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Behavior Simulation of High Level Radioactive waste Repository in Beishan Granite Site
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作者 Weiming Chen,Ju Wang,Rui Su Beijing Research Institute of Uranium Geology,Beijing 100029,China. 《地学前缘》 EI CAS CSCD 北大核心 2009年第S1期187-187,共1页
This paper presents the behavior simulation of high level radioactive waste repository in Beishan granite site which is the most potential one in China.Based on the results from site characterization in Beishan granit... This paper presents the behavior simulation of high level radioactive waste repository in Beishan granite site which is the most potential one in China.Based on the results from site characterization in Beishan granite site,the conceptual model of repository in this site is proposed and its calculation model is developed with software GoldSim.After verification,this calculation model is applied to simulate the 展开更多
关键词 behavior simulation high level radioactive waste repository Beishan
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The Beishan underground research laboratory for geological disposal of high-level radioactive waste in China:Planning, site selection,site characterization and in situ tests 被引量:76
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作者 Ju Wang Liang Chen +1 位作者 Rui Su Xingguang Zhao 《Journal of Rock Mechanics and Geotechnical Engineering》 CSCD 2018年第3期411-435,共25页
With the rapid development of nuclear power in China, the disposal of high-level radioactive waste(HLW) has become an important issue for nuclear safety and environmental protection. Deep geological disposal is inte... With the rapid development of nuclear power in China, the disposal of high-level radioactive waste(HLW) has become an important issue for nuclear safety and environmental protection. Deep geological disposal is internationally accepted as a feasible and safe way to dispose of HLW, and underground research laboratories(URLs) play an important and multi-faceted role in the development of HLW repositories. This paper introduces the overall planning and the latest progress for China's URL. On the basis of the proposed strategy to build an area-specific URL in combination with a comprehensive evaluation of the site selection results obtained during the last 33 years, the Xinchang site in the Beishan area,located in Gansu Province of northwestern China, has been selected as the final site for China's first URL built in granite. In the process of characterizing the Xinchang URL site, a series of investigations,including borehole drilling,geological mapping, geophysical surveying,hydraulic testing and in situ stress measurements, has been conducted. The investigation results indicate that the geological,hydrogeological, engineering geological and geochemical conditions of the Xinchang site are very suitable for URL construction. Meanwhile, to validate and develop construction technologies for the Beishan URL, the Beishan exploration tunnel(BET), which is a 50-m-deep facility in the Jiujing sub-area, has been constructed and several in situ tests, such as drill-and-blast tests, characterization of the excavation damaged zone(EDZ), and long-term deformation monitoring of surrounding rocks, have been performed in the BET. The methodologies and technologies established in the BET will serve for URL construction.According to the achievements of the characterization of the URL site, a preliminary design of the URL with a maximum depth of 560 m is proposed and necessary in situ tests in the URL are planned. 展开更多
关键词 Beishan Xinchang site GRANITE Underground research laboratory(URL) high-level radioactive waste(HLW) Geological disposal
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Main outcomes from in situ thermo-hydro-mechanical experiments programme to demonstrate feasibility of radioactive high-level waste disposal in the Callovo-Oxfordian claystone 被引量:4
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作者 G. Armand F. Bumbieler +3 位作者 N. Conil R. de la Vaissière J.-M. Bosgiraud M.-N. Vu 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2017年第3期33-45,共13页
In the context of radioactive waste disposal,an underground research laboratory(URL)is a facility in which experiments are conducted to demonstrate the feasibility of constructing and operating a radioactive waste dis... In the context of radioactive waste disposal,an underground research laboratory(URL)is a facility in which experiments are conducted to demonstrate the feasibility of constructing and operating a radioactive waste disposal facility within a geological formation.The Meuse/Haute-Marne URL is a sitespecific facility planned to study the feasibility of a radioactive waste disposal in the Callovo-Oxfordian(COx)claystone.The thermo-hydro-mechanical(THM)behaviour of the host rock is significant for the design of the underground nuclear waste disposal facility and for its long-term safety.The French National Radioactive Waste Management Agency(Andra)has begun a research programme aiming to demonstrate the relevancy of the French high-level waste(HLW)concept.This paper presents the programme implemented from small-scale(small diameter)boreholes to full-scale demonstration experiments to study the THM effects of the thermal transient on the COx claystone and the strategy implemented in this new programme to demonstrate and optimise current disposal facility components for HLW.It shows that the French high-level waste concept is feasible and working in the COx claystone.It also exhibits that,as for other plastic clay or claystone,heating-induced pore pressure increases and that the THM behaviour is anisotropic. 展开更多
关键词 In situ experiments Claystone Thermo-hydro-mechanical(THM) behaviour Research programme radioactive high-level waste(HLW) DISPOSAL
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Design and development of large-scale in-situ PRACLAY heater test and horizontal high-level radioactive waste disposal gallery seal test in Belgian HADES 被引量:6
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作者 X.L.Li W.Bastiaens +3 位作者 P.Van Marcke J.Verstricht G.J.Chen E.Weetjens 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE 2010年第2期103-110,共8页
In Belgium,the Boom clay was selected as a potential host formation for the disposal of high-level radioactive waste(HLW).To demonstrate the suitability of Boom clay for bearing thermal load induced by the HLW,a lar... In Belgium,the Boom clay was selected as a potential host formation for the disposal of high-level radioactive waste(HLW).To demonstrate the suitability of Boom clay for bearing thermal load induced by the HLW,a large-scale in-situ heater test,called PRACLAY heater test,will be conducted in the underground research laboratory(URL) in Mol.Owing to the limitations of the test(a short period of time compared with that considered in a real repository,different boundary conditions,etc.),the test is designed to simulate,in a conservative way,the most critical state and phenomena that could occur in the host rock.The PRACLAY gallery was excavated at the end of 2007;the heating phase will begin in 2010 and will last for at least 10 years.The PRACLAY gallery itself leaves an opportunity to study the possibilities of sealing a disposal drift in Boom clay and testing the feasibility of hydraulic cut-off of any preferential pathway to the main access gallery through the excavation damage zone(EDZ) and the lining with a seal in a horizontal drift(horizontal seal).Indeed,this is a generic problem for all deep geological disposal facilities for HLW.An annular seal made of compacted swelling bentonite will be installed in the front of the heated part of the PRACLAY gallery for these purposes.This paper provides detailed considerations on the thermo-hydro-mechanical(THM) boundary conditions for the design of the PRACLAY heater test and the seal test with the support of numerical calculations.It is believed that these important items considered in the PRACLAY heater test design also constitute key issues for the repository design.The outcome of the PRACLAY heater test will be an important milestone for the Belgian repository design. 展开更多
关键词 high-level radioactive waste(HLW) Boom clay PRACLAY heater test hydraulic cut-off thermo-hydro-mechanical(THM) boundary conditions scoping calculation
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On area-specific underground research laboratory for geological disposal of high-level radioactive waste in China 被引量:19
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作者 Ju Wang 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2014年第2期99-104,共6页
Underground research laboratories (URLs), including "generic URLs" and "site-specific URLs", are un- derground facilities in which characterisation, testing, technology development, and/or demonstration activiti... Underground research laboratories (URLs), including "generic URLs" and "site-specific URLs", are un- derground facilities in which characterisation, testing, technology development, and/or demonstration activities are carried out in support of the development of geological repositories for high-level radioactive waste (HLW) disposal. In addition to the generic URL and site-specific URL, a concept of "areaspecific URL", or the third type of URL, is proposed in this paper. It is referred to as the facility that is built at a site within an area that is considered as a potential area for HLW repository or built at a place near the future repository site, and may be regarded as a precursor to the development of a repository at the site. It acts as a "generic URL", but also acts as a "site-specific URL" to some extent. Considering the current situation in China, the most suitable option is to build an "area-specific URL" in Beishan area, the first priority region for China's high-level waste repository. With this strategy, the goal to build China's URL by 2020 mav be achieved, but the time left is limited. 展开更多
关键词 Underground research laboratory (URL)Area-specific URL high-level radioactive waste (HLW)Geological disposal
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Key Scientific Challenges in Geological Disposal of High Level Radioactive Waste 被引量:4
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作者 Wang Ju(Beijing Research Institute of Uranium Geology,China National Nuclear Corporation,Beijing 100029,P.R.China) 《工程科学(英文版)》 2007年第4期45-50,共6页
The geological disposal of high level radioactive waste is a challenging task facing the scientific and technical world.This paper introduces the latest progress of high level radioactive disposal programs in the worl... The geological disposal of high level radioactive waste is a challenging task facing the scientific and technical world.This paper introduces the latest progress of high level radioactive disposal programs in the world,and discusses the following key scientific challenges:(1)precise prediction of the evolution of a repository site;(2)characteristics of deep geological environment;(3)behaviour of deep rock mass,groundwater and engineering material under coupled conditions(intermediate to high temperature,geostress,hydraulic,chemical,biological and radiation process,etc);(4)geochemical behaviour of transuranic radionuclides with low concentration and its migration with groundwater;and(5)safety assessment of disposal system.Several large-scale research projects and several hot topics related with high-level waste disposal are also introduced. 展开更多
关键词 high level radioactive waste GEOLOGICAL DISPOSAL UNDERGROUND research laboratory
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Environmental impact of radionuclide migration in groundwater from a low intermediate level radioactive waste repository
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《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2001年第2期180-184,共5页
关键词 intermediate level radioactive waste repository Environmental impact of radionuclide migration in groundwater from a low
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Study on the residence time of deep groundwater for high-level radioactive waste geological disposal
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作者 ZHOU Zhi-chao WANG Ju +5 位作者 SU Rui GUO Yong-hai LI Jie-biao JI Rui-li ZHANG Ming DONG Jian-nan 《Journal of Groundwater Science and Engineering》 2016年第1期52-59,共8页
Residence time of deep groundwater is one of the most important parameters in safety and performance assessment for high-level radioactive waste geological disposal. In this study, we collected the deep groundwater sa... Residence time of deep groundwater is one of the most important parameters in safety and performance assessment for high-level radioactive waste geological disposal. In this study, we collected the deep groundwater samples of Jijicao in Gansu Beishan pre-selected region. The deep groundwater residence time at two depths estimated by Helium-4 accumulation method were 3.8 ka and 5.0 ka respectively upon measurement and calculation, which indicates that the deep groundwater is not derived from the deep crust circulation process. Hence, deep groundwater is featured with long residence time as well as slow circulation and update rate, and such features are conductive to the safe disposal of high-level radioactive waste. 展开更多
关键词 Deep GROUNDWATER high-level radioactive waste 4He GEOLOGICAL DISPOSAL
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Numerical analysis of thermal process in the near field around vertical disposal of high-level radioactive waste
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作者 H.G.Zhao H.Shao +3 位作者 H.Kunz J.Wang R.Su Y.M.Liu 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2014年第1期55-60,共6页
For deep geological disposal of high-level radioactive waste(HLW)in granite,the temperature on the HLW canisters is commonly designed to be lower than100fiC.This criterion dictates the dimension of the repository.Base... For deep geological disposal of high-level radioactive waste(HLW)in granite,the temperature on the HLW canisters is commonly designed to be lower than100fiC.This criterion dictates the dimension of the repository.Based on the concept of HLW disposal in vertical boreholes,thermal process in the nearfield(host rock and buffer)surrounding HLW canisters has been simulated by using different methods.The results are drawn as follows:(a)the initial heat power of HLW canisters is the most important and sensitive parameter for evolution of temperaturefield;(b)the thermal properties and variations of the host rock,the engineered buffer,and possible gaps between canister and buffer and host rock are the additional key factors governing the heat transformation;(c)the gaps width and thefilling by water or air determine the temperature offsets between them. 展开更多
关键词 high-level radioactive waste(HLW) Vertical disposal Engineered barrier system(EBS) Thermal conductivity properties
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High-level radioactive waste disposal in China: update 2010 被引量:39
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作者 Ju Wang 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE 2010年第1期1-11,共11页
For geological disposal of high-level radioactive waste (HLW), the Chinese policy is that the spent nuclear fuel (SNF) should be reprocessed first, followed by vitrification and final disposal. The preliminary rep... For geological disposal of high-level radioactive waste (HLW), the Chinese policy is that the spent nuclear fuel (SNF) should be reprocessed first, followed by vitrification and final disposal. The preliminary repository concept is a shaft-tunnel model, located in saturated zones in granite, while the final waste form for disposal is vitrified high-level radioactive waste. In 2006, the government published a long-term research and development (R&D) plan for geological disposal of high-level radioactive waste. The program consists of three steps: (1) laboratory studies and site selection for a HLW repository (2006-2020); (2) underground in-situ tests (2021-2040); and (3) repository construction (2041-2050) followed by operation. With the support of China Atomic Energy Authority, comprehensive studies are underway and some progresses are made. The site characterization, including deep borehole drilling, has been performed at the most potential Beishan site in Gansu Province, Northwestern China. The data from geological and hydrogeological investigations, in-situ stress and permeability measurements of rock mass are presented in this paper. Engineered barrier studies are concentrated on the Gaomiaozi bentonite. A mock-up facility, which is used to study the thermo-hydro-mechano-chemical (THMC) properties of the bentonite, is under construction. Several projects on mechanical properties of Beishan granite are also underway. The key scientific challenges faced with HLW disposal are also discussed. 展开更多
关键词 geological disposal high-level radioactive waste R&D program site selection BENTONITE
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High-Level Nuclear Wastes and the Environment: Analyses of Challenges and Engineering Strategies
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作者 Mukhtar Ahmed Rana 《World Journal of Nuclear Science and Technology》 2012年第3期89-105,共17页
The main objective of this paper is to analyze the current status of high-level nuclear waste disposal along with presentation of practical perspectives about the environmental issues involved. Present disposal design... The main objective of this paper is to analyze the current status of high-level nuclear waste disposal along with presentation of practical perspectives about the environmental issues involved. Present disposal designs and concepts are analyzed on a scientific basis and modifications to existing designs are proposed from the perspective of environmental safety. A new concept of a chemical heat sink is introduced for the removal of heat emitted due to radioactive decay in the spent nuclear fuel or high-level radioactive waste, and thermal spikes produced by radiation in containment materials. Mainly, UO2 and metallic U are used as fuels in nuclear reactors. Spent nuclear fuel contains fission products and transuranium elements which would remain radioactive for 104 to 108years. Essential concepts and engineering strategies for spent nuclear fuel disposal are described. Conceptual designs are described and discussed considering the long-term radiation and thermal activity of spent nuclear fuel. Notions of physical and chemical barriers to contain nuclear waste are highlighted. A timeframe for nuclear waste disposal is proposed and time-line nuclear waste disposal plan or policy is described and discussed. 展开更多
关键词 high-level NUCLEAR waste NUCLEAR waste CONTAINMENT and Disposal Environment Conceptual Model Designs RADIOACTIVITY Damage Chemical Heat SINK
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Clays in radioactive waste disposal 被引量:6
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作者 P.Delage 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE 2010年第2期111-123,共13页
Clays and argillites are considered in some countries as possible host rocks for nuclear waste disposal at great depth.The use of compacted swelling clays as engineered barriers is also considered within the framework... Clays and argillites are considered in some countries as possible host rocks for nuclear waste disposal at great depth.The use of compacted swelling clays as engineered barriers is also considered within the framework of the multi-barrier concept.In relation to these concepts,various research programs have been conducted to assess the thermo-hydro-mechanical properties of radioactive waste disposal at great depth.After introducing the concepts of waste isolation developed in Belgium,France and Switzerland,the paper describes the retention and transfer properties of engineered barriers made up of compacted swelling clays in relation to microstructure features.Some features of the thermo-mechanical behaviors of three possible geological barriers,namely Boom clay(Belgium),Callovo-Oxfordian clay(France) and Opalinus clay(Switzerland),are then described,including the retention and transfer properties,volume change behavior,shear strength and thermal aspects. 展开更多
关键词 high-level radioactive waste(HLW) engineered barrier TEMPERATURE PERMEABILITY radioactive waste disposal swelling clay
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围压和裂隙倾角对花岗岩力学行为的影响研究
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作者 王春萍 刘建锋 +2 位作者 刘健 王璐 薛福军 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第3期578-586,共9页
含裂隙围岩的力学行为对高放废物地质处置库的长期稳定和安全至关重要。为研究围压和裂隙倾角对花岗岩围岩力学行为的影响,以完整花岗岩和含不同倾角贯通单裂隙的花岗岩为研究对象,开展了单轴压缩和三轴压缩试验研究。结果表明:0~10 MP... 含裂隙围岩的力学行为对高放废物地质处置库的长期稳定和安全至关重要。为研究围压和裂隙倾角对花岗岩围岩力学行为的影响,以完整花岗岩和含不同倾角贯通单裂隙的花岗岩为研究对象,开展了单轴压缩和三轴压缩试验研究。结果表明:0~10 MPa围压范围内,倾角30°和60°裂隙花岗岩分别发生了穿裂隙面破坏和沿裂隙面滑移破坏;随围压升高,倾角45°裂隙花岗岩由复合破坏转变为穿裂隙面破坏,后又在10 MPa围压条件下再次转变为倾斜“Z”字型裂纹的复合破坏。围压的存在制约了预制裂隙面的劣化作用。三轴压缩条件下低倾角裂隙花岗岩的抗压强度及变形发展曲线与完整花岗岩的结果相近,试样峰值破坏时的轴向应变在围压0,2,5,10MPa条件下分别约为0.38%,0.49%,0.59%和0.75%。沿裂隙面滑移破坏试样的抗压强度以及峰值破坏时的轴向应变均显著低于穿裂隙面破坏试样的相关结果,且其抗压强度与试验前后裂隙面的分形维数差值符合幂函数增长关系。 展开更多
关键词 北山花岗岩 裂隙 三轴压缩 破坏形式 高放废物地质处置
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膨润土砌体墙受压性能及其本构模型的构建
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作者 马利科 杨建明 谢敬礼 《中国矿业》 北大核心 2024年第6期227-235,共9页
我国高放地质处置库“三步走”战略稳步推进,研究缓冲/回填材料砌体结构力学性能及其破坏特性,可为缓冲/回填材料砌体结构的设计,以及砌块的地面堆砌储存提供基础数据。本文采用合适的压制路径将高庙子钠基膨润土粉末压制成砌块,并采用... 我国高放地质处置库“三步走”战略稳步推进,研究缓冲/回填材料砌体结构力学性能及其破坏特性,可为缓冲/回填材料砌体结构的设计,以及砌块的地面堆砌储存提供基础数据。本文采用合适的压制路径将高庙子钠基膨润土粉末压制成砌块,并采用干砌方法堆砌成砌体墙,设计并进行了砌块单元间界面性能试验和轴心抗压试验,得到了砌块单元间界面剪切强度与剪切位移关系,分析了砌体墙应力-应变曲线和破坏形态。试验结果表明,砌体墙变形破坏经历特性变形、局部裂纹扩展、竖向裂纹贯通、失稳破坏和残余变形几个阶段。砌体墙的第一条裂隙出现在单个砌块单元内部,反映了砌块单元的压制质量是控制砌体墙工程性能的重要影响因素之一。基于试验数据,通过对比分析施楚贤、朱伯龙、TURNSEK和HODGKINSON及仲继清的本构关系发现,在峰前上升曲线段采用试验数据对仲继清模型参数进行修正,获得的理论应力-应变曲线与试验曲线较为吻合。 展开更多
关键词 高放废物处置 缓冲/回填材料 膨润土砌体墙 力学性能 本构关系
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高放废物处置地下实验室现场试验数据管理顶层设计
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作者 王鹏 王驹 +1 位作者 黄树桃 马明清 《世界核地质科学》 CAS 2024年第5期997-1005,共9页
我国高放废物地质处置研发已经进入地下实验室建设的关键阶段。在地下实验室建设和运行期间,将开展大量现场试验,这些试验数据具有传输距离长、采集周期长、数据类型多和数据量大等特点,同时数据质量、安全与可追溯性要求高,数据管理难... 我国高放废物地质处置研发已经进入地下实验室建设的关键阶段。在地下实验室建设和运行期间,将开展大量现场试验,这些试验数据具有传输距离长、采集周期长、数据类型多和数据量大等特点,同时数据质量、安全与可追溯性要求高,数据管理难度较大。通过分析我国高放废物地质处置北山地下实验室现场试验数据特点,以iS3智慧数据服务系统为基础,提出现场试验数据管理顶层设计方法,为现场试验和科研工作顺利开展提供重要的数据管理支撑。 展开更多
关键词 高放废物处置 地下实验室 现场试验数据管理 顶层设计
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我国高放废物地质处置新突破
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作者 王驹 陈亮 +7 位作者 周志超 赵星光 田霄 季瑞利 马洪素 曹胜飞 凌辉 康明亮 《原子能科学技术》 EI CAS CSCD 北大核心 2024年第S02期217-230,共14页
2019年5月6日,国家原子能机构批复了我国高放废物地质处置地下实验室建设工程立项建议书。2021年6月17日,地下实验室工程正式开工建设,标志着我国高放废物地质处置进入一个新的阶段——地下实验室阶段,实现了新的突破。本文介绍近五年(2... 2019年5月6日,国家原子能机构批复了我国高放废物地质处置地下实验室建设工程立项建议书。2021年6月17日,地下实验室工程正式开工建设,标志着我国高放废物地质处置进入一个新的阶段——地下实验室阶段,实现了新的突破。本文介绍近五年(2019-2024)来我国高放废物地质处置在法律法规、技术标准、场址评价、缓冲材料、工程技术、岩石力学、放射性核素迁移和安全评价等方面取得的新进展,重点介绍北山地下实验室工程建设及研究开发的新进展。 展开更多
关键词 中国 高放废物 地质处置 北山地下实验室 场址评价
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膨润土颗粒充填施工接缝的缓冲层膨胀力研究
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作者 胡世祥 谈云志 +2 位作者 明华军 吴军 李辉 《三峡大学学报(自然科学版)》 CAS 北大核心 2024年第4期73-78,共6页
在高放废物处置库中,缓冲层通常以高压实膨润土砌块拼接回填形成,这势必在金属罐、砌块、围岩之间留下不可忽略的施工接缝.通过在位于试验舱底的压实膨润土上部预留接缝,开展接缝充填膨润土颗粒工况下的试样膨胀力测试,以掌握膨润土颗... 在高放废物处置库中,缓冲层通常以高压实膨润土砌块拼接回填形成,这势必在金属罐、砌块、围岩之间留下不可忽略的施工接缝.通过在位于试验舱底的压实膨润土上部预留接缝,开展接缝充填膨润土颗粒工况下的试样膨胀力测试,以掌握膨润土颗粒充填施工接缝对缓冲层膨胀力特性的影响.研究结果表明:试样水化方向不同,膨胀力发展过程存在较大差异,但膨胀稳定时间差别不大;从接缝端入渗时,试样均表现出随注水时间增长,膨胀力逐步提升,直至稳定在最高膨胀力;随着接缝宽度增大,最终膨胀力出现显著降低,且膨胀稳定时间显著增加;在施工接缝中充填膨润土颗粒可显著提升缓冲层最终膨胀力,保证其“自密封”要求. 展开更多
关键词 高放处置库 施工接缝 膨润土颗粒 膨胀力
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甘肃北山新场深部地下水中铀的赋存形态及其影响因素的地球化学模拟研究
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作者 吴鹏 王驹 +4 位作者 凌辉 周志超 段佳欣 李南 段先哲 《原子能科学技术》 EI CAS CSCD 北大核心 2024年第5期1007-1016,共10页
核能的快速发展产生了大量的高水平放射性废物(简称高放废物),对生态环境和人类健康构成了巨大的威胁,其安全处置已成为国际放射性废物管理的重难点问题。深部地质处置被普遍认为是高放废物最安全可靠、技术上非常可行的处置方法。目前... 核能的快速发展产生了大量的高水平放射性废物(简称高放废物),对生态环境和人类健康构成了巨大的威胁,其安全处置已成为国际放射性废物管理的重难点问题。深部地质处置被普遍认为是高放废物最安全可靠、技术上非常可行的处置方法。目前,我国已启动了甘肃北山新场高放废物地质处置地下实验室的建设,放射性元素铀在深部地下水中的形态分布及其影响因素从微观层面能为北山深地质处置性能评价提供基础数据,但尚不明晰,亟需开展相关地球化学模拟研究。基于PHREEQC中的llnl.dat数据库,添加NEA-TDB和ThermoChimie数据库中U(Ⅵ)的热力学数据,使用地球化学模拟软件PHREEQC.v3和PhreePlot.v11对铀在我国甘肃北山新场高放废物地质处置地下实验室场址BS28孔深部地下水中的赋存形态及分布进行了模拟计算,旨在厘清铀在北山深部地下水中的赋存形态,探讨pH、pE以及Ca^(2+)与HCO_(3)^(-)浓度比对铀在北山深部地下水中形态分布的影响。模拟结果表明,在该深部地下水环境下,铀主要以六价的形式存在,Ca_(2)UO_(2)(CO_(3))_(3)(aq)和CaUO_(2)(CO_(3))_(3)^(2-)是主要的赋存形态,其占比分别为84.14%和15.16%。受氧化还原氛围的影响,铀的价态在pE<1时逐渐由U(Ⅵ)转变为U(Ⅳ),且在pE=-1~1时,UO_(2)(s)和可溶性碳酸铀酰络合物可同时存在。Ca^(2+)与HCO_(3)^(-)的浓度比低倾向于形成CaUO_(2)(CO_(3))_(3)^(2-),浓度比高易于形成Ca_(2)UO_(2)(CO_(3))_(3)(aq)。Ca^(2+)-UO_(2)^(2+)-CO_(3)^(2)三元体系很大程度上会影响铀在北山深部地下水的溶解度和迁移能力。本研究结果将有助于查明铀在北山花岗岩裂隙中的迁移和吸附机理。 展开更多
关键词 高放废物 铀赋存形态 深部地下水 地球化学模拟 甘肃北山新场
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北山沙枣园花岗岩体随机结构面的空间分布
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作者 霍亮 王贵宾 +2 位作者 李亚伟 魏翔 刘桓兑 《工程科学学报》 EI CSCD 北大核心 2024年第3期385-396,共12页
北山沙枣园是我国高放废物处置库的备选场址,该区域中广泛分布的随机结构面是控制岩体变形和核素迁移的关键因素.选取600 m×600 m×600 m沙枣园岩体为研究对象,采用露头节理调查和钻孔裂隙编录的方法,探究岩体随机结构面的空... 北山沙枣园是我国高放废物处置库的备选场址,该区域中广泛分布的随机结构面是控制岩体变形和核素迁移的关键因素.选取600 m×600 m×600 m沙枣园岩体为研究对象,采用露头节理调查和钻孔裂隙编录的方法,探究岩体随机结构面的空间分布规律.首先开展随机结构面的产状分析,并运用基于粒子群的K-means算法开展产状聚类,岩体中主要发育倾角大于65°,走向为NNE向、EW向和NW向的随机结构面,其中钻孔裂隙优势组为295.4°∠68.3°、189.5°∠71.2°、235.6°∠69.2°和66.0°∠33.0°,露头节理优势组为320°∠79°、180°∠77°、282°∠80°和231°∠67°,两者呈现相似特征;其次开展露头节理平面分析,采用Voronoi法剖分岩体,计算节理平均迹长值和中点面密度值表征剖分后的岩体节理发育特征,岩体东北部的平均迹长值约为西南部的一半,而中点面密度在岩体中部最大.据优势组拆分露头的节理参数值,相对于其他优势组,NE向与NNE向优势组的平均迹长更长,中点面密度值更大;最后开展钻孔裂隙的位置分析,据产状聚类分析结果,绘制不同优势组的走向、倾角深度分布图,裂隙呈现深度不均匀的分布特征,平均线密度为0.11 m^(–1),在[–150 m,–160 m]区间达到最大值0.60 m^(–1),在[–310 m,–370 m]区间密集发育NNE向裂隙.研究结果可以为沙枣园区域的高放废物处置提供参考依据. 展开更多
关键词 高放废物 花岗岩 随机结构面 钻孔 露头
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模拟高放废液玻璃固化体热学性能
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作者 黄文珑 谭盛恒 +2 位作者 李春光 于明玥 夏良树 《化学工程》 CAS CSCD 北大核心 2024年第3期6-12,共7页
玻璃固化技术是目前国内外HLW(高放废液)固化处理最主要的手段。高放废液中含有镧和铀,但镧、铀对固化工艺的影响鲜有报道。为对比镧、铀对玻璃固化体熔制工艺和产品性能的影响,分析不同镧铀比例下的各方面差异,以模拟高放废液的硼硅酸... 玻璃固化技术是目前国内外HLW(高放废液)固化处理最主要的手段。高放废液中含有镧和铀,但镧、铀对固化工艺的影响鲜有报道。为对比镧、铀对玻璃固化体熔制工艺和产品性能的影响,分析不同镧铀比例下的各方面差异,以模拟高放废液的硼硅酸盐玻璃固化体作为实验材料,采用XRD(X射线衍射)、SEM(扫描电子显微镜)等表征方法研究玻璃固化体在不同热处理温度下的析晶行为和热稳定性。结果表明:在800、900、1000℃下,不同镧/铀配比的样品外观差别不大,热处理实验证实固化体样品在800—900℃热处理温度内有晶体析出,其中800℃热处理温度析晶最为严重。 展开更多
关键词 玻璃固化 高放废物 热学性能
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