With the rapid advancement of science and technology, the utilization of grouting information system which integrates both digital manufacturing and intelligent construction has served as a pivotal tool for many large-scale hydropower projects. In the context of hydropower development, both massive-scale and small-to-medium-sized hydropower projects are currently being pursued. However, due to budget constraints and the COVID-19 pandemic, it is challenging for technical personnel to carry out on-site work efficiently. Consequently, there is an urgent need to swiftly deploy and flexibly apply grouting information systems in small-and-medium-sized hydropower projects. Enhancing the supervision level of small-and-medium-sized hydropower projects is a crucial step towards improving overall construction oversight within the river basin. The primary focus of this paper is to integrate Docker technology into the grouting information system, enabling efficient deployment of small and medium-sized hydropower stations.
Key words
grouting information system /
Docker technology /
hydraulic engineering /
Hongweiqiao power station
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References
[1] 苟恒畅. 俄日河红卫桥水电站工程分标规划方案分析研究[J]. 科技视界, 2013(32): 315, 369.
[2] 李才平, 王新龙. 红卫桥水电站地下厂房开挖与支护施工技术[J]. 黑龙江水利科技, 2018, 46(11): 162-164, 212.
[3] 李 丽, 杨新章, 陆 刚, 等. 开源PaaS平台初探[J]. 广东通信技术, 2014, 34(11): 9-12.
[4] 李 娜. Docker容器技术的发展及应用研究[J]. 数字技术与应用, 2018, 36(11): 95-96.
[5] 张 浩, 孙毓忠, 肖 立, 等. RainbowD: 一种异构云环境下高效的Docker镜像分发系统[J]. 计算机学报, 2020, 43(11): 2067-2083.
[6] BERNSTEIN D. Containers and Cloud: From LXC to Docker to Kubernetes[J]. IEEE Cloud Computing, 2014, 1(3): 81-84.
[7] 饶小康, 王 晖. 基于B/S结构的灌浆数字化系统在水利工程中的应用[J]. 长江科学院院报, 2013, 30(2): 79-83.
[8] 饶小康, 罗 熠, 姚振和. 白鹤滩水电站开挖爆破数字化系统研究与开发[J]. 长江科学院院报, 2016, 33(1): 143-146.
[9] 郑柏恒, 孟 文, 易 东, 等. 在Hadoop集群下的智能电网数据云仓库设计[J]. 制造业自动化, 2014, 36(19): 134-138.
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