The growing surplus of green electricity generated by renewable energy technologies has fueled research towards chemical industry electrification. By adapting power-to-chemical concepts, such as plasma-assisted processes, cheap resources could be converted into fuels and base chemicals. However, the feasibility of those electrified processes at large scale has not been investigated yet. Thus, the current work strives to compare, for first time in the literature, plasma-assisted production of syngas, from CH4 and CO2 (dry methane reforming), with thermal catalytic dry methane reforming. Specifically, both processes are conceptually designed to deliver syngas suitable for methanol synthesis (H2/CO ≥ 2 in mole). The processes are simulated in ...
International audienceIn this paper, a new approach of converting renewable electricity into methane...
This study is the first experimental demonstration of CO2 capture and utilization for dry methane re...
Methane reforming processes are of great importance for both the reduction of this greenhouse gas co...
© 2017 by the authors. The growing surplus of green electricity generated by renewable energy techno...
Among the possibilities for syngas production, CO2 reforming of methane is very attractive (CH4 + CO...
This project has studied reforming of biogas into fuels and valued chemicals using non-thermal plasm...
This study reports the dry reforming of methane (DRM) using non-thermal plasma in a swirl-induced po...
Conventionally, syngas produced by steam reforming is used to convert methane into methanol and othe...
We report here the development of a prototype reactor for CO2 reforming of methane based on the appl...
This further investigates the concept of gas switching dry reforming (GSDR) that efficiently convert...
Synthesis Gas, or syngas (Hydrogen and Carbon Monoxide) can be used in multiple chemical processes. ...
Power-to-X processes convert free electrons stemming from renewable energy into chemical bonds. In t...
Renewable energy production processes have achieved significant technological and commercial maturit...
The electrification of the petrochemical industry, imposed by the urgent need for decarbonization an...
International audienceOver the last two decades there has been growing research interest in the oxid...
International audienceIn this paper, a new approach of converting renewable electricity into methane...
This study is the first experimental demonstration of CO2 capture and utilization for dry methane re...
Methane reforming processes are of great importance for both the reduction of this greenhouse gas co...
© 2017 by the authors. The growing surplus of green electricity generated by renewable energy techno...
Among the possibilities for syngas production, CO2 reforming of methane is very attractive (CH4 + CO...
This project has studied reforming of biogas into fuels and valued chemicals using non-thermal plasm...
This study reports the dry reforming of methane (DRM) using non-thermal plasma in a swirl-induced po...
Conventionally, syngas produced by steam reforming is used to convert methane into methanol and othe...
We report here the development of a prototype reactor for CO2 reforming of methane based on the appl...
This further investigates the concept of gas switching dry reforming (GSDR) that efficiently convert...
Synthesis Gas, or syngas (Hydrogen and Carbon Monoxide) can be used in multiple chemical processes. ...
Power-to-X processes convert free electrons stemming from renewable energy into chemical bonds. In t...
Renewable energy production processes have achieved significant technological and commercial maturit...
The electrification of the petrochemical industry, imposed by the urgent need for decarbonization an...
International audienceOver the last two decades there has been growing research interest in the oxid...
International audienceIn this paper, a new approach of converting renewable electricity into methane...
This study is the first experimental demonstration of CO2 capture and utilization for dry methane re...
Methane reforming processes are of great importance for both the reduction of this greenhouse gas co...