Evaluation of Reservoir Dynamic Uncertainties in Digital Concept Based Green Field Before Implementation of Full Field Development Scheme

B. Altaf, A. Allouti
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Abstract

Reservoir A is being developed in early and interim phases in order to gather static & dynamic data to minimize the risk associated to subsurface uncertainties. In early and interim phases, only production is taking places. During full field, water injection scheme will be implemented using mainly 5-spot pattern. It is very crucial to measure the subsurface uncertainties and their impact on the reservoir development. For this purpose, the uncertainty parameters are identified and their ranges are selected based on the current well performances during probabilistic History matching (PHM) phase. In full field runs, the uncertain subsurface parameters are quantified to prioritize the future reservoir monitoring and data gathering plans. Note that wells are equipped with the permanent downhole pressure gauges. Reservoir A is one of the major reservoirs of a green-field located offshore Abu Dhabi and is being developed with a 5-spot water injection pattern. The producers and water injectors are horizontal wells which are drilled across different flow unit within the reservoir. The reservoir properties are variable across all the flow units, which may results in a non-uniform water front. Being a green field, there are more uncertainties as compared to the brown field. More than three years production & pressure data is available which is used in this uncertainty study. This production data is mainly used to achieve the probabilistic History match on well-wise basis. In this uncertainty study, previous HM parameters are removed. However, based on previous history matching learnings, the subsurface uncertain parameters ranges are selected for this probabilistic History match phase. The criteria for filtering the valid runs during this phase are set to be ±150 Psi compared to the actual downhole pressure readings. In case of decreasing this filtering range to 75 Psi, results in reduction in the reserve range in P90 to P10. Based on ±150 Psi principle, the subsurface parameter ranges are furthered reformed for full field uncertainty study/run. The industry standard workflow is followed to quantify the subsurface parameters during this phase. In this study, we used the Permeability modifiers based on RRT, Faults transmisibilities, Relative Perm curves (based on SCAL data), Kv/Kh ratio (from PTA), etc. as uncertain parameters. The impact of each parameter is measured and quantified with respect to plateau and total reserves.
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全油田开发方案实施前基于数字概念的绿地油藏动态不确定性评价
为了收集静态和动态数据,将与地下不确定性相关的风险降至最低,A油藏正处于早期和中期开发阶段。在早期和中期阶段,只有生产在进行。在整个油田,注水方案将主要采用5点模式。测量地下不确定性及其对储层开发的影响是非常重要的。为此,在概率历史匹配(PHM)阶段,根据当前井的动态确定不确定性参数并选择其范围。在完整的现场运行中,不确定的地下参数被量化,以便优先考虑未来的油藏监测和数据收集计划。需要注意的是,这些井都配备了永久性井下压力表。A油藏是位于阿布扎比海上的一个绿色油田的主要油藏之一,正在进行5点注水开发。生产井和注水井均为水平井,在油藏内的不同流动单元上钻取。在所有流动单元中,储层性质是可变的,这可能导致不均匀的水前缘。作为一个绿色领域,与棕色领域相比,存在更多的不确定性。在不确定性研究中使用了超过三年的生产和压力数据。这些生产数据主要用于实现概率历史匹配。在不确定度研究中,去掉了之前的HM参数。然而,在此概率历史匹配阶段,基于以往的历史匹配学习,选择地下不确定参数范围。与实际井下压力读数相比,该阶段有效下入的过滤标准设定为±150psi。如果将此过滤范围降低到75 Psi,则会导致P90至P10的备用范围减小。在±150psi原理的基础上,对井下参数范围进行了进一步改造,实现了现场不确定度研究/下入。在此阶段,遵循行业标准工作流程来量化地下参数。在本研究中,我们使用基于RRT、断层透射率、相对温度曲线(基于SCAL数据)、Kv/Kh比(来自PTA)等的渗透率调节剂作为不确定参数。每个参数的影响都是相对于平台和总储量进行测量和量化的。
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