利用最大油藏接触面MRC井对海上大型成熟油田进行分阶段再开发

C. Koeck, A. Bensadok, Praffula Goyal, A. Alhashmi
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引用次数: 3

摘要

一项大型棕地再开发项目启动了长水平井,以阻止主要由缺乏压力支持和大气顶自由气体流入引起的产量下降。该项目的主要价值驱动因素是对天然气突破的层位的理解,并通过低成本的井交付,更好的规划和技术应用实现资本效率。首先,在分析影响游离气产量的多种因素的基础上,对该气田进行了分段。它考虑了地质方面的研究,如沉积环境和成岩作用,构造因素,如高渗透条纹和裂缝,动态行为,如注水效率,气顶膨胀或锥进。其次,进行数值模拟,根据预期模型的性能对各区块进行排序,并与实际数据分类进行比较,测试新提出的开发方案(如油气接触面注水和安装井下控制阀的长水平井)的效果。研究发现,每个部门都有特定的生产机制,并提出了适当的发展建议,然后在模拟中进行了测试。例如,高渗透条纹对某些段的发育起着重要作用,导致子层之间成熟度差异大,水或气的突破早。此外,注水效率低也是该油田面临的最大问题之一。大多数注水井位于离采油区太远的地方,由于成岩作用导致含水层相经常退化,注入能力较低。这就导致了压力支撑的缺乏,通过注气来平衡压力支撑,最终导致大量高GOR井的出现,并且由于天然气倾向于绕过石油,导致结构顶部的扫井效果不佳。模拟工作表明,剩下的几个区域是安全的,可以立即开发,应该在不久的将来优先开发。另一方面,一些易发生气水突破的成熟层需要加强开发,如油气界面注水、人工举升、低压系统、GOR松弛等。通过实施长水平排水,可以改善致密和不发达的储层。
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Phased Redevelopment of a Giant Mature Offshore Field Using Maximum Reservoir Contact MRC Wells
A giant brownfield re-development project with long horizontal wells was initiated to arrest production decline mainly caused by a lack of pressure support and free gas influx from the large gas cap. Key value drivers for the project are developing an understanding of the layers with regards to gas breakthrough, and achieving capital efficiency through low-cost well delivery, better planning and technology applications. Firstly, the field has been segmented based on the analysis of multiple factors influencing the free gas production. It considers geological aspects such as the study of depositional environment and diagenesis, structural elements such as high permeability streaks and fractures, dynamic behaviors such as the water injection efficiency, gas cap expansion or coning. Secondly, numerical simulations were then run in order to rank the sectors based on the expected model performance, compare them with real data categorization, and test the effect of the new proposed development schemes such as water injection at gas-oil contact and long horizontal wells equipped with downhole control valves. It was found that each sector has a specific production mechanism and appropriate developments were recommended and then tested in the simulation. For instance, high permeability streaks play a significant role on the development of some sectors instigating a big difference of maturity between sub-layers, early water or gas breakthrough. Also, the inefficiency of water injection is one of the biggest issues of the field. Most of the water injectors are located too far from the oil producers, and have a low injectivity due to the often degraded facies in the aquifer because of diagenesis. This leads to a lack of pressure support that is counterbalanced by the gas injection, ending up with a lot of high GOR wells and a bad sweep from the top of the structure as the gas tends to by-pass the oil. Simulation work showed that several remaining zones are safe for immediate development and should be prioritized for development in the near future. On the other hand, some of the mature layers prone to gas and water breakthrough need a boost for development, such as water injection at gas-oil-contact, artificial lift, low pressure system, GOR relaxation. Tight and undeveloped reservoirs are improved by implementing long horizontal drains.
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