预测压裂致密砂岩储层水平井注入压力的方法

GEOPHYSICS Pub Date : 2024-04-22 DOI:10.1190/geo2023-0510.1
Jingshou Liu, Yuanhong Lu, Yang Luo, Haimeng Yang, Lin Lu
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引用次数: 0

摘要

水力压裂和水平井钻探是提高大陆致密砂岩储层产量的关键技术。以鄂尔多斯盆地元-287区块典型的致密砂岩裂缝为例,基于206口井的地层关联建立了储层地质模型。该模型与三维古应力场相结合,预测了密度和走向等裂缝参数。利用储层破裂压力(RBP)监测数据,结合储层物理力学参数、构造裂缝特征和原位应力参数,通过逐步回归法建立了RBP定量评价模型,预测了RBP的三维分布,分析了RBP的控制因素。研究发现,岩石 P 波速度、水平最小主应力和裂缝密度是控制该致密砂岩储层破裂压力的三个关键参数。通过比较地下构造裂缝的裂缝张开压力(FOP)与 RBP,提出了预测该储层最佳注水压力(OWIP)的新方法。这项工作为加速高效开发大陆致密砂岩储层提供了一个有价值的评估模型。
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Method for predicting the injection pressure for horizontal wells in fractured tight sandstone reservoirs
Hydraulic fracturing and horizontal well drilling are the key technologies for increasing the production of continental tight sandstone reservoirs. Taking the typical fractured tight sandstone in the Yuan-287 block of the Ordos Basin as an example, a reservoir geological model was established based on the stratigraphic correlation of 206 wells. The model and 3D paleostress field were combined to predict fracture parameters such as density and strike. By using reservoir breakdown pressure (RBP) monitoring data combined with reservoir physical and mechanical parameters, tectonic fracture characteristics, and in situ stress parameters, a quantitative evaluation model of RBP, which predicts the 3D distribution of RBP, was established via the stepwise regression method, and the factors controlling the RBP were analyzed. The rock P-wave velocity, horizontal minimum principal stress and fracture density were found to be three key parameters that control the breakdown pressure of this tight sandstone reservoir. By comparing the fracture opening pressure (FOP) of subsurface tectonic fractures with the RBP, a new method for predicting the optimal water injection pressure (OWIP) of this reservoir was proposed. This work provides a valuable evaluation model for accelerating the efficient development of continental tight sandstone reservoirs.
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