Search results for "Kraft lignin"

showing 6 items of 6 documents

Role of lignin and sodium carbonate on the swelling behavior of black liquor droplets during combustion

2018

AbstractA partial removal of lignin from black liquor (BL) by carbonation and lignin precipitation was studied. In lignin-lean BL droplets during combustion in a laboratory furnace at 800°C in stagnant air, the maximum swelling was decreased. This observation was interpreted as showing that the lignin content decrement is due mainly to removal of higher molar mass (HMM) lignin and that the Na2CO3content of the BL is increased. Stepwise precipitation experiments with industrial softwood and hardwood kraft BLs by carbonation (resulting in pH decrement from 13 to 9) indicated that a fraction of HMM lignin (MM >10 kDa) with a higher amount of carbohydrates precipitated more prominently and e…

0106 biological sciencesInorganic chemistrymacromolecular substancesCombustion01 natural sciencescomplex mixturesBiomaterialschemistry.chemical_compound010608 biotechnologymedicineLigninchemical recoveryhigh definition video camerasodium carbonatekraft lignin040101 forestryMolar massChemistryfungimoolimassatechnology industry and agriculturefood and beveragesligniinimustalipeä04 agricultural and veterinary sciencesChemical recoverymaximum swelling of dropletsdroplet swellingKraft process0401 agriculture forestry and fisheriesSwellingmedicine.symptomSodium carbonateBlack liquor
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ChemInform Abstract: Chemometrics: An Important Tool for the Modern Chemist, an Example from Wood-Processing Chemistry.

2010

This study briefly outlines the idea of principal component analysis and cross-correlation calculations (applied chemometrics) and presents an illustrative example from wood-processing chemistry. The applicability of chemometric data analysis was demonstrated by investigating the various structural changes that take place in dissolved and degraded lignin ("kraft lignin") during laboratory-scale kraft pulping of Scots pine (Pinus sylvestris) and silver birch (Betula pendula). The structural data (31P NMR and size exclusion chromatographic data) on kraft lignin were further processed by chemometric multivariate techniques (PCA and 2DCC), confirming, for example, that the cleavage of beta-aryl…

Kraft ligninChemometricschemistry.chemical_compoundKraft processChemistryWood processingBetula pendulaPrincipal component analysisLigninEtherGeneral MedicinePulp and paper industryChemInform
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Chemometrics:  An Important Tool for the Modern Chemist, an Example from Wood-Processing Chemistry

2000

This study briefly outlines the idea of principal component analysis and cross-correlation calculations (applied chemometrics) and presents an illustrative example from wood-processing chemistry. The applicability of chemometric data analysis was demonstrated by investigating the various structural changes that take place in dissolved and degraded lignin ("kraft lignin") during laboratory-scale kraft pulping of Scots pine (Pinus sylvestris) and silver birch (Betula pendula). The structural data (31P NMR and size exclusion chromatographic data) on kraft lignin were further processed by chemometric multivariate techniques (PCA and 2DCC), confirming, for example, that the cleavage of beta-aryl…

Kraft ligninEtherGeneral ChemistryComputer Science ApplicationsChemometricschemistry.chemical_compoundComputational Theory and MathematicschemistryKraft processWood processingBetula pendulaPrincipal component analysisLigninOrganic chemistryInformation SystemsJournal of Chemical Information and Computer Sciences
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High-Temperature Electrolysis of Kraft Lignin for Selective Vanillin Formation

2020

Lignin represents the largest renewable resource of aromatic moieties on earth and harbors a huge potential as a sustainable feedstock for the synthesis of biobased aromatic fine chemicals. Due to the complex, heterogeneous, and robust chemical structure of the biopolymer, the valorization is associated with significant challenges. Unfortunately, technical lignins, which are a large side stream of the pulp and paper industries, are mainly thermally exploited. In this study, technical Kraft lignin was selectively electrochemically depolymerized to the aroma chemical vanillin. Using electricity, toxic and/or expensive oxidizers could be replaced. The electrodegradation of Kraft lignin was per…

Kraft ligninRenewable Energy Sustainability and the EnvironmentChemistryGeneral Chemical EngineeringVanillinVanillin formation02 engineering and technologyGeneral ChemistryRaw material010402 general chemistry021001 nanoscience & nanotechnologyElectrosynthesisPulp and paper industrycomplex mixtures01 natural sciences0104 chemical scienceschemistry.chemical_compoundHigh-temperature electrolysisEnvironmental ChemistryLignin0210 nano-technologyRenewable resourceACS Sustainable Chemistry & Engineering
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Chemometric investigation on structural changes in pine kraft lignin during pulping

2000

Abstract Various structural changes which take place in dissolved lignin during the laboratory-scale kraft pulping of Scots pine (Pinus sylvestris) were studied. Lignin samples were subjected to the alkaline cupric oxide oxidation and the analytical data further processed by various multivariate chemometric techniques (principal component analysis, PCA; principal component regression, PCR; and projection to latent structures, PLS). Several models applicable to the indirect measurement of common pine kraft pulp properties (i.e., total cooking yield, kappa number and ISO brightness) were produced.

Kraft ligninbiologyChemistryProcess Chemistry and TechnologyfungiScots pinefood and beveragesKappa numberPulp and paper industrybiology.organism_classificationcomplex mixturesComputer Science ApplicationsAnalytical ChemistryPinus <genus>chemistry.chemical_compoundKraft processPrincipal component analysisPrincipal component regressionLigninSpectroscopySoftwareChemometrics and Intelligent Laboratory Systems
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Characterization of softwood and hardwood lignoboost kraft lignins with emphasis on their antioxidant activity

2014

Fractionation of softwood and hardwood LignoBoost kraft lignins, using sequential extraction with organic solvents of increasing hydrogen-bonding ability (dichloromethane, n-propanol, and methanol), was carried out. Using SEC, analytical pyrolysis, FTIR and UV/VIS spectroscopy, and chemical analytical methods, four fractions were obtained and characterized in terms of their yield, composition, functionality, lignin structural features, and antioxidant properties. In tests with free radicals (ABTS●+, DPPH●, O2●-) and the ORAC (oxygen radical absorbance capacity) assay, the high radical scavenging capacity of the lignin’s soluble fractions was demonstrated. The antioxidant activity of the fra…

ORAC assayEnvironmental EngineeringSoftwoodABTSOxygen radical absorbance capacityLignoBoost kraft ligninDPPHAntioxidant propertieslcsh:Biotechnologytechnology industry and agricultureBioengineeringmacromolecular substancesFractionationDPPH●chemistry.chemical_compoundchemistryABTS●+lcsh:TP248.13-248.65HardwoodOrganic chemistryLigninSolvent fractionationWaste Management and DisposalKraft paperO2●- assays
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