多级压裂水平井反排技术的现场测试:在剧烈和平稳两种情况下找到最佳平衡

A. Vainshtein, G. Fisher, Gleb Strizhnev, S. Boronin, A. Osiptsov, I. Abdrakhmanov, G. Paderin, A. Prutsakov, R. Uchuev, I. Garagash, K. Tolmacheva, E. Shel, D. Prunov, N. Chebykin, I. Fayzullin
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引用次数: 1

摘要

本文介绍了西伯利亚西部某砂岩油田油井启动现场试验的结果,以及描述井启动和裂缝清理的“井筒-水力裂缝”耦合模型的历史拟合。得出了流变和地质力学因素对井累积产量和裂缝导流能力的影响。对现场试验的4口井和回顾性分析的30口井的结果进行了推广。井的启动计算采用独立的裂缝清理模型和耦合模型进行,其中包括封闭水力裂缝内的过滤和井筒内的流动模型。在井启动现场测试中获得的数据用于历史匹配裂缝清理模型。该适应性可以评估油井生产对各种物理参数的敏感性,并在油井启动过程中找到安全的操作参数范围。数值模拟考虑了压裂液的地质力学效应和流变特性,研究了有效(清洁)裂缝长度的动力学,并评估了压降动力学对裂缝过滤特性和累积井产量的影响。我们扩大了井的数量来研究反排方案对产量的影响,并推广了之前的研究结果。确定了影响数学模型历史拟合过程的关键参数,降低了流体流变的不确定性。利用历史匹配模型,我们根据井底压降动态评估了地质力学对裂缝退化的影响。基于所获得的无量纲参数(如压力和裂缝产能)的动态变化,我们提出了一种优化的井启动策略,旨在最大化有效裂缝长度和累积产量。此外,我们还可视化了裂缝导电性沿其长度分布的动态。所得结果与井启动和裂缝清理过程的物理过程解释一致。选择无因次产能指标来量化地质力学和流体流变性对油井生产的影响。在匹配数学模型的基础上,预测了该井优化投产后的增产潜力。这些建议以井口节流口开度和节流口直径序列的动态形式提出。我们提出了一种综合的方法来规划多级水力压裂后的井返排策略。提出的决策算法考虑了地质力学和屈服应力对累积产量的影响。根据井口节流器打开的动态特性,可以开发出井启动和裂缝清理的设计。
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Field Testing of the Flowback Technology for Multistage-Fractured Horizontal Wells: Generalization to Find an Optimum Balance Between Aggressive and Smooth Scenarios
We present the results of field experiments campaign on start-up of wells located in a sandstone oilfield of Western Siberia and history matching of coupled "wellbore-hydraulic fracture" model describing well start-up and fracture clean-up. The conclusion is made about the impact of rheological and geomechanical factors on the well cumulative production andfracture conductivity.The results are generalized for four wells of the field experiment and 30 wells of the retrospective analysis. Calculations of well startup are carried out using standalone fracture cleanup model and the coupled model, which includes models for filtration inside closed hydraulic fracture and flow in the wellbore. The data obtained during field tests on well startup is used to history match the fracture clean-up model. The adaptation allows to evaluate the sensitivity of well production to various physical parameters and find the safe operating envelope of operational parameters during well startup. Numerical simulations allow take into account geomechanics effectsand rheology properties of fracturing fluid, study the dynamics of effective (cleaned) fracture length as well as evaluate the influence of pressure drop dynamics on filtration properties of the fracture and cumulative well production. We extended the number of wells to study the impact of flowback scenarios on production andgeneralized the results of our previous study.Key parameters affecting the history match process of the mathematical model are determined,the uncertainty associated with fluid rheology is reduced. Using the history-matched model, we evaluated geomechanics effects on fracture degradation depending on bottom-hole pressure drop dynamics. Based on the obtained dynamics of dimensionless parameters, such as pressure and fracture productivity, we propose an optimized well start-up strategy aimed at maximizing effective fracture length and cumulative production. Additionally, we visualized the dynamics of fracture conductivity distribution along its length. The obtained results are consistent with interpretation of physical processes accompanying well start-up and fracture clean-up. Dimensionless productivity index is chosen to quantify the effects of geomechanics and fluid rheology on well production.On the basis of matched mathematical model, we predict a potential increase in production of the well with optimized start-up.The recommendations are presented in the form of the dynamics of wellhead choke opening and a sequence of choke diameters. We propose an integrated approach for planning a well flowback strategy after multi-stage hydraulic fracturing. The proposed decision-making algorithm considers the effects of geomechanics and yield-stress hydraulic fracturing fluid rheology on cumulative production. It allows to develop a design for the well start-up and fracture cleanup in terms of dynamics of wellheadchoke opening.
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