Repository logo
 
Profile Picture
Person

Pacheco, Marta

Metadata only
6D1B-1BBB-8ACF
0000-0003-4039-9127

Filters

2020 - 20232
Reset filters

Settings

Author: Pacheco, Marta × Subject: Bioenergy ×

Search Results

Now showing 1 - 2 of 2
  • Infraestrutura de investigação para a biomassa e a bioenergia: BBRI - Biomass and Bioenergy Research Infrastructure
    Publication . Reis, Alberto; Abreu, Mariana; Pacheco, Marta; Bernardo, Joana; Silva, R.; Domingues, Lucília; Teixeira, J.A.; Gírio, Francisco
    RESUMO: A BBRI é a única Infraestrutura Nacional de Investigação em Biomassa e Bioenergia, que integra o Roteiro Nacional de Infraestruturas de Investigação de Interesse Estratégico em Portugal desde 2014, sendo distribuída por dois nós. O nó de Lisboa tem por base as infraestruturas laboratoriais e piloto existentes na Unidade de Bioenergia e Biorrefinarias (UBB) do Laboratório Nacional de Energia e Geologia (LNEG) e o nó de Braga, as infraestruturas laboratoriais e tecnológicas do Centro de Engenharia Biológica (CEB) da Universidade do Minho (UM). As atividades científicas da BBRI estão focadas nas tecnologias de conversão de biomassa para obtenção de biocombustíveis avançados, produtos não-energéticos de base biológica e outros biomateriais, inseridas em seis sub-plataformas de investigação (sub-RIs). O trabalho da BBRI nestas 6 sub-RIs encontra-se complementarmente organizado em atividades de formação, serviços e atividades de disseminação, visando a capacitação de novos profissionais em bioenergia sustentável e contribuindo para a excelência da investigação em Portugal no domínio da Bioenergia e Bioeconomia.
    2020-11Conference object Open access Show more
  • Effects of Lignin Gasification Impurities on the Growth and Product Distribution of Butyribacterium methylotrophicum during Syngas Fermentation
    Publication . Pacheco, Marta; Pinto, Filomena; Brunsvik, Anders; Andre, Rui N.; Marques, Paula; Mata, Ricardo; Ortigueira, Joana; Gírio, Francisco; Moura, Patrícia
    ABSTRACT: This work evaluated the effects of condensable syngas impurities on the cell viability and product distribution of Butyribacterium methylotrophicum in syngas fermentation. The condensates were collected during the gasification of two technical lignins derived from wheat straw (WST) and softwood (SW) at different temperatures and in the presence or absence of catalysts. The cleanest syngas with 169 and 3020 ppmv of H2S and NH3, respectively, was obtained at 800 degrees C using dolomite as catalyst. Pyridines were the prevalent compounds in most condensates and the highest variety of aromatics with cyanide substituents were originated during WST lignin gasification at 800 degrees C without catalyst. In contrast with SW lignin-based condensates, the fermentation media supplemented with WST lignin-derived condensates at 1:100 vol. only supported residual growth of B. methylotrophicum. By decreasing the condensate concentration in the medium, growth inhibition ceased and a trend toward butyrate production over acetate was observed. The highest butyrate-to-acetate ratio of 1.3 was obtained by supplementing the fermentation media at 1:1000 vol. with the condensate derived from the WST lignin, which was gasified at 800 degrees C in the presence of olivine. B. methylotrophicum was able to adapt and resist the impurities of the crude syngas and altered its metabolism to produce additional butyrate.
    2023-02Journal article Open access Show more