Understanding reservoir heterogeneity using variography and data analysis: an example from coastal swamp deposits, Niger Delta Basin (Nigeria)

IF 0.9 Q3 GEOLOGY Geologos Pub Date : 2020-12-01 DOI:10.2478/logos-2020-0020
I. Obi, K. M. Onuoha, O. Obilaja, C. I. P. Princeton Dim
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引用次数: 1

Abstract

Abstract For efficient reservoir management and long-term field development strategies, most geologists and asset managers pay special attention to reservoir chance of success. To minimise this uncertainty, a good understanding of reservoir presence and adequacy is required for better ranking of infill opportunities and optimal well placement. This can be quite challenging due to insufficient data and complexities that are typically associated with areas with compounded tectonostratigraphic framework. For the present paper, data analysis and variography were used firstly to examine possible geological factors that determine directions in which reservoirs show minimum heterogeneity for both discrete and continuous properties; secondly, to determine the maximum range and degree of variability of key reservoir petro-physical properties from the variogram, and thirdly, to highlight possible geological controls on reservoir distribution trends as well as areas with optimal reservoir quality. Discrete properties evaluated were lithology and genetic units, while continuous properties examined were porosity and net-to-gross (NtG). From the variogram analysis, the sandy lithology shows minimum heterogeneity in east-west (E–W) and north-south (N–S) directions, for Upper Shoreface Sands (USF) and Fluvial/Tidal Channel Sands (FCX/TCS), respectively. Porosity and NtG both show the least heterogeneity in the E–W axis for reservoirs belonging to both Upper Shoreface and Fluvial Channel environments with porosity showing a slightly higher range than NtG. The vertical ranges for both continuous properties did not show a clear trend. The Sequential Indicator Simulation (SIS) and Object modelling algorithm were used for modelling the discrete properties, while Sequential Gaussian Simulation (SGS) was used for modelling of the continuous properties. Results from this exercise show that depositional environment, sediment provenance, topographical slope, sub-regional structural trends, shoreline orientation and longshore currents, could have significant impacts on reservoir spatial distribution and property trends. This understanding could be applied in reservoir prediction and for generating stochastic estimates of petrophysical properties for nearby exploration assets of similar depositional environments.
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利用变差法和数据分析了解储层非均质性:以尼日尔三角洲盆地(尼日利亚)沿海沼泽沉积物为例
摘要为了有效的储层管理和长期的油田开发战略,大多数地质学家和资产管理者都特别关注储层的成功机会。为了最大限度地减少这种不确定性,需要对储层的存在和充分性有很好的了解,以便更好地对加密机会和最佳井位进行排序。这可能非常具有挑战性,因为数据不足,而且通常与具有复杂构造地层格架的区域有关。在本文中,首先使用数据分析和变差法来检查可能的地质因素,这些因素决定了储层在离散和连续性质下表现出最小非均质性的方向;其次,从变差函数中确定关键储层岩石物性的最大变化范围和程度,第三,突出可能对储层分布趋势的地质控制,以及储层质量最佳的区域。评估的离散性质是岩性和成因单元,而检查的连续性质是孔隙度和净到毛(NtG)。根据变差函数分析,上海岸沙(USF)和河流/潮汐通道沙(FCX/TCS)的砂质岩性在东西方向(E–W)和南北方向(N–S)表现出最小的非均质性。对于属于上海岸和河流通道环境的储层,孔隙度和NtG在E–W轴上都显示出最小的非均质性,孔隙度显示出略高于NtG的范围。两种连续性质的垂直范围没有显示出明显的趋势。顺序指标模拟(SIS)和对象建模算法用于离散特性的建模,而顺序高斯模拟(SGS)用于连续特性的建模。研究结果表明,沉积环境、沉积物物源、地形坡度、亚区域结构趋势、海岸线方向和沿岸流可能对储层空间分布和性质趋势产生重大影响。这一理解可用于储层预测,并用于生成类似沉积环境的附近勘探资产的岩石物理性质的随机估计。
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来源期刊
Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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