Analysis of Methanation Path Based on Power-to-X Technology——Taking China as an Example

Abstract In order to accelerate the realization of the “Paris Agreement” global warming temperature control goals and to achieve carbon emission reduction and green sustainable energy development, countries around the world are actively exploring and developing new energy utilization technologies. T...

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Published inIOP conference series. Earth and environmental science Vol. 680; no. 1; p. 12099
Main Authors Zhao, X L, Li, Q F, Yang, Y W, Song, L F
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.03.2021
Subjects
Alternative energy
Carbon dioxide
Carbon sequestration
Clean energy
Climate change
Electric power generation
Emissions control
Energy utilization
Global warming
Hydrogen production
Industrial plant emissions
Methanation
Paris Agreement
Power plants
Raw materials
Renewable energy
Renewable resources
Resource utilization
Sustainable development
Technology
Temperature control
Thermal power
Thermal power plants
China
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Summary:Abstract In order to accelerate the realization of the “Paris Agreement” global warming temperature control goals and to achieve carbon emission reduction and green sustainable energy development, countries around the world are actively exploring and developing new energy utilization technologies. This paper takes China as an example to study and analyze the methanation path based on Power-to-X technology. The results show that:①China’s potential for hydrogen production from renewable energy in the future, as well as the introduction of CO2 capture technology for thermal power plants and other sectors for carbon emission reduction and resource utilization, all have good potential, and both can provide sufficient raw materials for the methanation process;②Methanation production by providing green hydrogen and capturing and recovering carbon dioxide is in line with the goals and requirements of the new generation of energy systems for sustainable development. This technological path is actually helpful for delaying global warming and realizing the reduction and resource utilization of renewable energy curtailment in CO2. At the same time, in the future, relying on the synergy of technology and policy to continuously increase the scale of the system to reduce the overall cost, it is expected to achieve large-scale applications.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/680/1/012099