S. Inichinbia, P. Sule, A. Ahmed, H. Hamza, L. M. Omudu
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引用次数: 1
摘要
利用Lambda-Mu-Rho分析方法对尼日利亚Amangi油田H1000和H4000两个储层进行了气砂识别。本研究的主要目的是利用这种气砂识别技术对这两个第三系储层的性质进行详细的预测。这是可能的,因为每种岩性都有不同的岩石性质响应,受流体含量和矿物性质的影响。测定了两个储层的纵波和横波的基本阻抗,并计算了λρ和μρ。在含气砂中,由于气体的低不可压缩性(λ)和砂的高刚度(μ),导致λρ值较低(1.0 × 10 13 kg 2 /m 4 s 2 ~ 2.0 × 10 13 kg 2 /m 4 s 2),而μρ响应较高(1.4 × 10 13 kg 2 /m 4 s 2 ~ 2.0 × 10 13 kg 2 /m 4 s 2)。气砂的Vp/Vs比值为1.6 ~ 1.8,页岩的Vp/Vs比值为1.8 ~ 2.4。有了岩石物理学的这种理解,就可以实现对岩性和流体的高度区分。用λρ-μρ空间对气砂、盐水砂和页岩进行了表征。
Fluid and lithology discrimination of Amangi hydrocarbon field of the Niger Delta using Lambda-Mu-Rho technique
Lambda-Mu-Rho analysis was used to identify gas sands of two reservoirs (H1000 and H4000) in Amangi field of the Nigerian Delta. The main objective of this study was to provide a detailedprediction of the properties of these two Tertiary reservoirs using thistechnique of gas sand identification. This was possible because each lithology has a different rock properties response subject to fluid content and mineral properties. The basic impedances of both compressional and shear waves from the angle stacks were determined for the two reservoirs andLambda-Rho (λρ) and Mu-Rho (μρ) calculated. In the gas sand, the low incompressibility(λ) of gas combined with the high rigidity(μ) of sand resulted in a low λρ value, (1.0 x 10 13 kg 2 /m 4 s 2 - 2.0 x 10 13 kg 2 /m 4 s 2 ) and a high μρ response, (1.4 x 10 13 kg 2 /m 4 s 2 - 2.0 x 10 13 kg 2 /m 4 s 2 ). The Vp/Vs ratio ranges 1.6 to1.8 for gas sand and 1.8 to 2.4 for shale. Equipped with this understanding from petrophysics, a high degree of discriminationoflithologies and fluidswas achieved. The gas sands, brine sands and shaleswere characterized successfully by the λρ-μρ space.
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