REFERENCES
- Wildung , K. , McFadden , M. and Garland , T. R. 1979 . J. Environ. Qual. , 8 : 156
- Marrus , A. J. , Gillian , T. M. and Dole , L. R. 1988 . Review of EPA DOE and NRC Regulations on Establishing Solid Waste Performance Criteria Oak Ridge, Tennessee Report ORNL/TM-9322; U.S. Department of Energy:
- Marsh , S. F. , Svitra , Z. V. and Bowen , S. M. 1994a . Distributions of 14 Elements on 63 Absorbers from Three Simulant Solutions(Acid-Dissolved Sludge Acidified Supernate and Alkaline Supernate)for Hanford HLW Tank 102-SY New Mexico Report LA-12654; Los Alamos National Laboratory: Los Alamos
- Marsh , S. F. , Svitra , Z. V. and Bowen , S. M. 1994b . Distributions of 15 Elements on 58 Absorbers from Simulated Hanford Double-Hell Slurry Feed(DSSF) New Mexico Report LA-12863; Los Alamos National Laboratory: Los Alamos
- Marsh , S. F. , Svitra , Z. V. and Bowen , S. M. 1994c . Distributions of 12 Elements on 64 Absorbers from Simulated Hanford Neutralized Current Acid Waste(NCWA) Report LA-12889; Los Alamos National Laboratory: Los Alamos, New Mexico
- Marsh , S. F. , Svitra , Z. V. and Bowen , S. M. 1995 . Effects of Aqueous-Soluble Organic Compounds on the Removal of Selected Radionuclides from High-Level Waste New Mexico Report LA-12863; Los Alamos National Laboratory: Los Alamos
- Schroeder , N. C. , Radzinski , S. D. , Ashely , K. R. , Ball , J. R. , Stanmore , F. and Whitener , G. 1995a . Technetium Partitioning for the Hanford Tank Waste Remediation System: Sorption of Technetium from DSSF and DSSF-7 Waste Simulant Using Reilex-HPQ Resin New Mexico Report LA-UR-95-40; Los Alamos National Laboratory: Los Alamos
- Blanchard , D. L. , Brown , G. N. , Contradson , S. D. , Fadeff , S. K. , Golcar , G. R. , Hess , N. J. , Klinger , G. S. and Kurath , D. E. 1997 . Technetium in Alkaline High-Salt Radioactive Tank Waste Supernate:Preliminary Characterization and Removal Washington Report PNNL-11386; Pacific Northwest National Laboratory: Richland
- Ashley , K. R. , Whitener , G. D. , Ball , J. R. , Radzinski , S. D. and Schroeder , N. C. 1998 . Solvent Extr. Ion Exch. , 16 : 843
- Ashley , K. R. , Whitener , G. D. , Schroeder , N. C. , Ball , J. R. and Radzinski , S. D. 1999 . Solvent Extr. Ion Exch. , 17 : 1543
- McCabe , D. J. , Hassan , N. M. , King , W. D. and Hamm , L. L. Comprehensive Scale-Testing of the Ion Exchange Removal of Cesium and Technetium from Hanford Tank Wastes. Proceedings of the Waste Management 2001 . Tucson, Arizona
- Bonnesen , P. V. , Moyer , B. A. , Presley , D. J. , Armstrong , V. S. , Haverlock , T. J. , Counce , R. M. and Sachleben , R. A. 1996 . Alkaline-Side Extraction of Technetium from Tank Waste Using Crown Ethers and Other ExtractantsReport ORNL/TM-13241; U.S. Department of Energy: , Oak Ridge Tennessee
- Bonnesen , P. V. , Moyer , B. A. , Haverlock , T. J. , Armstrong , V. S. and Sachleben , R. A. 1996 . “ Removal of Technetium from Alkaline Waste Media by a New Solvent Extraction Process. ” . In Emerging Technologies in Hazardous Waste Management VI Edited by: William Tedder , D. and Pohland , F. G. 245 – 262 . Annapolis, Maryland : American Academy of Environmental Engineers: .
- Jalhoom , M. G. 1986 . J. Radioanal. Nucl. Chem. , 104 : 131