Reactive Extraction Enhanced by Synergic Microwave Heating: Furfural Yield Boost in Biphasic Systems

Reactive extraction is an emerging operation in the industry, particularly in biorefining. Here, reactive extraction was demonstrated, enhanced by microwave irradiation to selectively heat the reactive phase (for efficient reaction) without unduly heating the extractive phase (for efficient extracti...

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Veröffentlicht in:	ChemSusChem 2020-07, Vol.13 (14), p.3589-3593
Hauptverfasser:	Ricciardi, Luca, Verboom, Willem, Lange, Jean‐Paul, Huskens, Jurriaan
Format:	Artikel
Sprache:	eng
Schlagworte:	Asymmetry biomass biphasic Chemistry Chemistry, Multidisciplinary Communication Communications Dehydration Furfural Green & Sustainable Science & Technology Heating microwave chemistry Optimization Physical Sciences Science & Technology Science & Technology - Other Topics synergy Thermal response
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creator	Ricciardi, Luca Verboom, Willem Lange, Jean‐Paul Huskens, Jurriaan
description	Reactive extraction is an emerging operation in the industry, particularly in biorefining. Here, reactive extraction was demonstrated, enhanced by microwave irradiation to selectively heat the reactive phase (for efficient reaction) without unduly heating the extractive phase (for efficient extraction). These conditions aimed at maximizing the asymmetries in dielectric constants and volumes of the reaction and extraction phases, which resulted in an asymmetric thermal response of the two phases. The efficiency improvement was demonstrated by dehydrating xylose (5 wt % in water) to furfural with an optimal yield of approximately 80 mol % compared with 60–65 mol % under conventional biphasic conditions, which corresponds to approximately 50 % reduction of byproducts. It's not just a phase: Reactive extraction of xylose to furfural is boosted by a synergic combination of microwave heating and biphasic operation to deliver a hot aqueous phase for reaction and a colder organic phase for extraction.
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subjects	Asymmetry biomass biphasic Chemistry Chemistry, Multidisciplinary Communication Communications Dehydration Furfural Green & Sustainable Science & Technology Heating microwave chemistry Optimization Physical Sciences Science & Technology Science & Technology - Other Topics synergy Thermal response
title	Reactive Extraction Enhanced by Synergic Microwave Heating: Furfural Yield Boost in Biphasic Systems
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