The main activities performed during this reporting period (M1-M18) were related to the scoping and collection of biomass sidestreams, isolation of biophenols from selected sidestreams by liquid extraction and fast pyrolysis, chemical functionalization of isolated biophenols to produce bio-based flame retardants, testing of biophenols in several material formulations, and implementation of the SSbD methodology to guide and support the technical developments.
Ten different sidestreams from forest, agro, and food industries were scoped as potential sources of biophenols based on criteria such as availability in the EU, biophenol content, logistic aspects, and competition with existing uses. The selected streams were collected, analysed, and further subjected to liquid extractions and/or fast pyrolysis for isolation and characterization of the biophenols. Liquid extractions were conducted under water-only or alkaline conditions, and the use of catalysts in fast pyrolysis processes was evaluated.
Biophenols obtained by fast pyrolysis of logging residues and alkaline extraction of bark, as well as commercial lignin and tannins, were initially investigated in the development of wood impregnation processes, synthesis of bio-based epoxy resin precursors, electro-spinning to subsequently produce carbon fibres, and production of PLA-based thermoplastic composites. In addition to biophenols, biochar obtained from fast pyrolysis was also tested as potential flame retardant in epoxy resin systems and in thermoplastic composites. The biophenols were also used in different chemical functionalization routes aimed to convert them into bio-based intumescent flame retardants.
The different processes developed in BioPhenom and their system boundaries were established for implementation of the SSbD methodology, which was tailored to the project needs. Data collection and the first iterations of the assessment (safety and environmental sustainability) were performed, with analyses of hotspots based on safety and sustainability profiles.