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The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. Brass, L. 1998. Foster Wheeler discusses project. Oak Ridge, Tenn.: The Oak Ridger. October 15. Brewer, K. N., R. S. Herbst, T. J. Tranter, A. L. Olson, T. A. Todd, I. D. Goodwin, and C. W. Lundholm. 1995. Dissolution of two NWCF calcines: extent of dissolution and characterization of undissolved solids. Idaho National Engineering Laboratory (INEL-95/0098; February). Idaho Falls, Idaho: U.S. Department of Energy/Lockheed Martin Idaho Technologies Company. Brewer, K. N., T. A. Todd, A. L. Olson, D. J. Wood, V. M. Gelis, E. A. Kozlitin, and V. V. Milyutin. 1996. Cesium removal from radioactive idaho chemical processing plant acidic waste with potassium copper hexacyanoferrate (INEL-96/0356; November). Idaho Falls, Idaho: U.S. Department of Energy/Lockheed Martin Idaho Technologies Company. Brewer, K. N., R. D. Tillotson, P. A. Tullock, T. G. Gain, R. S. Herbst, J. D. Law, T. A. Todd, and A. L. Olson. 1997. Elimination of Phosphate and Zirconium in the High-Activity Fraction Resulting from TRUEX Partitioning of ICPP Zirconium Calcines. Idaho National Engineering Laboratory (INEEL/EXT-97-00836; July). Idaho Falls, Idaho: U.S. Department of Energy/Lockheed Martin Idaho Technologies Company. Brewer, K. N., A. L. Olson, W. S. Roesener, and J. L. Tonso. 1997. Experimental results of calcine dissolution studies performed during FY-94, 95 (INEL-97-01192; September). Idaho Fails, Idaho: U.S. Department of Energy/Lockheed Martin Idaho Technologies Company. Brotzman J. R. 1978. Vitrification of high-level alumina nuclear waste. P. 215 in Scientific Basis for Nuclear Waste Management II, C. J. M. Northrup, Jr., ed. New York: Plenum Press. Brownell, L. E., C. H. Kindle, and T. L. Theis. 1973. Review of Literature Pertinent to the Aqueous Conversion of Radionuclides to Insoluble Silicates with Selected References and Bibliography (Revised) (ARH-2731 REV; December). Richland, Wash.: U.S. Atomic Energy Commission. Campbell, D. O., and D. D. Lee. 1991. Treatment Options and Flowsheets for ORNL Low-Level Liquid Waste Supernate (December-ORNL/TM-11800). Oak Ridge, Term.: Oak Ridge National Laboratory. Campbell, D. O., D. D. Lee, and T. A. Dillow. 1991. Development Studies for the Treatment of ORNL Low-Level Liquid Waste (November-ORNL/TM-11798). Oak Ridge, Tenn.: Oak Ridge National Laboratory. Chen, F., and D. E. Day. 1999. Corrosion of Selected Refractories by Iron Phosphate Melts, Ceramic Transactions 93:213-218. Childs, K. F., R. I. Donovan, and M. C. Swenson. 1982. The ninth processing campaign in the waste calcining facility. (DE-AC07-79IDO1675; April). Idaho Falls, Idaho: U.S. Department of Energy. Cochran, J. R. 1997. Letter (March 20) to Darryl Siemer of LMITCO, regarding Cementitious High-Level Waste and 40 CFR 268.40. Albuquerque, N. Mex.: Sandia National Laboratories. U.S. Department of Energy. Cochran, J., B. Crowe, and F. DiSanza. 1999. Intermediate depth burial of classified transuranic wastes in arid alluvium (abstract). Albuquerque, N.Mex.: Sandia National Laboratories. Cole, H. S., and E. L. Colton. 1982. Comparison of candidate glasses to vitrify ICPP calcined alumina waste. Transactions of the American Nuclear Society 43:109-110. Dafoe, R. E., and S. J. Losinski. 1998. Direct Cementitious Waste Option Study Report INEEL/EXT-97-01399; February). Idaho Fails, Idaho: U.S. Department of Energy/Lockheed Martin Idaho Technologies Company.
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