Search results for "Coal Ash"

showing 3 items of 3 documents

The determination of antimony and arsenic concentrations in fly ash by hydride generation inductively coupled plasma optical emission spectrometry

2011

Abstract Hydride generation inductively coupled plasma optical emission spectrometry (HG-ICP-OES) was used in the determination of As and Sb concentrations in fly ash samples. The effect of sample pre-treatment reagents and measurement parameters used for hydride generation was evaluated. Due to memory effects observed, the appropriate read delay time was adjusted to 60 s resulting in RSDs 0.6% and 2.3% for As and Sb, respectively. The most suitable volumes of pre-reduction reagents for 10 mL of sample were 4 mL of KI/ascorbic acid (5%) and 6 mL of HCl (conc.). The determination of Sb was significantly interfered by HF, but the interference could be eliminated by adding 2 mL of saturated bo…

AntimonyChromatographySpectrophotometry AtomicAnalytical chemistrychemistry.chemical_elementHydrochloric acidAscorbic acidCoal AshBiochemistryCarbonArsenicAnalytical ChemistryBoric acidchemistry.chemical_compoundBoric AcidsAntimonychemistryFly ashInductively coupled plasma atomic emission spectroscopyEnvironmental ChemistryParticulate MatterInductively coupled plasmata116SpectroscopyArsenicAnalytica Chimica Acta
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Leachate formation and characteristics from gasification and grate incineration bottom ash under landfill conditions

2011

Characteristics and formation of leachates from waste gasification and grate firing bottom ash were studied using continuous field measurements from 112 m(3) lysimeters embedded into landfill body for three years. In addition, the total element concentrations of the fresh ash were analysed and laboratory batch tests were performed to study leachate composition. The three-year continuous flow measurement showed that about one fifth of the leachates were formed, when the flow rate was200 l/d, covering3.5% of the study time. After three years, the liquid/solid-ratio for the quenched grate ash was 1 (l/kg (d.m.)) and for the initially dry gasification ash 0.4 (l/kg (d.m.)). The low initial wate…

Biochemical oxygen demandTime FactorsIncinerator bottom ashWaste managementIncinerationCoal AshIncinerationFly ashBottom ashEnvironmental scienceGasesLeachateLeaching (agriculture)Waste Management and DisposalGrate firingWater Pollutants Chemicalta218Waste Management
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Toxicity of waste gasification bottom ash leachate

2011

Abstract Toxicity of waste gasification bottom ash leachate from landfill lysimeters (112 m3) was studied over three years. The leachate of grate incineration bottom ash from a parallel setup was used as reference material. Three aquatic organisms (bioluminescent bacteria, green algae and water flea) were used to study acute toxicity. In addition, an ethoxyresorufin-O-deethylase (EROD) assay was performed with mouse hepatoma cells to indicate the presence of organic contaminants. Concentrations of 14 elements and 15 PAH compounds were determined to characterise leachate. Gasification ash leachate had a high pH (9.2–12.4) and assays with and without pH adjustment to neutral were used. Gasifi…

Carcinoma Hepatocellularanimal diseasesta1172Coal AshMiceAlgaeChlorophytaToxicity TestsCytochrome P-450 CYP1A1Tumor Cells CulturedAnimalsLeachateWaste Management and DisposalWaste managementbiologyChemistryLiver Neoplasmstechnology industry and agricultureContaminationbiology.organism_classificationAliivibrio fischeriAcute toxicityRefuse DisposalIncinerationEnzyme ActivationDaphniaBottom ashLysimeterEnvironmental chemistryLuminescent MeasurementsGreen algaeWater Pollutants ChemicalWaste Management
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