[Ccpg] Better sewage treatment is the latest thing in clean energy Dec 30thThe Economist
Wesley Roe and Santa Barbara Permaculture Network
lakinroe at silcom.com
Fri Jan 8 08:00:30 PST 2010
Renewable energy
The seat of power
Dec 30th 2009
From The Economist print edition
Better sewage treatment is the latest thing in clean energy
http://www.economist.com/sciencetechnology/displaystory.cfm?story_id=15172621
Illustration by David Simonds
WHERE there's muck, there's brass-or so the old
saying has it. The cynical may suggest this
refers to the question of who gets what, but
thoughtful readers may be forgiven for wondering,
while they are recovering from the excesses of
Christmas in the smallest room in the house, what
exactly happens when they flush the toilet.
The answer is encouraging. Less and less waste,
these days, is actually allowed to go to waste.
Instead, it is used to generate biogas, a
methane-rich mixture that can be employed for
heating and for the generation of electricity.
Moreover, in an age concerned with the efficient
use of energy, technological improvements are
squeezing human fecal matter to release every
last drop of the stuff. Making biogas means doing
artificially to faeces what would happen to them
naturally if they were simply dumped into the
environment or allowed to degrade in the open air
at a traditional sewage farm-namely, arranging
for them to be chewed up by bacteria. Capturing
the resulting methane has a double benefit. As
well as yielding energy, it also prevents what is
a potent greenhouse gas from being released into
the atmosphere.
Tanked up
Several groups are testing ways of making the
process by which faeces are digested into methane
more efficient. GENeco, a subsidiary of Wessex
Water, a British utility company, uses heat.
Instead of running at body temperature, the
firm's process first stews the excrement at 40°C
for several days. It then transfers the
fermenting liquid to a tank that is five degrees
cooler.
This two-tank system produces more methane than
conventional methods because different strains of
bacteria, which chew up different components of
faeces, work better at different temperatures.
The result of giving diverse groups of bugs a
chance to operate in their ideal environments is,
according to Mohammed Saddiq, GENeco's boss,
about 30% more methane from a given amount of
excrement.
In Germany a team at the Fraunhofer Institute in
Stuttgart, led by Walter Trösch, is using a
different approach. Dr Trösch has reduced the
amount of time it takes to digest sewage from two
weeks to one, by employing a pumped mixing
system. This works faster than traditional
methods for two reasons. The first is that
stirring the sludge causes methane to bubble to
the surface faster. From the bacterial point of
view, methane is just as much of a waste product
as faeces are from the human viewpoint.
Encouraging this poison to escape allows the
bacteria to survive longer and thus produce yet
more methane.
The second reason is that mixing the sludge moves
bacteria away from chunks that they have been
digesting and on to "fresher" material that has
not had as much bacterial contact. The result is
a quicker digestion of the whole. The Fraunhofer
pump system, which has already been deployed in
20 sewage plants in Brazil, Germany and Portugal,
needs to operate for only a few hours a day, so
does not require a large amount of energy.
Sadly, that is not true of the approach used by
researchers at the Tema Institute in Linkoping
University, Sweden. They are developing a
technique that employs ultrasound, rather than
pumps, to break up the sludge. This increases
methane yields by 13% but, at the moment, the
process of generating the ultrasound consumes
more energy than it yields.
The consequence of techniques such as these is
that an ever-larger proportion of sewage is being
used as a raw material for energy generation.
Germans already process about 60% of their faeces
this way, and the Czechs, Britons and Dutch are
close behind (see chart). GENeco reckons the
figure in Britain by the end of 2010 will have
leapt to 75%-enough, when converted into
electricity, to power 350,000 homes. And the
latest thinking is to improve yields still
further by cutting out the middle man. Faeces are
food that has been processed by the human
digestive system to extract as much useful energy
as possible. An awful lot of waste food, though,
never enters anyone's mouth in the first place,
and this is an even more promising source of
biogas.
In America in particular numerous sewage plants
have begun processing undigested food in large
quantities over the course of 2009. This is the
result of a collaborative policy by the country's
Environmental Protection Agency and its
Department of Energy, to encourage the recycling
of waste food in this way. In Britain, alas,
public policy actually discourages such activity.
Waste-water facilities there must pasteurise food
scraps before they are processed, according to
Michael Chesshire, the head of technology at
BiogenGreenfinch, a company that modifies sewage
digesters to use food scraps. That is a serious
waste of brass.
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