Stainless Steel As a Catalyst for the Total Deoxygenation of Glycerol and Levulinic Acid in Aqueous Acidic Medium

Abstract

Exposing 316 Stainless Steel pressure reactor bodies to an aqueous Bronstedt acidic solution (trifluoromethane sulfonic acid) at elevated temperatures (100−250 °C) under reducing atmosphere (hydrogen gas at 800 psi) leads to the formation of insoluble inorganic precipitates, identified as mixed chromium oxides by scanning electron microscopy X-ray fluorescence (SEM-XRF). A catalytically active metal surface is generated, that is, under these conditions the <100 Ǻ thick chromium oxide layer that normally passivates 316 Stainless Steel (316SS) against corrosion is etched away, and the reactor body itself becomes an active hydrogenation catalyst. The effect is specific to aqueous acidic medium and therefore water-soluble substrates as encountered in biomass conversion, for example, sugar alcohols and levulinic acid, which can be deoxygenated to the corresponding alkanes and alkenes using only a Bronstedt acid and the reactor body as the catalyst. Control experiments in several different 316SS reactors built ...