聚合物驱:减轻诱发振动的地面设施设计和现场性能验证

Shagun Jain, K. Vasavada
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引用次数: 1

摘要

本文是SPE-187306- MS“提高采收率-聚合物驱:地面传输设施设计,液压和解决诱发振动的图形方法”的延续,其核心重点是地面设施的诱发振动和相应的缓解措施。Vedanta Limited旗下的Cairn Oil & Gas公司在其Mangala油田(Rajasthan区块)实施了最大的提高采收率工艺之一(聚合物驱)。目前的设施设置遵循集中式聚合物处理设施的概念。这个概念被认为是最经济的,它确保了现有注水网络的最佳利用。曼加拉聚合物项目需要大量的聚合物注入,因此需要更高浓度的母液,以减少中心聚合物装置(CPF)的规模。CPF是世界上最大的集中式聚合物溶液制备设施之一,以15,000 ppm的浓度生产80,000桶聚合物母液。浓缩聚合物溶液(母液)通过管道分布从CPF输送到现有的各个井台(15个)。母液输送管网长15公里以上。一旦到达井底,浓缩的聚合物溶液(母溶液)就用注入的水按特定的稀释比例稀释。在提高压力后,稀释后的溶液通过现有的注水管线注入到单个井中。然而,在Mangala EOR调试后,聚合物溶液设施中出现了一些管道系统故障。这些故障主要是由于振动引起的疲劳,并且发生在正位移聚合物注油泵的吸入和排出管道上。这种振动主要归因于聚合物流体的粘弹性。本文从以下几个方面对该问题进行了阐述:评估聚合物流体流变对地面设施和设备的振动影响,详细识别易发生设备故障和性能损失的地面设施部分。根据现场经验介绍经验教训确定有效的设计解决方案,以解决流动诱发振动问题通过现场设计修改后的性能评估来确定建议的有效性
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Polymer Flooding: Surface Facility Design for Mitigating Induced Vibrations and On-field Performance Validation
This paper is in continuation to SPE-187306- MS "Enhanced Oil Recovery - Polymer Flooding: Surface Transfer Facility Design, Graphical Approach for Hydraulics and Tackle Induced Vibrations," with core focus on induced vibrations in surface facilities and corresponding mitigating steps. Cairn Oil & Gas, vertical of Vedanta Limited, has implemented one of the largest Enhanced Oil Recovery Process (Polymer flood) for its Mangala field (in Rajasthan block). The current facility set up follows centralized polymer handling facility concept. This concept was found to be the most economic and it ensured an optimal utilization of the existing water flood network. Large volume of polymer injection requirement for Mangala polymer project drove the requirement of higher concentrated mother solution to reduce the Central Polymer Facility (CPF) plant size. The CPF is among one of the largest centralized polymer solution preparation facilities in the world, producing 80,000 barrels of polymer mother solution at 15,000 ppm concentration. The concentrated polymer solution (mother solution) is transferred from the CPF to the various existing well-pads (15 nos.) via a pipeline distribution. The mother solution transfer pipeline network is of over 15 km. Once at the well pads the concentrated polymer solution (mother solution) is diluted with the injection water at a specific dilution ratio. The diluted solution is then injected into the individual wells through the existing injection water lines after boosting the pressure. However, post Mangala EOR commissioning some piping system failures have been experienced in polymer solution facility. These failures are largely attributed to vibration induced fatigue and arose both, at the suction and discharge lines of the Positive Displacement polymer Injection Pumps. The vibration is attributed mainly to the visco-elastic nature of the polymer fluid. The paper covers the issue through following steps: Evaluating the vibration effect on surface facilities and equipment due to polymer fluid rheology Identifying, in detail, the sections of surface facility susceptible to equipment failure and performance loss. Presenting lessons learnt based on field experience Qualifying effective design solutions to address the issues of flow induced vibration Establishing the efficacy of the recommendations through performance evaluation post on-site design modification
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