Abstract
Lignocellulosic biofuels are the most promising sustainable fuels that can be added to the crude oil pool to refill the dwindling fossil resources. In this work, we tested a Raney-Ni catalyst for the hydrogenation of four bio-oil model compounds and their binary mixtures to assess their reactivity under mild conditions suitable for bio-oil stabilization preceding green diesel production from lignocellulosic biomass. The hydrogenation experiments were performed at ambient hydrogen pressure at temperatures in the range 30–70 °C. Raney-Ni was found to hydrogenate all investigated model compounds efficiently; both carbonyl groups and double bonds were saturated. In addition, it was also active in the demethoxylation of guaiacol. When studying the binary mixtures, furfuryl alcohol was found to significantly inhibit the hydrogenation of the other model compounds (guaiacol and methyl isobutyl ketone) due to their very strong adsorption.
Funder
Horizon 2020 Framework Programme
Subject
Physical and Theoretical Chemistry,Catalysis
Reference34 articles.
1. Neste Renewable Dieselhttp://gtsummitexpo.socialenterprises.net/assets/docs/past-events/GTSE-tacoma-2016/april-6/gtse-tacoma-2016-GTSE-Session-6B-Dayne-Delahoussaye-Neste-April-6th.pdf
2. Ecofining™ Processhttps://www.uop.com/processing-solutions/renewables/green-diesel/ecofining/
3. Stabilization of biomass-derived pyrolysis oils
4. Ablative plate pyrolysis of biomass for liquids
5. Upgrading of flash pyrolysis oil and utilization in refineries
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