随机油藏胶束聚合物驱优化研究

C. H. Canbaz, C. Temizel, Yildiray Palabiyik, Melek Deniz-Paker, M. H. Ozyurtkan
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引用次数: 2

摘要

胶束聚合物驱是一种有效、成熟、应用广泛的非热驱提高采收率方法,属于化学驱。在没有足够含水层辅助的油藏和枯竭的油藏中,这种方法更可取。通过掌握油藏压力、油藏矿物类型、微乳相行为、油藏温度、矿化度、缓冲液稳定性、胶束段塞和表面活性剂浓度等参数的正确数据,可以实现胶束聚合物驱的成功。本研究对上述参数进行了全面的文献综述,并在世界范围内进行了实地研究。将胶束聚合物驱工艺应用于某随机油藏,通过考虑胶束聚合物驱工艺的机理和局限性、胶束聚合物驱工艺的选择和设计标准,以及胶束聚合物驱过程中相行为的变化,对该油藏进行了优化,以获得最有效的剩余油采收率。描述了实现最佳采收率的参数,并将其用作全物理商业油藏模拟器的优化参数。典型的注入顺序包括水驱、聚合物注入、聚合物驱、聚合物锥度和在选定的时间段内注水。通过选取优化参数的最优值,模拟油饱和度、水粘度、吸附流体、表面活性剂和聚合物吸附的变化。给出了通解和最优解,并与基本情况进行了比较。研究表明,在渗透率分布随机的油藏中,胶束聚合物驱优化可以最大限度地提高累积采收率。
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Optimization of Micellar-Polymer Drive in a Stochastic Reservoir
Micellar – Polymer drive process is one of the effective, proven and widely used non-thermal EOR methods which classified under chemical flooding. The process is preferable in reservoirs that don’t have enough aquifer assistance and also in depleted reservoirs. A successful micellar-polymer flooding operation can be enabled by having correct data of parameters like reservoir pressure, mineral types in the reservoir, phase behavior of microemulsions, reservoir temperature, salinity data, buffer stability, micellar slug, and concentrations of the surfactants. In this study, A comprehensive literature review regarding on above parameters studied with field case studies worldwide. A Micellar-polymer drive process is applied on a stochastic reservoir and the optimization of the case performed by considering the mechanisms and limitations of micellar-polymer drive process, selection and design criteria, as well as the phase behavior changes during the process to have the most effective residual oil recovery. Parameters that enables an optimal recovery is described and used as optimization parameters in a full-physics commercial reservoir simulator. Typical Injection sequence that includes water flooding, polymer injection, polymer drive, polymer taper and chase water is applied for selected time periods. Changes of Oil saturation, water viscosity, adsorbed fluid, surfactant and polymer adsorption is simulated by using the optimal values of selected optimization parameters. General solution results are given with the optimal solution and all compared with the base case. It clarified that the Micellar-polymer drive optimization maximizes cumulative oil recovery in a reservoir that has a stochastically generated permeability distribution.
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