Sugarcane ethanol: Brazil's biofuel success
Brazil's successful sugarcane ethanol industry owes much to massive
investment in infrastructure and research, reports Carla Almeida.
Thirty years ago, when one litre of ethanol was worth three times more than
one litre of gasoline, most nations would not have considered investing in
it as a biofuel. But Brazil took this path, and now produces the cheapest
ethanol in the world.
Brazil's favourable conditions and tradition for culturing sugarcane — the
most efficient raw material for the production of ethanol — were essential
for developing the sector.
But it was the government's massive investment in infrastructure and
research between 1975 and 1989 that allowed the country to become a leader
in the ethanol market.
Pioneering experience
Brazil's ethanol industry started in the 1930s. With more sugar than it
could use, the government directed sugarcane into ethanol production and
made the addition of ethanol to gasoline compulsory.
But it was in 1973 that the industry really progressed. An international
oil crisis doubled Brazil's expenditure on oil imports and the government
was forced to consider alternative sources of energy to decrease its
dependency and spending on fossil fuels.
With that in mind, the government launched the National Alcohol Programme
(Pro-Ãlcool) in 1975 to increase ethanol production as a substitute for
gasoline.
It invested in increasing agricultural production, modernising and expanding
distilleries, and establishing new production plants. It also introduced
subsidies to lower prices and reduced taxes for ethanol producers.
Over the next 15 years, production of ethanol increased hugely from 0.6
billion litres in 1975 to 11 billion litres in 1990.
During the first phase of the programme in 1975—78, one part of ethanol was
added to four parts of gasoline and there was an additional processing stage
to remove water from the fuel.
By 1979, production had been streamlined to focus on hydrous ethanol
(containing five per cent water) that could be used in cars fuelled entirely
by ethanol.
Researchers at the General Command for Aerospace Technology, the national
research centre for aviation and space flight located in São Paulo,
developed alloys to protect the internal parts of gasoline-powered engines
and fuel tanks from corrosion by ethanol. At the programme's peak in
1986—89, 90 per cent of all new vehicles sold in the domestic market were
ethanol-fuelled.
Roberto Schaeffer, professor of energy management and policy at the Federal
University of Rio de Janeiro, says creating the market was a "huge national
effort" requiring a lot of financial investment. "The government was
criticised at that time, but the fact is that it was a success," he adds.
Science behind the achievement
Behind the success of the programme were important scientific and
technological advances in agriculture and industry.
"The production of 40 tonnes of sugarcane per hectare was more than
doubled," says Schaeffer. "It was a unique experience, in which the
government and the private sector together invested in research and
improvement of a particular product."
Key developments in agricultural research came from the Campinas Agronomic
Institute, which has been working on sugarcane improvements since 1933, and
the School of Agriculture Luiz de Queiroz at the University of Sao Paulo.
Using traditional breeding techniques, researchers produced varieties
adapted to different soil and climate conditions, with shorter production
cycles, better yields, and tolerance to water scarcity and pests (such as
the devastating fungus that caused sugarcane rust in the 1980s).
"Researchers working in the area anticipated the appearance of diseases,"
says Oscar Braunbeck, professor of agricultural engineering at Campinas
State University. "If there weren't genetically improved varieties of
sugarcane, it could have been a huge problem for the sector."
In production, new grinding systems were developed and the fermentation
process adapted to use different microorganisms and enzymes to produce more
ethanol faster.
The Sugarcane Technology Centre, a privately-funded research institute in
São Paulo, was key to improving ethanol production technology, having
invested about US$20 million a year in research at the peak of the
programme.
A problem at the time was waste. The vinasse, a corrosive liquid byproduct
of ethanol distillation, was dumped in rivers, causing environmental damage.
But the vinasse was found to be a good fertiliser, and in the 1980s
Braunbeck and a team at the Sugarcane Technology Centre developed a
transportation system, involving a combination of trucks, pipes and ducts,
to carry it from the distilleries to the fields.
Researchers at the centre and other institutions also found ways to use
leftover sugarcane fibre, known as the bagasse, to produce energy, building
on existing methods of burning the bagasse to power steam turbines for
electricity generation.
They developed cauldrons under greater pressure so more energy could be
produced, allowing many ethanol plants to become autonomous in terms of
energy. This contributed significantly to keeping ethanol production costs
low.
New technologies, new demand
The infrastructure developed and advances made enabled the programme to
survive a turbulent period at the end of the 1980s, when the government cut
public investment after a crash in the price of oil, and a sugar supply
crisis led to sugarcane resources being diverted to sugar production over
ethanol. Although this had a short-term impact, demand remained high and
almost five million ethanol-fuel cars were in circulation by the 1990s.
Today, Brazil is the second biggest producer of ethanol in the world (20
billion litres) after the United States (24 billion litres). Close to 80 per
cent of this is for the domestic market — the fuel used in 45 per cent of
Brazilian vehicles is ethanol.
Part of the demand is down to the success of flex-fuel cars, which can run
on gasoline, ethanol or a mixture of both. The cars were developed by
engineers at Bosch, a German company, in São Paulo and released in 2003.
The engine works differently depending on the quantity of oxygen produced by
the type of fuel burned, which is measured by a sensor.
Flex-fuel cars renewed consumer interest in ethanol and intensified demand
for ethanol biofuel. According to Brazil's National Association of Vehicle
Manufacturers, Anfavea, 85 per cent of cars — some four million vehicles —
sold in Brazil today are flex-fuel.
"There has been another jump in the demand for ethanol," says Alfred Szwarc,
a consultant for the Sugarcane Industry Union. "Flex-fuel cars increase
consumption and we are observing a growth in this market."
The success of flex-fuel and the need to reduce carbon emissions have
inspired a search for new applications of ethanol. Researchers at the Delphi
Technology Centre in Sao Paulo have developed a fuel system for motorcycles
that can also use ethanol—gasoline blends in any proportion.
The first ethanol-powered bus, developed at University of Sao Paulo, will
undergo road tests in December to test its economic viability. And Brazilian
aviation company Embraer has had an ethanol-fuelled agriculture monoplane in
use since 2004.
"During the last 30 years, what we did was to become professional in the use
of conventional [ethanol] technology," says Braunbeck. "From now on, we need
to develop new technologies to keep our leadership in the sector."
New challenges
With international demand for renewable sources on the rise, Brazil has many
challenges to face if it is to continue at the forefront of the ethanol
market. One is to increase its already significant production without
environmental or social damage.
Producing ethanol from sugarcane bagasse and straw would be a step in the
right direction. These components are rich in cellulose and turning these
into ethanol would allow the entire sugarcane biomass to be used with no
wastage. One tonne of bagasse can produce 186 litres of ethanol. But there
are doubts over the economic viability of the process, which requires more
water and produces more polluting byproducts like the vinasse.
A large production of ethanol, however, is no guarantee of market
superiority for Brazil or the success of the ethanol industry
internationally.
Brazil is offering its expertise to nations worldwide, especially developing
countries that could produce biofuels but still depend on oil.
Brazil also hopes to expand its ethanol market. "It is a good deal for both
sides," says Schaeffer. "For a Caribbean or African country, it is better to
import technology from Brazil and learn to produce their own goods than to
keep importing oil from the Middle East."
"We have the equipment and the administrative capacity to make big plants
work and the technology in both the industrial and the agricultural phase,"
says José Roberto Moreira, a University of Sao Paulo researcher and advisor
at its National Centre of Reference in Biomass. "It is easy to start an
ethanol project in another country with this know-how," he says.
Many countries have already shown an interest in the trade. This year Brazil
has signed agreements with countries in Africa, the Caribbean and Latin
America.
Most of these agreements involve transfer of Brazil's ethanol production
technology. In the west African country of Benin, for example, Brazil will
use its expertise to help develop production capacity.
In Angola, Angolan and Brazilian oil companies are to build a facility to
produce sugar, bioenergy and ethanol from sugarcane. The facility is
expected to produce 150 million tons of sugar, 50 million litres of alcohol
and 140 megawatts of electricity per year. The construction is scheduled to
begin in the first semester of 2008 and the joint venture involves an
investment of US$200 million.
There is clearly the hope of establishing an ethanol trade with these
countries, says Szwarc. "But even if this doesn't happen, we are at least
creating the proper conditions to consolidate a stable market for ethanol
and to expand it in the future." |