水平井簇的拉链压裂:改变阿联酋非常规压裂的游戏规则

Yang Wu, O. Sørensen, Nabila Lazreq, Yin Luo, T. Bukovac, V. Arali
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引用次数: 0

摘要

随着阿拉伯联合酋长国(UAE)天然气生产需求的增加,该国的非常规水力压裂呈指数级增长,随之而来的是对新技术和效率的需求,以快速跟踪从压裂到生产的过程。考虑到高压/高温(HP/HT)条件、硫化氢的存在以及走滑到逆冲断层的条件,Diyab油田一直是一个具有挑战性的压裂油田。同时,提高作业效率是页岩气藏经济开发的必要条件。因此,在阿联酋引入了“拉链压裂”技术,以提高作业效率和油藏增产效果。在阿联酋,拉链压裂的引入被认为是一种改变,因为它将重点从单井压裂转移到多井平台,允许在一口井中进行压裂,而相邻井正在进行泵送、桥塞和射孔作业。拉链式地面管汇的整体设置允许两口井之间更快的过渡;因此,这也使得使用大型储罐成为一种可行的选择,因为阶段之间的周转时间很短。因此,安装了两个大型模块化水箱,用于现场储存160,000桶水。同样,在页岩气作业中,高粘度减阻剂(HVFR)的使用直接取代了常见的减阻剂添加剂或瓜尔基凝胶。HVFR提供了更高的粘度,可以携带更大的支撑剂浓度,而不会损害储层,并且可以灵活而简单地动态优化流体粘度,以确保足够的裂缝宽度,平衡近井裂缝的复杂性。充分利用可溶解的压裂桥塞,还可以降低套管变形的风险,以及压裂处理后磨铣桥塞的难度。此外,基于地质建模的裂缝和完井设计有助于降低水力裂缝与地质异常之间相互作用的风险。随着先进的后勤规划、人员熟练程度、现场拉链作业流程、密集裂缝安置和泵送桥塞射孔作业的应用,压裂速度达到了每天4.5级,在两口井之间总共完成了67级,在Hanifa地层中放置了近2700万磅的支撑剂。每级最大支撑剂产量为60.6万磅。该项目的新颖之处在于首次应用拉链压裂,以及在阿联酋首次应用干式HVFR压裂液和可溶解压裂塞。这些技术的引入有助于提高阿联酋最具挑战性的非常规盆地之一的水力压裂的整体效率,该盆地要求从压裂到生产的井周转率更快。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zipper Fracturing of Horizontal Cluster Wells: Game Changing Unconventional Fracturing in UAE
Following the increase in demand for natural gas production in the United Arab Emirates (UAE), unconventional hydraulic fracturing in the country has grown exponentially and with it the demand for new technology and efficiency to fast-track the process from fracturing to production. Diyab field has historically been a challenging field for fracturing given the high-pressure/high-temperature (HP/HT) conditions, presence of H2S, and the strike-slip to thrust faulting conditions. Meanwhile, operational efficiency is necessary for economic development of this shale gas reservoir. Hence "zipper fracturing" was introduced in UAE with modern technologies to enable both operational efficiency and reservoir stimulation performance. The introduction of zipper fracturing in UAE is considered a game changer as it shifted the focus from single-well fracturing to multiple well pads that allow for fracturing to take place in one well while the adjacent well is undergoing a pumpdown plug-and-perf operation using wireline. The overall setup of the zipper surface manifold allowed for faster transitions between the two wells; hence, it also rendered using large storage tanks a viable option since the turnover between stages would be short. Thus, two large modular tanks were installed and utilised to allow 160,000 bbl of water storage on site. Similarly, the use of high-viscosity friction reducer (HVFR) has directly replaced the common friction reducer additive or guar-based gel for shale gas operation. HVFR provides higher viscosity to carry larger proppant concentrations without the reservoir damage, and the flexibility and simplicity of optimizing fluid viscosity on-the-fly to ensure adequate fracture width and balance near-wellbore fracture complexity. Fully utilizing dissolvable fracture plugs was also applied to mitigate the risk of casing deformation and the subsequent difficulty of milling plugs after the fracturing treatment. Furthermore, fracture and completion design based on geologic modelling helped reduce risk of interaction between the hydraulic fractures and geologic abnormalities. With the application of advanced logistical planning, personnel proficiency, the zipper operation field process, clustered fracture placement, and the pump-down plug-and-perforation operation, the speed of fracturing reached a maximum of 4.5 stages per day, completing 67 stages in total between two wells placing nearly 27 million lbm of proppant across Hanifa formation. The maximum proppant per stage achieved was 606,000 lbm. The novelty of this project lies in the first-time application of zipper fracturing, as well as the first application of dry HVFR fracturing fluid and dissolvable fracturing plugs in UAE. These introductions helped in improving the overall efficiency of hydraulic fracturing in one of UAE's most challenging unconventional basins in the country, which is quickly demanding quicker well turnovers from fracturing to production.
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