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我国不同类型地下工程中的氡水平 被引量:8

RADON LEVELS IN DIFFERENT TYPES OF UNDERGROUND BUILDINGS IN CHINA
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摘要 为了解我国地下工程内氡的浓度水平及其可能对人体产生的危害,采用核固体径迹法,在不同季节对全国23个城市的234个地下工程测点的氡浓度进行了测量。根据工程的建筑类型及用途的不同,将所有被测工程分为坑道、干道(包括掘进式地道工程)、地下室(高层建筑地下室和掘开式工程)和停车场四类,各类工程的氡浓度平均值分别为327、619、96.9、59.1 Bq.m-3。对于不同山体岩性的坑道,氡浓度值由高到低的顺序是花岗岩>凝灰岩>石英砂岩>石灰岩>安山玢岩。比较各类工程不同季节的氡浓度,得出,停车场氡浓度季节变化不大,其它三类工程都有氡浓度夏季明显高于冬季的特点,而且通风差的未使用的坑道和干道比使用中的同类工程具有相对高的氡浓度夏/冬比值。 For surveying the radon and its radiation to people in underground buildings in China, using solid state nuclear detectors, a survey of the air radon levels in 234 underground buildings in 23 cities of China was carried out during spring, as well as in summer and winter. Studied underground buildings were classified to four types in building style: saps, tunnels, basements and parking garages. The radon concentrations in saps, tunnels, basements and parking garages are 327, 619, 96.9, 59. 1 Bq · m^-3 , respectively. For saps with different geological formation rocks. The sequence of rocks in the saps in which radon concentrations vary from high to low is: granite〉 tuff 〉 quartz sandstone ~〉 limestone 〉 andesitic porphyry. There is no clear radon variation in garages, while in saps, tunnels and basements, radon concentrations in summer are higher than those in winter. Saps and tunnels have higher summer/winter ratios, higher in closed underground buildings than in unclosed under ground buildings.
出处 《地球与环境》 CAS CSCD 北大核心 2006年第4期61-65,共5页 Earth and Environment
关键词 地下工程 分类 季节变化 underground building classification seasonal variation radon concentration
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参考文献14

  • 1United nations Scientific Committee on the Effects of Atomic Radiation. Ionizing radiation Sources,effcts and risks of ionizing radiation[R]. New York.report to the General Assembly with annexes, 1988.
  • 2忻尚杰.人防地下工程平时使用内部环境氧防护标准探析[A].首届全国人防工程内部环境与设备学术研讨会论文集[C].1994;22—25
  • 3魏文一,柴爱民.某军事作业坑道内空气中氡浓度水平调查[J].职业与健康,2004,20(2):22-23. 被引量:4
  • 4GB/T14582—93.环境空气中氧的标准测量方法[S].
  • 5GB/T17216—1998.人防工程平时使用环境卫生标准[S].[S].,..
  • 6王武安.氡子体与氡的平衡比(F值)确定方法[J].铀矿冶,1994,13(2):126-129. 被引量:2
  • 7Chibowski S, Komosa A. Radon concentration in basements of old town buildingsin the Lublin region, Poland[J]. Journal of Radioanalytical and Nuclear Chemistry, 2001, 247; 53-56
  • 8李彬,林玉石,徐胜友.桂、湘某些岩溶洞穴氡及其子体分布特征的初步研究[J].中国岩溶,1995,14(4):345-351. 被引量:13
  • 9Perrier Frederic, Riehon Patrick, Crouzeix Catherine, et al. Radon-222 signatures of natural ventilation regimes in an underground quarry[J]. Journal of Environmental Radioactivity, 2004, 71:17-32
  • 10Muramatsu H, Tashiro Y, Hasegawa N, et al, Seasonal variations of^222 Rn concentrations in the air of a tunnel located in Nagano city[J]. Journal of Environmental Radioactivity, 2002, 60:263--274

二级参考文献2

  • 1.GB/T 16146-1995.地下空间氡及其子体的控制标准[S].,..
  • 2李素云 译.国际放射防护委员会第65号出版物.住宅和工作场所氡-222的防护[M].北京:原子能出版社,1997.9.

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