Solar Energy and Biowaste Conversion into H₂ on CuO_x/TiO₂ Nanocomposites

Abstract

The possibility to recover H₂ from waste organic streams in biorefineries using photocatalytic approaches is an attractive option to enhance process sustainability and produce valuable energy products. With respect to the overall photoreforming to obtain H₂ and CO₂, the photo-dehydrogenation of bioethanol leads to the co-production of a valuable chemical (acetaldehyde) together with H₂. Here we report on the synthesis and characterization of low cost CuO_x/TiO₂ nanocomposites and on their photocatalytic evaluation in the process of H₂ production by selective photo-dehydrogenation of ethanol. The methods of sample preparation allowed to maximize the dispersion of copper nanoparticles on TiO₂ surface, improving their photocatalytic performances in H₂ production. CuO_x/TiO₂ materials were tested i) in liquid phase as a powder suspended in a typical slurry-type reactor and ii) in gas phase as a thin film using a novel reactor design. The aim of this contribution is to better understand analogies and differences between gas and liquid phase operations, which are important aspects to take into account in the reactor design. Results showed that gas phase operation allowed high H₂ productivity and high selectivity (about 92 - 93 %) to acetaldehyde. It is remarked that the route of photo-dehydrogenation of ethanol to H₂ and acetaldehyde has an economic value about 3.0 - 3.5 times higher than the alternative route of photoreforming to produce H₂ and CO₂.