The Integrated Technology of Residual Reserves Localization and Profit Increase on Brownfields

A. Aslanyan, B. Ganiev, A. Lutfullin, Ildar Z. Farhutdinov, D. Gulyaev, R. Farakhova, L. Zinurov, Anastasiya Nikolaevna Nikonorova
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Abstract

Brown fields that are currently experiencing production decline can benefit a lot from production enhancement operations based on localization of residual reserves and geology clarification. The set of solutions includes targeted recommendations for additional well surveys followed by producers and injectors workovers, like whole wellbore or selective stimulation, polymer flow conformance, hydraulic fracturing and side tracking. As a result, previously poorly drained areas are involved in production, which increases current rates and ultimate recovery. The integrated technology of residual reserves localization and production increase includes: Primary analysis of the production history for reservoir blocks ranking by production increase potential. Advanced bottom-hole pressures and production history analysis by multiwell deconvolution for pressure maintenance system optimization and production enhancement. Advanced production logging for flow profile and production layer-by-layer allocation. Conducting pulse-code interference testing for average saturation between wells estimation. 3D reservoir dynamic model calibration on advanced tests findings. Multi-scenario development planning for the scenario with biggest NPV regarding surface infrastructure. The presented integrated technology is carried stage by stage. Based on the data analysis at the first stage (the Prime analysis) it is possible to get three types of results. The top-level assessment of the current development opportunities of the area, evaluation of current residual reserves on base of displacement sweep efficiency estimation, and evaluation of the potential production increase for various blocks of the field. Results of the second stage were obtained for the block deemed with the highest potential for production increase. Those results may reveal possible complications, and relevant workovers can be advised along with additional surveys that can further help to locate current reserves. The last stage of Prime analysis provides the most suitable choice was to perform an advanced logging and well-testing, as they include both single-well and multi-well tests. Pulse-code interference tests, multi-well retrospective tests and reservoir-oriented production logging make it possible to scan the reservoir laterally and vertically, which is especially important for multi-layered fields. The reservoir parameters obtained from the test results are used to calibrate the dynamic reservoir model. The effects of production enhancement operations are calculated from the 3D model. The set of possible activities is evaluated in terms of their financial efficiency based on the economic model of the operator company using multi-scenario approach on a specifically created digital twin of the field. The unique feature of this approach lies in an integrated usage of advanced production history analysis, advanced logging and well-testing technologies, as well as further calibration of the dynamic reservoir model based on test results and used-friendly interface for field digital twin interaction. This paper demonstrates on how to use the field tests results to calibrate the reservoir model and increase the accuracy of production forecasting by reducing the model uncertainty, with intent to increase profit of brownfields.
棕地剩余储量定位与增利集成技术研究
目前正在经历产量下降的棕色油田可以从基于剩余储量定位和地质澄清的增产作业中获益良多。整套解决方案包括针对生产商和注水井修井后的额外井调查的针对性建议,如全井或选择性增产、聚合物流动一致性、水力压裂和侧井跟踪。因此,以前排水不良的地区也参与了生产,从而提高了当前的产量和最终采收率。剩余储量定位与增产一体化技术包括:对增产潜力排序油藏区块的生产历史进行初步分析。通过多井反褶积进行先进的井底压力和生产历史分析,优化压力维持系统,提高产量。先进的生产剖面测井和逐层分配。进行井间平均饱和度估计的脉冲码干扰测试。基于超前试验结果的三维储层动态模型标定针对地面基础设施NPV最大的场景进行多场景发展规划。所提出的集成技术是分阶段进行的。基于第一阶段的数据分析(Prime分析),可以得到三种类型的结果。对该区域当前开发机会进行顶层评价,在驱替波及效率估算的基础上对当前剩余储量进行评价,对油田各区块的增产潜力进行评价。第二阶段的结果被认为是增产潜力最大的区块。这些结果可能会揭示潜在的复杂情况,并建议相关的修井作业以及进一步帮助确定当前储量的额外调查。Prime分析的最后阶段提供了最合适的选择,即进行高级测井和试井,因为它们包括单井和多井测试。脉冲码干扰测试、多井回溯测试和面向储层的生产测井使得对储层进行横向和纵向扫描成为可能,这对多层油田尤为重要。根据试验结果获得的储层参数用于标定动态储层模型。增产作业的效果是根据三维模型计算的。根据运营商公司的经济模型,在一个专门创建的油田数字孪生体上使用多场景方法,根据其财务效率来评估一系列可能的活动。该方法的独特之处在于综合使用了先进的生产历史分析、先进的测井和试井技术,并根据测试结果进一步校准动态储层模型,以及便于使用的现场数字孪生交互界面。本文论述了如何利用现场试验结果对储层模型进行标定,通过降低模型的不确定性来提高产量预测的精度,以提高棕地的效益。
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