Capci Database for sustainable chemistry

Knowledge Base: Climate protection in the production and use of chemicals

Best Practice: Synthetic Naphtha/Methane from Electrolytic H2 and CO2

Synthetic Naphtha/Methane from Electrolytic H2 and CO2

The transition to renewable energy has led to interest in synthetic fuels as CO2-neutral sources of energy. Synthetic methane, also known as e-methane, is an electrofuel created using two basic ingredients: CO2 absorbed from the atmosphere or exhaust fumes, and hydrogen produced by electrolysis of water using renewable energy. E-methane is a readily exportable fuel with existing infrastructure for storage, transport, and use. There are several ways to recycle CO2 into fuels using renewable energy. This process involves three stages: CO2 capture, H2O and CO2 dissociation, and fuel synthesis.

Stage of Life Cycle
Products and Processes

GHG Reduction Potential

The strategies for extracting synthetic natural gas (methane) from renewable energy sources are important for the decarbonisation of all those sectors that are heavily dependent on fossil fuels. The use of renewable energy allows Fischer–Tropsch (FT) fuel production from various plant designs to reduce GHG emissions by 90–100%, relative to petroleum fuels. Combining direct air capture (DAC) of CO2 with methanation reduces the energy demand of the system, as the heat released from methanation can provide heat to the DAC.

Solution Maturity Status

Newly established:

Stages where the technology concept is approved but has not been widely incorporated except by few companies.

Identification Keys / Drivers & Barriers

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