A new system for hydrogen and methane production with post-combustion amine-based carbon capturing option for better sustainability
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Elsevier BV
Reference31 articles.
1. Climate change and fossil fuel: An examination of risks for the energy industry and producer states;Krane;MRS Energy and Sustainability,2017
2. Climatic identity assessment of the climate change;Toprak;Int J Glob Warm,2013
3. The future electric power system: Impact of Power-to-Gas by interacting with other renewable energy components;Kötter;J Energy Storage,2016
4. Can renewable energy power the future?;Moriarty;Energy Policy,2016
5. Life cycle energy consumption and GHG emissions of hydrogen production from underground coal gasification in comparison with surface coal gasification;Liu;Int J Hydrogen Energy,2021
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