有限裂缝网大小估算的部分裂缝油藏产油量简单解析模型

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
S. I. Ozkaya
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引用次数: 0

摘要

大多数油藏都是部分裂缝,其特征是孤立裂缝海洋中的有限裂缝网络(ffn)。在油藏模拟中,有必要明确确定每个FFN的大小和形状。FFN的大小与裂缝连通性相关,这是裂缝密度、长度和角散射的函数。ffn的产油表现出长期的双重孔隙特性。最初的快速速率(Phase I)代表FFN内部基质的耗竭,随后的逐渐衰减阶段代表FFN周长外基质的径向流动。因此,FFN的大小可以根据第一阶段的累积产油量计算,同时考虑孔隙体积、油的可压缩性和压力下降。通过目测并不总是能够识别双重孔隙行为。需要一个数学模型来估计FFN的大小。为此,导出了一组三个基本方程,分别表示产量、累积产量和压力作为时间的函数。该模型是物料平衡方程的改进简化版,易于解析求解。它是为具有层状裂缝的裂缝性储层设计的。在枯竭驱动下,生产为单相黑油。该分析模型在4口直井上进行了测试。对FFN尺寸、井泄油面积大小、裂缝孔径等未知参数进行调整,直至获得与实际生产数据最匹配的参数。根据平均裂缝走向和走向标准差估计FFN椭圆形状。结果得到了FFN尺寸、裂缝长度和井眼图像孔径测量结果的验证。结果是近似的,但足以初步绘制ffn的位置和尺寸以及其他关键属性,包括裂缝排水面积、基质块大小、裂缝孔径和部分裂缝性储层的渗透率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Simple Analytical Model for Oil Production from Partially Fractured Reservoirs to Estimate Size of Finite Fracture Networks
Most oil reservoirs are partially fractured, characterized by finite fracture networks (FFNs) in a sea of isolated fractures. It is necessary to determine size and shape of each FFN explicitly for reservoir simulation. FFN size is correlated with fracture connectivity, which is a function of fracture density, length, and angular scatter. Oil production from FFNs exhibits a long-term dual-porosity behavior. The initial fast rate (Phase I) represents depletion of matrix within FFN, and the subsequent gradual decline phase represents radial flow from the matrix outside the FFN perimeter. Thus, FFN size can be calculated from the cumulative oil production from Phase I, taking into account the pore volume, oil compressibility, and pressure decline. It is not always possible to identify the dual-porosity behavior by visual inspection. A mathematical model is needed to estimate FFN size. For this purpose, a set of three fundamental equations are derived for production rate, cumulative production, and pressure as a function of time. The model is a modified and simplified version of material balance equations with easy analytical solution. It is designed for fractured reservoirs with layer-bound fractures. Production is single-phase black oil under depletion drive. The analytical model was tested on four vertical wells. The unknown parameters such as FFN size, size of well drainage area, and fracture aperture are adjusted until an optimum fit to actual production data is obtained. FFN elliptical shape is estimated from average fracture strike and strike standard deviation. The results are validated by FFN size, fracture length, and aperture measurements from borehole images. The results are approximate but sufficient for preliminary mapping of FFNs with location and size and other critical attributes including fracture drainage area, matrix block size, fracture aperture, and permeability in partially fractured reservoirs.
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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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