Coal Ash

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  Subject Areas on Research

  • Activation of EGF receptors mediates pulmonary vasoconstriction induced by residual oil fly ash. 
  • Apoptotic and inflammatory effects induced by different particles in human alveolar macrophages. 
  • Biochemical and pathological effects of fly ash on lung, liver, and blood of rats. 
  • Boron and strontium isotopic characterization of coal combustion residuals: validation of new environmental tracers. 
  • Coal fly ash induces hepatic and pulmonary cytochrome P-450 and sigma-aminolevulinic acid synthetase in rats. 
  • Cytotoxicity of inhaled coal fly ash in rats. 
  • Cytotoxicity of intratracheally administered coal fly ash: studies on lipids in the lung of rats. 
  • Cytotoxicity of intratracheally administered coal fly ash: studies on liver and plasma lipids in rats. 
  • Development of alterations in hamster distal lung following exposure to fly ash from fluidized bed coal combustion: a morphometric study. 
  • Differences in bulk and microscale yttrium speciation in coal combustion fly ash. 
  • Effect of inhalation of coal fly ash on vitamin A distribution in organs of the rat. 
  • Elevation of rat pulmonary, hepatic and lung surfactant lipids by fly ash inhalation. 
  • Emission-particle-induced ventilatory abnormalities in a rat model of pulmonary hypertension. 
  • Environmental impacts of the Tennessee Valley Authority Kingston coal ash spill. 1. Source apportionment using mercury stable isotopes. 
  • Environmental impacts of the Tennessee Valley Authority Kingston coal ash spill. 2. Effect of coal ash on methylmercury in historically contaminated river sediments. 
  • Environmental impacts of the coal ash spill in Kingston, Tennessee: an 18-month survey. 
  • Evidence for Coal Ash Ponds Leaking in the Southeastern United States. 
  • Fetal translocation and metabolism of PAH obtained from coal fly ash given intratracheally to pregnant rats. 
  • Hepatic microsomal phospholipids in rats exposed intratracheally to coal fly ash. 
  • Impacts of coal ash on methylmercury production and the methylating microbial community in anaerobic sediment slurries. 
  • Importance of a nanoscience approach in the understanding of major aqueous contamination scenarios: case study from a recent coal ash spill. 
  • Induction of hepatic drug metabolizing enzymes by coal fly ash in rats. 
  • Induction of pulmonary drug metabolizing enzymes by coal fly ash in rats. 
  • Inhibition of coal fly ash polycyclic aromatic hydrocarbons and metals induced mixed-function oxidase activity in rat lung and liver by vitamin A and citrate. 
  • Mitochondrial oxidant production by a pollutant dust and NO-mediated apoptosis in human alveolar macrophage. 
  • Naturally Occurring Radioactive Materials in Coals and Coal Combustion Residuals in the United States. 
  • Overexpression of extracellular superoxide dismutase decreases lung injury after exposure to oil fly ash. 
  • Phosphatidylcholine metabolism in lung microsomes and lung surfactant of rats exposed intratracheally to coal fly ash. 
  • Placental transfer of metals of coal fly ash into various fetal organs of rat. 
  • Polycyclic aromatic hydrocarbons of coal fly ash: analysis by gas-liquid chromatography using nematic liquid crystals. 
  • Reduction in pulmonary and hepatic respiratory cytochrome contents by fly ash inhalation in rats. 
  • Residual oil fly ash and charged polymers activate epithelial cells and nociceptive sensory neurons. 
  • Respiratory epithelial cells demonstrate lactoferrin receptors that increase after metal exposure. 
  • Selenium speciation in coal ash spilled at the Tennessee Valley Authority Kingston site. 
  • Survey of the potential environmental and health impacts in the immediate aftermath of the coal ash spill in Kingston, Tennessee. 
  • The Impact of Coal-Powered Electrical Plants and Coal Ash Impoundments on the Health of Residential Communities. 
  • The role of Toll-like receptor 4 in environmental airway injury in mice. 
  • Trends in the Rare Earth Element Content of U.S.-Based Coal Combustion Fly Ashes. 
  • Vanilloid (capsaicin) receptors influence inflammatory sensitivity in response to particulate matter. 
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  Keywords of People

  • Dwyer, Gary, Research Scientist, Senior, Earth and Ocean Sciences
  • Hsu-Kim, Heileen, Mary Milus Yoh and Harold L. Yoh, Jr. Associate Professor of Civil and Environmental Engineering, Civil and Environmental Engineering
  • Vengosh, Avner, Professor of Earth and Ocean Sciences, Duke University Energy Initiative