Capci Database for sustainable chemistry

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

Best Practice: BTX via methanol-to-aromatics (MtA)

BTX via methanol-to-aromatics (MtA)

The methanol-to-aromatics (MtA) method is considered a potential way to produce aromatic commodities using non-fossil carbon sources such biomass waste, coal, natural gas, and CO2. The conversion of methanol to aromatics (MtA) over a Zeolite catalyst has attracted increasing attention and has been considered as a promising alternative synthesis route. Benzene, toluene, and xylene (BTX) are light aromatic compounds considered as strategic widely materials used in many industrial sectors.

Stage of Life Cycle
Products and Processes

GHG Reduction Potential

The carbon footprint is made up of the emissions from the different process steps. As a result, the process-related CO2 emissions are 2.21 tCO2eq/tBTX for the Diels-Alder route and 2.6 tCO2eq/tBTX for the MTA route, which is a factor of 2 to 3 of the fossil route at 0.84 tCO2eq/tBTX. The total emission reductions would therefore come from the bio-based carbon sequestered in the products, which amounts to 3.3 tCO2eq/tBTX, resulting in a total carbon footprint of -0.7 CO2eq/tBTX for the MTA route or -1.54 tCO2eq/tBTX of CO2 avoided compared to the fossil route.

Solution Maturity Status

Under development:

The technology concept is not established yet. The focus is typically set on laboratory, pilot and evaluation processes.

Identification Keys / Drivers & Barriers

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