Abstract
The China initiative accelerator driven subcritical system (CiADS) has already begun to build in the city of HuiZhou in south China’s GuangDong province in the year 2018, which is expected to be finished in the year 2025. During the next 6 years, a lot of fundamental work should be seriously considered and prepared, including how to establish a better way for workers and students to understand the structure of this nuclear facility, and how to effectively train the workers and students in order to accumulate the required resources to operate the CiADS. One better way to finish such tasks is the on-the-job training in a fast spectrum reactor, which has some common physical features as CiADS. However, in most instances, this kind of experimental reactor does not exist, and it will consume much costs with little flexibility. Another important reason making this approach not appropriate is that most training courses will expose these less skilled workers or students to the radioactive environment. Considering these situations, Institute of Modern Physics, Chinese Academy of Sciences (IMPCAS) has developed an Immersive Virtual Reality Platform (IVRP) to help the workers in IMPCAS and the students in the University of Chinese Academy of Sciences (UCAS) to better understand the project of CiADS. Although this special training system cost less to produce, it includes a lot of free combination elements and physical data, which are benefit for teachers to define different courses for their students by means of the attractive features provided by the IVRP.
