Topics
1,2-propanediolChemical substance
tolueneChemical substance
rutheniumMilitary unit
hydrogenationDisease
hydrogenChemical substance
The use of homogeneous ruthenium catalysts to hydrogenate the water-soluble fraction of pyrolysis oil is reported. Pyrolysis oil, which is obtained by fast pyrolysis of lignocellulosic biomass at 450–600 °C, contains significant amounts of aldehydes and ketones (e.g. 1-hydroxy-2-propanone (1) and 1-hydroxy-2-ethanal (2)), that are known to have a negative effect on the product properties (a.o. storage stability) of pyrolysis oil. The hydrogenation experiments were performed at mild conditions (40 bar, 90 °C) using a biphasic system (water/toluene) and RuCl2(PPh3)3 as the toluene soluble catalyst. Significant reductions in the amounts of (1) and (2) were observed, demonstrating the potential of homogeneous Ru-catalysts to upgrade pyrolysis o...
Environmental concerns and possible future shortages have boosted research on alternatives for fossi...
Fast pyrolysis oils from lignocellulosic biomass are promising second-generation biofuels. Unfortuna...
Fast pyrolysis is a promising technology to convert lignocellulosic biomass to a liquid energy carri...
The use of homogeneous ruthenium catalysts to hydrogenate the water-soluble fraction of pyrolysis oi...
The hydrogenation of a dichloromethane soluble fraction of flash pyrolysis oil (bio-oil, BO), obtain...
The hydrogenation of a dichloromethane soluble fraction of flash pyrolysis oil (bio-oil, BO), obtain...
The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 3...
Catalytic hydrotreatment is considered an attractive technology for fast pyrolysis oil upgrading to ...
Upgrading of bio-oils obtained from the fast pyrolysis of biomasses requires the development of effi...
Fast pyrolysis oil can be upgraded by a catalytic hydrotreatment (250-400 degrees C, 100-200 bar) us...
Biomass is one of the important renewable energy. More attention has been paid on conversion of bi...
Fast pyrolysis oil can be upgraded by a catalytic hydrotreatment (250-400° C, 100-200 bar) using he...
Environmental concerns and possible future shortages have boosted research on alternatives for fossi...
Fast pyrolysis oils from lignocellulosic biomass are promising second-generation biofuels. Unfortuna...
Fast pyrolysis is a promising technology to convert lignocellulosic biomass to a liquid energy carri...
The use of homogeneous ruthenium catalysts to hydrogenate the water-soluble fraction of pyrolysis oi...
The hydrogenation of a dichloromethane soluble fraction of flash pyrolysis oil (bio-oil, BO), obtain...
The hydrogenation of a dichloromethane soluble fraction of flash pyrolysis oil (bio-oil, BO), obtain...
The use of Ru/C (5%-wt.) as a catalyst for the hydrogenation of fast pyrolysis oil was explored at 3...
Catalytic hydrotreatment is considered an attractive technology for fast pyrolysis oil upgrading to ...
Upgrading of bio-oils obtained from the fast pyrolysis of biomasses requires the development of effi...
Fast pyrolysis oil can be upgraded by a catalytic hydrotreatment (250-400 degrees C, 100-200 bar) us...
Biomass is one of the important renewable energy. More attention has been paid on conversion of bi...
Fast pyrolysis oil can be upgraded by a catalytic hydrotreatment (250-400° C, 100-200 bar) using he...
Environmental concerns and possible future shortages have boosted research on alternatives for fossi...
Fast pyrolysis oils from lignocellulosic biomass are promising second-generation biofuels. Unfortuna...
Fast pyrolysis is a promising technology to convert lignocellulosic biomass to a liquid energy carri...
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