控压钻井克服钻井挑战,提高东西伯利亚天然裂缝性碳酸盐岩油藏产油量

V. Kurbanov, A. Rotaru, V. Gribanov, R. Bakhitov, Yuliy Sidorov
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引用次数: 1

摘要

在低孔隙度碳酸盐岩裂缝性储层条件下钻井大长度水平井的主要问题之一是与剧烈压裂和空洞区相关的灾难性泥浆损失。这些层段的交汇会导致无法达到项目井长的风险,进而对储量开发产生负面影响。本文介绍了控压钻井(MPD)的技术、生产和经济方面的介绍。控压钻井(MPD)是一种自适应钻井工艺,用于精确控制整个井筒的环空压力分布。常规钻井使用钻井泥浆的静水压力来控制井内压力,而MPD使用地面压力、泥浆静水压力和环空摩擦的组合来平衡暴露的地层压力。控制这些参数可以保持井底压力接近油藏压力,从而避免泥浆漏失或地层流体流入井中。常规的高裂缝带钻井存在严重的泥浆漏失。该油田50%以上的钻井达不到最终目标。短井的平均产能指数比达到计划水平长度的井低30%。桥接剂和高能见度丸的应用可以部分解决问题,但会对油井的产能和成本产生负面影响。作为试验阶段的一部分,在两个井簇上测试了控压钻井。7口井中有5口达到了项目长度。启动油率提高了30%。钻井泥浆的漏失明显减少。平均机械穿透率提高了7%。尽管MPD的成本很高,但在钻井过程中控制井的能力,通过最大限度地减少准备钻井液所需的油损失,降低了井的最终成本。根据所分析的井,MPD每米钻进的平均成本比标准过平衡钻井高14%。同时,每吨油流量的单位钻井成本降低了22%,表明了该技术的经济可行性。本文对MPD进行了综合分析,评估了MPD对钻井性能(钻速、泥浆流失量)、井的生产特性(开工率、产能指数)和经济效果(1m钻速成本)的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Managed Pressure Drilling Overcomes Drilling Challenges and Enhances Oil Production of Naturally Fractured Carbonate Reservoir of East Siberia
One of the main problems associated with drilling of the horizontal wells of high length under conditions of a low-porous carbonate fractured reservoir is catastrophic mud losses associated with zones of intense fracturing and cavernousness. The meeting of such zones leads to the risk of failure to achieve the project well length, which further negatively affects the reserves development. This article describes the technological, production, economic aspects of the introduction of managed pressure drilling (MPD). Managed Pressure Drilling (MPD) is an adaptive drilling process used to precise control the annular pressure profile throughout the wellbore. While conventional drilling uses the hydrostatic pressure of the drilling mud to manage pressure in the well, MPD uses a combination of surface pressure, hydrostatic pressure of the mud and annular friction to balance the exposed formation pressure. Control of these parameters allows maintaining the pressure at the bottom of the well close to the reservoir pressure, thereby avoiding mud losses or inflow of formation fluid into the well. Conventional drilling of highly fractured zone is accompanied with intensive mud losses. Over 50% of the drilled wells in the oilfield could not reach the final target. Average productivity index for short wells is 30% less than for those that reached planned horizontal length. Application of bridging agents and hi-vis pills partially allows to solve the problem, but negatively affects the productivity and cost of wells. As part of pilot stage, managed pressure drilling was tested on the two well clusters. 5 wells out of 7 reached the project length. The increase in the starting oil rate was 30%. The loss of drilling mud has significantly decreased. The average mechanical rate of penetration increased by 7%. Despite the high cost of the MPD, the ability to control the well during drilling reduces the final cost of the well by minimizing the loss of oil required to prepare the drilling fluid. According to the analyzed wells, the average cost of a meter of penetration for MPD is 14% higher than with standard overbalance drilling. At the same time, the unit cost of drilling per one ton of oil flow rate decreased by 22%, which indicates the economic feasibility of the technology. The paper presents a comprehensive analysis of the MPD, with an assessment of the impact on drilling performance (rate of penetration, mud loses), production characteristics of wells (starting production rate, productivity index) and economic effect (cost of 1m penetration).
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