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Nuclear safety and three major accidents

Nuclear safety and three major accidents

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Nuclear reactor safety requires that three functions should be fulfilled at all times: 1) The chain reaction must be controlled and so must the power generated. 2) The fuel must be cooled during and after operation, including after the chain reaction has stopped, as residual heat remains in the reactor core caused by continued radioactive disintegrations and fissions. 3) Radioactive products must be retained and controlled. The safety philosophy relies upon two main principles: three protective barriers and so-called defence in depth. The three protective barriers are intended to contain radioactivity in all circum stances. The first barrier is the fuel, inside which most of the radioactive products are already trapped. The fuel is contained within a metal cladding (magnox, steel or zircaloy) which presents a barrier to stop the products escaping. The second barrier is the reactor coolant system, housed within a containment enclosure which includes the reactor vessel containing the core constituted by the fuel within its cladding. For the third barrier the reactor coolant system is also enclosed in a containment including a biological shield made of very thick concrete. For the European PWR now under construction in Finland, for example, this construction is a double shell resting upon a thick basemat, whose inner wall is covered with a leak-tight metal liner.

Inspec keywords: fission reactor accidents; fission reactor containment

Other keywords: protective barrier; reactor core; radioactive disintegration; nuclear accident; metal cladding; European PWR; residual heat; nuclear reactor safety; nuclear fuel; fission

Subjects: Fission reactor protection systems, safety and accidents

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