Pressure Transient Analysis for Water Injection Wells with Waterflooding-Induced Nonsimultaneously Closed Multistorage Fractures: Semianalytical Model and Case Study

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
Zhipeng Wang, Z. Ning, Wen-ming Guo, Weinan Lu, Fangtao Lyu, Gen Liu
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引用次数: 2

Abstract

Waterflooding will induce the opening and extension of fractures, which will create some water flow channels. Due to fracture multiclosures, the obtained fracture half-length from conventional finite-conductivity models is less than the actual value, leading to water flow channels that have been formed but not detected by engineers. According to a large number of waterflooding-front matching schematics and interwell connection coefficient analyses, we find that waterflooding usually connects natural fractures to form bi-induced fractures, which will close nonsimultaneously during the falloff test. In this paper, we develop a waterflooding-induced nonsimultaneously closed multistorage fracture model (WNMF) to describe waterflooding-induced fracture characteristics accurately. The bi-induced fractures are separated into multiple segments to calculate their pressure response. The closed induced-fracture conductivities are constant, and the opened induced-fracture conductivities follow the exponential equation measured by the experiments. Induced-fracture interference and multistorage effects are considered. Finally, the Duhamel principle is used to characterize the storage effects of bi-induced fractures and the wellbore. Results show that the type curve of the WNMF model has bi-peaks on the pressure derivative curve, which was regarded as error data in the past. Closed induced-fracture half-length is identified quantitatively. We can obtain an induced-fracture angle by matching the interference flow (an innovative flow regime in this paper), which can guide engineers to prevent and monitor water breakthrough in time. Using the obtained parameters (induced-fracture angle and closed induced-fracture half-length) can guide well pattern encryption and reasonable well location determination. If the induced-fracture angle is 90°, an additional horizontal line will be shown on the pressure derivative curve. When the horizontal line is misidentified as a quasiradial flow regime, the obtained reservoir permeability will be amplified many times. The multistorage coefficient is obtained to correct the magnified storage coefficient. Equation calculation and model matching methods verify each other to improve closed induced-fracture half-length accuracy. In conclusion, the experiment and mathematical model methods work together to describe the pressure response behavior of water injection wells. The WNMF model is compared with the conventional finite-conductivity model to verify its accuracy. A field case demonstrates its practicality.
注水诱导非同时封闭多储层裂缝注水井压力瞬态分析:半解析模型与实例研究
注水会引起裂缝的张开和扩展,从而形成一定的水流通道。由于裂缝多重闭合,常规有限导流模型得到的裂缝半长小于实际值,导致水流通道已经形成,但工程师没有检测到。根据大量的水驱前缘匹配图和井间连接系数分析,发现水驱通常将天然裂缝连通,形成双致裂缝,在落落试验过程中,双致裂缝不同时闭合。为了准确描述水驱致裂缝特征,建立了水驱致非同时封闭多储层裂缝模型。将双诱导裂缝分成多段,计算其压力响应。闭合型诱导裂缝的导流率为常数,而张开型诱导裂缝的导流率符合实验测量的指数方程。考虑了诱导裂缝干扰和多重存储效应。最后,利用Duhamel原理对双致裂缝和井筒的储层效应进行表征。结果表明,WNMF模型的类型曲线在压力导数曲线上有双峰,这在过去被认为是误差数据。定量确定了闭合诱导裂缝半长。通过对干涉流(本文提出的一种创新流型)进行匹配,可以获得诱导破裂角,从而指导工程师及时预防和监测窜水。利用所得参数(诱导裂缝角和闭合裂缝半长)可以指导井网加密和合理定位。如果诱导破裂角为90°,则压力导数曲线上将显示一条额外的水平线。当水平线被错误地识别为准径向流型时,得到的储层渗透率将被放大许多倍。对放大后的存储系数进行校正,得到了多存储系数。方程计算和模型匹配方法相互验证,提高了闭合诱导裂缝半长精度。综上所述,实验方法与数学模型方法相结合,可以很好地描述注水井的压力响应特性。将WNMF模型与传统的有限电导率模型进行了比较,验证了其准确性。现场实例验证了该方法的实用性。
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
CiteScore
5.30
自引率
0.00%
发文量
68
审稿时长
12 months
期刊介绍: Covers the application of a wide range of topics, including reservoir characterization, geology and geophysics, core analysis, well logging, well testing, reservoir management, enhanced oil recovery, fluid mechanics, performance prediction, reservoir simulation, digital energy, uncertainty/risk assessment, information management, resource and reserve evaluation, portfolio/asset management, project valuation, and petroleum economics.
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