Summary
Building on successful projects and relevant assets from partners and an interdisciplinary approach, BioSPRINT applies process intensification in the context of biorefining operations, so as to improve the efficiency of the purification and conversion of sugars from the hemicelluloses fraction of lignocellulosic biomass and to enable their transformation into new bio-based resins for substituting fossil based polymers in a range of applications. The ultimate objective is to lead to a reduction in operation costs, feedstock and energy resources, greenhouse gas emissions and higher yields, while increasing operation safety, by concentrating on technologies which can intensify processing methods and create an integrated biorefinery concept. Of particular interest in BioSPRINT is the valorisation of hemicelluloses streams derived from hard wood and straw, from processes employed in the production of paper pulp or biofuels. Such streams are readily available from the pilot or production processes of the project’s research and industrial partners (Fraunhofer and UPM). A case study using a stream from Clariant will also be carried out. With regards to processing technologies, BioSPRINT will focus on 4 activity areas (a) Upstream purification; (b) Catalytic conversion; (c) Downstream purification and (d) Polymerisation. The project will develop and validate an intensified and integrated purification strategy leveraging innovative anti-solvent precipitation and membrane separation methods, novel intensified and integrated catalytic processes for dehydration of C5 and C6 hemicelluloses sugars into monomers, extractive-reaction methods to isolate the reaction products from the reaction medium in situ, heterogeneous catalysts and an intensified polymerisation process for furan-based derivatives. Cross-cutting activities will cover process simulation and optimisation, an integrated Lifecycle sustainability assessment, standardisation, dissemination and exploitation activities
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| Web resources: | https://cordis.europa.eu/project/id/887226 |
| Start date: | 01-06-2020 |
| End date: | 31-05-2024 |
| Total budget - Public funding: | 5 879 733,00 Euro - 4 998 014,00 Euro |
Cordis data
Original description
Building on successful projects and relevant assets from partners and an interdisciplinary approach, BioSPRINT applies process intensification in the context of biorefining operations, so as to improve the efficiency of the purification and conversion of sugars from the hemicelluloses fraction of lignocellulosic biomass and to enable their transformation into new bio-based resins for substituting fossil based polymers in a range of applications. The ultimate objective is to lead to a reduction in operation costs, feedstock and energy resources, greenhouse gas emissions and higher yields, while increasing operation safety, by concentrating on technologies which can intensify processing methods and create an integrated biorefinery concept. Of particular interest in BioSPRINT is the valorisation of hemicelluloses streams derived from hard wood and straw, from processes employed in the production of paper pulp or biofuels. Such streams are readily available from the pilot or production processes of the project’s research and industrial partners (Fraunhofer and UPM). A case study using a stream from Clariant will also be carried out. With regards to processing technologies, BioSPRINT will focus on 4 activity areas (a) Upstream purification; (b) Catalytic conversion; (c) Downstream purification and (d) Polymerisation. The project will develop and validate an intensified and integrated purification strategy leveraging innovative anti-solvent precipitation and membrane separation methods, novel intensified and integrated catalytic processes for dehydration of C5 and C6 hemicelluloses sugars into monomers, extractive-reaction methods to isolate the reaction products from the reaction medium in situ, heterogeneous catalysts and an intensified polymerisation process for furan-based derivatives. Cross-cutting activities will cover process simulation and optimisation, an integrated Lifecycle sustainability assessment, standardisation, dissemination and exploitation activitiesStatus
SIGNEDCall topic
BBI-2019-SO2-R6Update Date
27-10-2022
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H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
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Organisations
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| DECHEMA GESELLSCHAFT FUR CHEMISCHETECHNIK UND BIOTECHNOLOGIE (Coördinator)
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| AEP POLYMERS SRL
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| DYNAMIC & SECURITY COMPUTATIONS SL (ANALISIS-DSC)
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| EBOS TECHNOLOGIES LIMITED
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| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
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| IFEU - INSTITUT FUR ENERGIE- UND UMWELTFORSCHUNG HEIDELBERG GGMBH
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| IRIS
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| KEMIJSKI INSTITUT
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| MATURUS OPTIMI BV
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| PREFERE RESINS GERMANY GMBH
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| UNIVERSITY OF NEWCASTLE UPON TYNE
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| UPM GMBH
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| UPM-KYMMENE OYJ
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| University of Oulu / Oulun yliopisto (UOULU)