Welcome to the Biomass conversion technologies database which you can access underneath! 

Through the underneath table users can access the database on lignocellulosic biomass conversion technologies characteristics (click on the number in last column). The data included in this database are feeding the Bio2Match, the BeWhere and the LocaGIStics tools all accessible via the main menu in this toolset under 'Tools'. accessible under the ‘Tool'  tab in the main menu above. In the process of creating the database it was ensured to take up the technologies relevant for producing the products described in the product market combinations in WP7 and that were the basis for assessing 2020 and 2030 biomass demand and consumption levels (see Tab 'General data' ---> 'Biomass demand'. For heat, power and fuels, several technologies are available in the database, while for other bio-based products (especially through the sugar platform) some but fewer conversion technologies are included. This is a representation of the technology readiness levels and the current and expected market situation for these products.

In the underneath table an overview is provided of all technologies included in the conversion technologies database. To access the detailed technology characterisation sheets in de database click on the technology number in the last column of the table.  To return to the overview table again click on the return arrow

The technologies covered can be classified in 6 main categories: treatment in subcritical water, syngas platform, gasification technologies, fast pyrolysis, direct combustion of solid biomass, chemical pretreatment, biochemical hydrolisis and fermentation and anearobic digestion. For a further description of the biomass conversion technologies database please consult D2.3The method developed in S2BIOM for minimal biomass quality requirement for each biomass conversion technology is described in D2.1 and  D2.2.

Conversion technologies Conversion technologies


View details of Hemp fiber processing for pulp and paper

Name Hemp fiber processing for pulp and paper
Main category Extraction of fibers
Subcategory Hemp fiber processing for pulp and paper
Image url
Year of first implementation
Estimated number of systems in operation
Main operating principle:

Level of commercial application
Important pilots and EU projects
Expected Developments
Current Technology Readiness Level
Expected Technology Readiness Level in 2030
Justify expected Level in 2030

Capacity of outputs (typical values)
Pyrolysis oil                      (m3/hour) 2.7125     LHV  (GJ / m3) 19.2
Conversion efficiencies: net returns biofuels and biobased products(GJ/GJ biomass input) typical: 0.6824 min: max:   typical in 2020: typical in 2030:  

Data sources used to define conversion efficiencies in 2014:

External inputs (not generated by the biomass in the conversion process)
- No external inputs

Indication: experience based data

Number of possible full load hours per year (hours)
Number of typical full load hours per year (hours)
Typical Lifetime of Equipment (years)
Data sources used to define conversion efficiencies in 2020:

Data sources used to define conversion efficiencies in 2030:

General data sources for technical properties:

Biomass input, common for the technology used:           
Biomass input, technically possible but not common:           
Traded form Whole tree
Dimensions length (mm)    diameter (mm)

Moisture content (% wet basis) typical max
Minimal bulk density (kg/m3, wet basis)
Maximum ash content (% dry basis)
Minimal ash melting point (= initial deformation temperature) (°C)
Volatile matter (only for thermally trated material, torrefied or steam explosed) (VM%)

Maximum allowable contents
Nitrogen, N (wt%, dry) Sulphur, S (wt%, dry) Chlorine, Cl (wt%, dry)
Optional attributes
Net caloric value (MJ/kg) min max
Gross caloric value (MJ/kg) min max
Biogas yield (m3 gas/ton dry biomass) % methane
Cellulose content (g/kg dry matter) min max
Hemicellulose content (g/kg dry matter) min max
Lignin content (g/kg dry matter) min max
Crude fibre content (g/kg dry matter) min max
Starch content (g/kg dry matter) min max
Sugar content (g/kg dry matter) min max
Fat content (g/kg dry matter) min max
Protein content (g/kg dry matter) min max
Acetyl group content (g/kg dry matter) min max

Investments costs in 2014 (€): expected in 2020 (€): expected in 2030 (€):
Labour needed Operators (FTE): Staff and engineering (FTE):

Edited by: Kaisa Vikla