The following submitted contributions are accepted as papers (oral and poster presentations) at the different conference topics (abstracts can be viewed via click on the pdf-icon). They are organised by first author surname in alphabetical order in several sessions...
| Session I: Uranium Mining |
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| Prospection |
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Elkhan A. Mamedov (Baku State University, Azerbaijan):
Prediction and a new Method of Exploitation of Gold Deposits with Uranium in the Variscian Molass Conglomerate Basins of Germany. |
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Gulzhan S. Ospanova et al. (Kazakh National Technical University,
Kazakhstan):
Mining of Uranium in Kazakhstan. |
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Ulrich Schwarz-Schampera (BGR, Germany):
The Potential of Thorium Deposits. |
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Tatarinov V.N et al. (VNIPI Promtechnology,
Russia):
The Prediction of geodynamic conditions of mining of Elkon uranium field (Eastern Siberia, Russia). |
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| In-situ leaching |
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Pavel Franta et al. (Nuclear Research Institute Řež plc, Czech Republic):
Some approaches to remediation study of the fucoid sandstone in the Stráž pod Ralskem site – Northern Bohemia. |
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Jan Slezak (International Atomic Energy Agency, Austria):
Uranium ISL Mining Activities at the International Atomic Energy Agency.
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| Active water treatment |
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David Blowes et al. (University of Waterloo, Canada ):
Depressurising of Deep Underground Workings at McArthur River Mine. |
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Houmao Liu et al. (HCItasca Denver, Inc., Denver, Colorado, USA):
Depressurising of Deep Underground Workings at McArthur River Mine. |
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Ioana-Carmen Popescu et al. (ICPMRR,
Romania):
Could calixarenes be a viable solution for radioactive decontamination of mine waters from Romania? |
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| Passive water treatment |
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Mihaly
Csõvári et al. (Mecsekerc Rt, Hungary):
Experience gained from the experimental permeable reactive barrier installed on the former uranium mining site (Hungary). |
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Claudia Dienemann et al. (TU Dresden, Germany):
Uranium fixation by Cladophora spec. |
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Stoyan Groudev et al. (University of Mining and Geology “Saint Ivan Rilski”,
Bulgaria):
Treatment of Acid Drainage in a Uranium Deposit by Means of a Passive System. |
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Martin Hoffmann et al. (Groundwater research institute GmbH Dresden, Germany):
Utilization of autochthonous sulphate-reducing bacteria in uranium mine site remediation. |
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Chicgoua
Noubactep et al. (Universität Göttingen, Germany):
Metallic Iron (Fe0) for Better Drinking Water in Rural Areas of Developing Countries. |
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Karin Popa (‘Al.I. Cuza’ University,
Romania):
Comparison of three different sorbents for uranium retention from a source water. |
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| Radon management |
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Rashid Khaydarov et al. (Institute of Nuclear Physics,
Uzbekistan):
Method of Reducing Radon Levels in Buildings. |
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| Risk assessment studies |
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Maria de Lurdes Dinis et al. (CIGAR,
Portugal):
Integrated Methodology for the Environmental Risk Assessment of an Abandoned Uranium Mining Site. |
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Anne Delos et al. (Amphos XXI Consulting, S.L., Spain):
Risk assessment of a landfill for wastes containing naturally occurring radionuclides through infiltration to groundwater. |
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Mariza Franklin et al. (Brazilian Nuclear Energy Commission,
Brazil):
Modeling the water flow in unsaturated waste rock pile: an important step in the overall closure planning of the first uranium mining site in Brazil. |
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Ovidiu Sorin
Mihai et al. (National Institute for Metals and Radioactive Resources,
Romania):
Developing a 3D data model for geohazard assessment in a former uraniferous mining site. |
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Stefan
Ritzel et al. (Sächsisches Landesamt für Umwelt und Geologie, Germany):
GIS supported pre-assessment of radioactively contaminated areas in the agriculturally used parts of the Mulde River floodplains. |
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Peter Wade et al. (Council for Geoscience,
South Africa):
Risk Assessment of Uranium in Selected Gold Mining Areas in South Africa. |
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| Session II: Phosphate Mining |
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| Environmental impacts |
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Ewald Schnug (Federal Research Center for Cultivated Plants,
Germany):
Loads and fate of fertilizer derived uranium. |
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| Fertilizer production and uranium separation |
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Ashraf E.M.
Khater (Atomic Energy Authority,
Egypt):
Uranium and heavy metals in phosphate fertilizers: concentrations and environmental consequences. |
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Ashraf E.M. Khater et al. (Atomic Energy Authority, Egypt):
Uranium accumulation in sandy soil in an arid region due to agricultural activities. |
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| Session III: Mine closure and remediation processes |
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| Mine flooding |
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Wolfgang Czegka et al. (Sächsische Akademie der Wissenschaften zu Leipzig, Germany):
Uranium in anthropogenic lakes of the new central German lake district (Leipziger Neuseenland). |
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Xu Lechang (Beijing Institute of Chemical Engineering and Metallurgy,
China):
Closure of Lincang Underground Uranium Mine in China. |
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Bedrich Michalek et al. (DIAMO state enterprise,
Czech Republic):
Research on Mine Waters of Closed and Abandoned Uranium Mines.
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| Waste rock piles |
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Maria de Lurdes Dinis et al. (CIGAR, Portugal):
Modelling and Assessment of Radionuclides Differential Transport in Groundwater. |
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Michael Paul et al. (Wismut GmbH, Germany):
The remediation of a uranium mining and milling site in Slovenia.
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Petra
Schneideret al. (C&E Consulting und Engineering GmbH, Germany):
Feasibility Study for Crust Formation as CO 2 Sink in Uranium and Brown Coal Post-Mining Sites. |
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Peter Waggitt et al. (IAEA, Austria):
Small Scale Uranium Mine Remdiation in Northern Australia |
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| Tailings |
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Ryan T. Jakubowski et al. (MWH Americas, Inc., Steamboat Springs, Colorado, USA):
Infiltration and Contaminant-Transport Modeling for a Uranium Mill Tailings-Disposal Facility. |
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Donald R. Metzleret al. (U.S. Department of Energy, USA):
An Effectiveness Assessment of Current and Proposed Ground Water Remediation at the Moab, Utah USA Uranium Processing Site . |
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Horst Monken- Fernandes et al. (IAEA, Austria):
Use of Na-Ferrate (VI) to prevent acid drainage from uranium mill tailings based on the application of NA-Ferrate (VI). |
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Gavin M. Mudd et al. (Monash University, Australia):
The Rum Jungle U-Cu Project : A Critical Evaluation of Environmental Monitoring and Rehabilitation Success. |
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Taoufik Naamoun (Department of Geology,
Tunisia):
Chemical Behaviour of Uranium in the Tailings Material of Schneckenstein (Germany). |
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Isakbek Torgoev et al. (Institute of Physics and Rock Mechanics, Russia):
Impacts of Uranium Mining on the Environment of Fergana Valley in Central Asia.
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| Bioremediation/stabilization |
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Carsten
Brackhage et al. (TU Dresden, Germany):
Uranium uptake and accumulation in Phragmites australis Trin. ex Steud. depending on phosphorus availability, litter contamination and ecotype. |
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Gerhard Gramss et al. (Friedrich-Schiller-University,Germany):
Continuous supply of citric acid and ammonium traces to uranium mine dump soil: A path to acceptable phytoextraction techniques? |
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Nicoleta Groza (R&D National Institute for Metals and Radioactive Resources, Romania):
Ecological Solutions of Contaminated Environment Remediation from Uranium Mining Activities in Romania. |
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Beate Huhle (Universität Bayreuth, Germany):
Potential of Brassica juncea and Helianthus annuus in phytoremediation for uranium. |
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Peter Waggitt (IAEA, Austria):
Uranium Mining Legacies Remediation and Renaissance Development: An International Overview.
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| Long-term monitoring of abandoned uranium mining environments |
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Andreas Bollhöfer et al. (Environmental Research Institute of the Supervising Scientist (eriss), Australia):
Radiological Assessment of the rehabilitated Nabarlek Uranium Mine, Northern Territory, Australia. |
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Fernando P. Carvalho et al. (Nuclear and Technological Institute, Portugal):
Radionuclides in underground waters at the former uranium and radium mining region of Sabugal, Portugal. |
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Bruno Chareyron (CRIIRAD, France):
Radiological hazards from uranium mining. |
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Thomas Heinrich et al. (Staatliche Umweltbetriebsgesellschaft, Germany):
State supervision to the monitoring program of the Wismut GmbH in the free state of Saxony. |
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Alex
Jakubick et al. (UMREG Group):
Monitoring and Preparation of the Uranium Mining Legacies in Central Asia. |
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Ulf
Jenk et al. (Wismut GmbH , Germany):
Underground In situ mine water treatment in a flooded uranium mine at the WISMUT site Königstein - motivation, activities and perspective. |
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Elke Kreyßig (Wismut GmbH , Germany):
From remediation to long-term monitoring: The concept of key monitoring points at WISMUT. |
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Bernd
Lottermoser (James Cook University, Australia):
Assessment of rehabilitated uranium mine sites, Australia. |
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Martin Mkandawire et al. (Dresden University of Technology, Germany):
Natural occurring uranium nanoparticles and the implication in bioremediation of surface mine waters. |
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Gavin M. Mudd et al: (Monash University, Australia):
Groundwater-Climate Relationships, Ranger Uranium Mine, Australia: 1 – Time Series Statistical Analyses. |
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Gavin M. Mudd et al: (Monash University, Australia):
Groundwater-Climate Relationships, Ranger Uranium Mine, Australia:
2 – Validation of Unsaturated Flow Modelling. |
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Gavin M. Mudd et al: (Monash University, Australia):
Groundwater-Climate Relationships, Ranger Uranium Mine, Australia:
3 – Predicting Climate Change Impacts. |
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Dan Bujor
Nica et al. (Research and Development National Institute for Metals and Radioactive Resources, Romania):
Valorification of the natural capital from the former uraniferous mining areal situated in the Romanian Carpathians. Study case: The Natural Parc of Gradistea de Munte - Cioclovina. |
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Michael Paul et al. (Wismut GmbH , Germany):
Remediation effects of the WISMUT project to ground and surface waters in the Elbe watershed: A synopsis. |
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Johannes Richter et al. (Sächsisches Landesamt für Umwelt und Geologie, Germany):
Radiologically relevant radionuclide depositions in the agriculturally used parts of the Mulde River floodplains. |
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Peter Schmidt et al. (Wismut GmbH , Germany):
Radiological assessment of elevated uranium concentrations in groundwater and surface waters. |
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James Stone (South Dakota School of Mines and Technology, USA):
Environmental Impacts from the North Cave Hills Abandoned Uranium Mines, South Dakota. |
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Azamat Tynybekov et al. (Kyrgyz Russian Slavonic University):
Radiological risks from uranium tailing. |
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J.J. Badenhorst and W Meyer
(Nuclear Waste Research, South African Nuclear Energy Corporation, South Africa):
Treatment of historical uranium contaminated radioactive waste at necsa for disposal
. |
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| Session IV: Uranium in Groundwater and in bedrock |
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| Sorption and migration |
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Samer Bachmaf et al. (TU Bergakademie Freiberg, Germany):
Uranium(VI) sorption to bentonite. |
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Michaël Descostes et al. (CEA Saclay DEN-DANS/DPC/SECR, France):
Determination of Uranium source term in a Polluted Site: a multitechnique study. |
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Ella Gorbunova (Russian Academy of Science, Russia):
Peculiarities of radionuclide distribution within rock destruction zones (by the example of the objects at the Semipalatinsk Test Site). |
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Claudia
Joseph et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Complexation of Uranium(VI) by Sulfur and Nitrogen Containing Model Ligands in Aqueous Solution. |
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Cordula
Nebelung et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Uranium(VI) sorption on montmorillonite and bentonite: Prediction and experiments. |
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Chicgoua
Noubactep et al. (Universität Göttingen, Germany):
Characterizing As, Cu and U Solubilization Under Natural Near Oxic Conditions. |
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David
Peterson et al. (S.M. Stoller Corporation, USA):
Contaminant Transport in a Brine-Affected Aquifer at a Uranium Mill Tailings Site near Moab, Utah, USA. |
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Angelika
Schöner et al. (Martin-Luther-Universität Halle-Wittenberg, Germany):
Which factors influence the immobilization of uranium in soils and sediments? |
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Oleksandr Skalskyy et al. (National Academy of Sciences of Ukraine):
Problems of the gydrogeological monitoring of objects of the Prydneprovsk Chemical Plant (Dneprodzerzhynsk, Ukraine). |
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Dusan
Vopálka et al. (Czech Technical University,
Czech Republic):
Characterization of U(VI) behaviour in the Ruprechtov site. |
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Frank Winde (North West University, South Africa):
Peat deposits as natural uranium filters? - First results from a case study in a dolomitic gold mining area of South Africa. |
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| Uranium speciation in water |
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Diane Blake et al. (Tulane University , USA ):
Detection of hexavalent uranium with inline and field-portable
immunosensors. |
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Michaël Descostes et al. (CEA Saclay DEN-DANS/DPC/SECR, France):
Speciation of Uranium in a Polluted Site: a TRLFS study.
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Gerhard
Geipel et al. (Research Center Dresden Rossendorf, Germany):
Uranium Speciation - from mineral phases to mineral waters. |
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Christoph Hennig (Forschungszentrum Dresden-Rossendorf, Germany):
Speciation and coordination of U(VI) and U(IV) sulfate in aqueous solution. |
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Ashraf E.M. Khater (Atomic Energy Authority, Egypt):
Uranium partitioning during water treatment processes .
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Zoran Nikic et al. (University of Belgrade, Serbia):
Uranium Minerals of Bukulja Mountain controls on Storage Reservoir Water. |
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Katja
Schmeide et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Spectroscopic Study of the Uranium(IV) Complexation by Organic Model Ligands in Aqueous Solution. |
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S. K. Sharma (Geological Research Institute, India):
Preliminary Study of Interaction between Tailing and the Hydrologic Cycle at a Uranium Mine near Tatanagar, India. |
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Nicolene van Wyk et al. (Council for Geoscience, South Africa):
The distribution of uranium in groundwater in the Bushmanland and Namaqualand areas, Northern Cape Province, South Africa. |
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Dusan Vopálka et al. (Czech Technical University, Czech Republic):
Uranium(VI) Sulfate Complexation as a Function of Temperature and Ionic Strength Studied by TRLFS.
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| Uranium migration in crystalline rock |
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Alexandru Cecal et al. (“Al.I.Cuza” University of Iasi, Romania):
Separation of U(VI) and U(IV) chemical Species on the DGA-,TEVA- and UTEVA Eichrom Resins. |
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Henk Coetzee et al. (Council for Geoscience, South Africa):
Migration of uranium in groundwater in three naturally occurring anomalous areas in South Africa. |
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W. Eberhard Falck et al. (Joint Research Centre, European Commission,
The Netherlands):
Understanding Uranium Migration in Hard-Rocks. |
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Antje Wittenberg et al. (BGR, Germany):
Uranium transfer around volcanic-associated uranium deposit. |
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| Session V: Biogeochemistry of uranium |
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| Bioavailability (food chain) |
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Fernando P. Carvalho et al. (Nuclear and Technological Institute,
Portugal):
Radioactivity in soils and horticulture products near uranium mining sites. |
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Bekmamat
Djenbaev et al. (Institute of Biology & Pedology, NAS of KR, Kyrghyz Republic):
The Biogeochemistry of uranium in natural-technogenic provinces of the Issik-Kul. |
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Gert E. Dudel et al. (TU Dresden, Germany):
Mechanisms and capacity of sun driven uranium removal in natural and nature-like constructed wetlands. |
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Gert E. Dudel et al. (TU Dresden, Germany):
Comparison of elimination capacity of uranium from the water pathway between periphytic algae, submerse macrophytes and helophytes (emerse vascular plants). |
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Alix
Günther et al. (Forschungszentrum Dresden-Rossendorf,
Germany):
Microscopic and spectroscopic investigation of the U(VI) interaction with monocellular green algae. |
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Thomas Reitz et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Interactions of Paenibacillus sp. JG-TB8 and Sulfolobus acidocaldarius with U(VI): spectroscopic and microscopic studies. |
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Katrin Viehweger et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Extracellular defence reactions of rape cells caused by uranium exposure. |
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| Uranium in food |
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Yaduvendra Agrawal (Nirma University of Science and Technology, India):
Biogeochemistry of Uranium - Speciation, Preconcentration and Recovery |
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| Microbial biogeochemistry of uranium tailings |
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Astrid Barkleit et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Comparative investigation of the interaction of uranium with lipopolysaccharide and peptidoglycan. |
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Linda Figueroa et al. (Colorado School of Mines, USA):
The Role of Dissolved and Particulate Organic Carbon in Biostimulated Uranium Attenuation. |
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Arokiasamy J. Francis (Brookhaven National Laboratory, USA):
Mechanisms of Microbial Transformations of Uranium in Wastes and its Implication on Mobility. |
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Mohamed L. Merroun et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Uranium biomineralization by uranium mining waste isolates: a multidisciplinary approach study. |
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Jana Seifert et al.(TU Bergakademie Freiberg,
Germany):
Characterisation of the microbial diversity in the abandoned uranium mine Königstein. |
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Sonja Selenska-Pobell et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Biogeochemical changes induced by uranyl nitrate in a uranium waste pile. |
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Jonathan
Sharp et al. (Ecole Polytechnique Federale de Lausanne, Switzerland):
Systematic investigation of the product of microbial U(VI) reduction by various microorganisms. |
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Harish
Veeramani et al. (Ecole Polytechnique Federale de Lausanne, Switzerland):
Effect of Mn(II) on the oxidative dissolution of biogenic UO2. |
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| Session VI: Environmental behavior |
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| Uranium in Nuclear Waste Repository |
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Guido Bracke et al. (Institut für Sicherheitstechnologie (GRS),
Germany):
Safety functions derived from geochemistry for assessment of final disposal of high-level radioactive waste. |
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Jörg
Hammer et al. (BGR, Germany):
Fault-related barriers for uranium transport. |
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Radek
Procházka et al. (Charles University,
Czech Republic):
Uranium glasses: the experimental leaching compared to the long-term natural corrosion. |
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Linfeng Rao (Lawrence Berkeley National Laboratory, USA):
Temperature Effect on the Complexation of Uranium(VI) with Sulfate and Fluoride Anions. |
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| Environmental Behaviour of Depleted Uranium |
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Samy Mohamed
Abd-Allah et al. (King Khalid University,
Saudi Arabia):
Towards a more safe environment: (4) Disposability of uranium by some clay sediments in Egypt. |
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Céline Claveranne-Lamolère (LCABIE-IPREM-UMR 5234, France):
Characterization of the interactions between uranium and colloids in soil by on-line fractionation multi-detection methods. |
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Said Fakhi et al. (Laboratoire de Radiochimie (LRC),
Maroc):
Radiochemical methods analysis of U, Th and Ra: metrological and geochemical applications. |
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Fredrik
Lidman et al. (Umeå University, Sweden):
The Importance of Organic Colloids for the Transport of Uranium and other Decay Chain Elements in a Boreal Stream Network. |
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Alexander Valyaev et al. (Nuclear Safety Institute, RAS, Russia):
Assessments and decreasing of risks and damages from outbursts of Tien-Shan high mountains lakes. |
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Alexander Valyaev et al. (Nuclear Safety Institute, RAS, Russia):
Uranium-isotopic method using to determine sources of moraine-glacial lakes feeding and assess of its outburst danger.
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| Environmental Behaviour of Natural Uranium Decay Products:Radium |
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Charlotte Cazala et al. (IRSN/DEI/SARG/BRN BP17, France):
Impact of uranium mines water treatment on the uranium and radium behaviour. |
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Stanislaw Chałupnik et al. (Central Mining Institute, Poland):
Changes of radium concentration in discharge waters from coal mines in Poland as a result of mitigation. |
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Stanislaw Chałupnik et al. (Central Mining Institute, Poland):
Radium transfer from solid into liquid phase – a theoretical approach to its behaviour in aquifers. |
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Claudia Dienemann et al. (TU Dresden, Germany):
Distribution of Ra-226 downstream a uranium mining site. |
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Mikhail Melgunov et al. (Russian Academy of Sciences,
Russia):
Uranium and its decay products in radioactive anomalies of oxidized brown coals (western part of Kansko-Achinsk brown coal basin). |
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| Environmental Behaviour of Natural Uranium Decay Products:Radon and short life daughter products |
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Amir Hasan Khan et al. (Bhabha Atomic Research Centre, India):
Assessment of Radiological Impact of Mining and Processing Low Grade Uranium Ores on the Environment and Monitoring Strategies. |
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Thomas Streil et al. (SARAD GmbH, Germany):
Continuous Measurement of geo-chemical parameters in aggressive environment. |
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Thomas Streil et al. (SARAD GmbH, Germany):
Water tight Radon / Thoron probs and monitors without influence of high humidity, air pressure and temperature.
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| Session VII: Modeling |
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| Thermodynamic data |
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Christian Götz et al. (Forschungszentrum Dresden-Rossendorf, Germany):
Thermodynamical Data of uranyl carbonate complexes from Absorption Spectroscopy. |
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| Surface complexation |
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Lakshmanan Elango (Anna University, India):
Numerical simulation of groundwater flow and particle tracking around the proposed Uranium mine site, Andhra Pradesh, India. |
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Sven Jany (Milan Flug GmbH, Germany):
Digital elevation model created by airborne laser scanning in the field of mines areas. |
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John Mahoney (MWH Americas, Inc, USA):
Assessment of Uranyl Sorption Constants – Comparison of Model Derived Constants and Updates |
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David M. Sherman (University of Bristol, United Kingdom):
Surface complexation of U(VI) by Fe and Mn (hydr)oxides |
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| Kinetically controlled reaction |
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Sergej Brandt et al. (Russian Academy of Sciences, Russia):
Differential equations of a U-Ra-Pb system accounting for a diffusion of components. |
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Mariza Franklin et al. (Brazilian Nuclear Energy Commission, Brazil):
The use of kinetic modeling as a tool in the understanding of the geochemical processes at a uranium mine site. |
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Jeannet A. Meima et al. (BGR, Germany):
Reactive transport modeling of natural attenuation processes in sulfide-bearing mine tailings. |
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Joaquin Salas et al. (AmphosXXI Consulting S.L.,
Spain):
Origin and oxidation processes of the Oklo uranium ore, Gabon.: Reactive transport modelling. |
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Borys P. Zlobenko et al. (National Academy of Sciences and Ministry for Emergency Situations of Ukraine):
Study of uranium sorption by bentonite. |
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Accepted papers