Cement-Based Materials for Nuclear Waste Storage

Chapter 1 A Summary of IAEA Coordinated Research Project on Cementitious Materials for Radioactive Waste Management

Chapter 2 R&D on Cementation of Pulp with Complex Physical and Chemical Composition Stored in Tanks at the Mining Chemical Combine

Chapter 3 Cementation in High Energy Mixer of ILW Surrogate Slurry. Demonstration of the Process at Semi-industrial Scale

Chapter 5 Application of a Sub-lattice Model to Predictions of Cement Hydrate Chemistry

Chapter 6 Characterization and Solubility Determination of the Solid-Solution Between AFm-I2 and AFm-SO4

Chapter 7 Coupling Between Leaching and Mechanical Behaviour of Concrete

Chapter 8 Coupled Mechanical and Chemo-Transport Model for the Simulation of Cementitious Materials Subjected to External Sulfate Attack

Chapter 9 Micro- and Macroscopic Investigations of Actinide Binding in Cementitious Materials

Chapter 10 A New Radionuclide Sorption Database for Benchmark Cement Accounting for Geochemical Evolution of Cement

Chapter 11 On the Determination of the Diffusion Coefficient of Ionic Species Through Porous Materials

Chapter 12 Moisture Transport Properties of Cement-Based Materials for Engineered Barriers in Radioactive Waste Disposal

Chapter 13 Simulation of Gas Hydrogen Diffusion Through Partially Water Saturated Monomodal Materials

Chapter 14 Microbial Catalysis of Redox Reactions in Concrete Cells of Nuclear Waste Repositories: A Review and Introduction

Chapter 15 Leaching of Nuclear Waste Glass in Cement Pore Water: Effect of Calcium in Solution

Chapter 16 Alternative Binders to Ordinary Portland Cement for Radwaste Solidification and Stabilization

Chapter 17 Leaching of a Simulated ZnCl2-Rich Radwaste Stabilized with Calcium Sulfoaluminate Cement: Experimental Investigation and First Attempt of Modeling

Chapter 18 Conditioning Highly Concentrated Borate Solutions with Calcium Sulfoaluminate Cement

Chapter 19 The Effect of Supplementary Pulverised Fuel Ash on Calcium Aluminate Phosphate Cement for Intermediate-Level Waste Encapsulation

Chapter 20 Rheological Behavior of Alkali-Activated Metakaolin During Geopolymerization

Chapter 21 Prediction of Long-Term Chemical Evolution of a Low-pH Cement Designed for Underground Radioactive Waste Repositories

Chapter 22 Round Robin Test for Defining an Accurate Protocol to Measure the Pore Fluid pH of Low-pH Cementitious Materials