1. Timberjack Energy Technology
Racolta del legno per energia: Lavori in Corso
Biella Conference, 28 Settembre 2001
FORENERGY: il futuro della raccolta del
FORENERGY
legname per uso energetico
Sylvain Martin,
Project Coordinator, Timberjack
28-09-2001/ SMa
2. Speaker’s Profile
• Master of Mechanical Engineering
Postgraduate studies in Innovation & Technology
management
• 2 years experience at Plustech Oy,
advanced R&D center for Timberjack
• Coordinator of EU project FORENERGY
28-09-2001/ SMa
3. Presentation Plan
Timberjack Forestry Group
Overview
Product Range
FORENERGY project
Partners
Forest Biomass, Green Energy ?
Objectives
Milestones and expected results
Energy-wood harvest, from present to future
Where we are today
Scenarios for tomorrow
Conclusions
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5. The Forest Machine Manufacturer
• Focused on forestry
• High value products
• Globally widest product offering
• Local distribution
• Comprehensive services, training
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6. Overview
World´s leading forest machine
manufacturer
• World wide market share nearly 30%
• Turnover > $500M
• 2000 Employees
• Part of John Deere Construction and Forestry
Division since April last 2000
• Production: Finland, Sweden, Canada, USA
• Own retail company in 13 countries
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7. A global player
Asia-Pacific 4% Other
South <1%
America 2%
North
Europe, America
Russia and 39%
Africa 55%
Net sales by market area 1999
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8. Industry’s Widest Product Range
Harvesters Forwarders Log Loaders
Feller Bunchers Skidders
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10. Environmental Logging Solutions
• Promote forest regeneration
• Reduce ground impact
• Minimize pollution
• Improve wood quality
• Focus on operator training
• ISO 14001 compliance
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11. Shaping the future of mechanized logging
• Continuous commitment and
investments in R&D
• Reliability, productivity and
environmental goals
• Further development of
existing products
• Long term projects
• Partnership with leading
component suppliers
28-09-2001/ SMa
13. Forest Biomass, Green Energy?
• 100% renewable energy
• Simple way to store the solar energy
• Neutral CO2 balance
• Local energy source
• Employment potential in rural areas
• “Crisis free” energy
• Cleaner landscape and faster
reforestation after cleaning the site
• Answer to energy peak consumption
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14. FORENERGY at a glance
• This project aims at developing some systems for
large-scale collection of forest residual
• It is a demonstration project
• Officially started the 1st of May 2001,
it will last 3 years
• 7 research partners are involved
• The total budget of the project is 4.9 M€
• The EU commission will finance 35% of this
budget (i.e. 1.72 M€)
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15. Partners
AFOCEL, Forestry technical institute / France
ARCS, Austrian research center - Environment division / Austria
CEMAGREF, National Agricultural & Forestry research center / France
IRL, National research center - Florence division / Italy
UPM-Kymmene, Valkeakoski paper mill / Finland
Shotton Paper & Caledonian Paper, paper mills / UK
28-09-2001/ SMa
16. Vision of the team
Once the logistics of the material chain will be
optimised, power plants will be very efficient
and clean, especially when designed to use only
wood as their fuel.
fuel
It will also be possible to use the existing methods
in harnessing energy-wood plantations that will
thereby become more productive.
productive
We believe that these are the key elements to take
bio-energy production to a competitive level for the
first time ever.
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17. Objectives
to conduct high level research on the development of renewable
and clean bio-energy technology
to model, develop and optimise the complete energy chain
from the forest to the consumers
to develop an energy system producing fuel for the power plant at
a competitive price (<8 EURO/Mwh at the plant)
to develop an energy system that is neutral concerning the CO2
emissions and which keeps other emissions on a lower level
than what the regulations require
to develop machinery and equipment to serve these purposes
to conduct tests to demonstrate the applicability in several
European countries
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18. Work division
• The co-ordinator, Timberjack, will develop methods and
machinery for collecting and handling the material.
• UPM-Kymmene as an end-user will test the developed
technology at their plants.
• Shotton Paper and Caledonian Paper company will use and
modify this technology for the UK plants.
• Research involving methods, economics, logistics and
emissions will be conducted by the partners in Austria, (ARCS),
France, (CEMAGREF and AFOCEL) and Italy (IRL).
• CEMAGREF will contribute to collecting equipment design and
IRL will study the possibilities of adapting this technology to
the Southern European conditions. ARCS will make a “LCA”,
Life cycle assessment on the components of the chain.
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20. Milestones and expected results
a new method of collecting the small wood and
thinning residuals from forestry operations
a new method of collecting the “normal” logging
residuals left from commercial fellings
fuel price at the power plant < 8 EURO/MWh
neutral CO2 and nutrient balance together with
minimised combustion emissions
at least one working energy chain realised on the
practical level at full industrial scale
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25. Timberjack 720 benefits
• Patented accumulation principle (up to 5/10 trees)
• Tree cutting and handling standing vertical
• Crane movements reduced to a minimum
• Purpose designed knife (high degree of utilization)
• Leveling cylinder & tilt function
• Control system providing automatic functions
for easy and efficient operation
Mains dimensions
Width with open grapples 830 mm
Width with closed grapples 600 mm
Total height 890 mm
Weight without attachment 340 kg
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27. Logging,
1st step of Bundling Technology
• While working, the harvester
accumulates the slash on piles
(faster to feed into bundling
machine)
• Normally, the goal is to get
slash from 2-3 trees on a pile
• Piles are made by the strip
roads and machines should not
drive over the slash!
• Collecting slash is normally
made only on fertile spruce
clear cut sites
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28. Bundling Process
• The bundling machine will produce “slash logs” that are
> 3m long and about 0,6-0,8m in diameter.
diameter
• Bundles are wrapped with strings in every 40 cm.
A bundling
machine
produces about
20-30 bundles
per hour each
weighting avg.
0,4-0.7 tons.
tons
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33. Bundles at the Plant
Crushing or chipping of bundles is done at the
power plant, where the “green” chips are often
plant
mixed with other energy material like bark, sawdust
and peat.
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34. Bundle Benefits
• Extracted with standard forwarder
• Transported with standard on-road trucks
• Each bundle = 1-1.2 MW of energy
(equals 80-100 L of oil)
• Handled like other assortments
(pulp wood, saw logs…)
• Easy to stock at roadside or at terminal
• Do not start to compost as easily as loose slash pile
• Not so sensitive to moisture (covering not required)
• Wind dried during storage time
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35. Timberjack 2001 Energy Bundler
Working for Pietarsaari Power Station in Finland,
World’s Largest Biomass Power Plant, P = 550 MWth
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36. Aerial View of the Alholmen Biomass Power
Plant in Pietarsaari, Finland (P = 550 MWth)
Commercial operation
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starting 10.2001
37. Annual Production and Consumptions
of Pietarsaari Power Plant
Fuel ca 3 500 GWh
Peat
45 % Max. fuel consumption 700 GWh
800 - 1000 m3/h Oy heat
Alholmens
Kraft
Bark Ab 1 300 GWh
and electricity
Wood waste
45 %
Furnace section = 8.5*24*40 m
Heavy fuel oil
and coal
Bundle needs = 300 000 / year
10 %
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40. Scenarios for tomorrow
Northern Europe: Southern Europe:
• big CHP plants like • small and medium
Pietarsaari CHP plants
• industrial networks • municipal networks
connected for steam mainly connected for
& electricity heating
• municipal networks
connected for heating
> economy of scale & > local needs &
superior logistics flexibility
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41. Different needs,
different solutions
• The main idea is to develop some general
concepts that we can duplicate and adapt
to very local conditions
• It means that a lot of parameters have to be
considered during the design phase of the
product platforms
• Thanks to our very extended network of
partners (FORENERGY, other projects and
local dealers), we should be able to come up
with optimal solutions: economic,
productive and environmental friendly!
28-09-2001/ SMa
42. Conclusions
• The whole chain working at the moment for UPM-
Kymmene in Pietarsaari is very satisfying
(7 to 9 €/MWh). It consumes less than 3% of the
MWh
total quantity of energy produced.
• Timberjack energy technology (720 & Fiberpac) has
shown itself very well adapted for Scandinavian
conditions. Our goal is now to adapt it to southern
europe conditions taking into account all of its
very particular characteristics (France, Italy,
Spain, Austria, Germany, Eastern Countries…)
28-09-2001/ SMa