绿地开发的复杂方法与压裂策略——以油田试点为例

E. Kazakov, R. Gaynetdinov, A. Churakov, Ildar Shamilevich Basyrov, Anna Vladimirovna Galysheva, R. Musin, I. Fayzullin, N. Chebykin, R. Uchuev, I. Vikhman, A. V. Kamenskiy, E. N. Kichigin
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引用次数: 0

摘要

本文介绍了一种在信息输入有限的情况下,为a . Zhagrin油田的斜井和水平井进行首次水力压裂作业制定策略的方法。该油田正处于勘探活跃阶段,计划数量以水平井为主,多级水力压裂。控制水力裂缝高度的先导工程设计方法,通过测井研究和获得的产油量证明了其有效性,并成功地应用于水平井多级水力压裂技术中。由于参考井的数量最少,油田面积很大(100平方公里),目标地层和邻近地层中含水带分布的不确定性,粘土层厚度从10到30米不等,存在水力压裂引入这些夹层的风险。项目团队能够根据地质和物理特征(目标地层和粘土层的厚度、饱和度)评估水力压裂的风险,并在联合跨职能工作(与地质、地质力学和水动力支持)中实施水力压裂技术,这些技术已经证实了其在石油生产中的效率。为了在初始阶段验证假设,在斜井中选择了各种情景条件,并对不确定性进行了概率评估,从而开发了技术解决方案矩阵。在定向井中,通过诊断水力压裂高度的方法,确定了中试技术的性能。在现代公司水力压裂模拟器中进行的应力剖面校正提高了三维地质力学模型的正确性,从而可以优化裂缝几何形状和水平井眼钻井方向。由于对所考虑的水力压裂技术的适用性条件进行了深入研究,因此在不损失水力裂缝有效半长的情况下,排除了含水层的包含。在实施过程中,该工作流程为成功的油井开发创造了解决方案矩阵,将确保在没有丰富水力压裂现场实践的油田实现计划的产油量。
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Complex Approach to Green Fields Development and Fracturing Strategy by the Example of Pilot on the Field by Name of Alexandra Zhagrina
The article describes an approach to creating, in conditions of limited input information, a strategy for performing the first hydraulic fracturing operations on deviated and horizontal wells in the A. Zhagrin field. The field is in the active phase of exploration, the planned count is mainly composed of horizontal wells with multi-stage hydraulic fracturing. Approaches to the design of pilot works with control of the height of hydraulic fractures, which have proved their effectiveness by well logging studies and the obtained oil productivity, they have been successfully introduced into the technology of multistage hydraulic fracturing in horizontal wells. Due to the minimum number of reference wells, a significant area of the field (100 km2), the uncertainty of the distribution of water-saturated zones in the target and adjacent formations, the spread in the thickness of clay layers from 10 to 30 m, there is a risk of unwanted introduction of these interlayers by hydraulic fractures. The project team was able to assess the risks in terms of hydraulic fracturing, depending on the geological and physical characteristics (thickness of the target formation and clay layers, saturation) and in joint cross-functional work (with geological, geomechanical and hydrodynamic support) to implement hydraulic fracturing technologies that have confirmed their efficiency in oil production. To test hypotheses at the initial stage, various scenario conditions with a probabilistic assessment of uncertainties were selected at the deviated wells, as a result, the matrix of technological solutions was developed. In directional wells, the capabilities of technologies selected for pilot testing were confirmed using methods for diagnosing the height of hydraulic fracturing. The performed correction of stress profiles in a modern corporate hydraulic fracturing simulator increased the correctness of the 3D geomechanical model, which made it possible to optimize fracture geometry and horizontal wellbore drilling direction. Due to a thorough study of the conditions for the applicability of the considered hydraulic fracturing technologies, it was excluded the inclusion of water-saturated horizons without losing the effective half-length of hydraulic fractures. The workflow, during the implementation of which a matrix of solutions for successful well development was created, will ensure the achievement of planned oil production rates in the future for a field without rich field practice in hydraulic fracturing.
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