裂缝油藏模拟:一个具有挑战性和有益的问题

B. Bourbiaux
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引用次数: 100

摘要

近年来,人们越来越认识到裂缝在油藏生产和开采中的作用。因此,人们花了很多精力来诊断裂缝的存在及其对生产的影响。然而,将诊断结果转化为油田开发决策需要通过油藏模拟。本文讨论了裂缝性储层的一些特殊性,这些特殊性使得裂缝性储层的模拟既具有挑战性,又有价值。事实上,将裂缝整合到流动模拟模型中并不简单,因为地质断层/裂缝网络与该网络在复杂恢复机制上的指纹之间存在差距。考虑到裂缝可能会阻碍或提高产量,裂缝油藏模拟可能被视为一项具有潜在高回报的技术挑战。本文强调了这一具体框架,作为两篇专门讨论双孔隙度油藏模拟的技术文章的介绍。裂缝的地质特征虽然是裂缝性储层研究的另一个主要方面,但本文并不讨论裂缝的地质特征,而是由于静态和动态方面的结合越来越多而引起的。
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Fractured Reservoir Simulation: a Challenging and Rewarding Issue
The recent years have seen a growing awareness of the role played by fractures in petroleum reservoirs production and recovery. Hence, much effort was devoted to the diagnosis of fracture presence and impact on production. However, turning that diagnosis into field development decisions goes through reservoir simulation. This paper addresses some of the specificities of fractured reservoirs that make that their simulation is both challenging and rewarding. Indeed, the integration of fractures into a flow simulation model is not straightforward because of the existing gap between the geological fault/fracture network and the fingerprint of that network on often-complex recovery mechanisms. Considering that fractures may impede or enhance production, fractured reservoir simulation may be seen as a technical challenge with potentially-high reward. This paper underlines that specific framework as an introduction to two technical articles dedicated to dual-porosity reservoir simulation. Although it constitutes another major aspect of any fractured reservoir study, the geological characterization of fractures is not discussed herein, but only evoked because of more and more integration of static and dynamic aspects.
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