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Info sheets

4 November, 2014

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1.1 Chemical balances and available potentials
2.1 Effective supply chain from forest to biorefinery
3.1 Chemical and physical require- ments, fractionation, preparations to biochemicals
4.1 Development of efficient supply systems  
5.1 Outreach and communication 
1.2 Basic chemical compostition
2.2 Comminution, sorting equipment
3.2 Current develop- ment of biorefineries in Swe and Fin
4.2 Modeling and analysis of supply systems
5.2 Interview about education and opportunities
 1.3 Biomass for bio-refining
in Finland
 2.3 Efficient raw material handling at the forest biomass sorting terminals
 3.3 Raw material requirements of biorefinery processes
 4.3 Design of supply chain  analysis
5.3 Partner presentation – Processum 
1.4 GIS-analysis on
biomass potential 
2.4 Chipping Study 
3.4 Ionic liquids in the pretreatment of
lignocellulosic biomass
4.4 Forest feedstock
supply curves
5.4 Partner presentation – Rural Institute
1.5 Tree bark – potential, distribution and use in Finland 
2.5 Sorting, comminution equipment
3.5 Birch bark suberin potential source of valuable compounds
4.5 Supply Curves for Tree Sections and Long Tops
5.5 Partner presentation – BioFuel Region
1.6 Stump potentials and its distribution in Finland
2.6 Future Terminals
3.6 Gravimetric Fractioning
of Biomass 
4.6 Supply curves for whole trees from early energy thinning and stump cores
5.6 Partner presentation – SLU 
1.7 Potential and distribution of logging residues from fellings in Finland
2.7 Stump crushing
at Terminal 
3.7 Fractioning Biomass
by Screening

4.7 Available Potentials of Forest Biomass for a Biorefinery in Kokkola
5.7 Partner presentation – Chydenius
1.8 Pontential and distribution of small-diameter thinning wood in Finland
2.8 Studies of a chain
flail debarker 
3.8 Sample Preparation for Cellulose Analyses
4.8 Biomass Terminals in the Feedstock Supply Chain
for Biorefining
5.8 Partner presentation – METLA
1.9 Pulp Wood potential
2.9 Comparison of the ground disturbance between
two stump lifting concepts
3.9 The Effect of Fractioning of Forest Biomass on Ash and Extractive 
4.9 Potentials of Biomass from Pine, Spruce and Birch for Three Locations in the Swedish Part of BA-Region
5.9 Partner presentation – Centria
2.10 Studies of an innovative harvesting system in dense early thinnings
3.10 Pretreatment and Fermentation of Stumps and Small Trees
5.10 Study visit from
Finland to Sweden
2.11 Biomass compressing-processing using an innovative harvesting head
3.11 Decrease in Extractives of Tree Bark During Storage
5.11 Study visit from
Sweden to Finland
2.12 Stump Crushing and
Fuel Quality 
3.12 Decrease in Extractives
of Stumps
3.13 Decrease in Extractives of Chain-Flail Residue
3.14 Introduction to biomass gasification and the relation to biomethane
3.15 Swot analysis for bio-sng market in the BA region
3.16 Specific opportunities for forest industries and
green gases
3.17 The Effect of Fractioning of Forest Biomass on Cellulose, Lignin and Fermentable
Sugars Contents

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1.1 Chemical balances and available potentials
2.1 Effective supply chain from forest to biorefinery
3.1 Chemical and physical require- ments, fractionation, preparations to biochemicals
4.1 Development of efficient supply systems  
5.1 Outreach and communication 
1.2 Basic chemical compostition
2.2 Comminution, sorting equipment
3.2 Current develop- ment of biorefineries in Swe and Fin
4.2 Modeling and analysis of supply systems
5.2 Interview about education and opportunities
 1.3 Biomass for bio-refining
in Finland
 2.3 Efficient raw material handling at the forest biomass sorting terminals
 3.3 Raw material requirements of biorefinery processes
 4.3 Design of supply chain  analysis
5.3 Partner presentation – Processum 
1.4 GIS-analysis on
biomass potential 
2.4 Chipping Study 
3.4 Ionic liquids in the pretreatment of
lignocellulosic biomass
4.4 Forest feedstock
supply curves
5.4 Partner presentation – Rural Institute
1.5 Tree bark – potential, distribution and use in Finland 
2.5 Sorting, comminution equipment
3.5 Birch bark suberin potential source of valuable compounds
4.5 Supply Curves for Tree Sections and Long Tops
5.5 Partner presentation – BioFuel Region
1.6 Stump potentials and its distribution in Finland
2.6 Future Terminals
3.6 Gravimetric Fractioning
of Biomass 
4.6 Supply curves for whole trees from early energy thinning and stump cores
5.6 Partner presentation – SLU 
1.7 Potential and distribution of logging residues from fellings in Finland
2.7 Stump crushing
at Terminal 
3.7 Fractioning Biomass
by Screening

4.7 Available Potentials of Forest Biomass for a Biorefinery in Kokkola
5.7 Partner presentation – Chydenius
1.8 Pontential and distribution of small-diameter thinning wood in Finland
2.8 Studies of a chain
flail debarker 
3.8 Sample Preparation for Cellulose Analyses
4.8 Biomass Terminals in the Feedstock Supply Chain
for Biorefining
5.8 Partner presentation – METLA
1.9 Pulp Wood potential
2.9 Comparison of the ground disturbance between
two stump lifting concepts
3.9 The Effect of Fractioning of Forest Biomass on Ash and Extractive 
4.9 Potentials of Biomass from Pine, Spruce and Birch for Three Locations in the Swedish Part of BA-Region
5.9 Partner presentation – Centria
2.10 Studies of an innovative harvesting system in dense early thinnings
3.10 Pretreatment and Fermentation of Stumps and Small Trees
5.10 Study visit from
Finland to Sweden
2.11 Biomass compressing-processing using an innovative harvesting head
3.11 Decrease in Extractives of Tree Bark During Storage
5.11 Study visit from
Sweden to Finland
2.12 Stump Crushing and
Fuel Quality 
3.12 Decrease in Extractives
of Stumps
3.13 Decrease in Extractives of Chain-Flail Residue
3.14 Introduction to biomass gasification and the relation to biomethane
3.15 Swot analysis for bio-sng market in the BA region
3.16 Specific opportunities for forest industries and
green gases
3.17 The Effect of Fractioning of Forest Biomass on Cellulose, Lignin and Fermentable
Sugars Contents

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