Capci Database for sustainable chemistry

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

Best Practice: Aqueous Phase Reforming

Aqueous Phase Reforming

"Hydrogen has become a desirable alternative energy carrier. Through steam reforming, partial oxidation, autothermal reforming, aqueous-phase reforming (APR), and supercritical water reforming, hydrogen can be produced from oxygenates derived from biomass as an alternative to electrolyser technologies. Compared to the traditional reforming reactions, the Aqueous Phase Reforming (APR) process is considered a novel, sustainable catalytic method for converting the carbohydrate fraction of biomasses into hydrogen under milder reaction conditions. APR has produces hydrogen at low temperatures using a variety of renewable oxygenates, such as ethanol, ethylene glycol, glycerol, sorbitol, and glucose. Glycerol stands out among them as a desirable biomass-derived substrate for APR."

Stage of Life Cycle
Products and Processes

GHG Reduction Potential

Hydrogen is one of the most important energy vectors, currently produced mainly from fossil fuels, but it could be produced from renewable sources with applications in several technologies. The APR of biomass is a suitable and an effective alternative for the production of hydrogen which takes place in relatively mild circumstances (200-250 °C) and is compatible with water-soluble or wet feedstocks. The method produces hydrogen without volatilizing water. APR reduces CO2 emissions by ≈ 90 % depending on the synthesis method employed.

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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