钻井工程决策支持系统关键技术

肖莉; 杨传书; 赵金海; 李昌盛; 徐术国; 赵勇

doi:10.11911/syztjs.201502007

钻井工程决策支持系统关键技术

中国石化石油工程技术研究院, 北京 100101

基金项目:

中国石化“十二五”重大信息化项目“中国石化石油工程决策支持系统”(编号:G11-MM-2011-080)及中国石化科技攻关项目“钻井风险控制系统研发”(编号:P13093)资助.

详细信息

作者简介:
肖莉(1968—),女,四川江安人,1990年毕业于石油大学(华东)应用电子技术专业,高级工程师,主要从事石油工程信息化研究与管理工作.

中图分类号: TE19
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出版历程
- 收稿日期: 2014-05-04
- 修回日期: 2015-02-08
- 刊出日期: 1899-12-31

Key Technologies of Drilling Engineering Decision Support Systems

Sinopec Research Institute of Petroleum Engineering, Beijing, 100101, China

摘要

摘要: 国内自主研发的钻井软件有的仅能进行辅助设计,不足以支撑专家团队的讨论决策;有的只专注于数据传输或部分风险的预警,功能覆盖面窄,没有形成全面的决策信息支持体系.针对钻井设计论证和钻井施工两个阶段的专家决策需求,开展了系统功能设计及关键技术研究,基于SOA软件架构和插件式开发方法,研制开发了易于扩展的钻井工程全过程决策支持系统DrillAdviser,实现了工程地质信息与钻井工程信息的深度融合,功能覆盖了钻井工程设计论证、施工过程优化、钻后分析等关键技术环节,可为专家决策提供多源异构信息实时融合、二维及三维图形显示、计算模拟、协同讨论等决策支持手段,初步解决了钻井决策支持软件功能单一、多领域信息融合不足等问题.在国内外多个区块的实际应用表明,DrillAdviser设计合理,能解决实际问题,且效果良好.
- 钻井 /
- 协同决策 /
- 信息融合 /
- 方案论证
Abstract: Some drilling software with Chinese owned intellectual property can only be used in aided design, not sufficient for decision-making by teams of experts. Some the software programs only focus on data transmission or early warning of certain risks. So those software applications are limited and fail to form a comprehensive decision-making information support system. Based on the expert decisionmaking needs in the design of drilling programs, the demonstration and drilling construction, the decision support system was developed based on function design and key technology research which were carried out. The drilling engineering decision support system, DrillAdviser, was developed based on SOA software architecture and plug-in development method. This system is easy to expand and it combines engineering geology information and drilling engineering information. It covers key technical elements of drilling engineering design, construction process optimization and post-drilling analysis. In addition, it can provide decision support such as real-time fusion of multi-source heterogeneous information, 2D and 3D graphic display, computational simulation and collaborative discussion for expert decision making. It preliminarily solves problems of reduced function and insufficient fusion of multi-disciplinary information in present drilling decision support software. According to the actual application in multiple regions within and outside the country, DrillAdviser proved itself to be of reasonable design with good results.
- drilling /
- collaborative decision /
- information fusion /
- program demonstration

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参考文献(11)

[1]	肖莉,杨传书,费海涛,等.关于石油工程信息化需求与建设策略的思考[J].石油钻探技术,2011,39(3):81-85. Xiao Li,Yang Chuanshu,Fei Haitao,et al.Thinking on demands and countermeasures of petroleum engineering informatization[J].Petroleum Drilling Techniques,2011,39(3):81-85.
[2]	Halliburton.Collaborative decision centers [EB/OL].[2014-02-07].https://www.landmarksoftware.com/Pages/CollaborativeDecisionCenters.aspx.
[3]	Andreas Sadlier,Ian Says,Ryan Hanson.Automated decision support to enhance while-drilling decision making:where does it fit within drilling automation?[R].SPE 163430,2013.
[5]	安文忠,徐荣强,何辽勤,等.实时可视决策系统在渤海湾旅大油田开发中的应用[J].石油钻探技术,2007,35(4):100-102. An Wenzhong,Xu Rongqiang,He Liaoqin,et al.Application of realtime visual decision-making system in the development of Lvda Oilfield in Bohai Bay[J].Petroleum Drilling Techniques,2007,35(4):100-102.
[6]	赵庆,刘岩生,蒋宏伟,等.钻井实时监控与技术决策系统研发进展[J].石油科技论坛,2013(3):11-14,65-66. Zhao Qing,Liu Yansheng,Jiang Hongwei,et al.Research and development of real-time drilling monitoring and technological decision-making system[J].Oil Forum,2013(3):11-14,65-66.
[7]	樊洪海.钻井工程实时监测与井场信息系统开发[J].石油钻探技术,2003,31(5):17-19. Fan Honghai.Monitoring of real-time drilling engineering and development of field data service system[J].Petroleum Drilling Techniques,2003,31(5):17-19.
[8]	郭建明,李云峰,韩朝晖.钻井异常状态实时监测与智能决策系统的研究[J].钻采工艺,2008,31(2):32-35. Guo Jianming,Li Yunfeng,Han Zhaohui.Research on real-time monitoring and intelligent decision system of the abnormal problem during drilling operation[J].Drilling Production Technology,2008,31(2):32-35.
[9]	张军,费海涛,王崇敬,等.钻井远程决策支持系统开发及在元坝103H井的应用[J].石油钻探技术,2011,39(6):104-107. Zhang Jun,Fei Haitao,Wang Chongjing,et al.Development of remote drilling decision-making support system and its application in Well Yuanba 103H[J].Petroleum Drilling Techniques,2011,39(6):104-107.
[10]	蒋希文.钻井事故与复杂问题[M].北京:石油工业出版社,2001:1-481. Jiang Xiwen.Drilling accident and complex problems[M].Beijing:Petroleum Industry Press,2001:1-481.
[11]	杨传书,赵金海,张克坚.新版WITSML井场数据交换标准特征及应用分析[J].石油工业技术监督,2011,27(12):36-40. Yang Chuanshu,Zhao Jinhai,Zhang Kejian.Analyses on the characteristics and application ofnew well-site data exchange standard WITSML[J].Technology Supervision in Petroleum Industry,2011,27(12):36-40.
[12]	Krafzig D,Banke K,Slama D.Enterprise SOA中文版:面向服务架构的最佳实战[M].北京:清华大学出版社,2006:95-135. Krafzig D,Banke K,Slama D.Enterprise SOA:service-oriented architecture best practices[M].Beijing:Tsinghua University Press,2006:95-135.