新疆石油地质

新疆石油地质 ›› 2004, Vol. 25 ›› Issue (5): 538-540.

• 应用技术 • 上一篇    下一篇

河道储集层建模的改进和扩展

张春雷, 段林娣, 熊琦华   

  1. 石油大学地球资源与信息学院,北京 102200
  • 收稿日期:2003-06-03 发布日期:2021-01-13
  • 作者简介:张春雷(1973-),男,山东微山人,博士,油藏描述。联系电话:010-89740762

Improvement and Extension of Fluvial Reservoir Modeling

ZHANG Chun-lei, DUAN Lin-di, XIONG Qi-hua   

  1. Institute of Resources and Information, University of Petroleum, Beijing 102200, China
  • Received:2003-06-03 Published:2021-01-13

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摘要: 提出一种 新的进行储集层沉积相建模的河道模型,该模型扩展了对河流分叉、交汇等现象的描述和模拟,根据改进河道模型的特点和河道的地质地理特征,尝试了一种新的河道模型条件化算法,并利用河道模型与砂岩概率模型相结合的方式实现了协同布尔模拟。实例应用表明,改进的河道模型包含了更为全面的地质信息,其实用性更为广泛;新的条件化方法从河道的.上游、下游和支流三个角度进行,对河流沉积的描述更为准确,算法简洁,速度明显提高;通过协同布尔模拟可以使沉积相建模有效结合多方面的次级信息以降低储集层模型的不确定性。

关键词: 河道沉积, 储集层, 模型, 方法

Abstract: A novel fluvial model for reservoir sedimentary facies is presented, which is characterized by extensional description and simulation of fluvial forking and crossing phenomena. According to the features of modified fluv ial model and fluvial geology and geography,a new conditioning algorithm for the model is adopted, realizing co-Boolean simulation, in which combined with sand probability model. The case study shows that the modified fluvial model contains more abundant and practical geologic information, with which the description of the fluvial deposit is more accurate, simple and fast, including upstream, downstream and branch channel. Thus, the co-Boolean simulation could allow the sedimentary facies modeling to efctively decrease uncertainty of the reservoir modeling by integrating w ith secondary information.

Key words: fluvial deposit, reservoir, model, method

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