Search results for "furfuraali"

showing 3 items of 3 documents

Simultaneous production of furfural and levulinic acid from pine sawdust via acid-catalysed mechanical depolymerization and microwave irradiation

2019

In this work pine sawdust was converted into levulinic acid (LA) and furfural. Sawdust was first pre-treated with sulfuric acid-catalysed mechanical depolymerization. The conversion reactions were then performed with microwave heating at 180 °C. To enhance the furfural yield and the efficient separation of furfural and LA, a biphasic water-toluene reaction system was used. The effect of an additional catalyst, AlCl3, on the yield of LA and furfural was also studied. According to the results the pre-treatment method enhanced the yields of LA. In addition, due to the microwave heating the reaction times were short. Additional AlCl3 catalyst enhanced the LA yield, however excellent furfural yi…

Acid catalysismikroaallotMechanical depolymerizationLevulinic acidkemian tekniikkahapotfurfuraalibiomassa (teollisuus)BiomassFurfuralorgaaniset yhdisteetpuu (luonnonmateriaalit)Microwave irradiation
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Study of Ni, Pt, and Ru Catalysts on Wood-based Activated Carbon Supports and their Activity in Furfural Conversion to 2-Methylfuran

2018

Bio‐based chemicals can be produced from furfural through hydrotreatment. In this study, 2‐methylfuran (MF), a potential biofuel component, was produced with Pt, Ru, and Ni catalysts supported on wood‐based activated carbons. The catalytic hydrotreatment experiments were conducted in a batch reactor at 210–240 °C with 2‐propanol as solvent and 40 bar H2 pressure. Two types of activated carbon supports were prepared by carbonization and activation of lignocellulosic biomass (forest‐residue‐based birch and spruce from Finland). Both types of activated carbons were suitable as catalyst supports, giving up to 100 % furfural conversions. The most important factors affecting the MF yield were the…

Activated carbonbiokemikaalitBiomass2-Methylfuran010402 general chemistryFurfural01 natural sciencesCatalysisCatalysisInorganic Chemistrychemistry.chemical_compoundkatalyytitBiofuelmedicineOrganic chemistryactivated carbonbiomassa (teollisuus)BiomassmetallitPhysical and Theoretical Chemistryta116ta215biomass010405 organic chemistryOrganic ChemistryfurfuraalifurfuralFurfural0104 chemical sciencesfuraanitchemistryBiofuelaktiivihiilibiofuel2-Methylfuran2-methylfuranActivated carbonmedicine.drugChemCatChem
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Conversion of Xylose to Furfural over Lignin-Based Activated Carbon-Supported Iron Catalysts

2020

In this study, conversion of xylose to furfural was studied using lignin-based activated carbon-supported iron catalysts. First, three activated carbon supports were prepared from hydrolysis lignin with different activation methods. The supports were modified with different metal precursors and metal concentrations into five iron catalysts. The prepared catalysts were studied in furfural production from xylose using different reaction temperatures and times. The best results were achieved with a 4 wt% iron-containing catalyst, 5Fe-ACs, which produced a 57% furfural yield, 92% xylose conversion and 65% reaction selectivity at 170 &deg

carbon-supported catalystIron oxidebiokemikaalitXylose010402 general chemistryFurfurallcsh:Chemical technology01 natural sciencesCatalysisCatalysislcsh:Chemistrychemistry.chemical_compoundHydrolysiskatalyytitironmedicineLigninlcsh:TP1-1185Physical and Theoretical Chemistryksyloosi010405 organic chemistryheterogeneous catalystsfurfuraalifurfural0104 chemical scienceschemistrylcsh:QD1-999katalyysiYield (chemistry)xylose conversionActivated carbonmedicine.drugNuclear chemistryCatalysts
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