近年来,通过使用3-D地震观测结果来确定含烃储层的能力已有显著提高,同时,通过使用先进的油藏模拟模型来管理油田生产的能力也在突飞猛进。但是,一个重要的问题仍然存在,那就是:是不是利用了现有的全部资料来最佳地开采地下储量?在很多情况下,回答是否定的。很多可以利用的资料涉及不同的学科,并可以以不同的方式被利用。因此,以一种真正多学科方式进行的信息综合留有很大的改进余地。在着手建立复杂3-D油藏定义时,使用先进的地球科学技术是很重要的,但仅仅纸上谈兵是不够的。这篇文章就是针对一个生产油田,描述了一套成功的、综合研究油藏的方法,提供了一个精确的3-D油藏地质模型,同时还提出了一项提高油层产能和最大程度开采地下储量的开发方案。 In recent years, the ability to identify hydrocarbon-bearing reservoirs has been significantly enhanced through the use of 3-D seismic observations and the ability to manage field production through the use of advanced reservoir simulation models has also been on the rise. However, an important issue still exists: Is it using the available information to optimize the exploitation of underground reserves? In many cases, the answer is no. A lot of available information involves different disciplines and can be used in different ways. Therefore, there is much room for improvement in the synthesis of information in a truly multidisciplinary way. While embarking on the definition of a complex 3-D reservoir, it is important to use advanced geosciences and technologies, but it is not enough to talk about it on paper. This article addresses a production field and describes a successful and integrated approach to reservoir research that provides an accurate 3-D reservoir geology model with a proposal to increase reservoir productivity and maximize underground mining Reserve development plan.