2018cover

 

Published by Japan Atomic Energy Agency

Published in January 2019

ONLINE ISSN:2188-1456

PRINT ISSN:2423-9992

 

All Pages PDF(25.23 MB)PDFアイコン

  • 1 Research and Development Related to the Accident at the TEPCO’s Fukushima Daiichi NPS
  1. 1 Research and Development Related to the Accident at the TEPCO’s Fukushima Daiichi NPS
  2. 1-1 How is Debris Distributed?
    −Evaluation of the Detailed Debris Distribution and Re-Criticality by Large-Scale Simulation−
  3. 1-2 Two Types of Insoluble Cesium Particles Emitted at the Early Stages of the Accident
    −Investigation of the Generation Process of Mainly Silicate Particles−
  4. 1-3 Chemical Reaction between Stainless Steel and Cesium
    −Estimation of the Cesium Distribution within the TEPCO’s Fukushima Daiichi NPS−
  5. 1-4 Zirconium Hinders the Oxidative Dissolution of Nuclear Fuel
    −Effect of Zirconium Incorporation in Uranium Oxide upon Inhibiting Oxidative Dissolution−
  6. 1-5 Characterization of Waste Generated by Contaminated Water Treatment
    −Analysis of Carbonate Slurry−
  7. 1-6 Safe Long-Term Storage of Secondary Wastes after Decontamination of Radioactive Water
    −Evolution of Radiolysis Studies to Support Practical Issues in the Decommissioning of 1F−
  8. 1-7 Understanding the Radioactive-Contamination Situation Inside the TEPCO’s Fukushima Daiichi NPS Building
    −Development of 3D-Visualization Technology for Radioactive Substances−
  9. 1-8 Remote Laser-Sampling Technologies
    −Development of Concrete-Sampling Technologies Using High-Power Lasers−
  10. 1-9 Development of a Robot Simulator for Nuclear Decommissioning
    −Operator-Proficiency Training and Performance Evaluation of the Robot by Simulation−
  11. 1-10 Detection of Radionuclide Depth in Soil by Aerial Radiation Monitoring
    −Technology for Estimating the Vertical Distribution of Radionuclides in Soil Based on the γ-ray Spectrum−
  12. 1-11 Highly Accurate Measurement of Radiation-Dose Distributions
    −Realization of Highly Accurate Radiological Airborne Monitoring on Rugged Terrain−
  13. 1-12 How is Radiocesium Distributed in a Town?
    −Investigation of the Radiocesium Distribution in Residential Areas−
  14. 1-13 Prediction of Radiocesium Behavior in Upstream Catchment
    −Sediment and Radiocesium-Transport Simulation during Approximately Five Years Following the 1F Accident−
  15. 1-14 Research on the Distribution of 137Cs in Seabed Sediments
    −Relationship between the 137Cs Inventory and Seafloor Topography−
  16. 1-15 Prediction of the Dispersion of Radionuclides Released into the Ocean
    −Dispersion Simulation of Radionuclides from Coastal Regions to the Open Sea−
  17. 1-16 Determining the Conditions for Effective Forest Decontamination
    −Simulation of the Effect of Reducing Air-Dose Rate by Decontamination−
  18. 1-17 Nanoscale Visualization of Cesium Adsorption to Clay Minerals
    −Chemical Mapping Using Synchrotron-Radiation-Photoemission Electron Microscopy−
  19. 1-18 Strongest Cesium-Adsorption Site on Clay Minerals
    −Numerical Simulations of Cesium Adsorption on Microscopic Surface Structures−
  20. 1-19 Becoming Familiar with Research Related to Environmental Recovery in Fukushima
    −Development of a Comprehensive-Evaluation System and Clarification of Scientific Grounds and Insights−
  • 2 Nuclear Safety Research
  • 3 Advanced Scientific Research
  • 4 Nuclear Science and Engineering Research
  • 5 Applied Neutron and Synchrotron-Radiation Research and Development
  • 6 HTGR Hydrogen and Heat Application Research
  • 7 Research and Development of Fast Reactors
  • 8 Research and Development on Fuel Reprocessing, Decommissioning, and Radioactive Waste Management
  • 9 Computational Science and E-Systems Research
  • 10 Development of Science & Technology for Nuclear Nonproliferation