摘要
为了实现空间信息与地下数字油藏的深度融合统一,打破了各领域横向分割的局面,面向生产、科研、管理和决策的地上地下一体化应用。本文以三维GIS为平台,按照勘探开发管理模式进行构架设计编程,通过动静态数据库管理标准化、多业务软件研发及镶嵌,搭建了新型数字油田总体架构,并在延长油田东仁沟区块进行了试点应用。研究表明,该平台达到了油田勘探开发任意数据按照行标进行存储管理、实时推送及分析研究,不同专业软件在本平台的协同工作,油藏与井输数字模型的实时展示,现场管理可视化控制;井位部署、产建及重大方案跨地域论证,实现了开发决策数字化和生产管控智能化,是数字油田向智能油田建设的跨越。
In order to integrate spatial geographic information and underground digital reservoir deeply,it broke thesituation of transverse segmentation in various areas.And it faced integration of ground and underground of production,scientific research,management and decision-making.In this paper,it is the three-dimensional GIS as a platform.It proceeds with architecture design and programming by the management models of exploration and development.It sets up a new type of overall architecture of digital oilfield,through standardization of dynamic and static database management and integration of multi-service softwares.As an example of the block of Dongrengou of Yanchang oilfields the applications show that the platform has reached the storage management in accordance with professional standard,real-time delivery and analysis research of the oilfield exploration and development of arbitrary data.It works together with different professional software in this platform.It reaches real-time display of digital model of the reservoirs and wells transportation.It controls the visualization of site management of oilfield.And the platform can demonstrate well deployment,productivity construction and big plan across the region.And it really achieves digitization of decision-making of development and intelligentialize of production management and control,and it achieves the span from digital oilfield to intelligent oilfield construction.
作者
党海龙
张鹏
王涛
崔鹏兴
孟潇
Dang Hailong;Zhang Peng;Wang Tao;Cui Pengxing;Meng Xiao(Research Institute o f Shaanxi Yanchang Petroleum.(Groups Co.,Ltd.,Xian,Shaanxi 710075,China)
出处
《非常规油气》
2017年第6期109-115,共7页
Unconventional Oil & Gas
关键词
数字油田
三维GIS
油藏分析
数字模型
可视化
异地同步
智能决策
digital oilfield
three-dimensional geographic information system
reservoir analysis
digital model
visualization