The European parliament resolution dated the 4th February 2009, “2050: The future begins today – Recommendations for the EU’s future integrated policy on climate change”, set out detailed targets to reduce greenhouse gas emissions by 25-40% by 2020 and by 80% by 2080. The report includes biofuels as one of the key technologies for research and development to help to achieve this aim.
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The future of biofuels
1. The future of biofuels
Introduction
The European parliament resolution dated the 4th February 2009, “2050: The future begins
today – Recommendations for the EU’s future integrated policy on climate change”, set out
detailed targets to reduce greenhouse gas emissions by 25-40% by 2020 and by 80% by
2080. The report includes biofuels as one of the key technologies for research and
development to help to achieve this aim.
The European commission report, “Towards a European strategic energy technology plan”,
stated that EU greenhouse gas emissions are on course to increase by 5% by 2030. It also
predicted that dependency on imported fuels would grow from the current level of 50% to
65% by 2030.
In a further report, “An energy policy for Europe”, the European commission proposed a
binding target of increasing the level of renewable energy into Europe’s overall mix to 20% by
2020; and a binding target for biofuels of 10% of vehicle fuels by 2020.
Key issues
Such ambitious targets require the facilitation of mass production of cost efficient biofuels,
and there are various wider social and economic aspects to consider as part of this process.
Several biofuels have had their emissions reduction potential revised in comparison to
conventional fuels after a full analysis of the life-cycle of the biofuel. The problems of
sustainability and the environmental impact of mass production of biofuels are still to be fully
assessed and resolved.
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2. There needs to be a global outlook on the policies surrounding production of biofuels. There is
a growing food v fuel row due to lack of available land for food production and crops grown
for renewable energy. While producing biomass creates an opportunity for developing
countries, it must not be allowed to lead to competition over land for food.
The manufacture of first generation biofuels will need to be made sustainable on a large scale,
while at the same time there must be a rapid development of second generation biofuels. The
industry will also need to work with the motor industry and the petroleum industry to achieve
the development of an overall sustainable transport system.
First generation
First generation biofuels are generally produced from oil crops such as rape and palm oil,
cereal crops like wheat and maize, or sugar crops such as sugar beet and sugar cane. There
are several problems surrounding the manufacture of first generation fuels, including
environmental impact, land availability, and the indirect effects of production. One of the
overriding problems is the yield produced by certain crops, and the sheer weight of biomass
that would need to be produced to satisfy fuel demand. First generation biofuels include:
Biodiesel
Pure vegetable oil is converted to biodiesel by transesterification with methanol, and the
resulting product is used in low-biofuel blends with fossil diesel. The typical blend is 5% in line
with the European diesel standard, although pure biodiesel is used in Germany and Austria
with modified vehicles and engines. The most commonly used biodiesel in Europe is Rapeseed
Methyl Ester (RME).
Bio ethanol & ETBE
First generation bio ethanol is the most used biofuel globally. It is produced by distillation of
wheat, sugar cane, corn, sugar beet and waste from sugar refineries. Bio ethanol is best used
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3. with a spark-ignition or Otto engine; it has a high octane rating, which suggests good anti-
knock characteristics. Blends of 5% with fossil petrol are allowed in Europe, although in
Sweden flexible fuel vehicles (FFVs) are using E85, an 85% bio ethanol and 15% petrol mix.
Higher proportion blends of bio ethanol can have a corrosive effect on certain metal and
plastic engine components so its derivative, ETBE is more commonly found across Europe in
blends up to 15%. ETBE is created via a catalytic reaction of ethanol and isobutylene; it
improves the combustion of petrol and avoids the problems associated with corrosion. British
Sugar’s factory in Wissington (pictured below) is the UK’s first bio ethanol plant. It produces
75 million litres of bio ethanol per year, which is approximately equivalent to 2% of the petrol
used by cars each year in the UK.
Source: British Sugar
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4. Biogas/Landfill gas
Biogas is a blend of biomethane CH4 (65-70%) and CO2 (30-35%), and small proportions of
other gases. The gas is created by a process of anaerobic digestion of crops or of organic
waste such as land fill, sewage or manure. Biomethane is used as a transport fuel either as
Liquid Natural gas (LNG) or Compressed Natural Gas (CNG). When mass production is
available from organic waste rather than crops, biomethane could be considered to be
sustainable. Gas is already widely used throughout Europe as a fuel, and one UK Company,
Gasrec, is already producing biomethane commercially from naturally occurring methane from
landfill sites.
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IQPC GmbH | Friedrichstr. 94 | D-10117 Berlin, Germany
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