Insights in the hydrotreatment of fast pyrolysis oil using a ruthenium on carbon catalyst

Jelle Wildschut; Muhammad Iqbal; Farchad H. Mahfud; Ignacio Melian-Cabrera; Robbie H. Venderbosch; Hero J. Heeres

doi:10.1039/b923170f

Insights in the hydrotreatment of fast pyrolysis oil using a ruthenium on carbon catalyst

Jelle Wildschut^*, Muhammad Iqbal, Farchad H. Mahfud, Ignacio Melian-Cabrera, Robbie H. Venderbosch, Hero J. Heeres

^*Corresponding author for this work

Green Chemical Reaction Engineering

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 350 degrees C and 200 bar pressure in a batch reactor set-up with the main objective to determine the effect of the reaction time on the oil yield and elemental compositions of the product phases. Highest oil yields (65%-wt.) were obtained after 4 h using a 5%-wt. intake of catalyst on fast pyrolysis oil. Longer reaction times lead to a reduction of the oil yield due to the formation of gas phase components (methane, ethane, propane, CO/CO(2)). A solvent-solvent extraction procedure was applied to gain insights into the molecular transformations during the catalytic hydrotreatment experiments. It appears that specifically the carbohydrate fraction is very reactive. The observations are rationalized by a set of reaction pathways for the various product phases.

Original language	English
Pages (from-to)	962-970
Number of pages	9
Journal	Energy & Environmental Science
Volume	3
Issue number	7
DOIs	https://doi.org/10.1039/b923170f
Publication status	Published - 2010

Keywords

FORESTRY RESIDUE
BIO-OILS
BIOMASS
HYDRODEOXYGENATION
WATER
LIQUIDS
PHASE
WOOD

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title = "Insights in the hydrotreatment of fast pyrolysis oil using a ruthenium on carbon catalyst",

abstract = "The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 350 degrees C and 200 bar pressure in a batch reactor set-up with the main objective to determine the effect of the reaction time on the oil yield and elemental compositions of the product phases. Highest oil yields (65%-wt.) were obtained after 4 h using a 5%-wt. intake of catalyst on fast pyrolysis oil. Longer reaction times lead to a reduction of the oil yield due to the formation of gas phase components (methane, ethane, propane, CO/CO(2)). A solvent-solvent extraction procedure was applied to gain insights into the molecular transformations during the catalytic hydrotreatment experiments. It appears that specifically the carbohydrate fraction is very reactive. The observations are rationalized by a set of reaction pathways for the various product phases.",

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AU - Wildschut, Jelle

AU - Iqbal, Muhammad

AU - Mahfud, Farchad H.

AU - Melian-Cabrera, Ignacio

AU - Venderbosch, Robbie H.

AU - Heeres, Hero J.

PY - 2010

Y1 - 2010

N2 - The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 350 degrees C and 200 bar pressure in a batch reactor set-up with the main objective to determine the effect of the reaction time on the oil yield and elemental compositions of the product phases. Highest oil yields (65%-wt.) were obtained after 4 h using a 5%-wt. intake of catalyst on fast pyrolysis oil. Longer reaction times lead to a reduction of the oil yield due to the formation of gas phase components (methane, ethane, propane, CO/CO(2)). A solvent-solvent extraction procedure was applied to gain insights into the molecular transformations during the catalytic hydrotreatment experiments. It appears that specifically the carbohydrate fraction is very reactive. The observations are rationalized by a set of reaction pathways for the various product phases.

AB - The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 350 degrees C and 200 bar pressure in a batch reactor set-up with the main objective to determine the effect of the reaction time on the oil yield and elemental compositions of the product phases. Highest oil yields (65%-wt.) were obtained after 4 h using a 5%-wt. intake of catalyst on fast pyrolysis oil. Longer reaction times lead to a reduction of the oil yield due to the formation of gas phase components (methane, ethane, propane, CO/CO(2)). A solvent-solvent extraction procedure was applied to gain insights into the molecular transformations during the catalytic hydrotreatment experiments. It appears that specifically the carbohydrate fraction is very reactive. The observations are rationalized by a set of reaction pathways for the various product phases.

KW - FORESTRY RESIDUE

KW - BIO-OILS

KW - BIOMASS

KW - HYDRODEOXYGENATION

KW - WATER

KW - LIQUIDS

KW - PHASE

KW - WOOD

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DO - 10.1039/b923170f

M3 - Article

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EP - 970

JO - Energy & Environmental Science

JF - Energy & Environmental Science

IS - 7

ER -

Insights in the hydrotreatment of fast pyrolysis oil using a ruthenium on carbon catalyst

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Keywords

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