the babet-real5 project - etip bioenergy · starting date of the project: 1st february 2016...
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This project is co-funded by the European Union within the Horizon 2020 Programme. Grant Agreement n°654365.
The sole responsibility of this publication lies with the author. The European Union is not responsible for any use that may be made of the information contained therein.
New technology and strategy for a large and sustainable deployment of second generation biofuel in rural areas
The BABET-REAL5 Project
EU Sustainable Energy Week
04 – 08 June 2018
Brussels, Belgium
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BABET-REAL5
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� Project acronym: BABET-REAL5
� Project title: New technology and strategy for a wide and sustainable
deployment of second generation biofuel plants in rural areas
� Grant agreement n°: 654365
� Starting date of the project: 1st February 2016
� Duration: 48 months
� Participants: 16 – 9 research laboratories – 7 enterprises
� Countries: Argentina, Denmark, France, Germany, Mexico, Spain, Portugal,
Uruguay
General objectives
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Achieve favourable techno-economic and environmental performances
for the production of 2G ethanol in small-scale industrial plants.
Identify feedstock with sustainable and reliable supply conditions for the
evaluation and selection of business cases in Latin America and Europe.
Provide all the necessary data for the selected business cases so that
the new technology can be realistically evaluated and the project scaled-
up to demonstration level.
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Step 1
Pretreatment
Step 2
Saccharification
Fermentation
Step 3
Distillation
Dehydratation
Raw
materialEthanol
Step 4
By-products valorisation by anaerobic digestion
Biogas
Fertilizer
Energy
...
Filtration of soluble
compoundsVinasses
Production flow chart
Zero waste objective
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New pretreatment process of the biomass
• Performance of pretreatment and enzymatic impregnation / pre-hydrolysis in one reactor.
• All the operations necessary to increase the access of the hydrolytic enzymes to the carbohydrates
(deconstruction, defibrillation and depolymerisation) and to start the solubilisation of sugars are carried out
in a twin-screw extruder.
Clextral EV53
pilot scale equipment9 modules
2 m long
53 cm OD
150 kg/h flow rate
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Extrusion relies on the force exerted by the tight rotation in the same direction of two identical
intermeshing screws mounted on a splined shaft, inside an eight-shaped stationary barrel.
Biomass
Extrudate
Filtrate
T° T°
High
Solid
content
RPM
New pretreatment process of the biomass
rapid conveying, micro/macro mixing, heating/cooling, high
shearing, compressing and expansion of the substrates
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Investigated feedstock
Corn Cob
Blue Agave BagasseBarley / Wheat Straw
Sugar Cane Bagasse & crop residues
Grape Pruning residuesEucalyptus Forest Residues
Examples of feedstock under study and found suitable for the BABET-REAL5 process.
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BABET-REAL5 new business model
2G Ethanol business models under development in the world
Big size production plants: 50-100,000 m3 Ethanol
Requires: 200-350,000 t dry biomass in small catchment areas
High investment: 100-200 M€ or plus
Not applicable to regions not able to supply and concentrate such quantity of biomass
Big investment difficult to achieve without significant public funding support
Find solutions
for regions that cannot provide such high amounts of concentrated biomasses
for producing ethanol without needing major public funding
Suitable for rural development, decentralized energy production & the autonomy of the territories
New approach of business models based on small-size industrial plants economically
viable from 30,000 t/year DM biomass collected in small catchment area
(10,000 m3 Ethanol)
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Multi-criteria evaluation approach along the project
Multi-criteria
evaluation
Environmental performances
Economical viability
Biomass
supply
Technicalperformances
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Regional case studies on sustainable availability of
lignocellulosic biomass feedstock – France (I)
Wheat straw Corn stoverSunflower
stover
Vineyard
pruning
Theoretical
amount t Dry
Matter per year
980 000 308 000460 000 665 000
Total net
available amount
t DM per year
0 81 600 184 000 101 000
Maximum
concentration in
50km radius area
t DM per year
34 500 96 300 34 900
From theoretical to real
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Regional case studies on sustainable availability of
lignocellulosic biomass feedstock – France (II)
Wheat & barley
strawCorn stover Sunflower stover Sweet corn cob
Theoretical
amount t Dry
Matter per year
1 165 000 2 140 000452 000 30 000
Total net
available amount
t DM per year
0 740 000 141 000 30 000
Maximum
concentration in
50km radius area
t DM per year
300 000 34 000 30 000
From theoretical to real
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Regional case studies on sustainable availability of
lignocellulosic biomass feedstock – Germany
Theoretical
amount t Dry
Matter per year
Total net
available amount
t DM per year
Maximum
concentration in
50-km radius
area
t DM per year
From theoretical to real
2 710 785
626 192
121 000
929 337
306 681
173 000
Wheat straw Corn stover
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Sugarcane crop
residues
Theoretical amount
0.7 -1.4 M t DM per year
Net available amount
480 000 t in 50 km radius
Corn stover
Theoretical amount
1.3 M t DM per year
Net available amount
544 000 t DM
More than 30 000 t DM in 12
departments (50 km radius)
From theoretical to real
Regional case studies on sustainable availability of
lignocellulosic biomass feedstock - Argentina
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6 cm
19 cm
Tips, branches and leaves return to
the soil as organic amendment
Valorisation of logs from 6 to 19 cm
82 000 t DM per year
Regional case studies on sustainable availability of
lignocellulosic biomass feedstock - Uruguay
Perspectives in the project
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Pilot scale (process steps: pretreatment + saccharification and fermentation – TRL5) 2G bioethanol production in Tarbes, France
Twin-screw extruder 300 l bioreactor
Perspectives after the project
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Bon voyage!
First realisation of small-scale 2G bioethanol production demonstration plant
This project is co-funded by the European Union within the Horizon 2020 Programme. Grant Agreement n°654365.
The sole responsibility of this publication lies with the author. The European Union is not responsible for any use that may be made of the information contained therein.
New technology and strategy for a large and sustainable deployment of second generation biofuel in rural areas
Thank you for your attention !!
www.babet-real5.eu
Contact: Ingo Ball, WIP Renewable Energies
Email: [email protected]
Phone: +49 89 720 12 718