FY 2020 R&D Report
Summary of the FY 2020 R&D report conducted by IRID has been released.
* Click on the title to open the PDF files.
R&D on fuel debris retrieval
- Development of technology for detailed investigation inside the primary containment vessel (on-site demonstration for detailed investigation inside PCV through X-6 penetration)
- Development of Technology for Containing, Transfer and Storage of Fuel Debris
- Development of Technology for Gradually Increasing Retrieval Scale of Fuel Debris
- Development of Technology for Detailed Investigation inside Primary Containment Vessel(On-site Demonstration of Technology for Detailed Investigation Considering Deposit Measures)
- Development of Technology for Investigation inside Reactor Pressure Vessel (RPV)
- Development of Analysis and Estimation Technology for Fuel Debris Characterization
- Development of Technology for Further Increasing the Scale of Retrieval of Fuel Debris and Reactor Internal Structures(Technological development related to ensuring safety during fuel debris retrieval)
- Development of technology for further increasing the scale of retrieval of fuel debris and reactor internals (Development of technology for dust collection system of fuel debris)
R&D for Disposal and Treatment of Radioactive Waste
- Research and Development
- Released research report
- FY 2020 R&D Report
- FY 2019 R&D Report
- FY 2018 R&D Report
- FY 2017 R&D Report
- Introduction Research
- Survey Device (Shape-changing Robot) Deployed to Inspect Interior of Primary Containment Vessel (PCV)
- Work Training of Device (Shape-changing Robot) to Inspect Interior of Primary Containment Vessel (PCV) [Hitachi-GE Nuclear Energy]
- Development status of equipment for internal PCV investigation [TOSHIBA]
- Robots working inside the buildings at Fukushima Daiichi NPS (Part III) Swimming robot & Crawling robot
- Robots working inside the buildings at Fukushima Daiichi NPS (Part II) MHI-MEISTeR
- Robots working inside the buildings at Fukushima Daiichi NPS Rosemary & Sakura
- Development Status of PCV Leakage Investigation Devices (Toshiba)
- Preliminary Test for “Water Stoppage Method” by Grouting into the Vent Pipe