摘要
针对胜利油区整装油田特高含水后期油藏开发面临层间干扰严重、井网不完善、驱替不均衡的问题,基于油藏工程理论和数理优化方法,攻关研究整装油田矢量开发调整提高采收率技术,建立了一级层间矢量层系重组、二级平面矢量井网重整到三级注采优化调整的矢量开发调整技术。该技术具备井网形式灵活、老井利用率高、投资成本低的特点。应用实例表明,该技术控水稳油、降本增效作用明显,有利于实现特高含水后期油田进一步提高采收率。
Considering the actual conditions of ultra-high water cut stage integrity reservoirs in Shengli oilfield, which are facing the development problems of serious interlayer interference, imperfect injection and production pattern and imbalance displacement. Based on the reservoir engineering theory and mathematical optimization method, a technology to enhance oil recovery of ultra-high water cut stage integrity reservoirs has been proposed herein. The technology includes three techniques, which are first adjustment of vector layer recombination, second adjustment
出处
《科学技术与工程》
北大核心
2015年第7期50-52,58,共4页
Science Technology and Engineering
基金
国家科技重大专项(2011ZX05011)资助
关键词
特高含水后期
水驱开发
矢量调整
均衡驱替
ultra-high water cut stage water flooding development vector adjustment equilibrium displacement
