正宁油田中生界钻井漏失机理与堵漏剂优化设计OA
Study on the mechanism of drilling fluid loss and optimization of lost circulation additives in Mesozoic,Zhengning Oilfield
正宁油田中生界钻井过程中恶性井漏频发、漏失机理尚不明确,钻遇漏失层段无法实现高效封堵,严重制约了该区块致密油气储层的勘探开发进程.基于此,结合 X射线衍射实验与扫描电镜分析了漏失层段的矿物组成与微观结构,明确了漏失层段岩石易水化矿物占比小、分散能力整体较弱,但局部伊/蒙间层含量较高的层段水化分散作用显著增强,钻井液侵入下可能会引起岩体结构劣化;天然裂缝为井漏的主控因素.在此基础上,创新提出了基于钻井液性能与漏失数据的裂缝尺寸反演分析方法,建立了不同钻井液黏度下的裂缝宽度计算图版,实现了对漏失层段裂缝宽度的快速定量评价.借助该图版对 75组历史井漏数据进行了反演,结果表明:发生漏失时天然裂缝在钻井液压力作用下显著扩展,缝宽 4 mm以上的大尺寸裂缝占比超过 55%,已达到水力裂缝级别.针对裂缝尺寸分布,对 6种不同类型的堵漏剂开展了针对性评价与优化,形成了基于不同裂缝宽度的堵漏剂优化设计图版.现场应用表明,该方法显著提升了对井漏的响应与封堵能力,基于该图版指导的 7口井,较常规堵漏工艺井一次堵漏成功率提高 65.7%,平均作业时间缩短 83.6%,有力支撑了正宁油田致密油气资源的安全高效开发.
Frequent severe lost circulation occurs during Mesozoic drilling in Zhengning Oilfield,while the loss mechanism remains unclear and efficient plugging of loss zones fails to be achieved,which seriously restricts the exploration and development of tight oil and gas reservoirs in this block.To address this issue,the mineral composition and microstructure of the loss intervals were analyzed by X-ray diffraction and scanning electron microscopy.The results show that the content of easily hydrated minerals in the loss intervals is low and the overall dispersion capacity of the rocks is weak,while the hydration dispersion is significantly enhanced in local intervals with high illite/smectite mixed-layer content,and drilling fluid invasion may induce deterioration of the rock structure.Natural fractures are identified as dominant controlling factor for lost circulation.On this basis,an innovative fracture-width inversion m ethod based on drilling fluid properties and loss data is proposed,and a fracture-width calculation chart under different drilling fluid viscosities is established,enabling rapid quantitative evaluation of fracture width in the loss intervals.Using this chart,75 groups of historical lost-circulation data were inverted.The results indicate that natural fractures expand significantly under drilling-fluid pressure during loss events,and large fractures wider than 4 mm account for more than 55%,reaching the level of hydraulic fractures.According to the fracture dimension distribution,six different types of lost-circulation additives were systematically evaluated and optimized,and a lost circulation additives design chart corresponding to different fracture widths is established.Field applications show that this method remarkably improves the response and plugging efficiency for lost circulation.For 7 wells treated under the guidance of this chart,the success ratio of first-attempt plugging increased by 65.7%and the average operation time was reduced by 83.6%compared with conventional plugging practices,providing strong technical support for the safe and efficient development of tight oil and gas resources in Zhengning Oilfield.
王海洋;肖云峰;杨书港;彭方泉;苏旭;谷团;周德胜
西安石油大学石油工程学院,陕西 西安 710065中国石油辽河油田庆阳勘探开发分公司,辽宁 盘锦 124010中国石油辽河油田勘探开发研究院西部分院,辽宁 盘锦 124010西安石油大学石油工程学院,陕西 西安 710065西安石油大学石油工程学院,陕西 西安 710065中国石油辽河油田庆阳勘探开发分公司,辽宁 盘锦 124010西安石油大学石油工程学院,陕西 西安 710065
能源科技
正宁油田井漏裂缝尺寸反演堵漏剂优化桥接堵漏
Zhengning Oilfieldlost circulationfracture dimensions inversionoptimization of lost circulation additivesbridging plugging
《石油钻采工艺》 2026 (2)
148-156,9
国家自然科学基金联合基金项目"超深储层水力压裂改造裂缝轨迹延伸机理与控制方法研究"(编号:U23B2089)国家自然科学基金青年科学基金项目(C类)"渗流力作用下深层煤岩气储层水力裂缝扩展与缝网形成机理研究"(编号:52504036).
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