石油学报 ›› 2017, Vol. 38 ›› Issue (3): 324-332.DOI: 10.7623/syxb201703009

• 油田开发 • 上一篇    下一篇

稠油油藏火烧油层吞吐技术与矿场试验

梁金中1,2, 王伯军3, 关文龙3, 侯平舒4, 彭妥4, 苗利军2   

  1. 1. 中国石油大学石油工程教育部重点实验室 北京 102249;
    2. 北京普新石油技术开发有限公司 北京 100083;
    3. 提高石油采收率国家重点实验室 北京 100083;
    4. 中国石油化工股份有限公司中原油田分公司内蒙采油厂 河南濮阳 457001
  • 收稿日期:2016-06-23 修回日期:2016-12-07 出版日期:2017-03-25 发布日期:2017-04-07
  • 通讯作者: 梁金中,男,1984年2月生,2006年获中国石油大学(华东)学士学位,2013年获中国石油勘探开发研究院博士学位,现为中国石油大学(北京)博士后,主要从事稠油开发基础理论与应用技术研究。Email:ljz521999@163.com
  • 作者简介:梁金中,男,1984年2月生,2006年获中国石油大学(华东)学士学位,2013年获中国石油勘探开发研究院博士学位,现为中国石油大学(北京)博士后,主要从事稠油开发基础理论与应用技术研究。Email:ljz521999@163.com
  • 基金资助:

    国家重大科技专项(2016ZX05012-004)资助。

Technology and field test of cyclic in situ combustion in heavy oil reservoir

Liang Jinzhong1,2, Wang Bojun3, Guan Wenlong3, Hou Pingshu4, Peng Tuo4, Miao Lijun2   

  1. 1. Key Laboratory of Petroleum Engineering of the Ministry of Education, China University of Petroleum, Beijing 102249, China;
    2. Beijing Puxin Petroleum Technology Development Company Limited, Beijing 100083, China;
    3. State Key Laboratory of Enhanced Oil Recovery, Beijing 100083, China;
    4. Neimeng Oil Production Plant, Sinopec Zhongyuan Oilfield Company, Henan Puyang 457001, China
  • Received:2016-06-23 Revised:2016-12-07 Online:2017-03-25 Published:2017-04-07

摘要:

通过室内物理模拟实验和油藏数值模拟的方法,研究了稠油油藏火烧油层吞吐开发的机理和相关油藏工程问题。研究表明:火烧油层吞吐具有热力降黏、原油裂解改质和烟道气溶解降黏等多重作用机理,火烧油层吞吐开发理念在理论上是成立的。结合火烧油层吞吐面临的油藏特征和转火驱的要求,给出了火烧油层吞吐开发模式的井网设计原则、周期注气量和注气速度的优化方法,并指出了火烧吞吐实施过程中对点火工艺和防腐工艺等关键环节的技术要求。研究结果应用于内蒙M8井区火烧油层吞吐矿场试验中,取得了技术上的成功。该技术适合于深层、超深层以及水敏性等难以注蒸汽开发的油藏。

关键词: 火烧油层吞吐, 水敏油藏, 物理模拟, 数值模拟, 矿场试验

Abstract:

Laboratory physical simulation experiments and reservoir numerical simulation methods were used to study the development mechanism of cyclic in situ combustion (ISC)of heavy oil reservoir and other related reservoir engineering problems. The research has shown that cyclic ISC has multiple action mechanisms, such as upgrading the crude oil through cracking and reducing the viscosity by heat and the dissolution of flue gas. Therefore, the development concept of cyclic ISC is tenable on a theoretical level. According to the reservoir characteristics of and the requirements of fire flooding for cyclic ISC, the well pattern design principle and the optimization method of cyclic gas injection volume and gas injection rate were given for the development mode of cyclic ISC. Meanwhile, this paper put forward the requirements for the ignition, anti-corrosion processes and other key technologies in the implementation of cyclic ISC. The result has been applied to the cyclic ISC pilot experiments of M8 block, Inner Mongolia, and has achieved technical success. This technology is applicable to the deep, ultra-deep and water-sensitive reservoirs difficult to be developed by steam injection.

Key words: cyclic in situ combustion, water-sensitive reservoir, physical simulation, numerical simulation, field test

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