注水井同心智能配水技术在杏南油田的应用

详细信息    查看官网全文

• 英文论文题名：Application of Concentric Intelligent Water Distribution Technology in Water Injection Wells of Xingnan Oilfield
• 论文作者：李超
• 英文论文作者：Li Chao
• 年：2016
• 作者机构：大庆油田有限责任公司第五采油厂;
• 论文关键词：注水井 ; 同心智能 ; 分层配水 ; 测调工艺 ; 投捞距离
• 英文论文关键词：water injection well ; concentric intelligent ; separate layer water distribution ; testing and adjusting technology ; running and pulling distance
• 会议召开时间：2016-12-01
• 会议录名称：《采油工程文集》2016年第4辑
• 英文会议录名称：Oil Production Engineering
• 语种：中文
• 分类号：TE357.6
• 学会代码：DQGY
• 学会名称：大庆油田有限责任公司采油工程研究院
• 页数：6
• 文件大小：1806k
• 原文格式：D

摘要

随着油田水驱挖潜的深入,针对偏心配水工艺存在的7级以上测试阻卡率偏高、投捞困难,井下一次对接成功率低,配水间距大,影响水驱进一步细分挖潜的问题,研究了一种全新的同心智能配水技术。该技术不同于传统的同心配水工艺,通过电缆通信实现井下智能测调,能够彻底解决偏心配水工艺的固有缺陷;配水器水嘴一体化设计,取消堵塞器,无需投捞;智能测调仪井下对接灵活,配水间距不受投捞距离限制,可满足1.5m小卡距细分。注水井同心智能配水技术现场试验16口井,其中最大细分级已达10级,突破常规7级细分界限,井下一次对接成功率达100%,测调效率与偏心高效测调工艺相比提高16.7%,在水驱开发油田具有非常好的应用前景。
With the development and potential tapping by water flooding in the oilfield,conventional eccentric water injection technique has met the following problems:having relatively high stuck rate when testing more than 7levels,being difficult in running and pulling the water distributor,having low success rate of primary downhole tools' connection and long distance between water distributors,etc,which affect the further subdivision and potential tapping of water flooding.A new concentric intelligent water distribution technology has been studied.The technology is different from the conventional concentric water distribution and it can realize downhole intelligent testing and adjusting via the wireline communication to overcome the inherent defects of eccentric water distribution technology.The integrated design of water distributor's nozzle has eliminated the blanking plug with no running and pulling operation required.The intelligent testing and adjusting instrument is flexible for downhole connection,and the water distribution distance is not restricted by the running and pulling distance,which can meet the requirement of 1.5m span.16 injection wells that adopted concentric intelligent water distribution technology were applied in the field test,among which the maximum subdivision was up to ten levels.It made a breakthrough at the conventional subdivision limit of seven levels with success rate of 100%for downhole primary connection,and its testing and adjusting rate was 16.7%higher than that of eccentric high efficiency testing and adjusting technique,which would have wide prospects for application in the oilfield development by water flooding.

引文

[1]张百双.注水井智能调配技术研究[D].大庆:大庆石油学院,2010.
    [2]郭颖,杜贵涛,刘文莉.注水井高效智能测调工艺的应用与完善[G]//大庆油田有限责任公司采油工程分院.采油工程文集2009年第4辑.北京:石油工业出版社,2009:1-3.
    [3]侯守探.常规偏心分层注水改进技术研究[J].石油天然气学报,2007,29(2):112-113.
    [4]高明,王文卓,刘海川,等.同心智能配水器在尕斯油田的应用与探讨[J].中国石油和化工标准与质量,2013(12):152.
    [5]贾德利,赵常江,姚洪田,等.新型分层注水工艺高效测调技术的研究[J].哈尔滨理工大学学报,2011,16(4):90-94.
    [6]张凤辉,洪海,于雷,等.注水井高效测调工艺技术及应用[G]//大庆油田有限责任公司采油工程分院.采油工程文集2011年第2辑.北京:石油工业出版社,2011:12-14.
    [7]滕海滨,孙晓明,王玮.基于智能测调的自然伽马校深磁定位技术的研制与应用[G]//大庆油田有限责任公司采油工程分院.采油工程文集2015年第1辑.北京:石油工业出版社,2015:38-41.