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Huomisen biotalous
tehdään tänään
15.2.2017 Wanha Satama
Visionary leadership in the
BioecononyHenna Sundqvist-Andberg
16/02/2017 3
Visionary leadership in the Bioeconony
How to plan and implement a successful future?
How to create a common vision and turn it into
effective actions?
How to utilize policy-relevant knowledge and
choose the best policy options?
16/02/2017 4
Visionary leadership in the Bioeconony
Combining foresight with technology
expertise
Foresight processes, e.g.;
Vision creation
Horizon scanning
Trend analysis
Roadmapping
Scenario and action planning
Tailored design for desirable future
pathways
16/02/2017 5
Visionary leadership in the Bioeconony
CASE: South Australian Cellulosic Fibre Value
Chain Technology Roadmap, 2013
A shared view about the need to develop higher
value-added production in the SA forest industry.
A rise in the level of awareness among the
regional operators and major media attention
An insight among regional actors that historical
trajectory of forest industry could and should be
changed
Government of South Australia set up a fund for
the renewal of the industry.
16/02/2017 6
Visionary leadership in the Bioeconony
Johanna Kohl
Tel. +358 40 147 9414
Henna Sundqvist-Andberg
Tel. +358 40 040 5247
Economic growth needs fresh ideas
- the means of circular economy for useRaija Lantto
16/02/2017 8
Economic growth needs fresh ideas- the means of circular economy for use
We face a double-sided problem: resources deplete,
but waste accumulates
How to integrate the entire product life cycle from raw
material to use and re-use (product designers are not
waste managers - yet)
How to link industries and make them resilient
How to keep sustainability on the agenda and
unravel decelerating regulation
16/02/2017 9
VTT’s solution is our cross-sectoral competence
through multidimensional CE
connecting materials know-how with
technological and digital competence covering
whole value networks from benchtop to pilot
understanding technology and business
integration
Economic growth needs fresh
ideas - the means of circular economy
for use
16/02/2017 10
Every Finnish company is or will be
affected by the circular economy. We make
this transition through concrete and tailored
actions together with customers
Challenging end-of-life wastes to
circulation and profit-making
Business integration gives access to
new/unique business opportunities
Pilots are learning tools and
drivers of new mindsets
Economic growth needs fresh
ideas - the means of circular economy
for use
16/02/2017 11
Raija Lantto
Tel. +358 40 7270703
Maria Antikainen
Tel. +358 40 5124260
Tiina Nakari-Setälä
Tel. +358 40 8215794
Mona Arnold
Tel. +358 40 5681222
Economic growth needs fresh ideas
- the means of circular economy for use
Chemicals from waste and side
streamsJuha Linnekoski
16/02/2017 13
Chemicals from waste and side streams
Brand owners looking for sustainable, chemicals,
monomers, solvents, inks, paints, etc.
Need to
decrease carbon footprint
replace toxic and harmfull chemicals
create value for waste and side streams
16/02/2017 14
Chemicals from waste and side streams
Combination of biochemistry and chemistry to
valorise waste and side streams
Example pectin → aldaric acid → bio-polymers
VTT solution based on LCA and TEA
Own IPR → customers freedom to operate
VTT chemical and biochemical laboratories and
pilot scale infrastructure and bioruukki
Pectin
Aldaric acid
Biochemistry
FDCA or Muconic acid
Chemistry
Polymers
Polyesters Polyamides
ApplicationsFibers, resins, packaging, films, textiles,
paints, corrosion inhibition, adhesives,
engineering and medical plastics
16/02/2017 15
Chemicals from waste and side streams
Bioplastics capacity increases 2 → 8 million T by
2019
Renewable chemicals sales increase GAGR 8%
Carbon footprint 20-70 lower compared to fossil
Better properties, example PEF vs. PET
Higher value in chemical and material
applications
16/02/2017 16
Chemicals from waste and side streams
Juha Linnekoski, principal
investigator
Tel. +358 40 487 4922
Laura Ruohonen, VP
Tel. +358 40 576 0496
David Thomas, Senior scientist
Tel. +358 40 736 1561
Jari Rautio, Key account manager
Tel. +358 40 631 1933
Plastic precursors from CO2
using microbes and electricityJuha-Pekka Pitkänen
16/02/2017 18
Plastic precursors from CO2
using microbes and electricity
CO2 from flue gas is abundantly available as
a carbon source for production of chemicals.
However, CO2 re-use is considered to be
too expensive currently.
Chemical products made from CO2 should
have a relatively high price but still have
applications requiring large quantities.
Heavy industry
CO2
16/02/2017 19
Plastic precursors from CO2
using microbes and electricity
CO2 from flue gas is abundantly available as
a carbon source for production of chemicals.
However, CO2 re-use is considered to be
too expensive currently.
Chemical products made from CO2 should
have a relatively high price but still have
applications requiring large quantities.
We need to harness energy from the sun.
Heavy industry
CO2
Power
16/02/2017 20
Plastic precursors from CO2
using microbes and electricity
Microbes can produce a wide range of
products from the assimilated CO2.
Chosen microbes use hydrogen made from
electricity inside the bioreactor as the energy
source.
Heavy industry
CO2
Power
Bioreactor
16/02/2017 21
Plastic precursors from CO2
using microbes and electricity
Microbes can produce a wide range of
products from the assimilated CO2.
Chosen microbes use hydrogen made from
electricity inside the bioreactor as the energy
source.
Engineered microbes produce chosen
plastic precursors such as acrylates.
Heavy industry
CO2
Power
Bioreactor
Acrylates
16/02/2017 22
Plastic precursors from CO2
using microbes and electricity
Acrylates have applications in paints, coatings,
diapers and in many other products.
7 million tons of fossil-based acrylates are
produced globally every year and the price is
close to 2 €/kg.
In Finland there are over 20 locations which
produce enough CO2 to make 100 kt/a acrylate
Engineered microbes produce specifically the
desired chemicals.
Heavy industry
CO2
Power
Bioreactor
Acrylates
16/02/2017 23
Plastic precursors from CO2
using microbes and electricity
Juha-Pekka Pitkänen
Tel. +358 40 356 9758
Heavy industry
CO2
Power
Bioreactor
Acrylates
Textile materials from celluloseAli Harlin
16/02/2017 25
Textile materials from cellulose
Demography and living standards
increase use of textiles.
Natural fibres availability is on limit.
Cotton is an environmental burden.
Synthetic fibres cause micro plastics.
16/02/2017 26
Textile materials from cellulose
Wood is sustainable alternative for textiles
For clothing.
For interior and living.
For technical applications.
16/02/2017 27
Textile materials from cellulose
Wood based cellulose is closing the gap.
Renewable.
Compostable.
Recyclable.
16/02/2017 28
Textile materials from cellulose
Ali Harlin
Tel. +358 40 533 2179
Pirjo Heikkilä
Tel. +358 40 689 1443
Pirjo.Heikkilä@vtt.fi
Marjo Määttänen
Tel. +358 40 702 9527
Marianna Vehviläinen
Tel. +358 40 674 5437
Novel high-value products from lignin
side-streamsTiina Liitiä
16/02/2017 30
Novel high-value products from lignin side-streams
Over 60 million tons of lignin by-products
produced annually – mainly used for energy
Techno-economically viable lignin upgrading
technologies needed to
Develop sustainable high-value lignin
products for chemical industry
Create new business opportunities for
biorefineries
16/02/2017 31
LigniOx & CatLignin technologies for
dispersants and phenolic resins
LigniOx technology converts lignin by oxidation to
versatile dispersants for several end-uses with high
market volumes
Concrete plasticizers the first market
CatLignin technology enables adjustment of lignin
properties by thermal treatment during separation
and produces highly reactive lignin
Phenolic resins for wood adhesives the first market
16/02/2017 32
Novel lignin products for
construction & woodworking industry
LigniOx technology produces high-performance & cost-
competitive concrete plasticizers
Better performance compared to lignosulphonates
Biobased substitute for expensive synthetic superplasticizers
Cost-efficient process to be easily integrated at biorefineries
CatLignin technology enables safe & sustainable wood
adhesives
Higher substitution of toxic phenol than with any other
commercial lignin leading the way towards 100% biobased
adhesives Taylor-made lignin properties at pulp mill during
lignin separation
Uusi puu 2017
competition
winners in
’Resource
scarcity’
category
http://www.uusipuu.fi/
High market volumes & wide range of other end-uses!
16/02/2017 33
For further information
LigniOx & CatLignin
Tiina Liitiä
Tel. +358 40 755 2387
LigniOx
Anna Kalliola
Tel. +358 40 588 5748
CatLignin
Hanne Wikberg
Tel. +358 50 525 4102
CatLignin
Juha Leppävuori
Tel. +358 40 532 9378
Juha.Leppä[email protected]
See also the
demo materials!
New products from Wood Fibers
with Foam Forming TechnologyKatariina Torvinen
16/02/2017 35
New products from Wood Fibers
with Foam Forming Technology
Renewal of papermaking. What to do with an
existing paper machine if not printing grades?
Is there a sustainable replacement material for
EPS, glass wool, synthetic nonwovens etc.?
Water-laid process is quite limited
There is a need for a technological leap!
16/02/2017 36
Foam Forming Technology
New enabling technology – Foam Forming
Small bubbles are mixed in fiber suspension
No flocculation uniform quality and possibility
to introduce long sustainable fibres
Viscous multi-phase system possibility to
manufacture highly porous products
16/02/2017 37
Sustainable Materials from
Wood Fibres
Foam forming is a versatile technology for many
different applications
Light-weighting of current product portfolio
Creating new sustainable products for insulation
and packaging solutions, sustainable nonwovens
etc.
Recyclability of value-added foam formed
materials?
16/02/2017 38
New products from Wood Fibers with Foam
Forming Technology
Harri Kiiskinen
Tel. +358 40 527 3853
Kristian Salminen
Tel. +358 40 7243816
Erkki Hellén
Tel. +358 40 7194675
Katariina Torvinen
Tel. +358 40 1973533
All-cellulose composite materialsHannes Orelma
16/02/2017 40
All-cellulose composite
materials
Lignocellulose materials
• are carbon neutral
• are fully biobased
• allow to produce a wide range of
different kind of products
vs
Ref 1.
Monomaterial Composite
Ref 2.
Recycling
Reuse
Ref 3.
Performance
Ref 1. Wikipedia: Creative Commons Attribution-Share Alike 3.0 Unported license.
Ref 2. http://www.wallong-wpc.com/
Ref 3. http://www.shareyouressays.com/811/446-words-essay-on-the-newspapers
16/02/2017 41
All-cellulose composite
materials
All-cellulose materials
Chemically reinforcing material = matrix
material
Permanent behaving like a thermoplastic
Interfaces are minimized
Chemically fully cellulosic
Treatment chemicals do not retain
Current machinery can be used
All-cellulose composite
Partially dissoluted
Strategy utilized
with CNF films
Fully water
resistant film
Ref 4. Nishino T, Arimoto N (2007) Biomacromolecules 8:2712
Ref 5. Orelma et al. (2017) Cellulose, accepted for publication 16.02.2017
Ref 4.
Ref 5.
16/02/2017 42
Produced all-cellulose materials
Fully recyclable and biobased
Compostable, Textile recycling, Paper recycling
High strength due to the permanent internal
bonding
Preparation of novel material possible with totally
new kind of properties
Saves material resources.
All-cellulose composite
materials
16/02/2017 43
All-cellulose composite materials
Hannes Orelma
Tel. +358 40 354 3143
Ali Harlin
Tel. +358 40 533 2179
Antti Korpela
Tel. +358 40 581 8343
Nanocellulose Films for Water
TreatmentMinna Hakalahti
16/02/2017 45
Nanocellulose Films for Water Treatment
Diverse domestic and industrial contamination by
nano- and micropollutants e.g. heavy metals,
viruses, bacteria
Loss of valuable particles in water streams
Cheap, biodegradable and efficient treatment
substrates needed for purification of water and
capturing of valuable particles
Global market for water treatment membranes to
reach $32B by 2020
16/02/2017 46
Nanocellulose Films for Water Treatment
Technology for biobased nanocellulose films with
numerous active sites for capturing valuable
particles and pollutants
In-house nanocellulose production facilities
VTT SutCo pilot line for film production with
integrated surface-treatment for additional
functionalities, e.g. antifouling, environmental
responsiveness
16/02/2017 47
Nanocellulose Films for Water Treatment
Position in the emerging next generation
biobased membrane sector through the unique
combination of nanocellulose, film technology,
surface chemistry and pilot-scale production
facilities
Strong IPR base and academic evidence for
commercialization
Multifunctional and tailorable template for efficient
and selective capturing of valuable particles and
pollutants
Antifouling
Environmental
responsiveness
Nanoscaled
structure
16/02/2017 48
Nanocellulose Films for Water Treatment
Minna Hakalahti
Tel. +358 40 170 3657
Tekla Tammelin
Tel. +358 40 056 2814
John Kettle
Tel. +358 40 593 6013
Wood-based ingredients for future
food productsAnna-Stiina Jääskeläinen
16/02/2017 50
Wood-based ingredients for future food
products
Consumers request food products that include only
natural and sustainable components, and are
appealing.
Food industry has a need for ingredients, that
improve food structure, stability and preservation.
Forest industry is actively finding novel and high
value applications for their products.
16/02/2017 51
Wood-based ingredients for future food
products
Wood-based hemicelluloses, fibrillated cellulose
and lignin are nature’s own ingredients.
These ingredients can tailor the viscosity,
emulsion properties, foaming, texture and also
replace allergens in food products.
The preliminary in-vitro studies have indicated
that these ingredients may also have beneficial
impact on human health.
Ligniini toimii emulgaattorina
leivontatuotteissa
Koivuksylaani stabiloi jugurttia
Esimerkkejä puupohjaisista
paranneaineista:
16/02/2017 52
Wood-based ingredients for future food
products
Wood-based ingredients provide a solution to provide
consumers food with appealing structure, texture and
enhance preservation.
Food industry will have novel multifunctional
ingredients to improve the product quality.
Ingredient producers gain new business opportunities.
Forest industry has new customer segment from food
industry.
16/02/2017 53
Wood-based ingredients for future food
products
Anna-Stiina Jääskeläinen
Tel. +358 40 575 3430
Anna-Marja Aura
Tel. +358 40 820 8731
Terhi Hakala
Tel. +358 40 593 2643
Emilia Nordlund
Tel. +358 40 504 2963
3D food printingNesli Sözer
16/02/2017 55
3D Food Printing
3D Printing
The developments in digitalization
and networking technologies led
the expectations of today’s
consumers to raise the bar further
from a tasty, healthy and
affordable food.
16/02/2017 56
3D printing is one potential technology which would
allow sustainable and efficient mass customization
Utilize 3D food printing technology to construct
innovative food structures with customized multi-
textures and flavours.
Spark a new, sustainable industrial revolution
within the food ingredient and processing value
chain by extending the features of conventional
flexible manufacturing systems.
16/02/2017 57
3D printing benefits for food and retail industry:
Customization
Nutrition
Flavor/color
Texture
On-demand production
Economy at low volume production
On-the-go production
Flexibility
New product design
Novel mouthfeel experience
Multi-layer printing of various textures
Use of novel alternative sources (i.e. algae, side-streams)
Food ingredient industry benefits: Development of new added value
agro- and forest material based ingredients to be used in 3D printing
16/02/2017 58
Nesli Sözer
Principal Investigator, Principal
Scientist
Tel. +358 401523875
Rye branFaba bean
protein conc.Oat protein
conc.Modified starch
Insect protein ingredients for foodTerhi Hakala
16/02/2017 60
Insect protein ingredients for food
Hyönteisistä proteiinijakeita elintarvikkeisiin
New sustainable protein ingredients are needed
Edible insects are a growing food trend - interest
from consumers and insect farmer start-ups
sprouting across Europe
Broader food use of insects requires industrially
applicable insect-based ingredients
16/02/2017 61
Bug-based food ingredients á la VTT
VTT has developed a production technology for
insect-based protein concentrates that enable
wide use in food production
The gentle and sustainable process consists of
de-oiling and dry fractionation steps (patent
pending)
The insect protein concentrates taste great and
are applicable in various food products
16/02/2017 62
Healthy and sustainable animal protein
ingredients
A water-free process that allows production of
tasty, sustainable and stable protein concentrates
New protein ingredient with appealing sensory
quality (meat-like flavor)
Lower carbon footprint and healthier lipid
composition compared to animal based ingredients
Responds to the increasing trends of meat
analogues and insect foods
16/02/2017 63
Insect protein ingredients for food
Hyönteisistä proteiinijakeita elintarvikkeisiin
Terhi Hakala
Tel. +358 40 593 2643
Katariina Rommi
Tel. +358 40 176 9983
Emilia Nordlund
Tel. +358 40 504 2963
Microgrewery - Next generation of food Lauri Reuter
16/02/2017 65
Microgrewery – Next generation of food
70% more food by 2050
No more fields
Fresh food in megacities?
16/02/2017 66
Plant cells as food
Closed loop systems
Independent from harsh nature
Microgrewery – Next generation of food
16/02/2017 67
Nutritious, fresh and safe
Exciting new foods
Sustainable
Microgrewery – Next generation of food
16/02/2017 68
Lauri Reuter@LauriReuter
Tel. +358401592273
Microgrewery – Next generation of food
VTT Toolkit to support the
commercialization of new clean energy
solutionsSanna Tuomi
16/02/2017 70
VTT Toolkit to support the commercialization
of new clean energy solutions
New clean and sustainable energy solutions are
required to replace fossil fuels and mitigate climate
change.
VTT develops new technologies for the
production of bio-based transportation fuels,
chemicals, and low carbon energy using
thermochemical conversion route.
16/02/2017 71
VTT Toolkit to support the commercialization
of new clean energy solutions
A three-piece toolkit combining:
1. Unique test facilities and world-class expertise:
Bioruukki Pilot Centre
Gasification and pyrolysis test facilities from
laboratory to pilot-scale
2. Process modelling and techno-economic
assessments (TEA)
3. CFD modelling to support process development
and design
16/02/2017 72
VTT Toolkit to support the commercialization
of new clean energy solutions
Accelerates global market launches of customer’s
innovations
Proven track record of scale-up and demonstrations
Integrated fast pyrolysis bio oil production plant in Joensuu,
Fortum Power and Heat Oy
Forest biomass to liquid transportation fuels demonstration
plant in Varkaus, NSE Biofuels Oy
Gasification-based waste-to-energy power plant in Lahti,
Lahti Energia Oy
A new low NOx gas burner design for lean gas combustion
(CFD modelling), Fortum Power Solutions
16/02/2017 73
VTT Toolkit to support the commercialization
of new clean energy solutions
Marko Nokkala, Key Account
Manager
Tel. +358 40 765 8706
Antti Arasto, Research Manager
Tel. +358 40 015 9052
Eemeli Hytönen, Principal Scientist
Process modelling & TEA
Tel. +358 40 533 6759
Lars Kjäldman, Research Team
Leader
CFD modelling
Tel. +358 40 593 8672
New low-CapEx biorefinery conceptsIlkka Hannula
16/02/2017 75
New low-CapEx
biorefinery conceptsPLACE FOR PHOTOS
Economic challenges of first-of-a-kind
(FOAK) plants• Investment >50% higher than for mature plants
• Large > 100 ktoe/a plants require 500 -1000
M€ investment
• Financing of FOAK carries significant risk
component
Significant political uncertainties• Binding targets for renewable fuels missing
• Long-term support for large-scale flag ship
projects too expensive
• Complex sustainability issues
16/02/2017 76
Incre
asin
g r
eq
uir
em
en
ts
Oil refinery
feeds
IC-power plants
Small boilers
(< 500 kW)
Larger boilers
Industrial ovens
(> 1 MW)
Aviation
Road traffic
Industrial
chemicals
Goal 5+ a
Goal 2-3 a
Demonstrated
Fuels and chemicals –
Evolving applications for biomass fast pyrolysis
16/02/2017 77
Derisking capacity building via phased implementation of
biofuels, power and biochemicals co-production
BIOMASS
Forest residues Pyrolysis and
fractionation
Co-refining with crude oil
By-product chemicals
Cogeneration of heat and power
BIO-BASED
FUEL OIL
BIO-OIL FOR
REFINERIES
16/02/2017 78
Medium-scale low CapEx target
biomass-to-liquids process
Identified potential
for CapEx
reductions:Oxygen plant 12%
Sour shift (WGS) 2%
Steam generation 16%
Rectisol / WSA 15%
Up to 45% decrease
16/02/2017 79
Road map for medium-scale low CapEx BTL process via
piloting and demonstration
Phase 1: Piloting at Bioruukki &
system studies 2016 - 2017,
3 M€
Phase 2: Demonstration at an
industrial site 2018 - 2020, 50 M€
Phase 3: First production plant,
220 M€; investment decision
2020
Phase 4: Replication at global
markets at 150 - 200 M€/plant
• 2025: 5 plants
• 2030: 10 - 20 plants
• 2030 > full market penetration
16/02/2017 80
New low-CapEx biorefinery concepts
Yrjö Solantausta
Esa Kurkela
Ilkka Hannula
Resource efficient solar-bioenergy
hybridsEemeli Tsupari
16/02/2017 82
Climate Change: Developed countries should be
(nearly) carbon neutral by 2050
Bioenergy has been a natural source for
renewable energy in Finland, however:
Several uses and visions for this limited resource
C-neutrality of some fractions is questioned, and
discussion is ongoing (LULUCF)
Long distance transportation is expensive
Challenge is huge bioenergy can’t do
everything
Picture source: NASA
16/02/2017 83
Resource efficient solar-bioenergy hybrids
Wind and solar resources are multifold in
comparison to energy demands, even in Finland
Bioenergy can be used to mediate temporal
imbalances between solar energy supply and
demand
Several concepts have been studied and
developed by VTT, for example:
H2 boosted liquid biofuels, biogas and SNG
Biomass drying by solar heat
Bio-solar hybrids in CHP systems
Pictures: VTT’s solar collectors (upper)
connected with biomass dryer (lower)
16/02/2017 84
Cost-effective tools to reach the targets of Paris
Agreement
Stable and reliable supply of renewable energy
via solar-biomass hybrids
Solar used (when available) to reduce the
demand of bioenergy resources
Less emissions from supply chain and
combustion
Feasible storage of solar energy
National economics and balance-of-trade
…
“Holding the increase in the global
average temperature to well below 2°C”
…
“will represent a progression beyond
the Party’s then current nationally
determined contribution and reflect its
highest possible ambition”
…
“every five years”
…
“balance between anthropogenic
emissions by sources and removals by
sinks of greenhouse gases in the
second half of this century”
…
Source: http://unfccc.int/resource/docs/2015/cop21/eng/10a01.pdf
16/02/2017 85
Happy to discuss more!
Eemeli Tsupari
Tel. +358 40 720 7363
Ilkka Hannula
Tel. +358 40 838 0960
Elina Hakkarainen
Tel. +358 40 648 6799
Bioruukki Pilot Centre – An enabler to
bio and circular economyIlkka Hiltunen
16/02/2017 87
Efficiency, speed and lower risks to
development with piloting and demonstrations
CumulativeinvestmentsEconomic
risk
VALLEY OF DEATH
Uncertainty
Piloting
CONCEPT
VALIDATIONINVENTION
LABORATORY
PROTO-
TYPING
& INCUBATION
PILOT
PRODUCTION
& DEMONSTRATION
INITIAL
MARKET
INTRODUCTION
MARKET
EXPANSION
16/02/2017 88
Bioruukki piloting ecosystem - efficiency, speed
and lower risks to development with piloting
and demonstrations
400experts for
R&I
development8000 m2,
room for
several pilot
units and
laboratories
A new piloting ecosystem for process industry
scale-up and demonstrations.
A former printing plant transformed to world scale
R&D centre.
Located close to Otaniemi campus.
16/02/2017 89
Bioruukki Pilot Centre – An integrated enabler to
accelerate business in bio and circular economy
NOVEL BIOBASED PRODUCTS, RECYCLING CONCEPTS AND SMART ENERGY SOLUTIONS
Thermochemical
conversion
Biomass
processing
Green Chemistry
Energy Storage
16/02/2017 90
BIORUUKKI pilot centre
Mika Härkönen
Tel. +358 400 839577
Ilkka Hiltunen
Tel. +358 400 226730
http://www.vttresearch.com/services/bioeconomy/
key-technology-platforms-for-
bioeconomy/bioruukki-piloting-centre
Fast pyrolysis as an affordable
biomass fractionation technologyYrjö Solantausta
16/02/2017 92
Small scale biomass fractionation is
economically challenging
Biomass components are
industrially separated i.e. in pulp
mills
Numerous technical alternatives
have been proposed for small scale,
but operation in small scale appears
challenging
16/02/2017 93
1202062013
• Bio-oil capacity 30 MW
• Annual production 50 000 t, 210 GWh
• Start-up 2013
• Feedstock Forest residues, sawdust
Bio-oil tanks
Fuel receiving,
drying and crushing
Reactor and pyrolysis oil recovery
inside the boiler building
Joensuu: an Integrated Bio-Oil
Demonstration Plant
Technology supplied by
VTT contribution• The integrated concept, ITP
• Operational skills from pilot
to demonstration
• Applications in boilers and
engines
• Active role in ASTM & EN
standardization
• Product quality control
Fast pyrolysis as an affordable biomass
fractionation technology
Fast pyrolysis may be
employed to remove
biomass ash, and
produce a liquid product
Liquid product may be
fractionated to light
organics, and both
cellulose, and lignin
derived fractions
These fractions may be
treated separately
Fast
pyrolysis
Hot
condensation
Solvent
extraction
Water and light
compounds
Dry bio-oil
Lignin derived
compounds
Cellulose derived
compounds
Feedstock
16/02/2017 94
Fast pyrolysis is a low cost
alternative for separation of
lignin and other biomass
components
VTT technology is scalable to
commercial scale
We are able to supply larger
amounts of samples from your
materials (processing of about 2
tonnes a week)
VTT is able to supply larger amounts of
fractionated products
16/02/2017 95
Fast pyrolysis as a step towards renewable
energy and chemicals
Yrjö Solantausta
Tel. +358 40 562 7472
Christian Lindfors
Tel. +358 40 515 0429
FORTUM DEMONSTRATION - JOENSUU, FINLAND
2000 20051980 199519901985 20152010
ENEL, BASTARDO, ITALY
FORTUM, PORVOO, FINLAND
VALMET, TAMPERE, FINLAND
UNION
FENOSA, SPAIN
Fast Pyrolysis for Bio-
Fuel Oil - Scale-Up
UNIVERSITY OF
WATERLOO, CANADA
Feedrate
kg/h
10 000
1 000
100
10
1
0.01
0.1
Anja Oasmaa
Tel. +358 40 593 2834
@VTTBioeconomy
#VTTBioeconomy
#VTTFinland