案例研究:首次在Ongc Tripura资产的勘探井和附近Wildcat井中实施控压钻井

R. Verma, V. Muthamizhvendan, Sivakumar Ganesan, M. Sarode, Mohammad Syafiq, Amol Diware, Akshata Berry
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引用次数: 0

摘要

本文介绍了印度石油天然气公司(ONGC)与哈里伯顿(全球主要油田服务提供商之一)合作,在印度东北部陆地的一口高压高温(HP/HT)井中使用控压钻井(MPD)和控压固井(MPC)技术。ONGC是印度领先的勘探和生产公司。该井记录的井底温度为151°C,目标深度的井底压力超过15,000psi。MPD技术在ONGC首次用于钻井。这口近野生猫井的钻井和固井深度达到4840 mMD,首次进入Lower Bhuban和Barail砂层,创造了历史,同时成功地在不确定的孔隙压力环境下钻井,控制气涌和水涌,应对漏失区域,并确定生产区域以及孔隙压力估算。该井面临许多挑战,包括不确定的孔隙压力、高度不稳定的地层、可能存在的差异粘滞以及高压/高温。过去,作业者曾尝试常规钻井,但由于高孔隙压力气砂和水砂以及高压差的技术复杂性,不得不放弃。MPD采用闭环系统,提高了环境保护水平,并允许使用自动早期井涌检测系统,以提高安全性。自动化MPD系统用于两个井段(12-1/4”和8-1/2”井段),以提供钻井所需的控制、灵活性和安全性,并降低这些风险。该技术能够在稳定、安全的条件下,在极具挑战性的地层中钻进2013米(6604英尺)。该井的目标深度为4840米(15880英尺)。广泛的MPD地面控制系统(连同旋转控制装置、全自动阻流管汇和背压泵)的部署,使钻井和固井能够以安全、高效的方式进行,而不会影响安全性和服务质量。MPD技术使ONGC能够在钻井过程中通过MPD节流管汇从地面施加额外的SBP来平衡地层压力,从而降低泥浆重量。这有助于ONGC解决高温高压环境下狭窄的钻井窗口和早期井涌管理问题。该井的目标深度为4840 mMD,是Asset India Tripura地区钻、套管井最深的井。通过早期发现地层变化和油气带,获得了Lower Bhuban和Barail砂层的主要地层信息,并确定了感兴趣的区域。通过常规方法,该地层是不可钻的,而MPD技术的实施使其成为可能。考虑到大流行病的情况,该行动在全球和区域小组的广泛远程支持下进行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Case Study: First Ever Implementation of Managed Pressure Drilling to Drill Exploratory and Near Wildcat Well at Ongc Tripura Asset
This paper describes the use of managed pressure drilling (MPD) and managed pressure cementing (MPC) technology on a high-pressure high-temperature (HP/HT) well in North-Eastern onshore, India by Oil and Natural Gas Corporation Ltd. (ONGC), a leading exploration and production company in India in collaboration with Halliburton, one of the major oilfield service providers globally. The bottom-hole temperature recorded in this well is 151°C and bottom-hole pressure of over 15,000psi at target depth. The MPD technology was utilized for drilling the well for the first time in ONGC. The near wild cat well was successfully drilled and cemented to a depth of 4,840 mMD and made history by tapping into Lower Bhuban and Barail sands for the first time, while successfully drilling in uncertain pore pressure environments, managing gas and water kicks, coping with loss zones, and identifying production zones together with pore pressure estimation. The well posed many challenges including uncertain pore pressures, highly unstable formations, likelihood of differential sticking and high-pressures/high-temperatures. The operator had attempted to drill the well conventionally in the past which had to be abandoned due to technical complications owing to high pore pressure gas and water sands as well as high differential pressure. MPD uses a closed-loop system that adds an increased level of environmental protection and allows for the use of an automated early kick detection system for increased safety. The automated MPD system was incorporated for the two well sections (12-1/4" and 8-1/2" hole sections) to provide control, flexibility, and safety required to drill and mitigate these risks. This implementation allowed to drill 2,013 meters (6,604 feet) in an extremely challenging zone in stable and safe conditions. The well was drilled to a target depth of 4,840 meters (15,880 feet). Deployment of an extensive MPD surface control system (along with rotating control device, fully automated choke manifold and back-pressure pump) allowed drilling and cementing of the well in a safe and efficient manner without any breach to safety and service quality. The MPD technology enabled ONGC to reduce the mud weight while drilling the well by balancing the formation pressure with application of additional SBP from surface using MPD choke manifold. This helped ONGC tackle the narrow drilling window along with early-kick management in HP/HT environment. The well was drilled to target depth of 4,840 mMD, making it the deepest drilled and cased hole in Tripura, Asset India. Major formation information on Lower Bhuban and Barail sands was obtained along with ascertaining zones of interest by allowing early detection of formation changes and hydrocarbon zones. The formation was non-drillable through conventional approach and implementation of MPD technology made it possible. The operation was carried out with extensive remote support from team in global and region considering pandemic situation.
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