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Análise do impacto do processo organosolv para pré-tratamento de biomassa lenhocelulósica na redução das emissões de gases com efeito de estufa (GEE)
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Abstract(s)
RESUMO: No âmbito do projeto H2020 AMBITION, foram desenvolvidos processos de pré-tratamento inovadores e energeticamente eficientes, a fim de serem integrados num conceito de melhoria do processamento da biomassa para a produção de correntes líquidas de açúcares e derivados de lenhina para aplicações em bioenergia e produtos de valor acrescentado. O objetivo deste trabalho consiste em analisar os impactos ambientais do pré-tratamento organosolv de biomassa (palha de trigo e resíduos de eucalipto) utilizando misturas etanol/água, a fim de avaliar a sua integração num processo multiproduto de modo a originar elevados rendimentos de açúcares e recuperar lenhina de alta qualidade num conceito de biorrefinaria. O processo foi simulado em SuperPro Designer (Intelligen Inc.) para determinar os balanços de massa e energia, bem como para desenvolver o Inventário de Ciclo de Vida (LCI). A Avaliação do Ciclo de Vida (ACV) foi realizada utilizando o software SimaPro 9.0 (PRé Consultants BV) com a base de dados Ecoinvent 3.5, sendo comparada com os processos clássicos de pré-tratamento à escala industrial (e.g. explosão com vapor). O processo organosolv com etanol e para uma razão líquido-sólido (RLS) padrão de 10, apresenta resultados em termos de emissões de GEE (numa abordagem gate-to-gate) ligeiramente superiores aos obtidos para a explosão com vapor, concluindo-se posteriormente que na tecnologia organosolv, só a redução da RLS pode conduzir a melhorias significativas em termos ambientais.
ABSTRACT: Within the H2020 AMBITION project, innovative and energy efficient pre-treatment processes were developed in order to be integrated in a biomass processing improvement concept that would produce liquid streams of sugars and lignin derivatives for applications in bioenergy and added-value products. The objective of this work is to analyse the environmental impacts of organosolv pre-treatment of biomass (wheat straw and eucalyptus residues) using ethanol/water mixtures in order to assess its integration in a multi-product process to produce high sugar yields and recover high quality lignin in a biorefinery concept. The process was modelled in SuperPro Designer (Intelligen Inc.) to determine mass and energy balances as well as to develop the Life Cycle Inventory (LCI). The Life Cycle Assessment (LCA) was performed using SimaPro 9.0 software (PRé Consultants BV) with the Ecoinvent 3.5 database and compared with classical industrial scale pre-treatment processes (e.g. steam explosion). The organosolv process with ethanol with a standard liquid-to-solid ratio (LSR) of 10, presents, in terms of GHG emissions (in a gate-to-gate approach), slightly higher GHG emissions than those obtained for the steam explosion, leading to the conclusion that a reduction in the solid-liquid ratio in organosolv technology causes significant environmental improvements.
ABSTRACT: Within the H2020 AMBITION project, innovative and energy efficient pre-treatment processes were developed in order to be integrated in a biomass processing improvement concept that would produce liquid streams of sugars and lignin derivatives for applications in bioenergy and added-value products. The objective of this work is to analyse the environmental impacts of organosolv pre-treatment of biomass (wheat straw and eucalyptus residues) using ethanol/water mixtures in order to assess its integration in a multi-product process to produce high sugar yields and recover high quality lignin in a biorefinery concept. The process was modelled in SuperPro Designer (Intelligen Inc.) to determine mass and energy balances as well as to develop the Life Cycle Inventory (LCI). The Life Cycle Assessment (LCA) was performed using SimaPro 9.0 software (PRé Consultants BV) with the Ecoinvent 3.5 database and compared with classical industrial scale pre-treatment processes (e.g. steam explosion). The organosolv process with ethanol with a standard liquid-to-solid ratio (LSR) of 10, presents, in terms of GHG emissions (in a gate-to-gate approach), slightly higher GHG emissions than those obtained for the steam explosion, leading to the conclusion that a reduction in the solid-liquid ratio in organosolv technology causes significant environmental improvements.
Description
CIES2020 - XVII Congresso Ibérico e XIII Congresso Ibero-americano de Energia Solar
Keywords
Biomass Pretreatments Life cycle assessment GEE
Citation
Lopes, T.F... [et.al.] - Análise do impacto do processo organosolv para pré-tratamento de biomassa lenhocelulósica na redução das emissões de gases com efeito de estufa (GEE). In: CIES2020: As Energias Renováveis na Transição Energética: Livro de Comunicações do XVII Congresso Ibérico e XIII Congresso Ibero-americano de Energia Solar. Helder Gonçalves, Manuel Romero (Ed.). Lisboa, Portugal: LNEG, 3-5 Novembro, 2020, p. 693-700
Publisher
LNEG - Laboratório Nacional de Energia e Geologia