Abstract
The use of renewable local raw materials to produce fuels is an important step toward optimal environmentally friendly energy consumption. In addition, the use of these sources together with fossil fuels paves the way to an easier transition from fossil to renewable fuels. The use of simple organic acids as hydrogen donors is another alternative way to produce fuel. The present work reports the use of oxalic acid as a hydrogen donor for the catalytic hydrodesulfurization of atmospheric gas oil and the deoxygenation of rapeseed oil at 350 °C. For this process, one commercial NiW/SiO2–Al2O3 solid and two NiW/modified phonolite catalysts were used, namely Ni (5%) W (10%)/phonolite treated with HCl, and Ni (5%) W (10%)/phonolite treated with oxalic acid. The fresh phonolite catalysts were characterized by Hg porosimetry and N2 physisorption, ammonia temperature programmed desorption (NH3-TPD), X-ray diffraction (XRD), and X-ray fluorescence (XRF). The sulfided metal phonolite catalysts were characterized by XRD and XRF. Hydrodesulfurization led to a decrease in sulfur content from 1 to 0.5 wt% for the phonolite catalysts and to 0.8 wt% when the commercial catalyst was used. Deoxygenation led to the production of 15 and 65 wt% paraffin for phonolite and commercial solids, respectively. The results demonstrate the potential of using oxalic acid as a hydrogen donor in hydrotreating reactions.
Highlights
The use of renewable available from local sources to produce fuels is an important step toward minimizing the use of fossil fuels, with the use of simple organic acids as hydrogen donors representing a possible option
Oxalic acid has been less frequently used by researchers but has great potential to be used as a renewable hydrogen donor because it can be produced from carbohydrate waste and microorganisms, with one example being the oxalic acid produced from corncobs using Aspergillus niger [4,5]
The acid treatment applied to the phonolite support produced a significant change in the material properties, which was especially noticeable in their textural properties
Summary
The use of renewable available from local sources to produce fuels is an important step toward minimizing the use of fossil fuels, with the use of simple organic acids as hydrogen donors representing a possible option. Oxalic and formic acids produced from raw biomaterials can be considered renewable options to be used for hydrogen-transfer reactions. The price of hydrogen gas per kg is lower than that of hydrogen obtained by oxalic acid decomposition [6], the use of oxalic acid can be justified when considering that oxalic acid is solid, rather than a gas or liquid (as in the case of formic acid), and allows for the production of hydrogen from a solid source, which may either be required or a useful option in some cases. Formic acid is used as a hydrogen donor but is a more
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