about
Three-dimensional computational fluid dynamics modeling of particle uptake by an occupational air sampler using manually-scaled and adaptive gridsA review on the importance of metals and metalloids in atmospheric dust and aerosol from mining operationsHygroscopic and chemical properties of aerosols collected near a copper smelter: implications for public and environmental healthHygroscopic Properties and Respiratory System Deposition Behavior of Particulate Matter Emitted By Mining and Smelting OperationsModeling the emission, transport and deposition of contaminated dust from a mine tailing site.Effect of wind speed and relative humidity on atmospheric dust concentrations in semi-arid climatesMixed redox catalytic destruction of chlorinated solvents in soils and groundwaterInteraction of Perchloroethylene with Cerium Oxide in Three-Way Catalysts.Use of lead isotopes to identify sources of metal and metalloid contaminants in atmospheric aerosol from mining operations.Introduction to a Special Issue of Aeolian Research Airborne mineral dust contaminants: Impacts on human health and the environmentSimulation of windblown dust transport from a mine tailings impoundment using a computational fluid dynamics model.Metal and Metalloid Contaminants in Atmospheric Aerosols from Mining Operations.Evaluating the Mobility of Arsenic in Synthetic Iron-containing Solids Using a Modified Sequential Extraction MethodLeaching of arsenic from granular ferric hydroxide residuals under mature landfill conditions.Thermocatalytic destruction of gas-phase perchloroethylene using propane as a hydrogen sourceScoping candidate minerals for stabilization of arsenic-bearing solid residuals.Effect of ionic environment on the rheology of wormlike micelle solutions of mixtures of surfactants with opposite charge.Effect of pH, competitive anions and NOM on the leaching of arsenic from solid residuals.Fate of trace organics in a wastewater effluent dependent stream.Modeling the oxidation of phenolic compounds by hydrogen peroxide photolysis.Effect of ferrous iron on arsenate sorption to amorphous ferric hydroxide.Removal of Organic Films From Rotating Disks Using Aqueous Solutions of Nonionic Surfactants: Effect of Surfactant Molecular Structure.Removal of Solid Organic Films from Rotating Disks Using Emulsion Cleaners.Synthesis of amphiphilic dendrons and their interactions in aqueous solutions with cetyltrimethylammonium p-toluenesulfonate (CTAT).Shear and extensional rheology of solutions of mixtures of poly(ethylene oxide) and anionic surfactants in ionic environments.Shear rheology and porous media flow of wormlike micelle solutions formed by mixtures of surfactants of opposite charge.Effect of the flow field on the rheological behavior of aqueous cetyltrimethylammonium p-toluenesulfonate solutions.Synergistic effects in flows of mixtures of wormlike micelles and hydroxyethyl celluloses with or without hydrophobic modifications.Destruction of gas-phase trichloroethylene in a modified fuel cell.Changes in estrogen/anti-estrogen activities in ponded secondary effluent.Release of arsenic from metal oxide sorbents under simulated mature landfill conditions.Flow Field Penetration in Thin Nanoporous Polymer Films under Laminar Flow by Förster Resonance Energy Transfer Coupled with Total Internal Reflectance Fluorescence Microscopy.Effect of ionic strength on the rheological behavior of aqueous cetyltrimethylammonium p-toluene sulfonate solutionsInteractions between Poly(ethylene Oxide) and Sodium Dodecyl Sulfate in Elongational FlowsReconciling PM10 analyses by different sampling methods for Iron King Mine tailings dust
P50
Q26344475-98C197BA-DE39-4588-B0FA-70F3622DB31BQ26995899-681CC357-4EDE-48E9-A775-1E648F26B180Q28728009-4EC44C1F-D773-4F24-8677-8F841457531AQ28822497-10D374B4-86B8-476E-897F-103D4393FBCEQ33577557-5C36A693-EE22-4C22-8ED5-96D52C2F93C0Q33810962-448CB1C2-BA9B-4A38-B018-6E579AE4B49AQ33841594-F8A140EE-2C89-471F-8F75-C53114D655AFQ34466990-D80485B7-CF00-4624-8B08-2696F813E5B0Q34778868-3CD0B31B-5DD9-4D42-BAE0-8A17BE160501Q34972439-465877E4-B133-4C88-B47B-CFE229E82C61Q35002346-599FE4E7-B590-461F-A244-0B0DFB607338Q36622404-7D187F20-FFDB-4E37-A53C-90ED42598205Q36644997-E7E0C2CE-0F65-44ED-A213-A52603F03DFAQ36876258-D9BCDDC2-598B-43B7-B769-81D650F69C08Q37219324-7B422F90-F77B-495A-99DD-FB7671E8C4F1Q37699171-7A5992B5-3ABD-450B-83B3-52C4ABFBF12DQ43251342-E06024AA-BEB5-409A-8D9C-6D9853EA86B9Q43328249-5B25AABF-A0FF-4D30-A4B6-4DD52F0C844CQ43330821-9ACF4B00-7940-494C-9DFA-A679E0A2D55AQ43352317-10A7FD08-E438-4E56-834B-7607CEC6A711Q43365925-A50A50FE-3D11-4E59-8449-2420A6B6BCF4Q44870254-15BC4336-23BA-46A7-93AB-572F615D5A6DQ44873635-CCE29BAE-47E5-46DD-9430-396BB0EC127DQ46019205-32CF0285-F870-4167-8097-C5BD26C9C32DQ46442591-7573B4A4-8CE0-439E-A8F4-035ACE10FE6AQ46449776-9FDCB1F4-C7B8-48B9-9218-36EE165845A4Q46559115-FA6684D5-E330-40E3-A306-0C91F106216EQ46667621-1168959C-3BE2-4B33-883A-B802EB20576EQ46936095-CECEE34A-9D3D-4482-B0BF-99F9CC76AC75Q50990051-AECBFE9A-D07D-4A17-BAEC-8CEC12257741Q51481002-11E5F193-1BF3-4B36-9E90-7E89B63E98FCQ51649572-B686314A-0696-4E1D-B5E0-B130148588D8Q61035601-9BAA0F78-3EDA-4E11-8D25-A0479BCC7E85Q74007772-A7DDDA71-34E1-49BC-80EB-B1027E793D07Q87174111-ED2D9CC7-09A5-4F45-8BA9-FA52454DF706
P50
description
researcher
@en
name
A. E. Sáez
@en
A. E. Sáez
@nl
type
label
A. E. Sáez
@en
A. E. Sáez
@nl
prefLabel
A. E. Sáez
@en
A. E. Sáez
@nl
P106
P31
P496
0000-0002-3548-6325