建筑材料与街道表面放射性排放调查

Katalin Sós, T. George, C. T. Robinson, L. Nánai
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摘要

随着污染和电子设备的磁负载前所未有地增长,环境保护变得越来越重要。放射性本底辐射没有明确的增加,但越来越受到人们的重视。越来越多的国家更加注意测量各种放射源的本底辐射水平及其照射限值。众所周知,环境中的绝大多数本底辐射来自人类建造的放射性建筑(建筑物、道路等)。重要的是要了解它的来源,演变,确定参数等。人类建筑环境的放射性是在建筑材料、建筑技术和与建筑技术有关的剂量负荷的基础上进行评估的。塞格德大学(匈牙利)尤哈什·久拉教师培训学院的一般和环境物理系进行了与本底辐射有关的放射性测量,特别是来自全伽马辐射的吸收剂量负荷。在广泛的测量中,最重要的是:来自墙壁和建筑物其他部分的辐射功率。该领域,如放射性环境的测绘。使用地图,我们不仅有放射性的实际数据,而且我们可以跟踪人类建筑环境(建筑物、街道等)对整个背景辐射的影响(Koteles, 1994)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Building Materials and the Street’s Surface Radioactive Emission
Protection of the environment is becoming more important role as pollution and magnetic loads from electronic devices are growing as never before. The radioactive background radiation does not explore explicit increase nevertheless more and more attention is paid to this. An increasing number of countries are paying more attention to measurements of the levels of background radiation from various radioactive sources and to the values of their exposure limits. It is known that the vast majority of background radiation in the enviroment comes from radioactive construction (buildings, roads, etc.) built by humans. It is important to understand its sources, evolution, determining parameters, etc. Radioactivity of the human-built environment is assessed on the basis of building materials, construction techniques, and dose-loading related to building technologies. The Department of General and Environmental Physics in the Juhasz Gyula Teacher Training College at the University of Szeged (Hungary) out radioactive measurements related to background radiation, especially the absorbed dose load from full gamma radiation. Among a wide range of measurements, the most important are: The power of radiation from walls and other parts of buildings. The field, such as radioactivity mapping of the environment. Using maps, we not only have actual data for the radioactivity, but we can follow the impact of the human-built environment (buildings, streets, etc.) on whole background radiation (Koteles, 1994).
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