Pressure-Transient Analysis for Cold-Water Injection into a Reservoir Coupled with Wellbore-Transient-Temperature Effects

IF 1.4 4区工程技术 Q2 ENGINEERING, PETROLEUM

Spe Production & Operations Pub Date : 2020-08-01 DOI:10.2118/186306-pa

D. O'Reilly, M. Haghighi, M. Flett, M. Sayyafzadeh

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引用次数: 2

Abstract

Presented here is an analytical framework to assess the impact of transient-temperature changes in the wellbore on the pressure-transient response of cold-water injection wells. We focus attention on both drawdown and falloff periods in a well after injection. Historically, these pressure data have been used to calculate reservoir properties concerning flood-efficiency and completion properties (formation permeability/thickness, mechanical skin, and fluid-bank mobilities). One key question addressed in this paper is whether the effects of thermal heating of wellbore fluids during a falloff survey can mask the pressure signature of a two-region composite reservoir. The pressure deflections required to detect mobility changes can be relatively small compared with pressure changes induced by temperature effects in the well. The framework proposed in this paper allows for the numerical evaluation of the contribution of each. Previously, researchers have studied multiple bank-transient-injection problems extensively for the case of reservoir flow and pressure drop, even for nonisothermal problems. The effect of temperature changes in the wellbore and overburden are seldom discussed, however. It is demonstrated in this paper that these effects can, in some cases, be substantial, and it is worthwhile to incorporate them into an interpretation model. The results of this paper are useful for planning and designing a pressure-falloff survey to minimize the adverse effect that heating of wellbore fluid by overburden rock can have on the pressure-transient signature. The theory can also be used to analyze existing data affected by the phenomenon. A real-field case study is shown for a cold-water injector where pressure-falloff data have been affected by temperature changes. The analytical model fits the field data closely when parameters are adjusted within reservoir-property-uncertainty ranges.

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考虑井筒瞬态温度效应的油藏注水压力瞬态分析

本文提出了一个分析框架，用于评估井筒内瞬态温度变化对冷水注入井压力瞬态响应的影响。我们将注意力集中在注入后油井的下降期和下降期。从历史上看，这些压力数据已用于计算与驱油效率和完井特性（地层渗透率/厚度、机械表皮和流体库流动性）有关的储层特性。本文提出的一个关键问题是，在衰减测量过程中，井筒流体的热加热效应是否可以掩盖两区复合油藏的压力特征。与井内温度效应引起的压力变化相比，检测迁移率变化所需的压力偏差可能相对较小。本文提出的框架允许对每一个的贡献进行数值评估。以前，研究人员已经广泛研究了储层流动和压降情况下的多组瞬态注入问题，甚至是非等温问题。然而，很少讨论井筒和覆盖层中温度变化的影响。本文证明，在某些情况下，这些影响可能是实质性的，值得将其纳入解释模型。本文的结果有助于规划和设计压降测量，以最大限度地减少覆盖层岩石加热井筒流体对压力瞬态特征的不利影响。该理论也可用于分析受该现象影响的现有数据。显示了一个冷水喷射器的实际案例研究，其中压力下降数据受到温度变化的影响。当参数在储层性质不确定性范围内进行调整时，分析模型与现场数据非常吻合。

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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来源期刊

Spe Production & Operations 工程技术-工程：石油

CiteScore

3.70

自引率

8.30%

发文量

审稿时长

3 months

期刊介绍： SPE Production & Operations includes papers on production operations, artificial lift, downhole equipment, formation damage control, multiphase flow, workovers, stimulation, facility design and operations, water treatment, project management, construction methods and equipment, and related PFC systems and emerging technologies.