Search results for "refinery"

showing 3 items of 33 documents

Lignin recovery from spent alkaline pulping liquors using acidification, membrane separation, and related processing steps: A Review

2019

The separation of lignin from the black liquor generated during alkaline pulping is reviewed in this article with an emphasis on chemistry. Based on published accounts, the precipitation of lignin from spent pulping liquor by addition of acids can be understood based on dissociation equilibria of weak acid groups, which affects the solubility behavior of lignin-related chemical species. Solubility issues also govern lignin separation technologies based on ultrafiltration membranes; reduction in membrane permeability is often affected by conditions leading to decreased solubility of lignin decomposition products and the presence of colloidal matter. Advances in understanding of such phenomen…

hiilidioksidiEnvironmental EngineeringrikkihappoMembrane permeabilityBioengineeringcomplex mixturesMembrane technologychemistry.chemical_compoundkalvot (elottomat objektit)Lignincolloidal stabilitySolubilitylignin isolationWaste Management and Disposaldebottlenecking of pulp millssaostusliukoisuussulfuric acidfungitechnology industry and agriculturefood and beveragesligniinimustalipeäBiorefineryPulp and paper industryacid precipitationMembranetalteenottochemistryultrafiltrationsuodatusBlack liquorKraft paperBioResources
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Towards bioeconomy : a three-phase Delphi study on forest biorefinery diffusion in Scandinavia and North America

2012

liiketoimintaympäristömetsäteollisuusdiffusionPohjois-Amerikkabusiness environmentmuutosbiojalostamotDelfoi-menetelmädiffuusiobioenergiaNorth Americaekologinen kestävyysforest industry's changeScandinaviaforest biorefineryenvironmental sustainabilitybiotalousSkandinaviabioeconomy
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Pyrolytic behavior of lignocellulosic-based polysaccharides

2018

The thermochemical behavior of cellulose, glucomannan, and xylan was investigated by pyrolysis–gas chromatographymass spectrometry (Py-GC/MS). In each case, major GC-amenable condensable products were classified into several compound groups, and the formation of these monomer-related fragments from the model substance samples was determined at 500, 600, and 700 C with a residence time of 5 s and 20 s. The results revealed that despite some general formation trends, no compound group was selectively formed at certain temperatures. Of the 11 product groups, the primary ones, including lactone, furan, and cyclopentenone derivatives, accounted for 72–85% (from cellulose), 86–90% (from glucomann…

pyrolysis–gas chromatographyselluloosaGlucomannan02 engineering and technologythermogravimetrykuivatislausPolysaccharidecondensable productspolysakkaridit01 natural sciencesxylanchemistry.chemical_compoundOrganic chemistryHemicellulosePhysical and Theoretical ChemistryCelluloseglucomannanchemistry.chemical_classificationksylaanitChemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsBiorefineryXylan010406 physical chemistry0104 chemical sciencesmannaanitkromatografia0210 nano-technologyEnergy sourcePyrolysis
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