非常规储层中一排相互干扰的压裂水平井的压力和速率瞬态模型

IF 3.2 3区 工程技术 Q1 ENGINEERING, PETROLEUM SPE Journal Pub Date : 2024-05-01 DOI:10.2118/215031-pa
E. Ozkan, M. Makhatova
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引用次数: 0

摘要

本文提出了非常规储层中 n 个平行压裂水平井阵列的压力和速率瞬态行为的分析解决方案。井的长度相等,但其他属性并不相同。每口井都有任意数量的间距一致的有限传导性裂缝,并被激发储层容积(SRV)包围。不同油井的水力压裂(HF)和油藏体积(SRV)的属性可能不同。井与井之间未受刺激储层段的属性也可能不同。受刺激和未受刺激储层体积中的天然裂缝通过瞬态双孔隙理想化加以考虑。在三线流假设下,流动域被划分为一维流动区块。每个区块的解都是通过分析得到的,并通过区块界面上压力和流量的连续性与相邻区块的解耦合。由于井间无流边界的移动,根据油井生产率的变化调整油井的排水量。叠加原理用于考虑可变生产条件以及油井的非同步生产和关井计划。最终解法是拉普拉斯变换域中的矩阵向量方程形式,并以数值方式反演到时域。对于非常规储层中多口油井的单相油气生产的大多数实际应用,该模型都非常稳健和准确。它是评估不同完井设计和不同储层特征下油井干扰效应的有效工具。该模型速度快,可用于压力瞬态和生产数据分析,以及更复杂数值模型的初步校准和验证。
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Pressure- and Rate-Transient Model for an Array of Interfering Fractured Horizontal Wells in Unconventional Reservoirs
An analytical solution is presented for pressure- and rate-transient behavior of an array of n parallel and fractured horizontal wells in an unconventional reservoir. Wells are of equal length but otherwise of unidentical properties. Each well has an arbitrary number of uniformly spaced identical, finite-conductivity fractures and is surrounded by a stimulated reservoir volume (SRV). The properties of hydraulic fractures (HFs) and SRVs may vary from well to well. Different properties may also be assigned to the unstimulated reservoir sections between wells. Natural fractures in stimulated and unstimulated reservoir volumes are accounted for by transient dual-porosity idealization. The flow domain is divided into blocks of 1D flow under the trilinear-flow assumption. Solution for each block is obtained analytically and coupled with the solutions for the neighboring blocks by the continuity of pressure and flux at the block interfaces. Drainage volumes of wells are adjusted based on the variation of well production rates because of moving no-flow boundaries between wells. The superposition principle is applied to consider variable-production conditions as well as nonsynchronous production and shut-in schedules of wells. The final solution is in the form of a matrix-vector equation in the Laplace transform domain and inverted into the time domain numerically. The model is robust and reasonably accurate for most practical applications of single-phase oil and gas production from multiple wells in an unconventional reservoir. It is an efficient tool to assess well interference effects for different well completion designs and varying reservoir characteristics. The speed of the model makes it useful for pressure-transient and production-data analysis, as well as for the initial calibration and verification of more complex numerical models.
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来源期刊
SPE Journal
SPE Journal 工程技术-工程:石油
CiteScore
7.20
自引率
11.10%
发文量
229
审稿时长
4.5 months
期刊介绍: Covers theories and emerging concepts spanning all aspects of engineering for oil and gas exploration and production, including reservoir characterization, multiphase flow, drilling dynamics, well architecture, gas well deliverability, numerical simulation, enhanced oil recovery, CO2 sequestration, and benchmarking and performance indicators.
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