This work presents a strategy for optimizing the production process of ethanol via integrated gasification and syngas fermentation, a conversion platform of growing interest for its contribution to carbon recycling. The objective functions (minimum ethanol selling price (MESP), energy efficiency, and carbon footprint) were evaluated for the combinations of different input variables in models of biomass gasification, energy production from syngas, fermentation, and ethanol distillation, and a multi-objective genetic algorithm was employed for the optimization of the integrated process. Two types of waste feedstocks were considered, wood residues and sugarcane bagasse, with the former leading to lower MESP and a carbon footprint of 0.93 USD/L...
The application of systematic methodologies for the optimal design of integrated processes has seen ...
The present study investigates the potential conversion of sugarcane into ethanol and synthetic natu...
Since sugarcane bagasse and trash are used as fuels in conventional bioethanol production, the amoun...
Ethanol production from non-edible feedstock has received significant attention over the past two de...
Renewable energy plays a key role in the fight to reduce greenhouse gas emissions while providing fo...
In this work, a model was developed to predict the performance of a bubble column reactor for syngas...
A technical, economic and environmental analysis of different biorefinery configurations is carried ...
Production of second generation ethanol can be accomplished with biomass gasification followed by sy...
Bioethanol from sugarcane is a sustainable alternative to fossil fuels, and the increasing demand fo...
With the increasing scarcity of fossil fuel reserves, the demand for alternative renewable energy su...
This chapter deals with the exploitation of bagasse within the biorefinery concept for the sustainab...
Large-scale deployment of both biochemical and thermochemical routes for advanced biofuels productio...
The integration of the first and second generation (1G2G) ethanol production promotes the increase o...
Ethanol production sites utilizing sugarcane as feedstock are usually located in regions with high l...
In this paper a techno-economic and environmental analysis for a sugar cane bagasse biorefinery in C...
The application of systematic methodologies for the optimal design of integrated processes has seen ...
The present study investigates the potential conversion of sugarcane into ethanol and synthetic natu...
Since sugarcane bagasse and trash are used as fuels in conventional bioethanol production, the amoun...
Ethanol production from non-edible feedstock has received significant attention over the past two de...
Renewable energy plays a key role in the fight to reduce greenhouse gas emissions while providing fo...
In this work, a model was developed to predict the performance of a bubble column reactor for syngas...
A technical, economic and environmental analysis of different biorefinery configurations is carried ...
Production of second generation ethanol can be accomplished with biomass gasification followed by sy...
Bioethanol from sugarcane is a sustainable alternative to fossil fuels, and the increasing demand fo...
With the increasing scarcity of fossil fuel reserves, the demand for alternative renewable energy su...
This chapter deals with the exploitation of bagasse within the biorefinery concept for the sustainab...
Large-scale deployment of both biochemical and thermochemical routes for advanced biofuels productio...
The integration of the first and second generation (1G2G) ethanol production promotes the increase o...
Ethanol production sites utilizing sugarcane as feedstock are usually located in regions with high l...
In this paper a techno-economic and environmental analysis for a sugar cane bagasse biorefinery in C...
The application of systematic methodologies for the optimal design of integrated processes has seen ...
The present study investigates the potential conversion of sugarcane into ethanol and synthetic natu...
Since sugarcane bagasse and trash are used as fuels in conventional bioethanol production, the amoun...