使用外加剂和添加剂降低混凝土中的氡气

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Nordic Concrete Research Pub Date : 2018-06-01 DOI:10.2478/ncr-2018-0002

M. Döse, J. Silfwerbrand

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引用次数: 2

摘要

肺癌的第二大原因与我们环境中的氡(222Rn)及其子代有关。建筑材料，如混凝土，通过其成分中的238U的自然衰变，有助于产生氡气。瑞典水泥和混凝土研究所(CBI)研究了三种混凝土配方，其中仅将添加剂和粉煤灰作为单一成分添加到参考配方中，并与参考混凝土进行比较。作为一种手段，研究了添加剂和补充胶凝材料(粉煤灰)的输入对混凝土氡析出率的潜在影响。在22个月的时间里，用atmos33电离脉动室对每种配方进行了至少5次不同的测量。结果表明，每改变一个配方，呼气率降低约30- 35%。这意味着与所研究的标准混凝土相比，使用添加剂或补充胶凝材料(如粉煤灰)对人体的有效剂量每年大约减少1.5-2毫西弗。

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Reduction of Radon Gas in Concrete Using Admixtures and Additives

Abstract The second largest cause of lung cancer is related to radon (222Rn) and its progenies in our environment. Building materials, such as concrete, contribute to the production of radon gas through the natural decay of 238U from its constituents. The Swedish Cement and Concrete Research Institute (CBI) has examined three concrete recipes where only an additive as well as fly ash were added as single constituents to a reference recipe and compared to a reference concrete. The inputs of an additive as well as a supplementary cementitious material (fly ash) were made as a mean to investigate their potential influence on the radon exhalation rates of the concrete. Measurements were performed with an ATMOS 33 ionizing pulsation chamber for at least five different occasions for each recipe during a 22 month period. The results indicate a reduction of the exhalation rate by approximately 30-35 % for each altered recipe. This means roughly 1.5-2 mSv per year decrease in effective dose to a human using an additive or a supplementary cementitious material such as fly ash in relation to the investigated standard concrete.

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来源期刊

Nordic Concrete Research CONSTRUCTION & BUILDING TECHNOLOGY-

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20.00%

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