Design and application of the dynamic management system for scientific data of the Beishan underground research laboratory
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摘要: 北山地下实验室建设项目是我国“十三五”规划的重点项目, 在地下实验室建设和运行期间, 开展的现场试验将产生大规模科研数据, 为确保数据的完整性、可靠性、真实性和可追溯性, 同时确保科研人员能够便捷、高效地管理和利用各类数据, 有必要研发一套专门针对地下实验室科研数据的动态管理系统, 为处置工程技术研发和安全评价等各项工作提供数据支撑和决策依据。本文介绍了北山地下实验室科研数据动态管理系统的研发背景和总体需求, 提出总体设计方案, 并全面介绍了系统功能架构和内容。该系统主要由系统管理、系统状态管理、基础数据管理、元数据管理、试验信息化管理、试验数据管理、数据质量管理和数据可视化等功能模块组成, 目前已初步应用于北山地下实验室现场试验流程管理及数据管理中, 取得了良好的效果。Abstract: The construction of the Beishan underground research laboratory (URL) is a key initiative under China′s 13th Five-Year Plan. During the construction and operation of the URL, extensive scientific data will be generated in field experiments. To ensure the integrity, reliability, authenticity, and traceability of these data and to ensure that researchers can manage and utilize various types of data in an efficient and convenient manner, it is necessary to develop a dynamic management system tailored for the scientific data of the URL. The purpose is to provide data support and a decision-making basis for the R& D of disposal engineering technologies and safety assessments. This study introduces the background and overall requirements for the development of the scientific data dynamic management system for the Beishan URL, proposes a general design scheme, and provides a comprehensive overview of the system's functional architecture and content. The system is primarily composed of modules for system management, system status management, basic data management, metadata management, experimental information management, experimental data management, data quality management, and data visualization. This system has been preliminarily applied to the management of field experimental processes and data for the Beishan URL, yielding encouraging results.
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[1] 王驹, 苏锐, 陈亮, 等.论我国高放废物地质处置地下实验室发展战略[J].中国核电, 2018, 11(1):109-115.
Wang J, Su R, Chen L, et al.The development strategy of the underground research laboratory for geological disposal of high level radioactive waste in China[J].China Nuclear Power, 2018, 11(1):109-115.
[2] 王驹.夯实高放废物处置技术根基, 保障核燃料循环产业可持续发展[J].国防科技工业, 2022, 269(9):40-42.
Wang J.Consolidate the foundation of high-level waste disposal technology to ensure the sustainable development of the nuclear fuel cycle industry[J].Defence Science & Technology Industry, 2022, 269(9):40-42.
[3] 马明清, 凌辉, 马嘉翌.高放废物地质处置地下实验室数据管理现状及展望[J].世界核地质科学, 2021, 38(3):380-387.
Ma M Q, Ling H, Ma J Y.Current status and prospect of data management in underground research laboratories for geological disposal of highlevel radioactive waste[J].World Nuclear Geoscience, 2021, 38(3):380-387.
[4] Pirjo H, Ismo L.TUTKA data management system rev.2002[R].Finland:Posiva Oy, 2004.
[5] Fiona N, Barbara P, Paul S, et al.Safety assessment for a KBS-3H spent nuclear fuel repository at Olkiluoto, complementary evaluations of safety report[R].Finland:Posiva Oy, 2007.
[6] Lasse A, Antti-Jussi L, Pasi R.Results of forest monitoring on Olkiluoto Island in 2013[R].Finland:Posiva Oy, 2015.
[7] Tabani P, Hermand G, Delay J, et al.A geoscientific data acquisition and management system (SAGD) of the Andra Meuse/Haute-Marne research center[C]//Andra.Clays in Natural and Engineered Barriers for Radioactive Waste Confinement, 4th International Meeting, Nantes, France, 2010:253-254.
[8] 钟霞, 王驹, 黄树桃, 等.高放废物地质处置预选区GIS中地学元数据设计[J].世界核地质科学, 2008, 25(4):237-241.
Zhong X, Wang J, Huang S T, et al.Design of geo-metadata in GIS for pre-selected disposal site of high-level radioactive waste [J].World Nuclear Geoscience, 2008, 25(4):237-241.
[9] 高敏, 黄树桃, 王树红, 等.高放废物地质处置元数据设计与编辑模块开发[J].世界核地质科学, 2010, 27(3):164-169.
Gao M, Huang S T, Wang S H, et al.Metadata design and editing module development for the geological disposal of high-level radioactive waste[J].World Nuclear Geoscience, 2010, 27(3):164-169.
[10] 王鹏, 黄树桃, 王驹, 等.高放废物处置库预选区地学信息数据库结构与功能设计[J].辐射防护, 2018, 38 (1):71-79.
Wang P, Huang S T, Wang J, et al.Structure and function design of geo-information database for high-level radioactive waste disposal in China[J].Radiation Protection, 2018, 38 (1):71-79.
[11] 高敏, 黄树桃, 王鹏, 等.新一代多源数据集成技术在高放废物地质处置的研究与实现[J].世界核地质科学, 2017, 34(2):113-117, 124.
Gao M, Huang S T, Wang P, et al.Study and implementation on new multi-source data integration technology for geological disposal of high-level radioactive waste[J].World Nuclear Geoscience, 2017, 34(2):113-117, 124.
[12] 李瀚波, 黄树桃, 赵永安.基于WebGIS的北山高放废物处置地学信息系统的研究[J].世界核地质科学, 2007, 24(1):39-43.
Li H B, Huang S T, Zhao Y A.WebGIS based geo-information system for Beishan disposal repository of high level radioactive waste[J].World Nuclear Geoscience, 2007, 24(1):39-43.
[13] 王洪斌, 黄树桃, 王鹏, 等.基于开源PostgreSQL & SharpMap的高放废物地质处置遥感信息管理系统的设计与开发[J].铀矿地质, 2016, 32(2):123-127.
Wang H B, Huang S T, Wang P, et al.Design and development of remote sensing information management system based on the open source postgre SQL and sharp map for the geological disposal of high-level radioactive waste[J].Uranium Geology, 2016, 32(2):123-127.
[14] 王鹏, 黄树桃, 赵永安, 等.基于混合架构的地学信息数据库管理系统的实现[J].铀矿地质, 2017, 33(2):118-122.
Wang P, Huang S T, Zhao Y A, et al.Establishment of geo-information database management system based on hybrid architecture[J].Uranium Geology, 2017, 33(2):118-122.
[15] 王洪斌, 王驹, 陈亮, 等.我国高放废物地质处置地下实验室数据动态管理技术框架研究[C]//第七届废物地下处置学术研讨会暨国际放射性废物处置研讨会, 2018.Wang H B, Wang J, Chen L, et al.Study on data dynamic management system of underground research laboratory for deep geological disposal in China[C] // The 7th Chinese National Conference on Underground Waste Management & International Workshop on Radioactive Waste Disposal, 2018.
[16] 马明清, 陈亮, 王驹, 等.北山地下实验室科研管理平台顶层设计[J].世界核地质科学, 2023, 40(S1):532-539.
Ma M Q, Chen L, Wang J, et al.Top level design of research management platform for Beishan underground research laboratory[J].World Nuclear Geoscience, 2023, 40(S1):532-539.
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