Capci Database for sustainable chemistry

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

Best Practice: Synthetic Methane from Waste Biomass (Biomethane)

Synthetic Methane from Waste Biomass (Biomethane)

Biological waste represents a potential source of energy. Through processes such as anaerobic digestion or gasification of lignocellulosic biomass with subsequent gas cleaning and methanation, both biogenic CO2 and methane become available. This so-called renewable methane has the potential to replace fossil-based gases and therefore contribute to the mitigation of GHG. CO2, available in the process can then be redirected for further use in the synthesis of chemicals (CCU), replacing as a result fossil CO2. From this CO2, renewable methane can be obtained allowing the possibility to use it as a green energy carrier. As explained by the Paul Scherrer Institue in Switzerland, methane can be used as a green energy carrier if the electrolysis process for the production of hydrogen is electrified with renewable energies. This, in turn, translates into a Power-to-gas process in which green hydrogen is produced with the resulting renewable CO2.

Stage of Life Cycle
Inputs

GHG Reduction Potential

According to the International Council on Clean Transportation, the carbon intensity of Biowaste as a methane production feestock is -26 gCO2e/MJ with GHG savings relative to natural gas of 98 gCO2e/MJ.

Solution Maturity Status

Well Established:

This technology has been operating for a number of years and is well-known/ successful in its industry or market.

Identification Keys / Drivers & Barriers

Legend