For their forecasts for the period up to 2050, the research scientists analyzed over 5,000 publications on the topic of CO₂ electrolysis. Their focus: low-temperature and high-temperature electrolysis for the three product classes CO, formic acid and ethylene/ethanol. Their goal: to close the gap between academic reviews on the progress of CO₂ reduction (CO2R) and industrial point sources.

Long-term perspective on the potential of CO₂ electrolysis

With a view to matching sources and sinks across sectors, the researchers have identified the most relevant point sources and CO2R products for coupling scenarios. In addition, they evaluated the performance of different CO2R products in different cell configurations, highlighting key successes, trends and opportunities for improvement - taking into account both current CO₂ emissions and market requirements as well as projections for 2050.

For example, the research scientists assume that the type of CO₂ sources operating large-scale CO₂ electrolysis technologies will go through three phases: 1) directly from industrial CO₂ point sources, through b) a mixture of CO₂ point sources and Direct Air Capture (DAC), to c) the primary establishment of DAC as a CO₂ supplier alongside unavoidable large-scale emitters such as cement and waste incineration plants.

"Our roadmap provides conclusions on the most likely application scenarios for each technology and is therefore a valuable roadmap for the industry: When, where, how and for which product can CO₂ electrolysis be an attractive technology?" summarizes Prof. Ulf-Peter Apfel from Fraunhofer UMSICHT.

The complete results can be found in the article "Closing the Carbon Cycle: Challenges and Opportunities of CO₂ Electrolyser Designs in Light of Cross-Industrial CO₂ Source-Sink Matching in the European Landscape" – published in the journal "Energy & Environmental Science": https://s.fhg.de/iTNk.