摘要
面向海洋油气田前期开发方案的设计、评估与培训,研究基于ACP理论方法的平行海上油气田系统。首先采用建筑信息模型(BIM)技术建立多层次数字模型,基于我国南海多个开发案例创建人工海上油气田系统;其次,在传统ACP框架中引入基于案例的推理(CBR)技术,丰富了实际系统与人工系统间交互的方式。基于BIM和CBR所开发的平行海上油气田系统,为海洋油气田前期开发方案的设计评估提供快速、准确的三维可视化支持,为企业提供了智能化工程数据累积平台。
Front end engineering design(FEED)and its related evaluation plays an important role in the life cycle of offshore oil/gas field development.A digitalized way of FEED based on ACP architecture was provided by the proposed parallel offshore oil/gas field system.Firstly,based on several developed oil/gas fields located in South China Sea,a virtual oil/gas field using building information modeling(BIM)was constructed.Secondly,the case-based reasoning(CBR)to evaluate the FEED based on both BIM and successful cases was introduced.The methods of real-virtual interactions were also enhanced by the introduction of CBR into ACP architecture.The parallel platform has been used to visually design and evaluate oil/gas field FEED,which improves the efficiency and accuracy of users.
作者
魏立
王红
黄敏
魏群
缪青海
WEI Li;WANG Hong;HUANG Min;WEI Qun;MIAO Qinghai(China National Offshore Oil Corporation,Shenzhen 519000,China;University of Chinese Academy of Sciences,Beijing 100049,China)
出处
《智能科学与技术学报》
2019年第2期118-124,共7页
Chinese Journal of Intelligent Science and Technology
基金
国家科技重大专项子任务——油气生产系统三维可视化快速评价系统研究与应用基金资助项目(No.2016ZX05057007)。
