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引用次数: 0
摘要
可控源电磁(CSEM)是一种用于海底测井(SBL)的方法,在探测地下油气方面显示出很好的效果。将一个强大的电偶极子天线作为电磁波发射机拖曳到海床上,探测地下电阻率对比。信号将通过这些层传播,然后被放置在海床上的接收器记录下来。接收器由电天线和磁天线组成。实现该方法的主要问题之一是浅水环境下的电波效应。应该注意的是,空气波可以支配测量的电磁数据,因此薄电阻体的存在可能不容易被检测到。本文将讨论浅水环境下SBL中电波的影响。通过CST EM Studio的模拟,从深水1000米到浅水100米,收集了含烃和不含烃的电磁数据。绘制了幅度与偏移量(MVO)值。结果表明,在水深600 m处电波开始占主导地位,在水深300 m及以下变得更加显著。
Airwaves effect in Sea Bed Logging for shallow water environment
Controlled Source Electromagnetic (CSEM), method used in Sea Bed Logging (SBL), has shown very promising results in detecting subsurface hydrocarbons. A powerful electric dipole antenna which is used as transmitter of electromagnetic (EM) wave is towed above the seabed to detect resistivity contrasts in the subsurface. The signal will propagate through the layers and then recorded by receivers, which consist of both electric and magnetic antennas, placed on the sea bed. One of the major problems in implementing this method is the airwaves effect that occurs at shallow water environment. It should be noted that the air waves could dominate the measured EM data such that the presence of the thin resistive body may not be readily detected. This paper is going to discuss the effect of airwaves in SBL for shallow water environment. EM data for with and without hydrocarbon were collected via simulation using CST EM Studio for various water depths from deepwater 1000 m to shallow water 100 m. Magnitudes versus Offset (MVO) values were plotted. Results showed that airwaves started to dominate at water depth of 600 m and became more significant at water depths of 300 m and below.
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