期刊
CHEMICAL ENGINEERING SCIENCE
卷 229, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ces.2020.116012
关键词
Power-to-Gas; Biogas; Membrane; Upgrading; Flexibility
资金
- Swiss Innovation Agency lnnosuisse
- Swiss Federal Office for Energy (SFOE)
- Forschungsfonds Gas (FOGA)
- Energy System Integration (ESI) Platform at PSI
This study conducted experiments testing a commercial biogas upgrading membrane for hydrogen recycling, leading to the development of a concept that flexibly combines upgrading and methanation. Grid injection standards for biomethane and biogas production were successfully met within the pressure ranges tested.
Direct methanation of biogas converts the CO2 in raw-biogas to methane, enabling higher methane yield and an elelctricity storage option via Power-to-Gas. As the thermodynamic equilibrium limits the methane yield, unreacted hydrogen has to be removed and recycled to reach grid injection quality. We tested a commercial biogas upgrading membrane for hydrogen recycling at TRL 5. Based on the experi-ments, we developed a concept, which flexibly combines biogas upgrading and methanation post upgrading in a single unit. This allows switching between the two operation modes, which can improve the economic benefit of the system. The hollow fibre membrane module was tested simulating the methanation product gas (biomethane, 12% H-2 in CH4) and biogas (40% CO2 in CH4) in pressure ranges of 3-9 bar. In both cases, grid injection limitations (<2% H-2, <4% CO2) were reached at pressures of 6-8 bar. (c) 2020 Elsevier Ltd. All rights reserved.
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