Technical Paper
Advanced Biomass Conversion: Sustainable e-Methanol Production with Enhanced CO2 Utilization
2024-04-09
2024-01-2449
Amid escalating concerns over climate change and emissions, this study presents a novel approach to develop sustainable fuels, leveraging advanced process modeling that uses waste CO2 streams from the biological ethanol fermentation process to produce e-methanol. Using Aspen Plus software, this research focuses on the conversion of biomass such as sugar cane and sugar beet to reduce reliance on fossil fuels and fortify energy resilience in a sustainable manner. In the first phase, bagasse, a byproduct of sugar production that is rich in carbon is used as a precursor for gasification and as a fuel to generate high-pressure steam. Oxygen obtained from electrolysis of water using renewable energy is used to preheat the biological exothermic fermentation phase. The CO2 captured during the fermentation phase is mixed with hydrogen obtained from the electrolysis process to synthesize e-methanol.