Journal ArticleDOI
Reaction pathways for the deoxygenation of vegetable oils and related model compounds.
Robert W. Gosselink,Stefan A. W. Hollak,Shu-Wei Chang,Jacco van Haveren,Krijn P. de Jong,Johannes H. Bitter,Daan S. van Es +6 more
TLDR
It is shown that the type of catalyst has a significant effect on the deoxygenation pathway, that is, group 10 metal catalysts are active in decarbonylation/decarboxylation whereas metal sulfide catalyststs are more selective to hydrode oxygengenation.Abstract:
Vegetable oil-based feeds are regarded as an alternative source for the production of fuels and chemicals. Paraffins and olefins can be produced from these feeds through catalytic deoxygenation. The fundamentals of this process are mostly studied by using model compounds such as fatty acids, fatty acid esters, and specific triglycerides because of their structural similarity to vegetable oils. In this Review we discuss the impact of feedstock, reaction conditions, and nature of the catalyst on the reaction pathways of the deoxygenation of vegetable oils and its derivatives. As such, we conclude on the suitability of model compounds for this reaction. It is shown that the type of catalyst has a significant effect on the deoxygenation pathway, that is, group 10 metal catalysts are active in decarbonylation/decarboxylation whereas metal sulfide catalysts are more selective to hydrodeoxygenation. Deoxygenation studies performed under H2 showed similar pathways for fatty acids, fatty acid esters, triglycerides, and vegetable oils, as mostly deoxygenation occurs indirectly via the formation of fatty acids. Deoxygenation in the absence of H2 results in significant differences in reaction pathways and selectivities depending on the feedstock. Additionally, using unsaturated feedstocks under inert gas results in a high selectivity to undesired reactions such as cracking and the formation of heavies. Therefore, addition of H2 is proposed to be essential for the catalytic deoxygenation of vegetable oil feeds.read more
Citations
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Journal ArticleDOI
Synergetic Effect of Ni2P/SiO2 and γ-Al2O3 Physical Mixture in Hydrodeoxygenation of Methyl Palmitate
Ivan V. Shamanaev,Irina V. Deliy,Evgeny Yu. Gerasimov,V. P. Pakharukova,Evgeny G. Kodenev,Pavel V. Aleksandrov,Galina A. Bukhtiyarova +6 more
TL;DR: In this article, the Ni2P/SiO2 catalyst, which was prepared by in situ temperature-programmed reduction and in the mixture with the inert (SiC, SiO2) or acidic (γ-Al2O3) material was studied in methyl palmitate hydrodeoxygenation (HDO).
Journal ArticleDOI
Creating Cavities at Palladium–Phosphine Interfaces for Enhanced Selectivity in Heterogeneous Biomass Conversion
Manuel A. Ortuño,Núria López +1 more
TL;DR: In this article, the role of phosphine-decorated palladium nanoparticles in the decarbonylation of fatty acids to produce linear α-olefins was investigated using density functional theory.
Journal ArticleDOI
Catalytic Deoxygenation of Fatty Acids: Elucidation of the Inhibition Process
TL;DR: In this article, it was shown that CC double bonds present in the feed or the products dramatically reduce the deoxygenation activity of supported palladium catalysts and that the inhibition is reversible in H2 atmosphere, indicating no significant contribution from irreversibly deposited hard coke.
Journal ArticleDOI
Selectivity Control in the Tandem Aromatization of Bio-Based Furanics Catalyzed by Solid Acids and Palladium
Homer C. Genuino,Shanmugam Thiyagarajan,Shanmugam Thiyagarajan,Jan C. van der Waal,Ed de Jong,Jacco van Haveren,Daan S. van Es,Bert M. Weckhuysen,Pieter C. A. Bruijnincx +8 more
TL;DR: It is shown that a variation in the acidity and textural properties of the solid acid as well as bifunctionality offers a handle on selectivity toward aromatic products.
Journal ArticleDOI
Life-cycle energy, GHG and cost comparison of camelina-based biodiesel and biojet fuel
TL;DR: In this article, the authors compared life-cycle energy, environmental impact and economic performance of making biodiesel versus bio-jet fuel using Camelina sativa and compared the performance of both types of fuel.
References
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Journal ArticleDOI
Heterogeneous Catalytic Deoxygenation of Stearic Acid for Production of Biodiesel
TL;DR: In this article, a novel method for production of diesel-like hydrocarbons via catalytic deoxygenation of fatty acid is discussed, where the model compound stearic acid is deoxgenated to heptadecane.