An Enhanced Approach to the Remediation of Scale Induced Formation Damage - Offshore Trinidad

Day 1 Mon, June 28, 2021 Pub Date : 2021-06-28 DOI:10.2118/200903-ms

K. Francis-LaCroix, J. King, Laura Moonilal, Reon Rauceo

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引用次数: 0

Abstract

The remediation of flow assurance challenges in field's offshore Trinidad is a foci of oil and gas operators in Trinidad West Indies. These challenges are heightened by field maturity and the corresponding increase in water production. With this increased water influx, production chemistry and specific flow assurance challenges also arise. One of the primary challenges include the precipitation and deposition of inorganic mineral scales. Coupled with this, mineralogy data and core data studies indicated that the sands of some of the producing fields offshore Trinidad are highly susceptible to scale precipitation in the formation water (Holder, 1990). As such, measures are often implemented to assure the successful and economical flow of hydrocarbon stream from the reservoir to the point of sale. In this geographical area, stimulation acid treatments were typically deployed for remediation of formation damage of which scale precipitation was a main type. However, based on the previous production histories, the production gains following these acid treatments were short-lived. In addition, the accompanying financial loss is often compounded by other flow assurance challenges that were precursed by scale deposition. This paper will discuss the use of inhibitory squeeze application techniques as a preventative approach to formation damage resulting from scale precipitation. This application is the first of its kind performed in the Teak field. Thus, results obtained will highlight further opportunity to successfully stimulate other fields in this region prone to scale deposition. The results obtained from this application will be represented in the form of a comparative analysis. The production indices attained via the conventional means of scale remediation, will be compared with that achieved via the strategic placement of phosphonate-based chemistries. Additionally, methods employed to avert the challenges of squeeze treatments in offshore environments will also be discussed as well as lessons learned from this approach.

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一种改进的水垢引起的地层损害修复方法——特立尼达近海

在特立尼达西印度群岛，解决特立尼达海上油田的流动保障问题是油气运营商关注的焦点。这些挑战随着油田成熟度和相应的产水量的增加而加剧。随着水侵量的增加，生产化学成分和特定的流动保证也出现了挑战。其中一个主要挑战包括无机矿物鳞片的沉淀和沉积。此外，矿物学数据和岩心数据研究表明，特立尼达近海一些生产油田的砂极易受到地层水中水垢沉淀的影响(Holder, 1990)。因此，通常会采取措施，以确保油气从储层到销售点的成功和经济的流动。在该地区，通常采用增产酸化措施来修复地层损害，其中规模降水是主要类型。然而，根据之前的生产历史，酸处理后的产量增长是短暂的。此外，伴随而来的经济损失往往与其他流动保障挑战相结合，这些挑战是由水垢沉积预先预示的。本文将讨论使用抑制挤压应用技术作为预防水垢沉淀造成的地层损害的方法。这是第一次在柚木油田进行此类应用。因此，获得的结果将突出进一步成功开发该地区其他容易结垢的油田的机会。从这一应用中获得的结果将以比较分析的形式表示。通过常规的规模修复方法获得的生产指标将与通过战略性地放置磷酸盐基化学品获得的生产指标进行比较。此外，还将讨论用于避免海上环境中挤压处理挑战的方法以及从中吸取的经验教训。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 1 Mon, June 28, 2021

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