Search results for "Volatile acids"

showing 3 items of 3 documents

Multivariate Correlation between Analytical Data for Various Organics Dissolved during Autohydrolysis of Silver Birch (Betula pendula) Chips and Trea…

2014

Autohydrolysis pre-treatments were performed for the production of hemicellulose-rich autohydrolysates from silver birch (Betula pendula) chips prior to chemical pulping. Pre-treatment conditions were varied with respect to time (from 30 to 120 min) and temperature (130 and 150 °C), covering a P-factor range from 10 to 238. Hydrolysates were analyzed in terms of carbohydrates, lignin, volatile organic acids, and furanoic compounds. The analytical data were subjected to various chemometric techniques to establish the relationships between dissolved organic components, hardwood and softwood used in the experiments, and applied pre-treatment conditions. Using this method, differences between t…

Environmental EngineeringSoftwoodChemistrylcsh:BiotechnologyCarbohydratesPrincipal component analysisBioengineeringPulp and paper industryLigninChemical pulpingchemistry.chemical_compoundVolatile acidsAutohydrolysisBetula pendulaBiorefininglcsh:TP248.13-248.65HardwoodBetula pendulaOrganic chemistryLigninOrganic componentBiorefiningFuransWaste Management and DisposalBioResources
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Organic material dissolved during oxygen-alkali pulping of hot-water-extracted spruce sawdust

2016

Untreated and hot-water-extracted (HWE) Norway spruce (Picea abies) sawdust was cooked using the sulfur-free oxygen-alkali (OA) method under the following conditions: temperature, 170 °C; liquor-to-wood ratio, 5:1 L/kg; and NaOH charge, 19% on the oven-dry sawdust. In comparison with earlier studies conducted with birch sawdust, the spruce cooking yield data, together with the amount of the pulp rejects (78% to 86% for reference pulps from the initial feedstock and 73% to 83% for pulps from the HWE feedstock), revealed that the pretreatment stage prior to spruce OA pulping caused different effects on pulping performance. The analyses of the three main compound groups (i.e., lignin, volatile…

Environmental Engineeringlcsh:BiotechnologyBioengineeringengineering.materialRaw materialhot-water extractionLigninchemistry.chemical_compoundlcsh:TP248.13-248.65Ligninhydroxy acidsvolatile acidsBiorefiningHydroxy acidsautohydrolysisWaste Management and DisposalbiologyChemistryPulp (paper)fungifood and beveragesligniiniPicea abiesmustalipeäbiology.organism_classificationPulp and paper industryHot-water extractionHot water extractionVolatile acidsAutohydrolysisvisual_artBiorefiningNorway spruceengineeringvisual_art.visual_art_mediumSawdustbiorefiningBlack liquormetsäkuusiOxygen-alkali pulpingBlack liquoroxygen-alkali pulping
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Multivariate Correlation between Analysis Data on Dissolved Organic Material from Scots Pine (Pinus sylvestris) Chips and their Autohydrolysis Pre-Tr…

2013

Various chemometric techniques were used to establish the relationship between the autohydrolysis conditions prior to pulping and the chemical compositions of the soluble organic materials removed from Scots pine (Pinus sylvestris) wood chips. The aqueous chip pre-treatments (autohydrolysis) were administered at 130 °C and 150 °C for 30, 60, 90, and 120 min, and the hydrolysates obtained were characterized in terms of total carbohydrates (various mono-, oligo-, and polysaccharides together with uronic acid side groups), volatile acids (acetic and formic acids), lignin, and furans (furfural and 5-(hydroxymethyl)furfural). Based on the analytical data gathered, a relatively accurate model for…

Environmental Engineeringlcsh:BiotechnologyCarbohydratesPrincipal component analysisligninBioengineeringUronic acidFurfuralHydrolysatechemistry.chemical_compoundlcsh:TP248.13-248.65volatile acidsLigninOrganic chemistryHydroxymethylBiorefiningFuransWaste Management and Disposalscots pineChromatographyAqueous solutionbiologyfungiScots pinebiology.organism_classificationAutohydrolysischemistrybiorefiningBioResources
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