<Lecture-1>Configuration and Features of Reactor Plant
<Lecture-2> Nuclear Safety Culture
<Lecture-3>Basic Concept of NPP Safety
<Lecture-4>Safety Deasign Principle of NPP
<Lecture-5>Reactivity and Reactor Control
<Lecture-6>Process from Site Selection to Construction of NPP
<Lecture-7>Quality Assurance
<Lecture-8>Emergency Preparedness and Response
<Lecture-9>Sustaining of Energy and Meaning of FBR Fuel Cycle
<Lecture-10>Property of Reactor Coolant(Sodium)
<Lecture-11>Safety Measures for NPP (FBR)
<Lecture-12>Development of New Concept for Plant Safety Technology
<Lecture-13>Safety Evaluation of Reactor Plants
<Lecture-14>Seismic Design of Reactor Plant
<Lecture-15>Japanese Fitness Code for Reactor Plant Service
<Lecture-16>In-Service Inspection (ISI) Technology (incl. observation of ISI equipment)
<Lecture-17>Case Study of Nuclear Events in Japanese NPP
<Lecture-18>Human Factors in NPP Accidents
<Ste Tour-1>Prototype Fast Breeder Reactor, Monju
<Ste Tour-2>Nuclear Emergency ResponseOperations Facility
<Ste Tour-3>Fukui prefecture EnvironmentalRadiation Research andMonitoring Center
<Ste Tour-4>Tsuruga Power Station
<Ste Tour-5>NPP Maintenance Training Center
<Ste Tour-6>Ohi Power Station
<Ste Tour-7>Mihama Power Station
<Ste Tour-8>Nuclear Power Training Center
<Ste Tour-9>Wakasa Wan Energy Research Center
<Ste Tour-10>JAEA Fugen Decommissioning Engineering Center
<Practice-1.1> General Description of the UTR-KINKI Reactor
<Practice-1.2> Reactor Operation and ReactivityMeasurement
<Practice-1.3> Neutron Radiography
<Practice-2>Safe Handling of Reactor Colant(Sodium)
<Practice-3>Monju Operator Training Simulator (Lecture)
<Practice-4>Non-Destructive Test Technology (PT, RT, UT)