Maximising the Opportunity in Multi-Layered Tight Sand Reservoirs in a Mature Field by Hydraulic Fracturing: A Case Study of Tight Sand Development Project in Thailand

Theerapat Suppachokniun, Marut Wantawin, T. Kiatrabile
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Abstract

After decades of conventional oil production from multi-layered reservoirs of Phisanulok basin in Thailand, the streamlined implementation of hydraulic fracturing following the successful pilot has recently made production from tight resources economically viable. This paper presents the strategic expansion of hydraulic fracturing activities that has evolved to full field implementation for the first time in Thailand. The adopted practices and improved oil production associated with the project ultimately delivers sustainable development of tight oil reservoirs. The pilot fracturing campaign implemented after years of subsurface and geomechanics studies have been evaluated. The attractive outcome indicates the oil gain almost eight times the Estimated Ultimate Recovery according to decline curve analysis, leading to the asset scheme strategically developed for unlocking tight oil potentials from multi-layered reservoirs by hydraulic fracturing applications. The development strategies including (1) the continual fracturing activities in the proven areas, (2) the implementation in new formations, and (3) the revival of the existing non-productive wells are comprehensively discussed, followed by the fundamental considerations for design and implementation of hydraulic fracturing along the actual process. As a result, hydraulic fracturing have becomes the key technique serving tight sand development scheme and will be continuously implemented in larger scale to facilitate the target oil production, making the project a dynamic operation. Prudent subsurface management model and deliberate project planning and execution are inevitable. Oil gain was estimated from tight reservoirs mainly in the area where technology has been proven, and from the unproven areas and formations. Available geomechanical model in the proven area has been revisited, and updated to enhance the engineering design of fractures. Additional data acquisition approaches, including acoustic logs, have been proposed to obtain more understanding in unfamiliar areas and formations. Asset drilling schedule and hydraulic fracturing plan have been optimally arranged in a way that the dedicated wells maximize overall asset production. Essentially, the selection of candidate wells becomes the critical part of the project. Many existing wells encountered tight formation, but they are no longer economically viable due to rapid production decline. Based on geological evidences, production data, and well integrity status, the selected candidates were strategically included in the project scope, which also supports idle well restoration program. Key elements of the hydraulic fracturing project in Thailand from the success of pilot campaign to the first-ever full-scale implementation in effectively and sustainably developing tight, multi-layered reservoirs of Phitsanulok basin are captured. Subsurface management scheme; operation plan and execution; fracture design and treatment technique optimization being applied fieldwide presented can be practical model useful for the operators to maximize the opportunity in tight reservoir portions, on the steps toward the sustainable future.
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通过水力压裂使成熟油田多层致密砂岩储层的开发机会最大化:以泰国致密砂岩开发项目为例
在泰国Phisanulok盆地的多层油藏中进行了数十年的常规石油生产后,在成功的试验之后,简化了水力压裂的实施,最近使致密资源的生产在经济上可行。本文介绍了水力压裂活动的战略扩展,该活动首次在泰国发展到全现场实施。该项目采用的方法和提高的产油量最终实现了致密油储层的可持续开发。经过多年的地下和地质力学研究后,进行了试点压裂作业。根据递减曲线分析,该油田的产油量几乎是预计最终采收率的8倍,因此,该油田的战略方案是通过水力压裂技术开发多层储层的致密油潜力。全面讨论了开发策略,包括(1)在已探明区域的持续压裂活动,(2)在新地层的实施,(3)现有非生产井的恢复,然后在实际过程中设计和实施水力压裂的基本考虑。因此,水力压裂已成为服务于致密砂岩开发方案的关键技术,并将持续大规模实施,以促进目标油的开采,使项目处于动态运行状态。谨慎的地下管理模式和审慎的项目规划与执行是必然的。据估计,致密储层的产油量主要来自技术已被证实的地区,以及未被证实的地区和地层。对已探明区域现有的地质力学模型进行了重新审视和更新,以加强裂缝的工程设计。为了更好地了解不熟悉的区域和地层,人们提出了包括声波测井在内的其他数据采集方法。优化了资产钻井进度和水力压裂计划,使专用井最大限度地提高了资产的整体产量。从本质上讲,候选井的选择成为项目的关键部分。许多现有井遇到了致密地层,但由于产量迅速下降,这些井不再具有经济可行性。根据地质证据、生产数据和井的完整性状况,选定的候选井被战略性地纳入了项目范围,这也支持了闲置井的恢复计划。泰国Phitsanulok盆地水力压裂项目从成功的试点到首次全面实施有效和可持续开发致密多层储层的关键要素都得到了捕获。地下管理方案;运营计划及执行;裂缝设计和处理技术优化在全油田范围内的应用,可以为运营商提供实用的模型,以最大化致密储层部分的机会,朝着可持续发展的未来迈进。
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