A New Methodology to Define Net Pay Zone in Gas Reservoirs

M. Qassamipour, E. Khodapanah, S. Tabatabaei‐Nezhad
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引用次数: 1

Abstract

Net pay thickness is defined as that portion of a reservoir which contains economically producible hydrocarbons with today’s technology, prices, and costs. This thickness is a key parameter of the volumetric calculation of in-place hydrocarbons, well test interpretation, and reservoir characterization. A reservoir interval is considered as net pay when it contains hydrocarbons that can flow at an economic rate. Therefore, to define net pay, cutoffs of hydrocarbon storage properties besides flow properties of reservoir rock are necessary. Frequently, petrophysical log-derived rock storage properties like porosity and water saturation are linked to core measured properties like permeability to find a relation between them. Then, by use of a fixed limiting value for permeability, log-derived properties cutoffs are determined. The basic problem of these methods is related to permeability cutoff, since in most cases there is no knowledge about it, and the permeability cutoff can differ from field to field or even well to well. A new methodology has been developed to find a logical permeability cutoff for gas reservoirs which can differ for different wells and/or fields. This technique is based on gas flow through porous media in tight rocks. Accordingly, a relationship between porosity and permeability is derived as a cutoff value at reservoir pressure and temperature, which is considered as a discriminator plot. Then, the core data of the specified reservoir are added to this plot and the data points reflecting net pay zone are identified. This technique has been applied to four real gas reservoirs in Iran and indicated acceptable results confirmed by the drill stem test (DST) and production data. The results show that the proposed procedure is less dependent on experts’ experiences and acts as a straightforward and powerful tool for the refinement of net pays. In addition, the cutoff values calculated from this method contain a scientific base supporting the main procedure.
确定气藏净产层的新方法
净产层厚度被定义为在当前技术、价格和成本条件下,储层中含有具有经济产出能力的油气的部分。该厚度是原位油气体积计算、试井解释和储层表征的关键参数。当储层中含有能够以经济速度流动的碳氢化合物时,该储层被认为是净产层。因此,为了确定净产层,除了需要确定储层岩石的流动特性外,还需要确定储层的储集特性。通常,岩石物理测井衍生的岩石存储属性(如孔隙度和含水饱和度)与岩心测量的属性(如渗透率)相关联,以找到它们之间的关系。然后,利用渗透率的固定限制值,确定测井导出的性质截止值。这些方法的基本问题与渗透率切断有关,因为在大多数情况下,人们对渗透率切断一无所知,并且渗透率切断可能因油田甚至井而异。目前已经开发出一种新的方法来寻找气藏的合理渗透率截止值,该截止值可能因井和/或油田的不同而不同。该技术基于致密岩石中气体通过多孔介质的流动。据此,导出了储集层压力和温度下孔隙度和渗透率的临界值,并将其视为判别图。然后,将指定储层的岩心数据添加到该图中,识别出反映净产层的数据点。该技术已应用于伊朗的四个实际气藏,并通过钻杆测试(DST)和生产数据证实了可接受的结果。结果表明,所提出的程序较少依赖于专家的经验,并作为一个简单而有力的工具,为细化净支付。此外,该方法计算出的截止值具有科学依据,支持了主要程序。
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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