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dc.contributor.authorCampinas, M.pt_BR
dc.contributor.authorRosa, M. J.pt_BR
dc.date.accessioned2015-08-12T10:51:13Zpt_BR
dc.date.accessioned2017-04-12T13:46:20Z-
dc.date.available2015-08-12T10:51:13Zpt_BR
dc.date.available2017-04-12T13:46:20Z-
dc.date.issued2006pt_BR
dc.identifier.urihttps://repositorio.lnec.pt/jspui/handle/123456789/1007474-
dc.description.abstractThis work aims to contribute to a better understanding of the ionic strength effect on microcystin and natural organic matter (NOM) surrogate adsorption by analyzing the importance of adsorbate molecular size, and surface concentration. Adsorption kinetics and/or isotherms were performed on PAC Norit SA-UF for four microcystin variants (MC-LR,MC-LY,MC-LW,MCLF), and three NOM surrogates (salicylicacid(SA), tannicacid(TA), Aldrichhumicacid(AHA)) at different solution ionic strengths. Results showed that the ionic strength effect depends upon the adsorbate surface concentration, cation charge (monoordivalent), and adsorbate molecular size. Potassium seemed not to affect the MC-LR adsorption, while calcium enhanced MC-LR kinetics and adsorption capacity. K+ and, particularly, Ca2+ improved the adsorption kinetics of the other microcystin variants. For identical surface concentration and ionic strength, the impact of K+ and Ca2+ on NOM surrogates depended on the adsorbate molecular size: K+ effect was only observed for AHA, whereas Ca2+ caused no effect on SA adsorption, slightly enhanced TA adsorption, and greatly enhanced AHA adsorption. MC-LR isotherms with two salt concentrations (KCl or CaCl2) indicated that, for the studied range of equilibrium surface concentration (5.3–18.7mg/g), an enhanced adsorption regime prevails, and no transition regime was observed.pt_BR
dc.language.isoengpt_BR
dc.publisherElsevierpt_BR
dc.rightsopenAccesspt_BR
dc.subjectMicrocystinspt_BR
dc.subjectPACpt_BR
dc.subjectAdsorptionpt_BR
dc.subjectNOM surrogatespt_BR
dc.subjectSurface concentrationpt_BR
dc.subjectIonic strengthpt_BR
dc.titleThe ionic strength effect on microcystin and natural organic matter surrogate adsorption onto PACpt_BR
dc.typearticlept_BR
dc.description.pages10ppt_BR
dc.description.volume299pt_BR
dc.description.sectorDHA/NESpt_BR
dc.description.magazineJournal of Colloid and Interface Sciencept_BR
dc.contributor.peer-reviewedNAOpt_BR
dc.contributor.academicresearchersNAOpt_BR
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