{"title":"Building management and effect evaluation of high radon in geothermal field","authors":"Zhang Qingzhao, Cui Hongxing, S. Bing, Wu Yunyun","doi":"10.13491/J.ISSN.1004-714X.2021.02.011","DOIUrl":null,"url":null,"abstract":"Objective To explore the source and control of radon in high radon houses in geothermal fields;\n Methods Radon concentration in indoor and soil was measured by ATD detector in winter and\n summer; radionuclides in building materials were measured by gamma-ray spectrometry;\n radionuclides dose rates of building materials were measured by 6150 A D/6H X-γ ray\n detector; and radon reduction technology was applied to one of the houses;\n Results The average radon concentrations in 32 rooms were (106.4 ± 63.7) Bq/m\n 3 (summer) and (421.3 ± 138.2) Bq/m\n 3 (winter), and the concentrations in 12.5% (summer) and 96.9% (winter) of the rooms\n exceed 150 Bq/m\n 3. The average radon concentration in soil around buildings was 12 890 Bq/m\n 3 (\n n = 24), which is 1.7 times of the typical soil radon concentration in Beijing (7 600\n Bq/m\n 3). After soil decompression, the radon concentration in the house could be reduced\n to less than 100 Bq/m\n 3. The radon reduction rates of active decompression and passive decompression were\n 94.6% and 71.4%, respectively.\n Conclusion The effect of soil decompression on reducing radon concentration in the bottom rooms\n is obvious. Attention should be paid to the radon in residential environment of geothermal\n field.\n 摘要: 目的 探讨地热田高氡房屋氡的来源与治理。\n 方法 α 径迹探测器 (ATD) 分冬夏两个季节测量室内和土壤中 的氡浓度。采用 γ 能谱法测量房屋主体建材放射性核素含量;采用 6150 A D/6H X-γ 剂量率仪测量房屋主体建材的外\n 照射剂量率;对其中一栋房屋实施土壤减压技术的降氡改造。\n 结果 夏冬季 32 个房间氡浓度均值分别为 (106.4 ± 63.7) Bq/m\n 3 和 (421.3 ± 138.2) Bq/m\n 3, 分别有 12.5% 和 96.9% 的房间超过 150 Bq/m\n 3。建筑物周围土壤氡浓度均值为 12890 Bq/m\n 3 (检测点 n = 24), 是北京市土壤氡浓度典型值 (7 600 Bq/m\n 3) 的 1.7 倍。实施土壤减压改造后冬夏季房屋中 氡浓度均可降至 < 100 Bq/m\n 3, 主动减压法降氡率为 94.6%, 被动减压法降氡率为 71.4%。\n 结论 土壤减压法对降低底 层房间氡浓度效果明显, 地热田居住环境中氡的问题应引起关注。","PeriodicalId":58844,"journal":{"name":"中国辐射卫生","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"中国辐射卫生","FirstCategoryId":"1087","ListUrlMain":"https://doi.org/10.13491/J.ISSN.1004-714X.2021.02.011","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Objective To explore the source and control of radon in high radon houses in geothermal fields;
Methods Radon concentration in indoor and soil was measured by ATD detector in winter and
summer; radionuclides in building materials were measured by gamma-ray spectrometry;
radionuclides dose rates of building materials were measured by 6150 A D/6H X-γ ray
detector; and radon reduction technology was applied to one of the houses;
Results The average radon concentrations in 32 rooms were (106.4 ± 63.7) Bq/m
3 (summer) and (421.3 ± 138.2) Bq/m
3 (winter), and the concentrations in 12.5% (summer) and 96.9% (winter) of the rooms
exceed 150 Bq/m
3. The average radon concentration in soil around buildings was 12 890 Bq/m
3 (
n = 24), which is 1.7 times of the typical soil radon concentration in Beijing (7 600
Bq/m
3). After soil decompression, the radon concentration in the house could be reduced
to less than 100 Bq/m
3. The radon reduction rates of active decompression and passive decompression were
94.6% and 71.4%, respectively.
Conclusion The effect of soil decompression on reducing radon concentration in the bottom rooms
is obvious. Attention should be paid to the radon in residential environment of geothermal
field.
摘要: 目的 探讨地热田高氡房屋氡的来源与治理。
方法 α 径迹探测器 (ATD) 分冬夏两个季节测量室内和土壤中 的氡浓度。采用 γ 能谱法测量房屋主体建材放射性核素含量;采用 6150 A D/6H X-γ 剂量率仪测量房屋主体建材的外
照射剂量率;对其中一栋房屋实施土壤减压技术的降氡改造。
结果 夏冬季 32 个房间氡浓度均值分别为 (106.4 ± 63.7) Bq/m
3 和 (421.3 ± 138.2) Bq/m
3, 分别有 12.5% 和 96.9% 的房间超过 150 Bq/m
3。建筑物周围土壤氡浓度均值为 12890 Bq/m
3 (检测点 n = 24), 是北京市土壤氡浓度典型值 (7 600 Bq/m
3) 的 1.7 倍。实施土壤减压改造后冬夏季房屋中 氡浓度均可降至 < 100 Bq/m
3, 主动减压法降氡率为 94.6%, 被动减压法降氡率为 71.4%。
结论 土壤减压法对降低底 层房间氡浓度效果明显, 地热田居住环境中氡的问题应引起关注。
期刊介绍:
Chinese Journal of Radiological Health is one of the Source Journals for Chinese Scientific and Technical Papers and Citations and belongs to the series published by Chinese Preventive Medicine Association (CPMA). It is a national academic journal supervised by National Health Commission of the People’s Republic of China and co-sponsored by Institute of Radiation Medicine, Shandong Academy of Medical Sciences and CPMA, and is a professional academic journal publishing research findings and management experience in the field of radiological health, issued to the public in China and abroad. Under the guidance of the Communist Party of China and the national press and publication policies, the Journal actively publicizes the guidelines and policies of the Party and the state on health work, promotes the implementation of relevant laws, regulations and standards, and timely reports new achievements, new information, new methods and new products in the specialty, with the aim of organizing and promoting the academic communication of radiological health in China and improving the academic level of the specialty, and for the purpose of protecting the health of radiation workers and the public while promoting the extensive use of radioisotopes and radiation devices in the national economy. The main columns include Original Articles, Expert Comments, Experience Exchange, Standards and Guidelines, and Review Articles.
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