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特高压注水技术在中原油田的研究与应用 被引量:8

STUDY AND APPLICATION OF EXTREMELY HIGH PRESSURE WATER INJECTION TECHNOLOGY IN ZHONGYUAN OILFIELD
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摘要 中原油田深层低渗透及特低渗透油藏在井口注水压力小于 31.4MPa条件下 ,注不进水或完不成地质配注水量 ,造成采油速度低、自然递减幅度大。为此 ,进行了特高压注水技术研究 ,将井口注水压力提高到接近于地层破裂压力 ,使地层产生微裂缝 ,从而提高地层渗透率 ,将水注到油层 ,实现补充地层能量、增加水驱动用储量的目的。开展了特高压注水方式及选井原则、套管保护技术、地面工程配套技术研究 ,制定了特高压安全注水操作规程、设计规范等 ,形成了系列特高压安全注水工艺。经过 3年的推广应用 ,确保了特高压注水工作的安全生产 ,取得了显著的经济效益和社会效益。 The wellhead water injection pressure is lower than 31.4 MPa for deep reservoirs of low and extremely low permeability, little water is injected into the well which leads to low production speed and large natural descending. Study on water injection technology of extremely high pressure is conducted, which increases the injection pressure approximately up to the formation fracture pressure, so that micro-fractures can be produced and thus improve the permeability and push the water into formation, so as to compensate formation energy and improve the flooding efficiency. The study coves injection methods, well selection principle, casing protection, surface engineering auxiliary technology, safety operation procedures and designing specifications, etc. The technology has been applied for 3 years and remarkable economical and social benefits have been achieved.
作者 李远兵 崔体江 孙江成 李新建 万登峰 李科生 刘俊峰
机构地区 中原油田公司采油工程事业部 华北油田公司采油一厂
出处 《石油钻采工艺》 CAS CSCD 北大核心 2004年第6期71-73,共3页 Oil Drilling & Production Technology
关键词 中原油田 注水压力 井口 选井 采油速度 地层能量 动用储量 特高压 不进水 套管 Zhongyuan Oilfield low permeability high pressure water injection technology study
分类号 TE357 [石油与天然气工程—油气田开发工程] TM75 [电气工程—电力系统及自动化]
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  • 1钱玲.低渗油田精细注水技术对策研究[J].产业科技创新,2019(4):71-72. 被引量:2
  • 2李嗣贵,邓金根,蔚宝华,于连俊.高温井地层破裂压力计算技术[J].岩石力学与工程学报,2005,24(A02):5669-5673. 被引量:17
  • 3Lavrov A, Cerasi P. Numerical modeling of tensile thermal stresses in rock around a cased well caused by injection of a cold fluidi[C]. 47th US Rock Mechanics/Geomechanics Symposium, San Francisco, CA, USA, June 23-26, 2013.
  • 4Settari A, Waiters D A, Behie G A. Use of coupled reservoir and geomechanical modelling for integrated reservoir analysis and management[J]. Journal of Canadian Petroleum Technology, 2001, 40 (12): 55-61.
  • 5Hoek E, Martin C D. Fracture initiation and propagation in intact rock: A review[J]. Journal of Rock Mechanics and Geoteehnical Engineering, 2014(6): 287-300.
  • 6Wang Y, Dusseault M B. A coupled conductive-convective thermo- poroelastic solution and implications for wellbore stability[J]. Journal of Petroleum Science and Engineering, 2003, 38(3-4): 187-198.
  • 7Sun J, Deng J, Yu B, et al. propagation pressure calculation during waterflooding[J]. Journal Engineering, 2015, 22(1): 279-291 Model for fracture initiation and in poorly consolidated sandstone of Natural Gas Science and.
  • 8Moghadasi J, Steinhagen H M, Jamialahmada M, et al. Theoretical and experimental study of particle movement and deposition in porous media during water injection[J]. Journal of Petroleum Science and Engineering, 2004, 43(3-4): 163-181.
  • 9郭建春,辛军,赵金洲,李刚.酸处理降低地层破裂压力的计算分析[J].西南石油大学学报(自然科学版),2008,30(2):83-86. 被引量:24
  • 10付静,周晓君,孙宝江,张洪茂.低渗裂缝性油藏渗透率的影响因素研究[J].石油钻采工艺,2008,30(2):69-71. 被引量:11

引证文献8

二级引证文献25

石油钻采工艺
2004年 第6期

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