Main Parameters Influencing The Level Of Labile Contamination And The Removal Factor

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Pierrick Agullo, A. Gossard, G. Ranchoux, E. Porcheron, Fabrice Petitot
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引用次数: 0

Abstract

Several nuclear facilities are currently dismantling in France, namely on CEA's and EDF's sites. The whole decommissioning and dismantling, cutting operations and nuclear waste management can significantly affect worker risks. In this context, this work aims to better assess the internal exposure risks for operations where removal factor and airborne release factor play an essential part in the uncertainties. For that purpose, developing a new method for assessing the risk of internal exposure is necessary to optimize the choice of Personal Protective Equipment during nuclear dismantling. Based on a bibliographic study and feedback, we identified most of the forces and parameters that influence labile contamination removal and particles resuspension. Their high number forced us to highlight the most relevant ones regarding data from the bibliography and worksite reality. Thus, the role of the drying temperature, relative humidity, roughness of the contaminated surface and the swiping pressure were particularly studied on the assessment of the labile contamination and the removal factor. For that, we performed successive wiping operations with cotton wipes on surface on which a simulated labile contamination was deposited to estimate the influence of different parameters on the total labile contamination and the removal factor. Thus, we have highlighted the high influence of roughness on these latter compare to the other identified parameters.
影响不稳定污染水平及去除率的主要参数
目前,法国有几个核设施正在拆除,分别是东航和法国电力公司的核设施。整个退役和拆除,切割操作和核废料管理可以显著影响工人的风险。在这种情况下,本研究旨在更好地评估移除因子和空气释放因子在不确定性中起重要作用的操作的内部暴露风险。为此目的,有必要开发一种评估内部照射风险的新方法,以优化核拆除期间个人防护装备的选择。基于文献研究和反馈,我们确定了影响不稳定污染去除和颗粒再悬浮的大多数力和参数。它们的高数量迫使我们突出了与参考书目和现场实际数据最相关的数据。因此,重点研究了干燥温度、相对湿度、污染表面粗糙度和滑动压力对不稳定污染的评价和去除系数的作用。为此,我们用棉签连续擦拭模拟不稳定污染物沉积的表面,估计不同参数对不稳定污染物总量和去除系数的影响。因此,与其他已确定的参数相比,我们强调了粗糙度对后者的高影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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