Reactive distillation process for the production of furfural using solid acid catalysts

Metkar, Pranit S.; Till, Eric J.; Corbin, David R.; Pereira, Candido; Hutchenson, Keith W.; Sengupta, Sourav

doi:10.1039/c4gc01912a

Cited by 64 publications

(52 citation statements)

References 42 publications

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“…Very strong impact on its price has process of furfural separation from the formed aqueous solutions. Therefore, for preparation of some chemicals and fuels from furfural it is highly beneficial to use as a source of furfural diluted furfuralwater streams (e.g., azeotropes) obtained in traditional distillation [15], stream stripping [16] or developing membrane [17] and reactive distillation [18] processes. This will significantly reduce the energy needed for production of furfural feedstock.…”

Section: Introductionmentioning

confidence: 99%

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Fulajtárová

Soták

Hronec

et al. 2015

Applied Catalysis A: General

237

156

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Section: Introductionmentioning

confidence: 99%

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Fulajtárová

Soták

Hronec

et al. 2015

Applied Catalysis A: General

237

156

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“…[14][15][16][17][18][19] Lai et al 17 investigated the production of ethyl acetate by CD using Amberlyst 35 (acidic ion exchange resin) at a pilot-plant scale and they obtained high-purity ethyl acetate (higher than 99%) with acetic acid impurities of less than 100 ppm. The reaction products contain a minimum boiling ternary azeotrope of ethyl acetate, ethanol and water which is homogeneous and difficult to separate.…”

Section: Introductionmentioning

confidence: 99%

Catalytic distillation for ethyl acetate synthesis using microfibrous-structured Nafion–SiO₂/SS-fiber solid acid packings

Deng

Zhao

et al. 2016

React. Chem. Eng.

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Catalytic distillation (CD) offers a unique integration of distillation and catalysis to selectively separate products in situ while making a positive shift of chemical equilibrium and has therefore been well received as an inviting avenue to green chemical processing. Rendering novel structured catalytic packings is particularly desirable but remains challenging. Herein, we present a microfibrous-structured Nafion-SiO 2 /SS-fiber solid acid catalyst and demonstrate its separation and reaction efficiency as CD packings for esterification to produce ethyl acetate from acetic acid and ethanol. A thin-sheet microfibrous structure with 15 vol% 20 μm stainless steel fibers (SS-fiber) and 85 vol% void volume was shaped into θ-ring analogues. Nafion was then firmly locked into the SiO 2 layer that was anchored onto the SS-fiber surface by a dip-coating method using self-crosslinking Nafion-SiO 2 sol-gel prepared by Nafion-catalyzed hydrolysis of tetraethylorthosilicate (TEOS). Such micro-structured Nafion catalysts worked effectively and efficiently in the CD for esterification of acetic acid with ethanol as the result of a unique combination of high catalyst performance (stability, adequate acidic sites and high mass/heat transfer) and instantaneous distillation. For instance, high total (93.6%) and actual (91.6%) yields of ethyl acetate with 96.2% purity were achievable at a high space-time yield (4.3 g mmol −1 h −1 ) while the high CD efficiency was maintained for 40 h over 5 consecutive batch runs.React. Chem. Eng. This journal is

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“…Analogous to HMF, furfural, which contains multiple functional groups (e.g., C=O, C=C, and C−O), is an important building block for the production of valuable chemicals and biofuels . Over acidic materials, furfural is accessible from the dehydration of pentose, which is the constituent unit of hemicelluloses . Because xylose is the most abundant pentose in hemicelluloses, the dehydration of xylose to furfural has garnered much attention.…”

Section: Catalytic Processes With Constant Carbon Numbermentioning

confidence: 99%

Catalytic Upgrading of Biomass‐Derived Sugars with Acidic Nanoporous Materials: Structural Role in Carbon‐Chain Length Variation

Saravanamurugan

et al. 2018

ChemSusChem

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Shifting from petroleum‐based resources to inedible biomass for the production of valuable chemicals and fuels is one of the significant aspects in sustainable chemistry for realizing the sustainable development of our society. Various renowned biobased platform molecules, such as 5‐hydroxymethylfurfural, furfural, levulinic acid, and lactic acid, are successfully accessible from the transformation of biobased sugars. To achieve the specific reaction routes, heterogeneous nanoporous acidic materials have served as promising catalysts for the conversion of bio‐sugars in the past decade. This Review summarizes advances in various nanoporous acidic materials for bio‐sugar conversion, in which the number of carbon atoms is variable and controllable with the assistance of the switchable structure of nanoporous materials. The major focus of this Review is on possible reaction pathways/mechanisms and the relationships between catalyst structure and catalytic performance. Moreover, representative examples of catalytic upgrading of biobased platform molecules to biochemicals and fuels through selective C−C cleavage and coupling strategies over nanoporous acidic materials are also discussed.

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Reactive distillation process for the production of furfural using solid acid catalysts

Cited by 64 publications

References 42 publications

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Catalytic distillation for ethyl acetate synthesis using microfibrous-structured Nafion–SiO₂/SS-fiber solid acid packings

Catalytic Upgrading of Biomass‐Derived Sugars with Acidic Nanoporous Materials: Structural Role in Carbon‐Chain Length Variation

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Reactive distillation process for the production of furfural using solid acid catalysts

Cited by 64 publications

References 42 publications

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Aqueous phase hydrogenation of furfural to furfuryl alcohol over Pd–Cu catalysts

Catalytic distillation for ethyl acetate synthesis using microfibrous-structured Nafion–SiO2/SS-fiber solid acid packings

Catalytic Upgrading of Biomass‐Derived Sugars with Acidic Nanoporous Materials: Structural Role in Carbon‐Chain Length Variation

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Catalytic distillation for ethyl acetate synthesis using microfibrous-structured Nafion–SiO₂/SS-fiber solid acid packings