Search results for "Selenium pollution"

showing 2 items of 2 documents

Desulfurization: Critical step towards enhanced selenium removal from industrial effluents

2017

Abstract Selenium (Se) removal from synthetic solutions and from real Flue Gas Desulfurization (FGD) wastewater generated by a coal-fired power plant was studied for the first time using a commercial iron oxide impregnated strong base anion exchange resin, Purolite ® FerrIX A33E. In synthetic solutions, the resin showed high affinity for selenate and selenite, while sulfate exhibited a strong competition for both oxyanions. The FGD wastewater investigated is a complex system that contains Se (∼1200 μg L −1 ), SO 4 2− (∼1.1 g L −1 ), Cl − (∼9.5 g L −1 ), and Ca 2+ (∼5 g L −1 ), alongside a broad spectrum of toxic trace metals including Cd, Cr, Hg, Ni, and Zn. The resin performed poorly again…

Environmental EngineeringHealth Toxicology and MutagenesisBarium Compoundschemistry.chemical_element02 engineering and technologyWastewater010501 environmental sciencesFerric Compounds01 natural sciencesSelenateSelenium pollutionWater PurificationSeleniumchemistry.chemical_compoundChlorides[CHIM.ANAL]Chemical Sciences/Analytical chemistryMetals HeavyEnvironmental ChemistryOrganic chemistrySulfateEffluentAnion Exchange ResinsComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciencesIon exchangeSulfatesChemistryPublic Health Environmental and Occupational HealthGeneral MedicineGeneral Chemistry021001 nanoscience & nanotechnologyPollution6. Clean waterTrace ElementsFlue-gas desulfurization[ CHIM.POLY ] Chemical Sciences/Polymers[CHIM.POLY]Chemical Sciences/PolymersWastewater[ CHIM.ANAL ] Chemical Sciences/Analytical chemistry0210 nano-technologyWater Pollutants ChemicalSeleniumPower PlantsNuclear chemistry

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Biosynthesis of selenium-nanoparticles and -nanorods as a product of selenite bioconversion by the aerobic bacterium Rhodococcus aetherivorans BCP1

2018

The wide anthropogenic use of selenium compounds represents the major source of selenium pollution world- wide, causing environmental issues and health concerns. Microbe-based strategies for metal removal/recovery have received increasing interest thanks to the association of the microbial ability to detoxify toxic metal/ metalloid polluted environments with the production of nanomaterials. This study investigates the tolerance and the bioconversion of selenite (SeO32−) by the aerobically grown Actinomycete Rhodococcus aetherivorans BCP1 in association with its ability to produce selenium nanoparticles and nanorods (SeNPs and SeNRs). The BCP1 strain showed high tolerance towards SeO32− with…

0301 basic medicineBioconversionStatic Electricity030106 microbiologychemistry.chemical_elementBioengineeringSelenious AcidSettore BIO/19 - Microbiologia GeneraleSelenium pollutionSelenium03 medical and health sciencesMinimum inhibitory concentrationchemistry.chemical_compoundNanoparticleBiosynthesisRhodococcusParticle SizeSelenite Rhodococcus aetherivorans Selenium nanoparticles Selenium nanorods Biogenic nanostructuresSelenium nanorodMolecular BiologyNanotubesbiologyBiogenic nanostructureRhodococcus aetherivoranSpectrometry X-Ray EmissionGeneral Medicinebiology.organism_classificationDynamic Light ScatteringSelenium nanoparticleBacteria AerobicNanotube030104 developmental biologychemistryBiochemistry13. Climate actionSelenious AcidSeleniteNanoparticlesMetalloidRhodococcusSeleniumRhodococcuBiotechnologyNew Biotechnology

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