1 Radioactive substance traffic The regulations divide the dangerous goods liable to be transported into nine “classes” according to the nature of the corresponding risk (for example: explosive, toxic, flammable materials, etc.). Class 7 covers radioactive substances. The transport of radioactive substances stands out owing to its considerable diversity. Packages of radioactive substances can weigh from a few hundred grams up to more than a hundred tons and the radiological activity of their content can range from a few thousand becquerels to billions of billions of becquerels for the packages of spent nuclear fuel. The safety implications are also extremely varied. The vast majority of packages have limited individual safety implications, but for a small percentage of them, the potential safety consequences are very high. About 770,000 consignments of radioactive substances are transported each year in France. This represents about 980,000 packages of radioactive substances, or just a few percent of the total number of dangerous goods packages transported each year in France. The vast majority of shipments are made by road, but some also take place by rail, by sea and by air (see Table 1). These shipments concern three activity sectors: the non-nuclear industry, medical sector and nuclear industry (see Graph 1). Most of the packages transported are intended for the non-nuclear industry, or for research: this mainly involves devices containing radioactive sources which are not used in a single location and which therefore need to be transported with considerable frequency. For example, these could be devices for detecting lead in paint, used for real estate sale diagnostics, or gamma radiography devices used to detect defects in materials. Travel to and from the various worksites explains the very large number of shipments for the non-nuclear industry. The safety issues vary considerably: the radioactive source contained in lead detectors has very low radiological activity, while that contained in gamma radiography devices has a far higher activity. About one third of the packages transported are used in the medical sector: this involves providing health care centres with radioactive sources, for example sealed sources used in radiotherapy, or radiopharmaceutical products, and removing the corresponding radioactive waste. The activity of radiopharmaceutical products decays rapidly (for example, the radioactive half-life of fluorine-18 is close to two hours). Consequently, these products have to be regularly transported to the nuclear medicine units, creating a large number of shipments, which have to be carried out correctly to ensure the continuity of the health care given. Most of these products have low activity levels, although a small proportion of them, such as the sources used in radiotherapy or the irradiated sources used to produce technetium (used in medical imaging) have significant safety implications. Finally, 12% of the packages transported in France are for the nuclear industry. This represents about 19,000 shipments annually, involving 114,000 packages. These shipments are required to ensure the working of the “fuel cycle”, owing to the distribution of the various facilities and Nuclear Power Plants (NPPs) around the country (see map below). Depending on the step in the “cycle”, the physicochemical form and radiological activity of the substances varies widely. The transport operations with very high safety implications are notably the shipments of uranium hexafluoride (UF6) whether or not enriched (dangerous more specifically owing to the toxic and corrosive properties of the hydrogen fluoride formed by UF6 in contact with water), the spent fuel shipments to the La Hague reprocessing plant and the transport of certain nuclear wastes. The annual transports linked to the nuclear industry can be broken down approximately as follows: ∙ 200 shipments transporting spent fuel from the NPPs operated by EDF to the Orano reprocessing plant at La Hague; ∙ about 100 shipments of plutonium in oxide form between the La Hague reprocessing plant and the Melox fuel production plant in the Gard département; ∙ 250 shipments of UF6 used for fuel fabrication; ∙ 400 shipments of fresh uranium-based fuel and some fifty shipments of fresh uranium and plutonium-based “MOX” (Mixed OXides) fuel; GRAPH Proportion of packages transported per field of activity in % 1 0 10 20 30 40 50 60 Non-nuclear industry and research Medical Nuclear industry The transport of radioactive substances is a specific sector of dangerous goods transport characterised by the risks associated with radioactivity. The radioactive substance transports being regulated cover a wide range of activities in the industrial, medical and research sectors. This is based on strict international regulations. 09 272 ASN Report on the state of nuclear safety and radiation protection in France in 2023 • 09 • Transport of radioactive substances
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