2021年,《“十四五”智能制造发展规划》明确将“加快数字化发展,建设数字中国”作为核心任务,并将实现海洋工程装备的数字化、智能化作为我国海洋工程装备发展的首要目标。海洋工程装备调试技术体系和数字化水平是衡量企业乃至国家海洋工程装备制造能力的重要指标。然而,现有研究主要借鉴船舶建造经验,难以全面满足海洋工程装备调试业务的需求。基于这点,本文率先提出海洋工程装备调试技术体系与数字化技术深度融合的解决方案。以数字化系统为载体,从调试项目、安全、组织、数字化仿真等多个维度构建了一套涵盖调试全流程的数字化调试系统,并提供了详细的设计方案,为我国海洋工程装备调试技术实现数字化转型提供了技术路径和实践经验。
In 2021, the "14th Five-Year Plan for Intelligent Manufacturing Development" explicitly identified "accelerating digitalization and building a digital China" as a core task, with the digitalization and intelligentization of marine engineering equipment as the primary goal for the development of China's marine engineering equipment. The level of commissioning technology and digitalization is an important indicator for measuring the marine engineering equipment manufacturing capabilities of enterprises and even the nation. However, current research primarily draws from shipbuilding experiences, which are insufficient to fully meet the needs of marine engineering commissioning. This pain point has led this paper to propose, for the first time, a solution that deeply integrates marine engineering commissioning technology systems with digitalization technologies. Taking digital systems as the carrier, we have constructed a digital commissioning system covering the entire commissioning process from multiple dimensions such as commissioning projects, safety, organization, and digital simulation, and provided detailed design schemes. This offers a technical pathway and practical experience for achieving digital transformation in China′s marine engineering commissioning/pre-commissioning technology.
2025,47(17): 7-11 收稿日期:2025-4-1
DOI:10.3404/j.issn.1672-7649.2025.17.002
分类号:U671.99
作者简介:姬晓东(1980-),男,高级工程师,研究方向为深水工程总装集成、安装、调试技术
参考文献:
[1] 王春娟, 辛庞晨雨, 刘大海. 中国海洋工程装备国产化进程及其高质量发展趋势[J]. 中国软科学, 2024(S1): 379-387+413.
[2] 贾鸿宇, 伊鹏, 郭鹏增, 等. 海洋工程装备制造业智能制造应用发展现状[J]. 船舶工程, 2022, 44(1): 112-116+153.
[3] 谢彬, 曾恒一. 我国海洋深水油气田开发工程技术研究进展[J]. 中国海上油气, 2021, 33(1): 166-176.
[4] 马玲, 吕栩生. 预调试在海工项目管理中的应用[J]. 造船技术, 2014(3): 6-9.
[5] 马玲. 海洋钻井平台JU2000完工管理系统的研究和应用[D]. 上海: 上海交通大学, 2014.
[6] 杨绍东, 张智聪. 大型铺管船项目定位锚绞车和铺管系统生产调试管理探讨[J]. 船舶物资与市场, 2019(4): 56-57.
[7] ZERGER B, NOEEL M. Nuclear power plant commissioning experience[J]. Progress in Nuclear Energy, 2011, 53(6): 668-672.
[8] KAUPPILA A. How Wärtsilä developed the installation and commissioning management plan: the case of emergency diesel generator power replacement project for Olkiluoto nuclear power plant[J]. 2018.
[9] 任劲松, 周迎春, 宋健辉, 等. 调试管理系统在陵水17-2项目中的应用[J]. 机电工程技术, 2022, 51(5): 161-164+282.
[10] 杨岑磊. PCMS系统在电仪专业的数据管理[J]. 中国石油和化工标准与质量, 2019, 39(10): 62-63.
[11] 刘海峰, 王晓晅, 董向花, 等. MIPs软件在海洋石油平台建造项目中的应用[C]//2014年第三届中国海洋工程技术年会论文集. 兰州大学, 2014.
[12] POESCHL S, LIEB J, WIRTH F, et al. Expert Systems in Special Machinery: Increasing the Productivity of Processes in Commissioning[J]. Procedia CIRP, 2017, 63: 545-550.
[13] LIU C, SERGEEVNA C O. For intelligent debugging management of offshore oil engineering with big data[J]. Journal of Intelligent & Fuzzy Systems: Applications in Engineering and Technology, 2021, 40(4): 6091-6101.
[14] 刘鹤, 肖弋. 设备调试服务管理系统在海洋工程中的开发与应用[J]. 中国水运, 2017, 17(12): 304-306.
[15] 李铁刚, 高海波. 半潜式钻井平台系统调试标准化及管理系统研究[J]. 科技资讯, 2018, 16(36): 56-57.
