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首页> 外文期刊>Oceanographic Literature Review >The Effect of Production-Logging-Tool Data on Scale-Squeeze Lifetime and Management of Scale Risk in Norwegian Subsea Production Wells: A Case Study
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The Effect of Production-Logging-Tool Data on Scale-Squeeze Lifetime and Management of Scale Risk in Norwegian Subsea Production Wells: A Case Study

机译:生产测井工具数据对挪威海底生产井中规模挤压寿命和规模风险管理的影响:案例研究

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Because of the higher cost of scale management for subsea (SS) operations compared with platform or onshore fields, and because of the more limited opportunities for interventions, it is becoming increasingly important to obtain and use real production data from wells rather than estimated zone flow contribution from simple permeability (k) and height (h) models for scale-squeeze-treatment design. In this paper I discuss how scale-squeeze treatments were designed (coreflood evaluation of inhibitor retention/release) and deployed for three SS heterogeneous production wells. A permeability model and a layer-height model were initially developed for each well using detailed geological log data, estimated water/oil-production rates, and the predicted water-ingress location within the wells. Two wells were each treated three times using bullhead scale-squeeze treatments, with effective scale control being reported over the designed lifetime. A production log was acquired before the fourth squeeze campaign of these two wells. This information was incorporated into the squeeze simulation to allow review of the ongoing third squeeze and enhance design accuracy for the upcoming fourth squeezes. A third well was treated twice before production-logging data became available, and the performance of treatments to this well is also assessed. The production-logging-tool (PLT) data proved very important in changing the understanding of fluid placement and the water-ingress location during production, resulting in changes to the isotherm values used to achieve effective history match to the inhibitor returns (with PLT data incorporated in all three wells), and most significantly affecting the squeeze lifetimes. It was possible to significantly extend the treatment lifetime of two of the wells (cumulative produced water to minimum inhibitor concentration), while the treatment life of one well was greatly reduced because of the PLT-data-modified model predictions. In this paper Ⅰ outline the process of reser-voir/near-wellbore modeling that is used for most initial squeeze-treatment service companies deployed in the North Sea. I will highlight in detail the value that PLT data can provide to improve the effectiveness of squeeze treatments in terms of understanding of fluid placement during squeeze deployment and water-ingress location within heterogenous production wells. The intention of this paper is to highlight the value that these types of data can provide to improve scale management (squeeze treatment and water shutoff) such that the value created more than offsets the cost of acquiring such information for SS production wells.
机译:由于海底管理成本较高,与平台或陆上领域相比,由于干预措施的机会更有限,因此可以从井中而不是估计的区域流量获得和使用真实的生产数据变得越来越重要从简单的渗透率(k)和高度(h)模型进行尺度挤压处理设计的贡献。在本文中,我讨论了如何设计尺度挤压处理(抑制剂保留/释放的CoreFlood评估),并为三个SS异质生产井部署。最初使用详细地质日志数据,估计的水/油生产率以及井内预测的水入口位置来开发渗透性模型和层高模型。每次使用Bullhead Scale-Squeeate治疗的两个井每次处理三次,并通过设计的寿命报告有效的尺度控制。在这两个井的第四次挤压活动之前获得了生产日志。该信息纳入挤压仿真,以允许审查持续的第三次挤压,并提高即将到来的第四次挤压的设计精度。在生产测井数据可用之前,第三次井是两次处理,并且还评估了对此井的治疗性能。在生产过程中,生产测井工具(PLT)数据在改变流体放置和水入口位置的理解方面非常重要,导致用于实现有效历史与抑制剂返回的等温值的变化(使用PLT数据在所有三个井中注入),最显着影响挤压寿命。有可能显着地延伸两个孔的治疗寿命(累积产生的水至最小抑制剂浓度),而一个井的治疗寿命由于PLT数据修改模型预测而大大降低。本文概述了Reser-Voir /近井眼建模的过程,用于部署在北海的最初挤压治疗服务公司。我将详细突出显示PLT数据可以提供的价值来提高挤压处理的有效性,了解挤压部署和外源生产井中的水入口位置的流体放置。本文的目的是突出这些类型数据可以提供以提高规模管理(挤压处理和水关闭)的价值,使得创造的价值超过抵消了用于SS生产井获取此类信息的成本。

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