Progress and Perspectives in the Catalytic Hydrotreatment of Bio-Oils: Effect of the Nature of the Metal Catalyst

Gil, A.; Sancho-Sanz, I.; Korili, S. A.

doi:10.1021/acs.iecr.4c00747

Ind. Eng. Chem. Res.

2024

DOI: 10.1021/acs.iecr.4c00747

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Progress and Perspectives in the Catalytic Hydrotreatment of Bio-Oils: Effect of the Nature of the Metal Catalyst

A. Gil,

I. Sancho-Sanz,

S. A. Korili

Abstract: In recent years, there has been a surge of interest in transforming biomass into fuel, driven by its potential as the only realistic renewable carbon resource. Several conversion methods have been explored to achieve this, including gasification for producing synthesis gas, fast pyrolysis or hydrothermal liquefaction for obtaining bio-oils, and hydrolysis for generating aqueous sugars. Bio-oils offer environmental benefits due to their lower CO 2 emissions, but their direct use as fuels is hindered by limitati… Show more

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Cited by 5 publications

References 162 publications

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Production of chemicals via tandem conversion of bio-oil derived fractions

Naranov,

Sadovnikov,

Arapova

et al. 2025

Journal of Environmental Chemical Engineering

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Production of chemicals via tandem conversion of bio-oil derived fractions

Naranov,

Sadovnikov,

Arapova

et al. 2025

Journal of Environmental Chemical Engineering

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Toward Efficient Biofuel Production: A Review of Online Upgrading Methods for Biomass Pyrolysis

Pan,

Wu,

Chen

et al. 2024

Energy Fuels

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The reduction in fossil fuel reserves has driven the scientific community and industrial stakeholders to seek alternative renewable energy sources. Additionally, the detrimental environmental effects of fossil fuel extraction and combustion have further emphasized the need for these alternatives. One such source is bio-oil, which can be synthesized from biomass through fast pyrolysis. However, bio-oil produced via fast pyrolysis exhibits several significant drawbacks, including poor quality due to water and oxygenated compounds, high viscosity, storage instability, low heating value, and high acidity, resulting in corrosiveness. To address these limitations and enhance the quality of bio-oil, various methods and innovative techniques have been proposed. This review provides a comprehensive analysis of recent advancements in biomass fast pyrolysis and bio-oil upgrading. It explores various traditional physical methods and novel chemical processes, including innovative techniques, such as plasma reactors, microwave-assisted methods, and pyrolysis under supercritical conditions. These approaches are critically evaluated for their effectiveness in enhancing bio-oil performance. Additionally, a novel perspective is proposed from the electrochemical catalysis point of view. It highlights the capabilities of solid oxide electrolysis cells, which can perform electrochemical hydrogenation and thermochemical hydrodeoxygenation reactions simultaneously under moderate temperature conditions. When integrated with fast pyrolysis, these processes enable the online electrochemical upgrading of biomass pyrolysis vapors.

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Renewable Diesel Production over Mo-Ni Catalysts Supported on Silica

Zafeiropoulos,

Petropoulos,

Kordouli

et al. 2024

Catalysts

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Nickel catalysts promoted with Mo and supported on silica were studied for renewable diesel production from triglyceride biomass, through the selective deoxygenation process. The catalysts were prepared by wet co-impregnation of the SiO2 with different Ni/(Ni + Mo) atomic ratios (0/0.84/0.91/0.95/0.98/1) and a total metal content equal to 50%. They were characterized by XRD, XPS, N2 physisorption, H2-TPR, and NH3-TPD. Evaluation of the catalysts for the transformation of sunflower oil to renewable (green) diesel took place in a high-pressure semi-batch reactor, under solvent-free conditions. A very small addition of Mo, namely the synergistic Ni/(Ni + Mo) atomic ratio equal to 0.95, proved to be the optimum one for a significant enhancement of the catalytic performance of the metallic Ni/SiO2 catalyst, achieving 98 wt.% renewable diesel production. This promoting action of Mo has been attributed to the significant increase of the metallic Ni active phase surface area, the suitable regulation of surface acidity, the acceleration of the hydro-deoxygenation pathway (HDO), the creation of surface oxygen vacancies, and the diminution of coke formation provoked by Mo addition.

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Progress and Perspectives in the Catalytic Hydrotreatment of Bio-Oils: Effect of the Nature of the Metal Catalyst

Cited by 5 publications

References 162 publications

Production of chemicals via tandem conversion of bio-oil derived fractions

Production of chemicals via tandem conversion of bio-oil derived fractions

Toward Efficient Biofuel Production: A Review of Online Upgrading Methods for Biomass Pyrolysis

Renewable Diesel Production over Mo-Ni Catalysts Supported on Silica

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