Furfural—A Promising Platform for Lignocellulosic Biofuels

Lange, Jean‐Paul; Heide, Emile van der; Buijtenen, Jeroen van; Price, Richard J.

doi:10.1002/cssc.201100648

Cited by 1,210 publications

(1,058 citation statements)

References 122 publications

(158 reference statements)

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“…F, a commercial product with a favourable market forecast (Dalin Yebo 2015), was considered as one of the top 12 platform chemicals derived from biomass in a report from the U.S. Department of Energy (Werpy et al 2004), which was updated 6 years later (Bozell and Petersen, 2010;De Jong et al 2012). F is an intermediate for manufacturing other chemicals (such as methylfuran, furfuryl alcohol, tetrahydrofurfuryl alcohol, tetrahydrofuran, methyltetrahydrofuran, or furoic acid), and has a potential for further conversion into fuel or fuel additives (Lange et al 2012;Yan et al 2014;Choi et al 2015). The current technology for F production, based on the acid hydrolysis of native xylan-containing raw materials, can be significantly improved in terms of yield and energy efficiency (Lange et al 2012;Cai et al 2014).…”

Section: Introductionmentioning

confidence: 99%

“…F is an intermediate for manufacturing other chemicals (such as methylfuran, furfuryl alcohol, tetrahydrofurfuryl alcohol, tetrahydrofuran, methyltetrahydrofuran, or furoic acid), and has a potential for further conversion into fuel or fuel additives (Lange et al 2012;Yan et al 2014;Choi et al 2015). The current technology for F production, based on the acid hydrolysis of native xylan-containing raw materials, can be significantly improved in terms of yield and energy efficiency (Lange et al 2012;Cai et al 2014).…”

Section: Introductionmentioning

confidence: 99%

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Furfural production from birch hemicelluloses by two-step processing: a potential technology for biorefineries

et al. 2016

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Birch samples were subjected to non-isothermal autohydrolysis to obtain a solution of hemicellulosic saccharides and a solid phase mainly made up of cellulose and lignin. Based on kinetic modeling, operational conditions were identified which give rise to soluble saccharides and furfural derived from xylan in a yield of 80.5%. The soluble mixture was supplemented with 1% sulfuric acid and heated (directly or in the presence of methyl isobutyl ketone, MIBK) for furfural production. MIBK is used as an extraction agent to limit furfural consumption by side reactions. Operating in single phase at 170°C, up to 44.8% of the potential substrates were converted into furfural. In experiments performed in biphasic media, the effects of MIBK were assessed by empirical modeling and about 75% of the potential substrates were converted under selected conditions.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Furfural production from birch hemicelluloses by two-step processing: a potential technology for biorefineries

et al. 2016

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“…With the rapidly expanding field of lignocellulosic biomass conversion, several platform chemicals have been identified as promising building blocks for the bio-refinery industry; among these candidates, furfural and levulinic acid (LA) have received increasing interest (Cai et al 2014;Qi et al 2014). Furfural, which is derived from pentose, has been widely used as a solvent in the petroleum industry and is a precursor for many furan-based chemicals, such as furfuryl alcohol, furoic acid, maleic anhydride tetrahydrofuran, and phenolics (Lange et al 2012). Furfural also holds great potential for the production of "drop in" fuels such as dimethylfuran or ethyl levulinate, which can be produced by polymerization (Yan et al 2014;Bohre et al 2015).…”

Section: Introductionmentioning

confidence: 99%

A Two-Step Conversion of Corn Stover into Furfural and Levulinic Acid in a Water/Gamma-Valerolactone System

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Li²,

Liu³

et al. 2016

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A two-step hydrolysis method was evaluated as a potential means of obtaining high yields of furfural and levulinic acid from corn stover using sulfuric acid as catalyst in a water/gamma-valerolactone (GVL) system. The corn stover underwent a high-temperature hydrolysis process to produce levulinic acid, followed by a low-temperature hydrolysis process to produce furfural. A series of experiments were conducted to explore the relationship between the different reaction parameters and the final yields of furfural and levulinic acid. Scanning electron microscopy (SEM) pictures together with X-ray diffraction (XRD) analysis were used to further elaborate on the hydrolysis results. Molar yields of about 70.65% furfural and 57.7% levulinic acid were obtained by applying this method with a low temperature of 140 °C and a high temperature of 190 °C, together with 0.2 M of sulfuric acid used as the catalyst. These results indicated that this was an effective way to obtain satisfactory yields of furfural and levulinic acid from corn stover.

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“…Furfural (FAL) has recently gained a lot of attention as a key platform chemical derived from hemicellulosic biomass 1, 2. FAL hydrogenation may lead to several value‐added products such as furfuryl alcohol (FOL), tetrahydrofurfuryl alcohol (THFA), 2‐methylfuran (MF), and 2‐methyltetrahydrofuran (MTHF) as depicted in Scheme 1 3, 4, 5.…”

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confidence: 99%

Microwave‐Assisted Selective Hydrogenation of Furfural to Furfuryl Alcohol Employing a Green and Noble Metal‐Free Copper Catalyst

et al. 2016

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Green, inexpensive, and robust copper‐based heterogeneous catalysts achieve 100 % conversion and 99 % selectivity in the conversion of furfural to furfuryl alcohol when using cyclopentyl‐methyl ether as green solvent and microwave reactors at low H2 pressures and mild temperatures. The utilization of pressurized microwave reactors produces a 3–4 fold increase in conversion and an unexpected enhancement in selectivity as compared to the reaction carried out at the same conditions using conventional autoclave reactors. The enhancement in catalytic rate produced by microwave irradiation is temperature dependent. This work highlights that using microwave irradiation in the catalytic hydrogenation of biomass‐derived compounds is a very strong tool for biomass upgrade that offers immense potential in a large number of transformations where it could be a determining factor for commercial exploitation.

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Furfural—A Promising Platform for Lignocellulosic Biofuels

Cited by 1,210 publications

References 122 publications

Furfural production from birch hemicelluloses by two-step processing: a potential technology for biorefineries

Furfural production from birch hemicelluloses by two-step processing: a potential technology for biorefineries

A Two-Step Conversion of Corn Stover into Furfural and Levulinic Acid in a Water/Gamma-Valerolactone System

Microwave‐Assisted Selective Hydrogenation of Furfural to Furfuryl Alcohol Employing a Green and Noble Metal‐Free Copper Catalyst

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