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RESEARCH PRODUCT
Efficiency of acetic acid and formic acid as a catalyst in catalytical and mechanocatalytical pretreatment of barley straw
Laura SchneiderLaura SchneiderJasmiina HaverinenMari JaakkolaYue DongYue DongUlla LassiUlla Lassisubject
animal structuresformic acidFormic acidta220010402 general chemistry01 natural sciencesHydrolysateCatalysischemistry.chemical_compoundAcetic acidHydrolysislignocelluloseOrganic chemistryWaste Management and Disposalta215chemistry.chemical_classification010405 organic chemistryRenewable Energy Sustainability and the Environmentmechanocatalytical conversionfood and beveragesForestrySulfuric acidStraw0104 chemical sciencesReducing sugaracetic acidchemistryBarley strawAgronomy and Crop ScienceNuclear chemistrydescription
Abstract In this study, the potential of organic acids (formic acid, acetic acid) in a catalytical and mechanocatalytic conversion of lignocellulosic barley straw to valuable sugars is explored using sulfuric acid as a reference. Acid-catalyzed hydrolysis has been carried out with acid-impregnated samples as well as unmodified barley straw. In the mechanocatalytical approach, pretreatment consists of impregnation with the acid catalyst and mechanical treatment by ball milling following chemical hydrolysis. Straw samples and residues were analyzed by Fourier transform infrared spectrometry (FT-IR) whereas hydrolysate analysis was based on total reducing sugar (TRS) determination following the DNS method and capillary electrophoresis (CE) analysis. The results indicated that acetic acid and formic acid are rather mild acids yielding low TRS levels compared to the reference acid. Mechanocatalytical pretreatment slightly increased TRS yields, but not significantly. Strikingly, sulfuric acid showed an efficient conversion efficiency yielding almost 45% of TRS. Furthermore, this study provided evidence for the acetylation of straw components when acetic acid was used as catalyst. Alkali hydrolysis induced the de-esterification, but revealed no significant increase of TRS yields.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-08-01 | Biomass and Bioenergy |