Development of Legal and Practical Framework for Naturally Occurring Radioactive Materials (NORM) Management
摘要
This article examines the regulatory frameworks governing the management of Naturally Occurring Radioactive Material (NORM) and highlights the challenges industries encounter in achieving compliance with these regulations. It outlines the evolution of NORM management within the radiation protection system and addresses difficulties related to categorizing NORM as radioactive waste, which can impede recovery and disposal efforts. Through detailed analysis, it identifies fundamental principles of conventional industrial waste management and emphasizes the potential utility of existing European Union directives—such as those on general waste and waste from extractive industries—in managing NORM. The discussion provides both a rationale and a legal context, noting that what is now regarded as NORM waste was previously included in broader industrial waste streams before radioactivity concerns were raised. The article also points out inconsistencies and ambiguities in the application of these directives to NORM waste, particularly concerning waste where the exemption level is exceeded. It recommends establishing a specific waste group that encompasses all waste produced by non-nuclear industries with potentially significant concentrations of naturally occurring radionuclides. This pragmatic proposal would help distinguish waste that should not be classified as radioactive, while ensuring that, when managed under the relevant directives, additional NORM-specific restrictions are considered. The article also briefly discusses key examples to illustrate considerations unique to radioactive materials when applying treatment and disposal methods developed for conventional waste. Ultimately, it underscores the importance of integrating NORM management into the broader waste management framework to ensure consistency with environmental protection, occupational health and safety regulations, and the management of hazardous substances, thereby fostering a holistic approach that accounts for all waste properties, including radioactivity and other pollutants.