The Nuclear and Radiation Safety Centre conducted a training course titled “Radiation Protection and the Safe Use of Radioactive Sources.” The course was attended by nine employees from the Field Experimental Laboratory of the Engineering and Technical Centre of Gazprom Armenia CJSC. The participants were introduced to key principles of radiation safety, including the safe handling of radioactive materials, radiation monitoring techniques, and the proper use of personal protective equipment. The training was specifically designed for professionals involved in the import, export, production, use, transportation, or storage of ionising radiation sources or radiation-generating devices across various sectors, including industry, agriculture, scientific research, and education. The training covered the following topics: After the course, each participant received a certificate recognising their knowledge and skills in radiation protection and the safe use of radioactive sources. NRSC continues to implement similar training initiatives aimed at enhancing professional qualifications and reinforcing radiation safety standards throughout Armenia.
Although Iran’s nuclear facilities are not located near Armenia’s borders, a large-scale incident could potentially lead to the spread of radioactive substances, depending on wind patterns and the nature of the explosions. What monitoring capabilities does Armenia have? How is radiation monitored, where and how often does it take place, and what have recent measurements shown? Are there any risks for the population? These questions are addressed by Armen Amirjanyan, Director of the Nuclear and Radiation Safety Centre; Karen Haroyan, Senior Specialist at the Radiological Laboratory; and Khachatur Khachikyan, Acting Chairman of the Nuclear Safety Regulatory Committee of the Republic of Armenia.
Following the bombings of Iran’s nuclear facilities, specialists from the Nuclear and Radiation Safety Centre promptly travelled to the Syunik province to conduct dosimetric measurements. Measurements were carried out in several communities, including Meghri, Agarak, and Kajaran. The results show that background radiation levels in the southern regions of Armenia have remained unchanged. NRSC continues to monitor the situation closely.
The Nuclear and Radiation Safety Centre is proud to announce the release of xARIS Version 1.0, a groundbreaking upgrade to the Advanced Regulatory Information System (ARIS). Completely redesigned and reimagined, xARIS retains the powerful functionalities of ARIS v2.5 while introducing an enhanced user interface and two brand-new modules: OCCUDOSE and RADEVENTS. The new interface is sleek, modern, and user-friendly, improving navigation, accessibility, and task management for regulatory body professionals Module OCCUDOSE enables real-time monitoring and advanced analysis of occupational radiation doses. It is a vital tool for tracking worker exposures and ensuring safety standards are met. Module RADEVENTS provides a structured platform for managing radiation and security-related events, enhancing reporting, documentation, and compliance tracking. xARIS builds upon user feedback to enhance existing functionalities with more customisation options, streamlined workflows, and improved data management. Six interconnected modules, RASOD, Licensee, Authorisation, Inspection, Occudose, and Radevents, work together to provide a comprehensive digital solution for regulatory operations. xAris includes flexible reporting, multilingual support, secure database backup and restore, role-based user management, and powerful statistical tools. Existing users can easily upgrade following the provided instructions or by contacting the support team. More about xARIS can be read here.
The Nuclear and Radiation Safety Centre has developed a special software tool, RAD-MAP, for the Radiation Safety Department of the Armenian Nuclear Power Plant. RAD-MAP is designed to improve the management of various operational tasks among staff and shift teams. Specifically, the application enables the management to assign tasks and define their frequency, attach relevant radiometric maps (cartograms), store task completion results, monitor progress, and generate various queries and reports. Notably, the system allows all measurement results and data to be stored in a centralised database without affecting performance, ensuring efficient and reliable data management. The implementation of RAD-MAP aims to streamline workflow and enhance coordination of the Radiation Safety Department at the Armenian Nuclear Power Plant.
