Browsing by Author "Costa, Diogo"
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- Assessment of the effect of autohydrolysis treatment in banana’s pseudostem pulpPublication . Díaz, Sara; Ortega, Zaida; Benítez Vega, Antonio Nizardo; Costa, Diogo; Carvalheiro, Florbela; Fernandes, M. C.; Duarte, Luís C.ABSTRACT: Banana's pseudostem pulp (BPP) is a potential by-product obtained in the mechanical fiber extraction of banana's pseudostem. Its chemical characterization revealed to have an interesting composition, with a high polysaccharides content and low content in lignin, which makes it particularly relevant for the biorefinery's biochemical platform. Autohydrolysis pretreatment, studied under isothermal (140 degrees C) and non-isothermal conditions (140-220 degrees C), yielded oligosaccharides, mainly gluco-oligosaccharides, as the main soluble products. The highest oligosaccharides production (24 g/100 g raw material) was obtained at a severity factor of 2.3. Autohydrolysis pretreatment effectively disrupted the structure of the material, inducing an improvement of the enzymatic digestibility from 73% for the raw material up to 90% for the most severe conditions. Two stage autohydrolysis, with increasing severity, was also studied, allowing to obtain a higher amount of oligosaccharides (32 g/100 g raw material) and higher digestibility of the remaining solid (up to 97%).
- Desenvolvimento de processos de pré-tratamento da biomassa para a separação eficiente das correntes de lenhina e de açúcaresPublication . Carvalheiro, Florbela; Lukasik, Rafal M.; Duarte, Luís C.; Roseiro, Luisa B.; Ribeiro, Belina; Marques, Susana; Bernardo, Joana; Van-Dúnem, Vanmira; Pires, Filipa; Costa, Diogo; Sanfins, Luís; Gírio, FranciscoRESUMO: O fracionamento da biomassa é um dos principais pontos críticos no desenvolvimento das biorrefinarias. Neste trabalho, são apresentadas três estratégias inovadoras com vista à separação seletiva das frações de celulose, hemicelulose e lenhina, utilizando compostos orgânicos, geralmente em solução aquosa: i) utilização de líquidos iónicos (ILs) em particular [emim][OAc] e [emim][HSO4]); ii) processos organosolv baseados na utilização de misturas etanol:água (50:50); e iii) um processo não aquoso baseado em imidazole. Os processos com ILs permitiram um fracionamento diferencial e, em geral, uma redução da cristalinidade da celulose. Os processos organosolv permitiram modular a distribuição de produtos derivados da hemicelulose e da lenhina entre as fases sólida e líquida. A utilização de imidazole, permitiu a separação das duas frações de polissacáridos e contribuiu para despolimerização da lenhina.
- Production of liquid compounds by co-pyrolysis of different pre-treated biomasses mixed with plastic wastesPublication . Pinto, Filomena; Duarte, Luís C.; Carvalheiro, Florbela; Paradela, Filipe; Costa, Paula; Marques, Joana; Andre, Rui N.; Marques, Paula; Costa, Diogo; Sampaio, BrunoABSTRACT: As an innovation to conventional biomass pyrolysis to produce liquid biofuels, different types of biomass wastes were pre-treated by autohydrolysis, prior to pyrolysis. Eucalyptus forestry waste, corn cobs agricultural residue, and miscanthus (an energy crop) were autohydrolysed. Autohydrolysis led to valuable sugar-rich stream that may be used in fermentation and to solids rich in lignin that were pyrolysed. Pyrolysis of autohydrolysed eucalyptus led to an increase in liquids yields of 24 % in relation to untreated eucalyptus, as autohydrolysis weakened initial macromolecular structure and thus helped chemical bonds breakdown during pyrolysis. However, similar pyrolysis liquid yields were obtained by autohydrolysed or untreated corn cobs and miscanthus, thus feedstock composition is an important issue. Nevertheless, the production of added value products by autohydrolysis may still justify this pre-treatment. Otherwise, more severe pre-treatments of these biomasses might improve co-pyrolysis as it happened with eucalyptus. As polyethylene (PE) is easier to pyrolyse than biomass and greatly favours the production of liquid hydrocarbons, autohydrolysed and untreated biomass was mixed with PE wastes to be used in co-pyrolysis. The rise of PE content in the blend clearly favoured the production of liquid products of pre-treated and untreated biomass. 75 %wt. of PE in the blend led to liquid yields of 72 %wt. for untreated eucalyptus and of 82 %wt. for autohydrolysed eucalyptus.