Radiological protection of the public during the normal operating of the Pilot-demonstration energy complex (PDEC) and in increased total power of reactor plants in the Industrial power complex (IPC) within the framework of the Proryv Project

V. Ivanov, E. V. Spirin, S. Lovachev, A. Menyajlo, S. Chekin, V. Solomatin
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Abstract

The paper presents results of research on radiological protection of the public during normal op-eration of Pilot-demonstration energy complex (PDEC) and in increased total power of reactor plants in the Industrial power complex (IPC) based on the current national radiation safety stand-ards (NRB-99/2009), UNSCEAR conclusions and ICRP recommendations. To evaluate radiologi-cal protection of the public the concepts of radiological detriment (RD) and the level of radiation protection (LRP) were used. The concepts were also used to examine the compliance of the BREST-OD-300, fabrication/refabrication module, processing module, BR-1200 and BN-1200 re-actors, collectively called nuclear objects, with safety standards. RD and LRP were estimated with the use of data of the Russian national cancer statistics and cancer statistics of the regions, wherein nuclear objects are planned to be placed – Tomsk, Sverdlovsk, Chelyabinsk. For the public residing nearby the nuclear objects the estimated LRP and RD meet NRB-99/2009 re-quirements concerning the restriction of radiation risk at the level of 10Е-5 from potential irradiation during a year. For the public of the critical group (girls younger than 5 years of age), residing nearby the PDEC and the nuclear objects the negligible risk of 10Е-6 can be achievable if annual radiation doses of 3H, for BREST-OD-300, reduce by 80%, and of annual doses of Cs-137, for the processing module reduce by 75%. The negligible risk for the public can be achieved if annual radiation doses of H-3 for BREST-OD-300 reduce by 10% and annual radiation doses of Cs-137 for processing module reduce by 5%. Projected radiation risk value for the public residing nearby BN-1200 and BR-1200 or nearby the IPC with two BR-1200 facilities will be much lower than the level of the negligible risk of 10Е-6. The RD calculated with ICRP methodology, serves as confirmation of the need to improve efficiency in cancer care in Tomsk region in order the regional RD to be at the national level. Because the high level of radiological protection of the public during the normal operation of the fabrication/refabrication module, its further operation when establishing IPC based on BR-1200 is feasible.
在普罗里夫项目框架内,试点示范能源综合体(PDEC)正常运行期间和工业电力综合体(IPC)反应堆工厂总功率增加期间对公众的辐射防护
本文介绍了在现行国家辐射安全标准(NRB-99/2009)、UNSCEAR结论和ICRP建议的基础上,对中试示范能源综合体(PDEC)正常运行期间和工业电力综合体(IPC)反应堆装置总功率增加期间公众辐射防护的研究结果。为了评价公众的辐射防护,采用了辐射危害(RD)和辐射防护水平(LRP)的概念。这些概念还用于检查BREST-OD-300、制造/再制造模块、处理模块、BR-1200和BN-1200反应堆(统称为核物体)是否符合安全标准。RD和LRP是根据俄罗斯国家癌症统计数据和计划放置核物体的地区(托木斯克、斯维尔德洛夫斯克、车里雅宾斯克)的癌症统计数据估计的。对于居住在核物体附近的公众,估计的LRP和RD符合NRB-99/2009关于一年内潜在辐射风险限制在10Е-5水平的要求。对于居住在PDEC和核物体附近的临界群体公众(5岁以下女孩),如果BREST-OD-300的年辐射剂量减少80%,处理模块的年辐射剂量减少75%,则可以实现可忽略不计的10Е-6风险。如果BREST-OD-300的H-3年辐射剂量减少10%,加工模块的Cs-137年辐射剂量减少5%,对公众的危害可以忽略不计。居住在BN-1200和BR-1200附近或在IPC附近有两个BR-1200设施的公众的预计辐射风险值将远低于10Е-6的可忽略风险水平。用ICRP方法计算的RD确认了提高托木斯克地区癌症治疗效率的必要性,以便使区域RD达到国家一级。由于制造/再制造模块在正常运行期间对公众的辐射防护水平很高,因此在BR-1200基础上建立IPC时,其进一步运行是可行的。
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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