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RESEARCH PRODUCT
Biomass-based composite catalysts for catalytic wet peroxide oxidation of bisphenol A : preparation and characterization studies
Henrik RomarHenrik RomarHanna ProkkolaTao HuRiikka JuholaAnne HeponiemiUlla LassiUlla LassiSari Tuomikoskisubject
Thermal desorption spectroscopybiomassacomposite catalystComposite numbergranular activated carbon02 engineering and technologyjätevesi010501 environmental sciences01 natural sciencesPeroxidewastewater purificationCatalysisGranulationchemistry.chemical_compoundSpecific surface areaChemical Engineering (miscellaneous)Calcium oxideWaste Management and Disposalta116komposiitit0105 earth and related environmental sciencesjäteveden käsittelybiomassProcess Chemistry and Technology021001 nanoscience & nanotechnologyPollutionSolventchemistryaktiivihiilioxidation of bisphenol A0210 nano-technologyNuclear chemistrydescription
Abstract The wet granulation process was used to prepare new, efficient, and cost-effective granular biomass-based composite catalysts for catalytic wet peroxide oxidation (CWPO) of bisphenol A (BPA). The most stable composite granules was prepared by mixing biomass-based carbon residue (CR) with metakaolin (MK) combined with calcium oxide (CaO) or cement and a solvent (NaOH or KOH). For all the prepared composite granules, the optimized binding agents to carbon ratio was 0.3, the solvent to carbon ratio 1.2, and the agitation rate 1200 rpm. The specific surface area of the prepared catalysts was 152–205 m2/g. The composite granular catalyst (CR + MK + CaO + NaOH) had the most durable and stable structure (compressive strength of 27 N) and the most basic surface (15 mmol/g) measured with temperature programmed desorption. This catalyst was the most active in CWPO of BPA and total organic carbon removal of 50% and 48%, respectively.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-06-01 | Journal of Environmental Chemical Engineering |