塔里木盆地塔河地区古岩溶地下河流系统的成因、分布及特征

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
Xinrui Lyu, B. Ju, Xingwei Wu, Fengying Xiao
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引用次数: 0

摘要

地下河系是构成塔里木盆地塔河地区奥陶系储层的三大古岩溶类型之一。水系全长约400公里,与该岩溶类型相关的储量超过2亿吨。然而,研究表明,47%的钻井未遇到河流古岩溶,而50%的遇到河流古岩溶的井由于对该地区古岩溶的认识不足而被完全填充,导致生产能力差异较大。在这项研究中,我们提出了一种详细的数据整合方法,包括露头、钻井、测井、地震剖面和动态数据,以描绘塔河地区复杂的古岩溶河系统。重点将岩溶地质理论与储层表征相结合。建立了明确地下水系主控因素、建筑类型、发展分布模式的工作流程。揭示了充填材料类型、充填结构顺序及充填控制因素。建立了基于地震资料预测和高分辨率地质统计与地质建模的地下河流定量表征方法。塔河地区奥陶系储层包括三个不同特征的古岩溶水系。岩溶古地貌是控制地下河流总体流向和平面分布的主要因素。潜水带表面的变化对控制河流的垂直层数和规模至关重要。断裂的联合作用对河流的交汇格局起着决定性的控制作用。单支河道、网状河道和单层或多层构造廊道是主要的地下河流类型。干渠、支流、厅洞、出水口是水系建筑中的主导结构。砂泥、角砾岩和化学沉淀物是最常见的填充物类型。地下水系存在3种典型的充填构造序列和4种空间组合模式。利用分频能量、分频反演、相干能量梯度等地震属性预测河流的形态和充填特征。采用多变量控制多点地统计方法构建三维模型,可以表征地下河流系统的强非均质性特征。这种复杂的古岩溶体系通过定量表征对储层开发方案的调整效果显著。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genesis, Distribution, and Characterization of a Paleokarst Subsurface River System in the Tahe Area, Tarim Basin, Western China
Subsurface river systems constitute one of three major paleokarst types that make up Ordovician reservoirs in the Tahe area of the Tarim Basin. The total length of the river system is approximately 400 km, and the reserves associated with this karst type are more than 200 million tons. However, it is manifested that 47% of drilled wells have not encountered river paleokarst, while 50% of wells that have encountered river paleokarst are fully filled due to the poor understanding of the paleokarst of this region, resulting in a significant variation of production capacities. In this study, we propose a detailed data integration approach with outcrops, drilling, logging, seismic profiles, and dynamic data to delineate the complex paleokarst river system in the Tahe area. The karst geological theory with reservoir characterization is combined in particular. The workflow of clarifying the main controlling factors, architecture types, and development distribution modes of the subsurface river system is established. Fill material type, sequence of fill structure, and fill controlling factors are also revealed. A quantitative characterization method of the subsurface rivers is established adopting predictions based on seismic data and high-resolution geostatistical and geological modeling. The Ordovician reservoirs in the Tahe area comprise three paleokarst river systems with different characteristics. Karst paleogeomorphology is the main control over the overall flow direction and plane distribution of the subsurface rivers. Changes in the surface of the phreatic zone are crucial in controlling the vertical layers and scale of the rivers. The combined action of faults plays a decisive role in controlling the anastomosing pattern of the rivers. Single-branch channels, reticulated channels, and structural corridors in single-layer or multilayer styles are the main subsurface river types. Trunk channels, branch channels, hall caves, and inlets/outlets are dominant structures in the architecture of the river system. Sand-mud, breccia, and chemically precipitated materials are the most common fill types. Three typical sequences of fill structure and four spatial combination modes exist in the subsurface river system. The morphology and fill characteristics of rivers are predictable using seismic attributes, such as frequency division energy, frequency division inversion, and coherent energy gradient. 3D models are constructed by multivariate control multipoint geostatistical method, which can characterize the strong heterogeneity characteristics of subsurface river systems. This complex paleokarst system enables remarkable results for the adjustment of the reservoir development plan through quantitative characterization.
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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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