separate salt, dirt
and pesticides from water during a process
known as shock electrodialysis. The ocean
water flows through a porous glass material
with electrodes on either side. By having an
electric current flow to make the electrodes
positively or negatively charged, the salt
water divides into a high-salt region near
one electrode and a salt-poor region around
the other. When the amperage reaches a
critical level, a kind of shock wave develops
through the liquid, resulting in the low-salt
region being purified of up to 99.99% of the
salt from the original water sample.Electricity is also key to another MIT water
concept, in which the power extracts drinking
water from vapour, rather than ocean water.
The method can be used to harvest water
vapour from power plants, where today an
extraordinary 39% of US fresh water is usedto cool power plants during electricity gener-
ation, with much of the water emitted into
the atmosphere in the form of water vapour.
Huge quantities of drinking water are wasted
in this way.
The scientists behind the Infinite Cooling
concept aim to change that. They have devel-oped a method by which a grid collects drops
from water vapour. Normally, this method
would capture some 1-3% of the water from
emitted vapour in the form of water drops,
but scientists have discovered that by
running a weak electric current through the
grid they can ionise the air so that it becomes
electrically charged. The grid then attracts
much more of the water vapour that would
otherwise speed by and disappear into the
atmosphere. The collected water can be
usefully recycled in the power plant cooling
system, or could form part of the water
supply for a nearby town.
The search to squeeze out still more
refreshing droplets does not stop here. Even
the moisture of human excrement can be
extracted and used as drinking water. In
2015, an omniprocessor prototype was built
in Senegal’s capital of Dakar. The city has
little organised sewage and suffers severe
problems with waste water and sludge from
primitive toilets. But thanks to the omni-
processor, faeces from 50-100,000 people is
now converted into pure drinking water.
Together with the other technical solutions,
quaffing down purified poo might ensure a
future in which no one needs be thirsty.99.99
% of the salt in ocean water
can be removed by a
‘shock wave’ of electricity.KHA
LILI
EN
GIN
EER
S
48 | SCIENCE ILLUSTRATEDTECHNOLOGY WATER