北海油田某井安置案例研究

A. Kaur, R. Stalker, G. Graham
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摘要

本文考虑了北海油田选定井的布置挑战,并介绍了在尝试模拟此类复杂井的处理时,了解储层性质(如相对渗透率、流动性和流体)的重要性。由于整体排水策略的变化,该工作提出了挑战和解决方案,以最大限度地降低该成熟油田的结垢风险。北海油田的许多井都很复杂,产自多个非均质地层,这使得它们很难处理,因此有效的安置对于减少井下结垢至关重要。本文中强调的井最初计划进行最少的干预。然而,随着油田开发计划的成熟,几口生产井的硫酸盐结垢风险明显增加(尽管是轻微的)。因此,计划采取先发制人的挤压处理措施,以减轻井下硫酸钡结垢。考虑到地层的异质性,如果不能设计出有效的挤封措施,就会产生潜在的风险。本文介绍了这些井的定位挑战以及克服这些挑战的潜在方法。有效的放置并不一定意味着放置在所有的生产层中,而是意味着将抑制剂放置在任何潜在的结垢盐水混合点的上游层中。因此,这项工作强调了有效抑制所需的必要位置以及可能实现这一目标的相应处理设计。辅助有效安置的一种处理注入策略是使用分段分流处理,该处理使用近井安置模型进行模拟。本文记录了一个在北海成熟油田进行建模布置和相应挤压回采的案例研究。它强调了储层特性的重要影响,如相对渗透率效应(除了渗透率、孔隙度、流体流动性等),以及如何使用这些特性,以便在复杂非均质井中轻松模拟化学处理,而无需使用复杂的全油田油藏模拟器。
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A Placement Case Study for a Well in the North Sea Field
This paper considers the placement challenge in selected wells in a North Sea Field and presents the importance of understanding reservoir properties such as relative permeability, mobility and fluid in place when attempting to simulate treatments in complex wells such as these. The work presents the challenges and solutions offered to minimise the scale risk in this mature field as a result of changes in the overall drainage strategy. Many wells in the North Sea Field are complex and produce from multiple heterogeneous formations which makes them difficult to treat, and so effective placement is vital to mitigate downhole scaling. The wells highlighted in this paper were originally planned for minimal interventions. However as the field development plan matured an increased (albeit mild) sulphate scaling risk became evident in several production wells. Therefore, pre-emptive squeeze treatments were planned to mitigate downhole barium sulphate scaling. Given the heterogeneity in the formation this resulted in potential risks in the event that squeeze treatments could not be designed to give effective placement. This paper presents the placement challenge that is seen in these wells in addition to potential methods of overcoming these challenges. Effective placement does not necessarily mean placement into all producing layers, but means placement of inhibitor into layers upstream of any potential mixing point of scaling brines. Therefore, this work highlights the necessary placement required for effective inhibition and the corresponding treatment designs that may achieve this. One treatment injection strategy to assist effective placement is the use of a staged diversion treatment which is simulated using a near-wellbore placement model. This paper documents a case study of modelling placement, and the corresponding squeeze return, in a mature North Sea Field. It highlights the important influence of reservoir properties such as relative permeability effects (in addition to permeability, porosity, fluid mobility etc.) and how these are used such that chemical treatments in complex heterogeneous wells can be readily simulated without the necessity of using complex full field reservoir simulators.
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