US still dominates the electricity from biomass world market
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Transcript of US still dominates the electricity from biomass world market
38 July/August 2013 | Renewable Energy Focus
US still dominates the electricity from biomass world market
IN ENERGY terms biomass is the most
important renewable energy carrier globally. It
is used for the provision of heat, electricity and
transportation fuels. Traditionally most of the
organic material used within the worldwide energy
system helps to cover energy demand for cooking and
heating; this use totals 8.5 % of global fi nal energy con-
sumption. Additionally in recent years the modern use of
biomass – and here especially the provision of electricity
– has gained more and more importance, as the REN21
(Renewable Energy Policy Network for the 21st Century):
Renewables 2012– Global Status Report, points out.
Globally, installed biomass plant
capacity rose from 66GW in 2010 to
72GW by the end of 2011. As a whole,
biomass based electricity generation has
grown annually by roughly 9% during
the last decade, REN21 says. Assum-
ing a lower annual average growth
rate of about 5% in 2012, an accu-
mulated capacity of 76GW with an
electricity generation between 265-
529TWh can be expected for the year
2012 (see Table 6 and Figure 1).
The global leader in biomass
based power production is the US
with an installed capacity of roughly
17GW and an electricity generation
of ca. 61TWh in 2012. This refl ects
an increase of 1% related to 2011.
But also the EU (28.3GW), China
(4.4GW), India (3.8GW) and Japan
(3.3GW) are important producers of
bioelectricity.
Solid biofuelsSolid biofuels used for electric-
ity generation are mainly wood and/
or wood waste from forestry and
the subsequent industries, solid res-
idues from the sugar based bioeth-
anol industry (ie. bagasse), residues
from the pulp and paper production
(i.e. black liquor) as well as wood pel-
lets traded internationally. Wood from
short-rotation coppices plays only
a minor role within the electricity
market based on solid biomass. While
in Europe mainly wood waste, pellets
and residues from the pulp and paper
industry are used, sugar producing
countries like Brazil and some other
American and African countries
are primarily using bagasse in power
for combined heat and power (CHP)
plants. For example in Brazil (9.7GW)
more than 80 % (7.8 GW) of the pro-
duced electricity from solid biomass is
provided by bagasse in CHP plants.
In general electricity from solid
biomass is provided in CHP plants as
well as in electricity-only facilities.
But also co-fi ring in coal fi red power
stations is a widely used option in
some countries (eg. The Netherlands,
Belgium, Finland). More innovative
technologies with higher electrical
effi ciencies like biomass gasifi cation
are also still under development; they
have not achieved signifi cant market
diff usion yet. So far few gasifi cation
projects are under operation and/or
under construction (eg. Güssing and
Oberwart in Austria, Ulm in Ger-
many, Goteborg in Sweden).
Due to the growth of international
trading of solid biomass – especially
wood pellets – the installed capac-
ity of the biomass-based power plants
has increased over time. For exam-
ple in the UK, the Netherlands, Bel-
gium and Poland plans exist to
convert existing coal-fi red power sta-
tions either into biomass fi red power
stations based mainly on wood pel-
lets or to increase the co-fi ring capac-
ities (Ernst & Young: Renewable Energy
Country Attractiveness Indices, Issue
36, February 2013). One typical sample
is a power station based on solid bio-
mass which was launched in 2012 in
Tillbury/UK. With an installed capac-
ity of 750MW it is the world largest
power plant fuelled with solid bio-
mass – primarily imported wood pel-
lets from the US, Canada and other
EU-countries. Canada is the biggest
exporter into the EU providing about
85 % of the global pellet production,
according to REN21.
With a share of 67% of the world
biomass-based electricity market,
solid biofuels are the most widely used
biofuel. With at least 48GW installed
power in biomass-based electricity
generation systems by the end of
2011, the installed capacity rose by
5 % between 2010 and 2011. With
an assumed annual plant operation
between 3500 and 7000 full load
Focus on renewable power generation
Installed capacity 2012
(GW)
Growth rate 2011 to 2012
(%)
Operating time (hr)
Electricity generation 2012 (TWh)
Solid biomass 50 3.5 3,500 – 7,000 175 – 350
Biogas 14 10.0 3,500 – 7,000 47 – 95
Municipal solid waste 10 5.0 3,500 – 7,000 36 – 72
Liquid Biofuels 2 20.0 3,500 – 7,000 6 – 12
Total biomass 76 5.0 3,500 – 7,000 265 – 529
Table 6: Summary of global biomass to electricity market 2012.
REF0413_biomass 38 31-07-2013 10:49:31
39July/August 2013 | Renewable Energy Focus
0
50
100
150
200
250
300
350
Total
Ele
ctr
icit
y G
enerati
on 2
012
(T
WH
)
Solid Biomass Renewable MSW Renewable Biogas Liquid Biofuels
Asia Pacific
Africa
Middle East
Europe & Eurasia
South & Central America
North America
hours, 170-339 TWh of electricity has
been produced worldwide based on
solid biofuels. By assuming an annual
growth rate of 3.5 % (due to the
economic crises in various countries)
the installed capacity by the end of
2012 is at least 50GW with an annual
electricity generation between 175-350
TWh (Figure 1).
Around 75 % (152.7TWh) of global
electricity generation from solid bio-
mass is produced in OECD countries.
In Europe 79.4TWh has been gener-
ated in plants using solid biofuels and
more than half (58%) of the electric-
ity has been provided via CHP-plants.
Key markets within the EU are Ger-
many (12.5TWh), Finland (10.1TWh),
Sweden (10.0TWh) and Poland
(8.4TWh). In the UK, electricity
generation from solid biomass is also
gaining importance (showing an
increase of 13.5% between 2011 and
2012); here in 2012 around 6.9TWh
was produced in biomass and co-fi ring
plants.
Municipal Solid WasteDuring the last decade electricity
generation using municipal solid waste
(MSW) incineration grew worldwide
by an average annual rate of about
6%. The highest share of the global
electricity generation from thermal
waste treatment is provided within
the EU (18.7TWh) followed by the US
(9.5TWh) and Japan (3TWh). A sig-
nifi cant increase occurred between
2010 and 2011 with a growth rate
of more than 15%. But within the
OECD-countries it has risen from
30.5TWh in 2010 to 31.8TWh in 2011
and thus by less than 5%. During
the same period non-OECD-coun-
tries increased their power out-
put from waste from 1.5TWh up to
6.2TWh (more than 75%). Assum-
ing that the accumulated installed
capacity of waste-to-energy facilities
grew worldwide in average by 5% in
2012, an installed capacity of 10GW
and an output between 36-72 TWh is
expected for 2012.
Biogas and liquid biofuelsWorldwide biogas powered capac-
ity is estimated to be 14GW with an
electricity output between 47-95TWh
by the end of 2012, assuming a yearly
growth rate of 10%. With an elec-
tricity provision of 37.1TWh in 2012,
the EU is still the largest producer of
energy from biogas followed by the US
(10.2TWh).
With a share of 60% (22.4TWh/a)
of the total European biogas pro-
duction, Germany is the biggest bio-
gas producer within the EU; in the
future a rapid increase in biogas pro-
duction is also expected in the UK,
Italy, Poland, France and the Czech
Republic. China and India have also
increased their biogas capacities dur-
ing recent years. In China by the end
of 2012 at least 800MW biogas power
was installed while India is operat-
ing 70 biogas plants fed by urban and
industrial wastes with at least an
accumulated capacity of 91MW.
Liquid biofuels can be produced
from plants containing starch (eg.
corn for bioethanol), sugar (eg. sugar
cane for bioethanol) or oil (eg. oil
palm for vegetable oil or FAME). Even
if the transport sector is the primary
fi eld of application for liquid biofuels
- commonly bioethanol and biodiesel
– to a minor extend there are power
and/or CHP facilities generating elec-
tricity based on these liquid biofuels.
The world’s largest power sta-
tion using palm oil, with a capacity
of about 100MW, is operated in Italy.
But also in Brazil and Argentina CHP
plants fuelled by liquid biofuels are
under operation.
During the last decade electric-
ity generation from such biofuels has
stagnated mainly due to economic
reasons. Therefore global annual
electricity generation is expected to
remain at the level of the last two
years at about 6-12TWh.
Focus on renewable power generation
Biomass is the most important renewable energy carrier globally - it is used for the provision of heat, electricity and transportation fuels (Photo: Shutterstock/Von Schonertagen).
Figure 1: Regional breakdown of electricity generation from biofuel sources in 2012 (estimated annual output using average full load hours).
REF0413_biomass 39 31-07-2013 10:49:31
