Natural background radiation

Y. Sivintsev
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引用次数: 4

Abstract

ConclusionsThe data presented show that the yearly background dose equals on the average about 2 mSv (200 mrem). Two thirds of the dose is attributable to internal radiation from natural radionuclides—primarily the decay products of radon and thoron, entering the human body with inhaled air. The external irradiation is due approximately equally to cosmic radiation and natural γ emitters such as40K and radionuclides of the thorium and uranium series.Comparison with doses owing to the use of artificial radionuclide and other sources of ionizing radiation (Fig. 5) indicates that their contribution is insignificant. Amongst them diagnostic use of radiation (0.4 mSv) still predominates. The dose owing to nuclear tests in the atmosphere, which in 1963 reached approximately 7% of the average yearly dose owing to natural sources, is now less than 1%. The contribution of nuclear power in the first half of the 1980s did not reach 0.1% and, if forecasts of the growth of nuclear power are realized, by the year 2000 it will not exceed 1% of the background dose.Judging from reports by Soviet experts [7–9], the accident at the Chernobyl nuclear power plant will increase insignificantly the collective dose to the population of the European part of the USSR and will not affect the validity of the last conclusion: the dose due to nuclear power up to year 2000 will not exceed 1% of the background dose.
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自然本底辐射
结论所提供的资料表明,年本底剂量平均约为2毫西弗(200毫雷姆)。三分之二的剂量可归因于天然放射性核素的内部辐射,主要是氡和钍的衰变产物,随着吸入的空气进入人体。宇宙辐射和天然γ辐射源(如40k和钍和铀系列的放射性核素)产生的外部辐射大致相等。与使用人工放射性核素和其他电离辐射源造成的剂量相比(图5)表明,它们的贡献微不足道。其中,诊断性使用辐射(0.4毫西弗)仍占主导地位。1963年大气中核试验造成的剂量约占自然源造成的年平均剂量的7%,而现在不到1%。20世纪80年代前半期,核电的贡献没有达到0.1%,如果实现对核电增长的预测,到2000年,它将不会超过本底剂量的1%。从苏联专家的报告来看[7-9],切尔诺贝利核电站事故不会显著增加苏联欧洲部分人口的集体剂量,也不会影响最后结论的有效性:到2000年,核电引起的剂量不会超过本底剂量的1%。
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