By
Esther Nakkazi
Last
year, the Bill and Melinda Gates Foundation put up a $3 million grant to
reinvent the toilet, as a stand-alone unit, hygienic, safe, with no piped-in
water or a sewer connection—all for less than 5 cents a day.
Eight
universities, each with a grant of $400,000 got into the competition, one of
these based in Africa, the University of Kwazulu-Natal, South Africa and in
August this year, exhibited their innovations in the USA.
Toilets
from the reinvent the toilet challenge do not discharge pollutants, are
waterless and with no septic system, generate energy and recover salt, water,
and nutrients from the waste.
They
can also be easily be adopted by local entrepreneurs for a sanitation business
as the operational cost per user is only 5 cents ($0.05) a day.
Three
of the toilet innovations up for the challenge transform feaces into biological
charcoal or biochar, using a technology that decomposes the human waste at high
temperatures without oxygen. The produced biochar would be combusted and the
heat generated used to recover water and salts from the feaces and urine.
The
self-contained toilet system, using this technology, developed by Stanford
University and the Climate Foundation in US, will be shipped before the close
of the year to a Nairobi slum to process two tons of human waste daily, said a
statement from the Bill and Melinda Gates Foundation.
Part
of the strategy of reinventing the toilet also involves gathering what people
want and measuring if it really works. So participating teams have to a duty to
work in close collaboration with local communities in sub-Saharan Africa and
south Asia where the burden of unsafe sanitation is greatest.
The
toilets should also spur behavior change, improving hygiene and stopping open defecation
done by more than a billion people in the developing world.
Four
other toilet innovations will use technology that will disinfect urine using
ultra-violet light and boiling the urine under pressure to recover highly
purified water.
The
University of Kwazulu-Natal, South Africa, toilet system is designed to recover
water and carbon dioxide from urine in community bathrooms and extrude feces
into thin strands for faster drying and stabilisation.
A
solar-powered toilet by the California Institute of Technology in the US, will
generate hydrogen and electricity. This toilet will have a solar panel that
will produce enough power for the electrochemical reactor that will break down
water and human waste into hydrogen gas. It will be interesting for the winning
toilet to be adopted in the developing world.
The
Gates Foundation announced the reinventing the toilet challenge, for
Universities, in April 2011, at the third African Conference on Sanitation and
Hygiene, AfricaSan, in Kigali, Rwanda calling for new ideas and innovations for
a toilet.
The
current flush toilet was invented over 200 years ago, and it has been able to
reach only one-third of the world, leaving more than a billion people to open
defecation and diseases caused by unsafe sanitation leading to half of all
hospitalizations in the developing world.
The
World Health Organization (WHO) says improved sanitation can produce up to $9
for every $1 invested by increasing productivity, reducing health care costs,
and preventing illness, disability, and early death.
Reducing
by half the number of people who don’t have access to basic sanitation is a key
target of the United Nations’ 2015 Millennium Development Goals (MDGs).
According
to WHO access to safe sanitation would reduce child diarrhea by 30 percent and
significantly increases school attendance especially for girls, who often miss
work or school when they are menstruating and risk sexual assault when they are
forced to defecate in the open or use public restrooms.
Ends-