FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2897546522> ?p ?o ?g. }

• W2897546522 abstract "Pretreatment of biomass to maximize the recovery of fermentable sugars as well as to minimize the amount of enzyme inhibitors formed during the pretreatment is a challenge in biofuel process. We develop a modified Fenton pretreatment in a mixed solvent (water/DMSO) to combine the advantages of organosolv and Fenton pretreatments. The hemicellulose and cellulose in corncob were effectively degraded into xylose, glucose, and soluble glucose oligomers in a few hours. This saccharide solution, separated from the solid lignin simply by filtration, can be directly applied to the subsequent enzymatic hydrolysis and ethanol fermentation.After the pretreatment, 94% carbohydrates were recovered as soluble monosaccharide (xylose and glucose) and glucose oligomers in the filtrates, and 87% of solid lignin was recovered as the filter residue. The filtrates were directly applied to enzymatic hydrolysis, and 92% of raw corncob glucose was recovered. The hydrolysates containing the glucose and xylose from the enzymatic hydrolysis were directly applied to ethanol fermentation with ethanol yield equals 79% of theoretical yield. The pretreatment conditions (130 °C, 1.5 bar; 30 min to 4 h) are mild, and the pretreatment reagents (H2O2, FeCl3, and solvent) had low impact to environment. Using ferrimagnetic Fe3O4 resulted in similar pretreatment efficiency and Fe3O4 could be removed by filtration.A modified Fenton pretreatment of corncob in DMSO/water was developed. Up to 94% of the carbohydrate content of corncob was recovered as a saccharide solution simply by filtration. Such filtrate was directly applied to the subsequent enzymatic hydrolysis and where 92% of the corncob glucose content was obtained. The hydrolysate so obtained was directly applied to ethanol fermentation with good fermentability. The pretreatment method is simple, and the additives and solvents used have a low impact to the environment. This method provides the opportunity to substantially maximize the carbohydrate and solid lignin recovery of biomass with a comparatively green process, such that the efficiency of biorefinery as well as the bioethanol production process can be improved. The pretreatment is still relatively energy intensive and expensive, and further optimization of the process is required in large-scale operation." @default.
• W2897546522 created "2018-10-26" @default.
• W2897546522 creator A5034504499 @default.
• W2897546522 creator A5039415205 @default.
• W2897546522 creator A5056415908 @default.
• W2897546522 creator A5074113867 @default.
• W2897546522 creator A5074665674 @default.
• W2897546522 creator A5078531452 @default.
• W2897546522 date "2018-10-20" @default.
• W2897546522 modified "2023-10-05" @default.
• W2897546522 title "Efficient pretreatment of lignocellulosic biomass with high recovery of solid lignin and fermentable sugars using Fenton reaction in a mixed solvent" @default.
• W2897546522 cites W1033937323 @default.
• W2897546522 cites W1252481677 @default.
• W2897546522 cites W1597212173 @default.
• W2897546522 cites W1680935865 @default.
• W2897546522 cites W1852340166 @default.
• W2897546522 cites W1881037445 @default.
• W2897546522 cites W1966478157 @default.
• W2897546522 cites W1975656489 @default.
• W2897546522 cites W1977072049 @default.
• W2897546522 cites W1990555456 @default.
• W2897546522 cites W1998135327 @default.
• W2897546522 cites W2004958771 @default.
• W2897546522 cites W2007456440 @default.
• W2897546522 cites W2013308765 @default.
• W2897546522 cites W2023524753 @default.
• W2897546522 cites W2027966927 @default.
• W2897546522 cites W2028887095 @default.
• W2897546522 cites W2040670615 @default.
• W2897546522 cites W2082907005 @default.
• W2897546522 cites W2089861427 @default.
• W2897546522 cites W2091405420 @default.
• W2897546522 cites W2098774251 @default.
• W2897546522 cites W2098951988 @default.
• W2897546522 cites W2105503244 @default.
• W2897546522 cites W2108602746 @default.
• W2897546522 cites W2122120070 @default.
• W2897546522 cites W2138410509 @default.
• W2897546522 cites W2145707512 @default.
• W2897546522 cites W2158995623 @default.
• W2897546522 cites W2181287729 @default.
• W2897546522 cites W2189874644 @default.
• W2897546522 cites W2197353323 @default.
• W2897546522 cites W2210975846 @default.
• W2897546522 cites W2272724517 @default.
• W2897546522 cites W2462559813 @default.
• W2897546522 cites W2509284956 @default.
• W2897546522 cites W2511378479 @default.
• W2897546522 cites W2520910855 @default.
• W2897546522 cites W2523592553 @default.
• W2897546522 cites W2586822299 @default.
• W2897546522 cites W2587195711 @default.
• W2897546522 cites W2588824507 @default.
• W2897546522 cites W2589937982 @default.
• W2897546522 cites W2620733802 @default.
• W2897546522 cites W2784552890 @default.
• W2897546522 cites W2785378876 @default.
• W2897546522 cites W2791427261 @default.
• W2897546522 cites W2792965309 @default.
• W2897546522 cites W3194179814 @default.
• W2897546522 doi "https://doi.org/10.1186/s13068-018-1288-4" @default.
• W2897546522 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6195684" @default.
• W2897546522 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30377446" @default.
• W2897546522 hasPublicationYear "2018" @default.
• W2897546522 type Work @default.
• W2897546522 sameAs 2897546522 @default.
• W2897546522 citedByCount "34" @default.
• W2897546522 countsByYear W28975465222019 @default.
• W2897546522 countsByYear W28975465222020 @default.
• W2897546522 countsByYear W28975465222021 @default.
• W2897546522 countsByYear W28975465222022 @default.
• W2897546522 countsByYear W28975465222023 @default.
• W2897546522 crossrefType "journal-article" @default.
• W2897546522 hasAuthorship W2897546522A5034504499 @default.
• W2897546522 hasAuthorship W2897546522A5039415205 @default.
• W2897546522 hasAuthorship W2897546522A5056415908 @default.
• W2897546522 hasAuthorship W2897546522A5074113867 @default.
• W2897546522 hasAuthorship W2897546522A5074665674 @default.
• W2897546522 hasAuthorship W2897546522A5078531452 @default.
• W2897546522 hasBestOaLocation W28975465221 @default.
• W2897546522 hasConcept C100544194 @default.
• W2897546522 hasConcept C118859902 @default.
• W2897546522 hasConcept C178790620 @default.
• W2897546522 hasConcept C185592680 @default.
• W2897546522 hasConcept C206139338 @default.
• W2897546522 hasConcept C2776073808 @default.
• W2897546522 hasConcept C2778234585 @default.
• W2897546522 hasConcept C2778821838 @default.
• W2897546522 hasConcept C2779251873 @default.
• W2897546522 hasConcept C2780294150 @default.
• W2897546522 hasConcept C2780761721 @default.
• W2897546522 hasConcept C2781052789 @default.
• W2897546522 hasConcept C43617362 @default.
• W2897546522 hasConcept C53270655 @default.
• W2897546522 hasConcept C55493867 @default.
• W2897546522 hasConcept C94412978 @default.
• W2897546522 hasConceptScore W2897546522C100544194 @default.
• W2897546522 hasConceptScore W2897546522C118859902 @default.
• W2897546522 hasConceptScore W2897546522C178790620 @default.
• W2897546522 hasConceptScore W2897546522C185592680 @default.

• next