Environmental issues and waste management technologies in the ceramic and nuclear industries VIII : proceedings of the Science and Technology in Addressing Environmental issues in the Ceramic Industry Symposium and the Ceramic Science and Technology for the Nuclear symposium at the 104th annual meeting of the American Ceramic Society, April 28-30, 2002, in St. Louis, Missouri

Author(s)
    • Science and Technology in Addressing Environmental Issues in the Ceramic Industry and Ceramic Science and Technology for Nuclear Industry Symposium
    • Sundaram, S. K.
    • Spearing, Dane R.
    • Vienna, John D.
Bibliographic Information

Environmental issues and waste management technologies in the ceramic and nuclear industries VIII : proceedings of the Science and Technology in Addressing Environmental issues in the Ceramic Industry Symposium and the Ceramic Science and Technology for the Nuclear symposium at the 104th annual meeting of the American Ceramic Society, April 28-30, 2002, in St. Louis, Missouri

edited by S. K. Sundaram, Dane R. Spearing, John D. Vienna

(Ceramic transactions, v. 143)

American Ceramic Society, c2003

Search this Book/Journal
Note

Includes bibliographical references and indexes

Description and Table of Contents

Description

Papers in this volume illustrate the delicate balance that exists among the environment, the processes/technologies that have been used in glass and ceramic industries, as well as the wastes - both nuclear and non-nuclear (hazardous) - that have been generated. This book helps to foster continued scientific understanding, technological growth, and environmental stewardship within the fields of ceramics, glass, and environmental/nuclear engineering. Proceedings of the symposium held at the 104th Annual Meeting of The American Ceramic Society, April 28-May1, 2002 in Missouri; Ceramic Transactions, Volume 143.

Table of Contents

  • Preface xi Recycling of Ceramics and Glasses Industrial Applications for Spent Refractory Materials 3 J.R Bennett and K.-S. Kwong Ceramic-Based Magnetic Extractants for Removal of Organics from Water 15 A. Apblett, S.M. Al-Fadul, and TM.Trad Investigation on a Recycling Process of Waste Colored Glass 23 D. Chen, H. Masui,T. Akai, and T.Yazawa Use of Mid-Delaware River Dredge Sediment as a Raw Material in Ceramic Processing 31 K. Hill and KA. Haber Sodium Extraction from Waste Glass by Acid Leaching to Obtain a Silica Source for Construction Materials 39 T. Akai, D. Chen.YYamamoto.T Shirakami, K. Urabe, K. Kuraoka, and I Yazawa Emissions in Glass and Ceramic Industries Analysis of Emissions from Nitrate Containing Glasses 49 S. Luo and LE. Jones Characterizing Particulate Emissions using Micrometer-Scale X-Ray Fluorescence 59 J.R Shackelford, RB. Kelly, S.S. Cliff, M.Jimenez-Cruz, and TA Cahill Dilatometry and Mass Spectrometry Study of the Decomposition and Sintering of Calcium Carbonate 67 K. Feng and S.J. Lombardo Lead-Free Electronics: Current and Pending Legislation 75 J.M. Schoenung First Delisting Petition Approval by the US EPA for a Vitrified Mixed Waste 83 J.B. Pickett, CM. Jantzen, and LC Martin Characterization of Defense Nuclear Waste using Hazardous Waste Guidance: Insights on the Process at Hanford 95 M. Lerchen, L Huffman, W. Hamel, and K. Wiemers Effect of Transition/Non-Transition Metal Modification on the Activity of Ga203-Al203 Catalyst for NOx Reduction by Hydrocarbon under Oxygen-Rich Conditions 105 M.H. Zahir, S. Katayama, K. Maeda, and M. Awano Vitrification Technology and Melter Disassembly COGEMA Experience in Operating and Dismantling HLW Melter 113 R. Do-Quang, J.L Desvaux, R Mougnard, A. Jouan, and C. Ladirat Conceptual Methods for Disposal of a DWPF Melter and Components 123 M.E. Smith, D.F. Bickford, F.M. Heckendom, and E.M. Kriikku Evaluation of Crystallinity Constraint for HLW Glass Processing 133 R Hrma, J. Matyas, and D.-S. Kim Ruthenium - Spinel Interaction in a Model High-Level Waste (HLW) Glass 141 TM.Willwater, J.V Crum, S.M. Goodwin, and S.K. Sundaram Glass Formulation and Testing Interim Models Developed to Predict Key Hanford Waste Glass Properties using Composition 151 J.D. Vienna, D-S. Kim, and R Hrma Relationship between Liquidus Temperature and Solubility 159 R Hrma and J.D.Vienna Glass Formulation for INEEL Sodium Bearing Waste 169 J.D.Vienna, D.-S. Kim, and D.K. Peeler Vitrification of Korean Low-Level Waste 177 LO. Nelson, P Kong, G.Anderson, K. Choi, C.-W. Kim, and S.-W Shin Phase Equilibria,Viscosity, Durability, and Raman Spectra in the System for Idaho Nuclear Waste Forms 185 S.V. Raman, B.A. Scholes, A. Erickson, and A.A. Zareba Measurement of Simulated Waste Glass Viscosity 199 R.F. Schumacher,T.B. Edwards, D.K. Peeler, and A.G. Blum Hanford Tank Waste Treatment Hanford Low-Level Waste Form Performance for Meeting Land Disposal Requirements 209 R.F. Schumacher C.L Crawford, N.E. Bibler, D.M. Ferrara, HD. Smith, G.L Smith, J.D.Vienna, DB. Blumenkranz, DJ. Swanberg, I.L. Pegg, and I.S. Muller Leaching Mechanism of Borosilicate Glasses under TCLP Conditions 215 H. Gan and I.L. Pegg Electrochemical Studies of Sulfate-Containing Waste Glass Melts 225 I.Vidensky, H. Gan, A.C. Buechele, and I.L. Pegg Durability Testing and Modeling Modeling High-Level Waste Glass Degradation in Performance Assessment Calculations 235 W.L Ebert Waste Glass Corrosion: Some Open Questions 245 P Hrma, J.D Vienna, and J.D. Yeager Vapor Phase Hydration of Glasses in H20 and D20 253 T.R. Schatz, A.C. Buechele, C.F. Mooers, RWysoczanski, and I.L Pegg Modeling Fluid Chemistry Inside a Waste Package Due to Waste Form and Waste Package Corrosion 263 V.Jain and N. Sridhar Leaching Full-Scale Fractured Glass Blocks 275 Y Minet and N. Godon Development of Sensors for Waste Package Testing and Monitoring in the Long-Term Repository Environments 283 V Jain, S. Brossia, D. Dunn, and L.Yang Corrosion of Partially Crystallized Glasses 291 R Hrma, B.J. Riley, and J.D.Vienna Ceramic and Alternative Waste Forms Development ofTitanate Ceramic Wasteforms and Crystal Chemistry of Incorporated Uranium and Plutonium 301 E.R. Vance Substitution of Zr, Mg, Al, Fe, Mn, Co, and Ni in Zirconolite, CaZrTi2Oy 313 E.R.Vance, J.V. Hanna, B.A. Hunter, B.D. Begg, D.S. Perera, H. Li, and Z.-M. Zhang Effects of Sub-Surface Damage Induced by Mechanical Polishing on Leach Testing of Cesium-Bearing Hollandite 321 M.L Carter
  • E.R. Vance, D.J. Attard, and D.R.G. Mitchell Iron Phosphate Glasses for Vitrifying Sodium Bearing Waste 329 C.-W. Kim, D. Zhu, D.E. Day, and D Gombert Phosphate Glasses for Vitrification of Waste with High Sulfur Content 337 D.-S. Kim, J.D.Vienna, R Hrma, and N. Cassingham Solubility of High-Chrome Nuclear Wastes in Iron Phosphate Glasses 347 W. Huang, C.-W. Kim, C.S. Ray, and D.E. Day Development of a Sampling Method for Qualification of a Ceramic High-Level Waste Form 355 T.R. O'Holleran and K.J. Bateman Microwave Heating for Production of a Glass Bonded Ceramic High-Level Waste Form 363 T.R. O'Holleran Morphology and Composition of Simulant Waste Loaded Polymer Composite - Phase Inversion, Encapsulation, and Durability 371 H.D. Smith, G.L Smith, G. Xia, and B.J.J. Zelinski 93Nb MAS NMR of Niobium Containing Silicotitanate Exchange Materials 377 B.R. Cherry, M. Nyman, and I M . Alam Selective Absorption of Heavy Metals and Radionuclides from Water in a Direct-to-Ceramic Process 385 B.R Kiran, A.W. Apblett, and M. Chehbouni Index 395

by "Nielsen BookData"

Related Books: 1-1 of 1
Details
  • NCID
    BA63005013
  • ISBN
    • 1574981595
  • Country Code
    us
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Westerville, Ohio
  • Pages/Volumes
    xii, 398 p.
  • Size
    24 cm
  • Parent Bibliography ID
Page Top