在没有桥接颗粒的枯竭油藏中,确定地层损害重要性的井产能评价系统方法:Oseberg主要案例历史

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
N. Fleming, Erlend Moldrheim, Espen Teigland, A. Mathisen
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引用次数: 4

摘要

作为Equinor于2015年启动的技术效率计划的一部分,该计划旨在实现节约和改进,从Oseberg Main的15口井的钻井液中去除桥接颗粒,并根据要求在一些井(但不是所有井)中使用了防漏材料(LCM)。这些长水平井是裸眼(OH)和防砂筛管(有或没有流入控制)以及套管井和射孔井(C&P)完井的组合,产自典型的布伦特组砂岩地层,渗透率从大约10 md到达西砂岩不等,并且已经耗尽了大约280 bar。2018年,对这些井进行了广泛的研究,以确定无桥接颗粒钻井对流入动态的影响。人们意识到,这15口井提供了最坏的情况,可以在现场而不是实验室研究地层损害对油井产能的影响。生成的数据集为挑战传统的地层损害断言提供了独特的机会,特别是对于长水平井。对于那些没有桥接颗粒的井,考虑了不同参数的影响,包括lcm、下完井设计、漏失类型、泥浆渗透深度、钻井时动态过平衡、生产间隔长度、净重比(NTG)和kh。其中一个令人惊讶的发现是,没有明确的证据表明漏失会损害这些长水平井的产能;也就是说,Brent油藏段尽管已经枯竭,但对地层损害对流入性能的影响的抵抗力比最初想象的要强。此外,在这个例子中,桥接颗粒在避免地层损害方面似乎不太重要,但在防止因漏失而导致的流体成本过度增加方面却很重要。在对从该研究中获得的所有数据进行全面审查并得出结论后,我们意识到这些数据对Equinor的流体鉴定方法,特别是岩心驱油方法具有直接影响。影响这种方法变化的最重要的结论是,在典型的布伦特非均质地层中,较长的储层段(约1公里或更长)似乎可以承受更大的地层损害,而不会影响产能指数(PI)。由此得出的一个直接结论是,应该更加重视流体的相容性、流动性、筛管堵塞和稳定性以及颗粒尺寸分布(PSD)设计,而对于布伦特和具有类似特征的油藏,岩心驱油对流体质量的重要性被降低了。这并不是说不进行岩心驱油,而是针对地层损害对油井产能影响更大的情况;例如,需要特殊钻井和完井液的高压和高温油田,不需要机械增产的低渗透地层,以及储层温度较低的浅层油藏。在本文中,我们将对地层损害对油井产能的重要性进行评估,并以此来展示Equinor根据现场经验改进的地层损害实验室评估方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Systematic Approach to Well Productivity Evaluation To Determine the Significance of Formation Damage for Wells Drilled in a Depleted Reservoir without Bridging Particles: Oseberg Main Case History
As part of an Equinor technical efficiency program that was initiated in 2015 to deliver savings and improvements, bridging particles were removed from the drilling fluids of 15 wells in Oseberg Main and instead loss control material (LCM) was used, as required, in some but not all the wells. These long, horizontal wells were a combination of open hole (OH) and sand screens with and without inflow control together with cased and perforated (C&P) completions, producing from typical Brent Group sandstone formations with permeabilities varying from approximately 10 md to darcy sandstones, and which were depleted by as much as approximately 280 bars. In 2018, an extensive study was performed on these wells to determine the impact on inflow performance of drilling without bridging particles. It was realized that the 15 wells offered a worst-case scenario to study in the field rather than laboratory the significance of formation damage on well productivity. The data set generated offered a unique opportunity to challenge conventional formation damage assertions, especially for long, horizontal wells. The influence of different parameters, including LCMs, lower completion design, loss type, mud penetration depth, dynamic overbalance while drilling, length of production interval, net to gross (NTG) and kh were considered for those wells drilled without bridging particles. One of the surprising findings was that there was no clear evidence that losses were detrimental to the productivity of these long horizontal wells; i.e., it would appear that the Brent reservoir sections, despite being depleted, were more resistant to the influence of formation damage on inflow performance than first thought. Furthermore, for this example bridging particles appear to be of less importance in the avoidance of formation damage but are important in preventing excessive increases in fluid costs due to losses. After a thorough review of all the data obtained from this study, together with the conclusions drawn, it was realized that these had direct implications for Equinor's approach to fluid qualification, and especially coreflooding. The most important conclusion that influenced this change in approach was that the long reservoir sections (approximately 1 km or more) within typical Brent heterogeneous formations appear to tolerate more formation damage without impairing the productivity index (PI). A direct consequence of this was the conclusion that more emphasis should be placed on fluid compatibility, mobility, screen plugging and stability along with particle-size distribution (PSD) design, while the importance of coreflooding to fluid qualification was downgraded for Brent and reservoirs of similar characteristics. This is not to say that coreflooding will not be performed, but rather it will be targeted toward situations where the influence of formation damage on well productivity is more significant; e.g., high-pressure and high-temperature fields where special drilling and completion fluids are required, low-permeability formations without mechanical stimulation, and shallow reservoirs with low reservoir temperature. In this paper, we will perform an evaluation of the significance of formation damage on well productivity and use this to demonstrate Equinor's revised approach to formation damage laboratory evaluation based on field experiences.
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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