An activity concentration-based proposal for radon management in workplaces involving NORM in Canada.

IF 1.5 4区环境科学与生态学 Q3 BIOLOGY Radiation and Environmental Biophysics Pub Date : 2024-12-18 DOI:10.1007/s00411-024-01100-4

Jing Chen, Debora Quayle

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Abstract

The Canadian Guidelines for the Management of Naturally Occurring Radioactive Materials (NORM) have been developed to manage radiation doses received in workplaces involving NORM, such as mineral extraction and processing, oil and gas production, metal recycling or water treatment facilities. This management strategy works well for most naturally occurring radioactive materials in workplaces, with the exception of radon. Radon is a naturally occurring radioactive gas generated by the decay of uranium-bearing minerals in rocks and soils. Because radon exists everywhere in varying concentrations, it is not feasible to use incremental radon generated or enhanced by a practice as a means for assessing the need for radon management programs. Drawing from lessons learned through implementing the current NORM Guidelines, we propose decoupling the decision thresholds for NORM management (excluding radon) and radon management so that the two are considered separately, and quantifying decision-points for managing occupational radon exposure as average annual activity concentrations, with no requirement for dose calculations. Proposed application of this approach in the updated Canadian NORM Guidelines is described.

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一项基于活动浓度的工作场所氡管理建议，涉及加拿大NORM。

制定《加拿大自然发生放射性物质管理准则》是为了管理涉及自然发生放射性物质的工作场所，如矿物开采和加工、石油和天然气生产、金属回收或水处理设施所受到的辐射剂量。这一管理策略对工作场所大多数自然产生的放射性物质有效，但氡除外。氡是一种天然存在的放射性气体，由岩石和土壤中含铀矿物的衰变产生。由于氡以不同浓度存在于任何地方，因此用一种做法产生或增加的氡增量作为评估氡管理方案需求的手段是不可行的。根据实施现行规范准则所获得的经验教训，我们建议将规范管理（不包括氡）和氡管理的决策阈值脱钩，以便将两者分开考虑，并将管理职业氡暴露的决策点量化为平均年活动浓度，而不要求进行剂量计算。在更新的加拿大规范指南中描述了该方法的拟议应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Radiation and Environmental Biophysics 环境科学-核医学

CiteScore

4.00

自引率

5.90%

发文量

审稿时长

>36 weeks

期刊介绍： This journal is devoted to fundamental and applied issues in radiation research and biophysics. The topics may include: Biophysics of ionizing radiation: radiation physics and chemistry, radiation dosimetry, radiobiology, radioecology, biophysical foundations of medical applications of radiation, and radiation protection. Biological effects of radiation: experimental or theoretical work on molecular or cellular effects; relevance of biological effects for risk assessment; biological effects of medical applications of radiation; relevance of radiation for biosphere and in space; modelling of ecosystems; modelling of transport processes of substances in biotic systems. Risk assessment: epidemiological studies of cancer and non-cancer effects; quantification of risk including exposures to radiation and confounding factors Contributions to these topics may include theoretical-mathematical and experimental material, as well as description of new techniques relevant for the study of these issues. They can range from complex radiobiological phenomena to issues in health physics and environmental protection.