Pressure Transient Analysis using Generated Simulation Reservoir Data for Dual Porosity Model of Naturally Fractured Reservoir

S. F. Maulindani, T. Marhaendrajana, D. Abdassah
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Abstract

A naturally fractured reservoir today plays a significant role in the improved worldwide oil and gas production. More than half of the resource is mostly found in this reservoir. In this reservoir, there are two porous media: the matrix, which serves as the fluid source, and the fractures, as the fluid network that flow to the wellbore. Many authors have done the researches of works in order to modelling this reservoir. There are two model are done in this study, such as Warren and Root model, where fluid flow mechanism matrix to fractures is known as pseudosteady-state flow and Kazemi-Gilman model is known as transient interporosity flow. Reservoir Engineers generally utilize pressure transient analysis to determine this reservoir's characteristics. The purpose of this study is to assess whether it is feasible to incorporate the parameters from the Pressure Transient analysis using a synthesis simulation model. It also aims to observe how reservoir parameters behave in relation to the characteristics of naturally fractured reservoirs by utilizing various values for porosity, permeability, and fracture spacing.
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基于生成模拟储层数据的双孔隙度天然裂缝储层压力瞬态分析
如今,天然裂缝油藏在提高全球油气产量方面发挥着重要作用。一半以上的资源都集中在这个储层中。在该油藏中,存在两种多孔介质:作为流体源的基质和作为流向井筒的流体网络的裂缝。为了对该储层进行模拟,许多学者做了大量的研究工作。本研究建立了Warren模型和Root模型两种模型,其中流体从基质到裂缝的流动机制称为拟稳态流动,Kazemi-Gilman模型称为瞬态孔隙间流动。油藏工程师通常利用压力瞬态分析来确定油藏的特征。本研究的目的是评估是否可行,从压力瞬态分析的参数纳入一个综合模拟模型。它还旨在通过利用孔隙度、渗透率和裂缝间距的不同值,观察储层参数与天然裂缝性储层特征之间的关系。
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审稿时长
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