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Will Eaton

Pacific Northwest National Laboratory
PO Box 999
Richland, WA 99352
(509) 375-2888
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PNNL Publications

2023

• Dixon D.R., J.B. Lang, M.A. Hall, R.K. Brown, D.A. Cutforth, W.C. Eaton, and J. Marcial, et al. 2023. Vitrification of Hanford Tank 241-AP-105 Waste at 7 M Na and Equivalent Simulant. PNNL-34766. Richland, WA: Pacific Northwest National Laboratory. Vitrification of Hanford Tank 241-AP-105 Waste at 7 M Na and Equivalent Simulant
• Kunc J., J. Klouzek, M. VernerovÁ;, P. Cincibusova, P. Ferkl, M.A. Hall, and W.C. Eaton, et al. 2023. "Effect of feed composition on the production of off-gases during vitrification of simulated low-activity nuclear waste." Progress in Nuclear Energy 166. PNNL-SA-169448. doi:10.1016/j.pnucene.2023.104932
• Lee S., C. Burns, J. Chun, T. Jin, D. Kim, R.L. Russell, and W.C. Eaton, et al. 2023. Physical and Flow Properties of Glass-Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures. PNNL-32215 Rev 1. Richland, WA: Pacific Northwest National Laboratory. Physical and Flow Properties of Glass-Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures

2022

• Dixon D.R., A.M. Westesen, M.A. Hall, C.M. Stewart, J.B. Lang, D.A. Cutforth, and W.C. Eaton, et al. 2022. Vitrification of Hanford Tank Wastes for Condensate Recycle and Feed Composition Changeover Testing. PNNL-32344 Rev 1. Richland, WA: Pacific Northwest National Laboratory. Vitrification of Hanford Tank Wastes for Condensate Recycle and Feed Composition Changeover Testing
• Dixon D.R., J.B. Lang, M.A. Hall, C.M. Stewart, D.A. Cutforth, W.C. Eaton, and J. Marcial, et al. 2022. Vitrification of Hanford Tank 241-AP-101 Waste and Simulant. PNNL-33600. Richland, WA: Pacific Northwest National Laboratory. Vitrification of Hanford Tank 241-AP-101 Waste and Simulant
• Lee S., C. Burns, J. Chun, T. Jin, D. Kim, R.L. Russell, and W.C. Eaton, et al. 2022. Physical and Flow Properties of Glass Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures. PNNL-32215. Richland, WA: Pacific Northwest National Laboratory. doi:10.2172/1880070.Physical and Flow Properties of Glass Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures

2021

• Lee S., D.A. Cutforth, D. Mar, J. Klouzek, J. Klouzek, P. Ferkl, and D.R. Dixon, et al. 2021. "Melting rate correlation with batch properties and melter operating conditions during conversion of nuclear waste melter feeds to glasses." International Journal of Applied Glass Science 12, no. 3:398-414. PNNL-SA-155022. doi:10.1111/ijag.15911
• Wang G., M.E. Bowden, S.A. Saslow, B.J. Riley, D. Kim, W.C. Eaton, and A.A. Kruger. 2021. "Micrometer-sized Magnetite Synthesis using Fe(OH)2(s) as a Precursor for Technetium Sequestration from Liquid Nuclear Waste Streams." Journal of Nuclear Materials 552. PNNL-SA-158404. doi:10.1016/j.jnucmat.2021.152964

2019

• Lee S., P.R. Hrma, R. Pokorny, J. Klouzek, J. Klouzek, W.C. Eaton, and A.A. Kruger. 2019. "Glass production rate in electric furnaces for radioactive waste vitrification." Journal of the American Ceramic Society 102, no. 10:5828-5842. PNNL-SA-140324. doi:10.1111/jace.16463