Add to ORKGThe production of synthetic methane using CO2 from flue gases and green hydrogen appears to be a promising way to combine the concepts of renewable energy, chemical storage, and utilization of CO2. Recently, a new reactor configuration for catalytic methanation has been proposed, integrating sorption-enhanced methanation and chemical looping in interconnected fluidized bed systems. This configuration would ensure high methane yields while keeping good temperature control and low operating pressure. In this work, such novel system layout for the catalytic production of methane was combined with a calcium looping unit for CO2 capture from flue gases of a coal-fired power plant, and with a water electrolyzer sustained by renewable energy. The ...
A novel process scheme is analysed for the production of hydrogen from methane, while obtaining a se...
The aim of this work is to contribute for the scientific advancement of carbon capture and utilizati...
Calcium looping is promising for large-scale CO2 capture in the power generation and industrial sect...
In this work, a comprehensive study of CO2 methanation by coupling process simulation, economic anal...
Negative-emission technologies are largely investigated to better control atmospheric carbon dioxide...
This study presents an integrated techno-environmental assessment of hydrogen production from natura...
The need to decarbonize industrial processes and to increase the utilization of renewable resources,...
The ability to store effectively excess of electrical energy from peaks of production is key to the ...
Energy-intensive industries still produce high amounts of non-renewable CO2 emissions. These emissio...
The multicyclic carbonation-calcination of CaCO3 in fluidized bed reactors is a promising process fo...
The increase of capital investments and operation and maintenance (O&M) costs represents a current l...
International audiencePurpose: Technologies with low environmental impacts and promoting renewable e...
The success of catalytic schemes for the large-scale valorization of CO2 does not only depend on the...
Previous studies showed that using carbon dioxide (CO2) as a raw material for chemical syntheses may...
Calcium looping is a post-combustion technology that enables CO2 capture from the flue gases of indu...
A novel process scheme is analysed for the production of hydrogen from methane, while obtaining a se...
The aim of this work is to contribute for the scientific advancement of carbon capture and utilizati...
Calcium looping is promising for large-scale CO2 capture in the power generation and industrial sect...
In this work, a comprehensive study of CO2 methanation by coupling process simulation, economic anal...
Negative-emission technologies are largely investigated to better control atmospheric carbon dioxide...
This study presents an integrated techno-environmental assessment of hydrogen production from natura...
The need to decarbonize industrial processes and to increase the utilization of renewable resources,...
The ability to store effectively excess of electrical energy from peaks of production is key to the ...
Energy-intensive industries still produce high amounts of non-renewable CO2 emissions. These emissio...
The multicyclic carbonation-calcination of CaCO3 in fluidized bed reactors is a promising process fo...
The increase of capital investments and operation and maintenance (O&M) costs represents a current l...
International audiencePurpose: Technologies with low environmental impacts and promoting renewable e...
The success of catalytic schemes for the large-scale valorization of CO2 does not only depend on the...
Previous studies showed that using carbon dioxide (CO2) as a raw material for chemical syntheses may...
Calcium looping is a post-combustion technology that enables CO2 capture from the flue gases of indu...
A novel process scheme is analysed for the production of hydrogen from methane, while obtaining a se...
The aim of this work is to contribute for the scientific advancement of carbon capture and utilizati...
Calcium looping is promising for large-scale CO2 capture in the power generation and industrial sect...