Hydrous bioethanol production from sugarcane bagasse via energy self-sufficient gasification-fermentation hybrid route : Simulation and financial analysis
ARTIGO
Inglês
Production of second generation ethanol can be accomplished with biomass gasification followed by syngas fermentation using acetogenic bacteria in a hybrid process. Using process simulation and financial analysis, this study evaluated the feasibility of producing hydrous ethanol from sugarcane...
Production of second generation ethanol can be accomplished with biomass gasification followed by syngas fermentation using acetogenic bacteria in a hybrid process. Using process simulation and financial analysis, this study evaluated the feasibility of producing hydrous ethanol from sugarcane bagasse in a conceptual hybrid plant designed to be energetically self-sufficient. The process was found to be competitive with other second generation routes, achieving an ethanol yield of 330 L per metric ton of dry biomass and an overall carbon conversion of 30%. The minimum ethanol selling price to achieve Net Present Value break-even with 10% Internal Rate of Return was estimated to be 706 US$/m3 after taxes in the base model. When accounting for uncertainties in the fixed capital investment and the cost of raw materials, the Net Present Value was found to be non-negative in 80% of the cases for a selling price of 783 US$/m3
COORDENAÇÃO DE APERFEIÇOAMENTO DE PESSOAL DE NÍVEL SUPERIOR - CAPES
Fechado
Hydrous bioethanol production from sugarcane bagasse via energy self-sufficient gasification-fermentation hybrid route : Simulation and financial analysis
Hydrous bioethanol production from sugarcane bagasse via energy self-sufficient gasification-fermentation hybrid route : Simulation and financial analysis
Fontes
Journal of cleaner production Vol. 168 (Dec., 2017), p. 1625-1635 |