Synthesis gas (or syngas) can be produced from a variety of materials including commonly-used fossil fuels, but also renewable organic compounds such as poorly degradable biomass sources and wastes, through gasification. Syngas is a mixture composed of mainly H2, CO and CO2 that can be used in a biological process for the production of fuels or usable chemicals. The main goal of this work is to explore the potential of biogas or other valuable compounds production from syngas
Book of Abstracts of CEB Annual Meeting 2017The replacement of fossil fuels by renewable energy sour...
Bioconversion of syngas/waste gas components to produce ethanol appears to be a promising alternativ...
Syngas production by inert porous media combustion of rich biogas–air mixtures was studied experimen...
Microbiology Centennial Symposium 2017 - Exploring Microbes for the Quality of Life (Book of Abstrac...
Bioconversion of recalcitrant biomass/waste into bulk chemicals or biofuels is not practicable. Gasi...
Este resumo faz parte de: Book of abstracts of the Meeting of the Institute for Biotechnology and Bi...
In the last decades increasing attention has been paid on syngas, produced through the thermal gasif...
Syngas (synthesis gas) is produced during the gasification of different materials, e.g. coal, oil an...
Synthesis gas (syngas) fermentation is a process capable of processing a gaseous substrate via ferme...
Syngas fermentation is one of the most favorable biochemical conversion techniques for the productio...
Syngas, a gaseous mixture of CO, H2 and CO2, can be produced by gasification of carbon-containing ma...
Syngas, composed mainly of CO, H2 and CO2 can be produced from several sources, including coal, oil...
A significant portion of biomass sources like straw and wood is poorly degradable and cannot be conv...
Bioconversion of recalcitrant biomass/waste into bulk chemicals or biofuels is often not feasible. B...
A hybrid system based on lignocellulosic biomass gasification and syngas fermentation represents a s...
Book of Abstracts of CEB Annual Meeting 2017The replacement of fossil fuels by renewable energy sour...
Bioconversion of syngas/waste gas components to produce ethanol appears to be a promising alternativ...
Syngas production by inert porous media combustion of rich biogas–air mixtures was studied experimen...
Microbiology Centennial Symposium 2017 - Exploring Microbes for the Quality of Life (Book of Abstrac...
Bioconversion of recalcitrant biomass/waste into bulk chemicals or biofuels is not practicable. Gasi...
Este resumo faz parte de: Book of abstracts of the Meeting of the Institute for Biotechnology and Bi...
In the last decades increasing attention has been paid on syngas, produced through the thermal gasif...
Syngas (synthesis gas) is produced during the gasification of different materials, e.g. coal, oil an...
Synthesis gas (syngas) fermentation is a process capable of processing a gaseous substrate via ferme...
Syngas fermentation is one of the most favorable biochemical conversion techniques for the productio...
Syngas, a gaseous mixture of CO, H2 and CO2, can be produced by gasification of carbon-containing ma...
Syngas, composed mainly of CO, H2 and CO2 can be produced from several sources, including coal, oil...
A significant portion of biomass sources like straw and wood is poorly degradable and cannot be conv...
Bioconversion of recalcitrant biomass/waste into bulk chemicals or biofuels is often not feasible. B...
A hybrid system based on lignocellulosic biomass gasification and syngas fermentation represents a s...
Book of Abstracts of CEB Annual Meeting 2017The replacement of fossil fuels by renewable energy sour...
Bioconversion of syngas/waste gas components to produce ethanol appears to be a promising alternativ...
Syngas production by inert porous media combustion of rich biogas–air mixtures was studied experimen...
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