Lithology Investigation of Shaly Sand Reservoir by using Wire Line Data, “Nubian Sandstone” SE Sirt Basin

AGSO journal of Australian geology & geophysics Pub Date : 2017-01-01 DOI:10.4172/2381-8719.1000267

Benish Bm

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Abstract

Identify the rock lithology has important meaning for estimating the reserve of petroleum as reservoir capacity and storage ability. The lithology identification from well log based on not conventional cross plot proposed and studied, which is more easier instead of rock core data observation results. However, this work carried out comparison between chart and analytical solution of matrix parameter (ρma and ΔTma) estimation values of producer shaly sand reservoir, and present the main depositional environment affects. In addition to influences of pyrite, ferruginous encrustations, organic material throughout this studied reservoir. Consequently, variety of matrix parameters values is contributed by clay minerals present in this reservoir type. This study based on wire line data measured over than 750 feet produced Upper Nubian Sandstone belong to two oil fields, SE Sirt Basin. This shaly reservoir divided into three main units (R, E and F), and each unit has been subdivided into three subunits (F3, F2, F1, E3, E2, E1, R3, R2 and R1) from bottom to top according to depositional and petrophysical properties.

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塔里木盆地“努比亚砂岩”东南部泥质砂岩储层岩性研究

岩石岩性的识别对石油储量的估计具有重要的意义，包括储层容量和储层能力。提出并研究了基于非常规交叉图的测井岩性识别方法，该方法比岩心资料观测结果更容易进行岩性识别。然而，本文通过对采油页岩砂储层矩阵参数(ρma和ΔTma)估算值的图解与解析解进行比较，得出了主要的沉积环境影响因素。除了黄铁矿、含铁结壳、有机物质的影响外，整个储层都受到了影响。因此，这种储层类型中存在的粘土矿物导致了基质参数值的变化。这项研究基于电线数据，测量了超过750英尺的上努比亚砂岩，属于SE Sirt盆地的两个油田。该页岩储层划分为3个主要单元(R、E、F)，每个单元又根据沉积和岩石物性从下向上划分为3个亚单元(F3、F2、F1、E3、E2、E1、R3、R2、R1)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AGSO journal of Australian geology & geophysics

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