A. R. Ghazali, M. F. Rahim, M. H. M. Zahir, M. Muhammad, M. A. Mohammad, K. Z. A. Aziz
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引用次数: 0
Abstract
The key objectives were to achieve better seismic resolution and spatial delineation in very heterogeneous reservoirs. We decided to supplement simultaneously the surface 3D multi component seismic acquisition by placing additional fiber optic live receivers in the subsurface via a "True-3D" experiment without shutting down the oil production. The most cost-effective method to snapshot this wavefield propagation downhole is by utilizing fiber optic Distributed Acoustic Sensing (DAS). The borehole 3D VSP data were acquired by sharing the surface OBN nodal survey airgun sources. This is an important experiment for the field in the future so that the need to halt insitu field production for 4D time lapse monitoring will not be required if the S/N is acceptable by using this method. This permanent installation of fiber optic cables has become our ears on wells, not only for 3D DAS VSP but for proactive monitoring of the field, ensuring optimum production performance throughout the life of the field.
关键目标是在非均质油藏中实现更好的地震分辨率和空间圈定。我们决定在不关闭石油生产的情况下,通过“True-3D”实验,在地下放置额外的光纤实时接收器,同时补充地面3D多分量地震采集。捕捉井下波场传播的最经济有效的方法是利用光纤分布式声传感(DAS)。井眼三维VSP数据是通过共享地面OBN节点测量气枪源获得的。这对未来的油田来说是一个重要的实验,如果使用这种方法可以接受S/N,那么就不需要停止现场生产进行4D时移监测。这种永久安装的光纤电缆已经成为我们在井中的耳朵,不仅可以用于3D DAS VSP,还可以用于现场的主动监测,确保在油田的整个生命周期内实现最佳的生产性能。
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