Produção biotecnológica de 2,3-butanodiol no contexto de Biorrefinaria

Abstract

Biorefinery systems that integrate biomass conversion processes for the production of fuels, energy and chemicals from renewable resources are increasingly gaining ground in industrial development, due to the growing search for process innovation and sustainability, given the lower fuel availability. Lignocellulosic biomasses are energy residues with vast abundance and low cost in the market, which makes them attractive carbon sources for the chemical and energy products industries. 2,3-Butanediol (2,3-BD) is considered a chemical and a promising fuel with extensive applications in industry. Furthermore, it can be produced from biotechnological conversion with alternative carbon sources. Thus, in the present work, a systematic literature search was made in Science Direct and Google academic databases, including articles, theses and academic papers between the years 2004 until 2020, in order to review the general development of biorefinery production processes aimed at 2,3-BD production. Strategies for its efficient biotechnological production were analyzed through an outlined review of the fermentative process of microorganisms capable of synthesizing 2,3-BD Biorefinery systems that integrate biomass conversion processes for the production of fuels, energy and chemicals from renewable resources are increasingly gaining ground in industrial development, due to the growing search for process innovation and sustainability, given the lower fuel availability. Lignocellulosic biomasses are energy residues with vast abundance and low cost in the market, which makes them attractive carbon sources for the chemical and energy products industries. 2,3-Butanediol (2,3-BD) is considered a chemical and a promising fuel with extensive applications in industry. Furthermore, it can be produced from biotechnological conversion with alternative carbon sources. Thus, in the present work, a systematic literature search was made in Science Direct and Google academic databases, including articles, theses and academic papers between the years 2004 until 2020, in order to review the general development of biorefinery production processes aimed at 2,3-BD production. Strategies for its efficient biotechnological production were analyzed through an outlined review of the fermentative process of microorganisms capable of synthesizing 2,3-BD Biorefinery systems that integrate biomass conversion processes for the production of fuels, energy and chemicals from renewable resources are increasingly gaining ground in industrial development, due to the growing search for process innovation and sustainability, given the lower fuel availability. Lignocellulosic biomasses are energy residues with vast abundance and low cost in the market, which makes them attractive carbon sources for the chemical and energy products industries. 2,3-Butanediol (2,3-BD) is considered a chemical and a promising fuel with extensive applications in industry. Furthermore, it can be produced from biotechnological conversion with alternative carbon sources. Thus, in the present work, a systematic literature search was made in Science Direct and Google academic databases, including articles, theses and academic papers between the years 2004 until 2020, in order to review the general development of biorefinery production processes aimed at 2,3-BD production. Strategies for its efficient biotechnological production were analyzed through an outlined review of the fermentative process of microorganisms capable of synthesizing 2,3-BD