利用地震反演和多属性分析综合井震资料进行Parihaka储层表征

Eman Ahmed Ibrahiem El Gandy
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摘要

通过地球物理研究,了解和识别上新世—更新世河道系统,更好地了解河道几何形状、充填岩性和连通性,生成岩石物性体积,提高中新世储层(Moki组)储集层质量、油气分布和最小风险甜点探测。Taranaki盆地是新西兰唯一一个具有商业储量的盆地,但仍未得到充分开发。Parihaka油田位于新西兰北岛西海岸的Taranaki半岛西北部(Veritas, 2005年),仅在2D线(Arawa-1)上钻了干孔。莫基组是我区主要储层,其沉积环境为浊积扇杂岩。Taranaki陆上Moki组的碳氢化合物尚未进行商业开采(Smale等人,1999)。有一个AVO研究叫做“在Parahaki三维测量中对中新世Moki组的调查”;在Moki储层中使用一些地球物理工具调查和评估Moki砂层的AVO响应。利用AVO的研究成果,以最小的风险将反演应用于该地区,以提高结果,生成岩石物性体积,改善储层质量、油气分布和甜点探测。通过三卷叠后反演(vp、vs、密度),利用λ、μ和vp/vs识别油气接触面分布。然后利用AVO反演(相关领域另一种不同的快速反演技术)和扩展弹性阻抗法对结果进行验证。本研究的结果是Moki组有三个远景,图显示Arawa -1的碳氢化合物含量可能性非常低,这与我们的结果一致,因为它是一个干井。通过多属性分析,发现了上新世新的水道体系。根据渠道系统的复杂程度,不同的属性分析在每个系统中的成功程度也不同。利用三维曲率、方差和均方根幅值可以从构造、河道演化和岩性等方面提高对上新世河道要素的认识。基于之前对这些通道系统的研究结果,RMS振幅和甜度属性可以用来检测通道中页岩和砂岩主导区域的岩性变化。这些结果表明,小河道的岩性可参考该个别河道区域的三角洲岩性,可以解释小河道为砂质岩性,这使得RMS和甜度可以在富泥背景岩性下进行检测。
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Parihaka Reservoir Characterization by Integrating Well and Seismic Data through Seismic Inversion and Multiattribute Analysis
A geophysical study to understand and Identify Pliocene - Pleistocene channels system and improve better understand of the channel geometry, fill lithology and connectivity and Generate rock property volume, Enhance reservoir quality, Hydrocarbon distribution and sweet spot detection with min. risk in Miocene reservoir (Moki formation). The Taranaki Basin is the only New Zealand basin to produce commercial quantities of hydrocarbons and still being underexplored. The Parihaka field is on the north-western Taranaki Peninsula located along the west coast of New Zealand's North Island (Veritas, 2005) which there only dry hole drilled based on 2D lines (Arawa-1). Moki formation is our main reservoir its depositional environment is turbiditic fan complex. Hydrocarbons are yet to be commercially produced from the Moki Formation on onshore Taranaki, (Smale et al., 1999). There was AVO study called "Investigation of the Miocene Moki Formation Within the Parahaki 3D Survey; Taranaki Basin, Offshore New Zealand Using Some Geophysical Tools" in Moki reservoir to Investigate and assess the AVO response of the Moki sand formation. By using the results of The AVO study, the inversion can apply in the area to enhance the result, generate rock property volume, Enhance reservoir quality, Hydrocarbon distribution and sweet spot detection with min. risk. By running three volumes of post stack inversion (vp, vs, density) and use λ, μ and vp/vs to identify the hydrocarbon contact distribution. Then by using AVO Inversion (Another different fast technic in the relative domain) to prove the results and using Extend Elastic Impedance Method. The result of this study is there are three prospects in Moki formation, the maps show that Arawa -1 at very low probability of hydrocarbon content which provide our result as it is a dry hole. By using multi-Attribute analysis, we can find new channels system in Pliocene age. Depending on the complexity of the channel system, different attribute analyses had varying success with each system. By using 3D curvature, variance and RMS Amplitude we can improve understanding of the Pliocene channel elements in terms of structure, channel evolution, and lithology. Based on the previous results for these channel systems, RMS amplitude and sweetness attributes can use to detect lithological changes that highlight both shale and sand dominant regions of the channel. These results suggest that the lithology of the small channel is refer to the delta lithology in this individuals channel area, and we can interpret the small channel is filled with a sand lithology, which allows the RMS and sweetness to detect in against the mud rich background lithology.
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