PARENT SESSIONTA10 Microbial Remediation of Acid Mine Drainage Wastes
D135-136
8:00 AM - 12:00 PM, Tuesday
| 8:00 AM - | 297 :: Benefits and Challenges of Sulfate Reducing Reactive Barriers. Benner, S1, 1 Boise State University, Boise, ID |
FULL ABSTRACT
| 8:20 AM - | 298 :: Sustainable approach for the remediation of groundwater contaminated by heavy metals: an overview of Permeable Reactive Barriers and Zones. Vanbroekhoven, K1, Diels, L1, Gemoets, J1, Geets, J1, Vos, J1, Van Roy, S1, Dejonghe, W1, Bastiaens, L1, 1 Vito, Boeretang 200, Mol, Belgium |
FULL ABSTRACT
| 8:40 AM - | 299 :: In situ remediation of an acidic pit lake: Stimulation of microbial sulphate reduction in enclosure experiments. Geller, W1, Wendt-Potthoff, K1, Koschorreck, M1, Bozau, E1, Meier, J1, Herzsprung, P1, 1 UFZ Centre for Environmental Research, Department Lake Research, Magdeburg, Germany |
FULL ABSTRACT
| 9:00 AM - | 300 :: Multi-Test Cell Treatability Study for the Prevention of Acid Mine Drainage at the Gilt Edge Superfund Site, Lawrence County, South Dakota. Lewis, N1, Trudnowski, J2, Wangerud, K3, Fundingsland, S4, Jonas, J4, 1 USEPA, ORD, NRMRL, Cincinnati, OH, USA2 MSE, Applications, Inc., Butte, MT, USA3 USEPA, Region VIII, Denver, CO, USA4 CDM, Denver, CO, USA |
FULL ABSTRACT
| 9:20 AM - | 301 :: Toxicity of radionuclide and heavy metals to Desulfovibrio desulfuricans . Sani, R1, Peyton, B1, Dohnalkova, A2, 1 Washington State University, Pullman, Washington, USA2 Pacific Northwest National Laboratory, Richland, Washington, USA |
FULL ABSTRACT
| 9:40 AM - | :: BREAK. |
| 10:20 AM - | 302 :: Cobalt and nickel retention capacity of anaerobic granular sludge from methanol fed UASB reactors. Lens, P1, van Hullebusch, E1, Zandvoort, M1, van der Veen, A1, 1 Wageningen University, The Netherlands |
FULL ABSTRACT
| 10:40 AM - | 303 :: Removal of heavy metals through limestone precipitation: Biotic or abiotic? Wildeman, T1, Ranville, J1, 1 Colorado School of MInes, Golden, CO, USA |
FULL ABSTRACT
| 11:00 AM - | 304 :: Computer Simulator (BEST) for Designing Sulfate-Reducing Bacteria Field Bioreactors. Zaluski, M1, Park, B1, Bless, D2, 1 MSE Technology Applications, Mine Waste Technology Program, Butte, MT, USA2 US Environmental Protection Agency, Cincinnati, OH, USA |
FULL ABSTRACT
| 11:20 AM - | 305 :: A Constructed Wetlands-Bioreactor Demonstration System to Treat Acid Mine Drainage Waters. Reisman, D1, Gusek, J2, Massey, J3, 1 U. S. Environmental Protection Agency, ORD Engineering Technical Support Center, National Risk Management Research Laboratory, Cincinnati, OH, USA2 Golder Associates, Lakewood, CO, USA3 Bitterroot Restoration, Corvalis, MT, USA |
FULL ABSTRACT
| 11:40 AM - | 306 :: Use of Respirometry to Determine Metal Toxicity Through Measurement of Hydrogen Consumption by Sulfate Reducing Bacteria in the Presence of Heavy Metals. Tabak, H1, Holder, E1, Kupferle, M1, Haines, J1, 1 U.S. EPA |
FULL ABSTRACT